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Get PDF Full Texts from EurekaMag Chapter 55712

Chapter 55712 provides scholary research titles of which PDF Full Texts are available through EurekaMag.

Robert, C.; Feller, J.François.; Castro, Mël., 2012:
Sensing skin for strain monitoring made of PC-CNT conductive polymer nanocomposite sprayed layer by layer

Huang, D.; Zhao, T.; Xu, W.; Yang, T.; Cremer, P.S., 2014:
Sensing small molecule interactions with lipid membranes by local pH modulation

Kisner, A.; Stockmann, R.; Jansen, M.; Yegin, U.; Offenhäusser, A.; Kubota, L.Tatsuo.; Mourzina, Y., 2012:
Sensing small neurotransmitter-enzyme interaction with nanoporous gated ion-sensitive field effect transistors

Lakatos, G.; Janiak, M.; Malek, L.; Muszynski, R.; Konok, V.; Tchon, K.; Miklósi, A., 2015:
Sensing sociality in dogs: what may make an interactive robot social?

Baratchi, M.; Meratnia, N.; Havinga, P.J.M.; Skidmore, A.K.; Toxopeus, B.A.G., 2013:
Sensing solutions for collecting spatio-temporal data for wildlife monitoring applications: a review

Gopinath, S.C.B.; Tang, T-Hock.; Chen, Y.; Citartan, M.; Tominaga, J.; Lakshmipriya, T., 2015:
Sensing strategies for influenza surveillance

Kobayashi, T.; Sokabe, M., 2011:
Sensing substrate rigidity by mechanosensitive ion channels with stress fibers and focal adhesions

Yi, H.; Galant, A.; Ravilious, G.E.; Preuss, M.L.; Jez, J.M., 2010:
Sensing sulfur conditions: simple to complex protein regulatory mechanisms in plant thiol metabolism

Backmann, N.; Kappeler, N.; Braun, T.; Huber, Fçois.; Lang, H-Peter.; Gerber, C.; Lim, R.Y.H., 2010:
Sensing surface PEGylation with microcantilevers

Bourbakis, N., 2008:
Sensing surrounding 3-D space for navigation of the blind. A prototype system featuring vibration arrays and data fusion provides a near real-time feedback

Tung, N.Hoang.; Chikae, M.; Ukita, Y.; Viet, P.Hung.; Takamura, Y., 2012:
Sensing technique of silver nanoparticles as labels for immunoassay using liquid electrode plasma atomic emission spectrometry

Kim, D.; Baraniuk, J.N., 2007:
Sensing the air around us: the voltage-gated-like ion channel family

Nasseri-Moghaddam, S., 2010:
Sensing the blowing winds of change

Worrell, G.A., 2011:
Sensing the body electric: biomarkers of epileptic brain

Antlinger, H.; Clara, S.; Beigelbeck, R.; Cerimovic, S.; Keplinger, F.; Jakoby, B., 2013:
Sensing the characteristic acoustic impedance of a fluid utilizing acoustic pressure waves

Boglio, Cécile.; Hasenknopf, B.; Lenoble, Géraldine.; Rémy, P.; Gouzerh, P.; Thorimbert, S.; Lacôte, E.; Malacria, M.; Thouvenot, Ré., 2007:
Sensing the chirality of Dawson lanthanide polyoxometalates [alpha1-LnP2W17O61]7- by multinuclear NMR spectroscopy

Erickson, J.E.; Keil, F.C.; Lockhart, K.L., 2010:
Sensing the coherence of biology in contrast to psychology: young children's use of causal relations to distinguish two foundational domains

Capek, P.; Dickerson, T.J., 2010:
Sensing the deadliest toxin: technologies for botulinum neurotoxin detection

Ainciart, N.; Zylberman, V.; Craig, P.O.; Nygaard, D.; Bonomi, H.R.; Cauerhff, A.A.; Goldbaum, F.A., 2011:
Sensing the dissociation of a polymeric enzyme by means of an engineered intrinsic probe

Koch, M.; Holden-Dye, K.; Meyer, T.F., 2012:
Sensing the enemy: new role for a bacterial secretion system in activation of an innate immunity-associated microRNA

Osakabe, Y.; Yamaguchi-Shinozaki, K.; Shinozaki, K.; Tran, L-Son.Phan., 2013:
Sensing the environment: key roles of membrane-localized kinases in plant perception and response to abiotic stress

Jordan, S.D.; Könner, A.Christine.; Brüning, J.C., 2010:
Sensing the fuels: glucose and lipid signaling in the CNS controlling energy homeostasis

Rong, W., 2009:
Sensing the fullness of the bladder

Cates, J.; Graham, G.C.; Omattage, N.; Pavesich, E.; Setliff, I.; Shaw, J.; Smith, C.Lee.; Lipan, O., 2011:
Sensing the heat stress by Mammalian cells

Jensen, Søren.B.; Paludan, Søren.R., 2014:
Sensing the hybrid--a novel PAMP for TLR9

Balakrishnan, J.; Fischer, B.M.; Abbott, D., 2009:
Sensing the hygroscopicity of polymer and copolymer materials using terahertz time-domain spectroscopy

Heikamp, E.B.; Powell, J.D., 2013:
Sensing the immune microenvironment to coordinate T cell metabolism, differentiation & function

He, H-Jun.; Zong, Y.; Bernier, M.; Wang, L., 2010:
Sensing the insulin signaling pathway with an antibody array

Cappa, F.; Bruschini, C.; Cipollini, M.; Pieraccini, G.; Cervo, R., 2014:
Sensing the intruder: a quantitative threshold for recognition cues perception in honeybees

Wormser, E.M., 1968:
Sensing the invisible world

Gaspar, P.; Tapon, N., 2015:
Sensing the local environment: actin architecture and Hippo signalling

Matranga, V.; Kiyomoto, M., 2014:
Sensing the marine environment using different animal models and levels of complexity

King, S.M., 2010:
Sensing the mechanical state of the axoneme and integration of Ca2+ signaling by outer arm dynein

Krasteva, P.Violinova.; Giglio, K.Michelle.; Sondermann, H., 2012:
Sensing the messenger: the diverse ways that bacteria signal through c-di-GMP

Linnartz-Gerlach, B.; Mathews, M.; Neumann, H., 2015:
Sensing the neuronal glycocalyx by glial sialic acid binding immunoglobulin-like lectins

Huang, X.; Zou, X.; Zhao, J.; Shi, J.; Zhang, X.; Li, Z.; Shen, L., 2015:
Sensing the quality parameters of Chinese traditional Yao-meat by using a colorimetric sensor combined with genetic algorithm partial least squares regression

Stewart, W.J.; McHenry, M.J., 2011:
Sensing the strike of a predator fish depends on the specific gravity of a prey fish

Szymańska-Chargot, M.; Cybulska, J.; Zdunek, A., 2012:
Sensing the structural differences in cellulose from apple and bacterial cell wall materials by Raman and FT-IR spectroscopy

Eilers, E.J.; Talarico, G.; Hansson, B.S.; Hilker, M.; Reinecke, A., 2013:
Sensing the underground--ultrastructure and function of sensory organs in root-feeding Melolontha melolontha (Coleoptera: Scarabaeinae) larvae

Loh, N.Duane.; Starodub, D.; Lomb, L.; Hampton, C.Y.; Martin, A.V.; Sierra, R.G.; Barty, A.; Aquila, A.; Schulz, J.; Steinbrener, J.; Shoeman, R.L.; Kassemeyer, S.; Bostedt, C.; Bozek, J.; Epp, S.W.; Erk, B.; Hartmann, R.; Rolles, D.; Rudenko, A.; Rudek, B.; Foucar, L.; Kimmel, N.; Weidenspointner, G.; Hauser, G.; Holl, P.; Pedersoli, E.; Liang, M.; Hunter, M.S.; Gumprecht, L.; Coppola, N.; Wunderer, C.; Graafsma, H.; Maia, F.R.N.C.; Ekeberg, T.; Hantke, M.; Fleckenstein, H.; Hirsemann, H.; Nass, 2014:
Sensing the wavefront of x-ray free-electron lasers using aerosol spheres

Scrimin, P.; Prins, L.J., 2011:
Sensing through signal amplification

Perreault, C., 2012:
Sensing tissue damage

Szunerits, S.; Boukherroub, R., 2012:
Sensing using localised surface plasmon resonance sensors

Hao, S.; Chen, G.; Yang, C., 2014:
Sensing using rare-earth-doped upconversion nanoparticles

Young, R.L., 2011:
Sensing via intestinal sweet taste pathways

Yoo, J-Seung.; Kato, H.; Fujita, T., 2015:
Sensing viral invasion by RIG-I like receptors

Shemer, L.; Einav, S., 1979:
Sensing volume and biasing corrections for dual counter LDA processors

Wu, S.; Yin, S.; Yu, F.T., 1991:
Sensing with fiber specklegrams

Baù, L.; Tecilla, P.; Mancin, F., 2011:
Sensing with fluorescent nanoparticles

García-Cámara, B.; Gómez-Medina, R.; Sáenz, J.José.; Sepúlveda, B., 2013:
Sensing with magnetic dipolar resonances in semiconductor nanospheres

Butet, Jérémy.; Russier-Antoine, I.; Jonin, C.; Lascoux, Nëlle.; Benichou, E.; Brevet, P-François., 2012:
Sensing with multipolar second harmonic generation from spherical metallic nanoparticles

Krause, K.J.; Kätelhön, E.; Lemay, S.G.; Compton, R.G.; Wolfrum, B., 2015:
Sensing with nanopores--the influence of asymmetric blocking on electrochemical redox cycling current

Demas, J.; Grogan, M.D.W.; Alkeskjold, T.; Ramachandran, S., 2012:
Sensing with optical vortices in photonic-crystal fibers

Kegel, L.L.; Boyne, D.; Booksh, K.S., 2015:
Sensing with prism-based near-infrared surface plasmon resonance spectroscopy on nanohole array platforms

Nurbawono, A.; Zhang, C., 2012:
Sensing with superconducting point contacts

Hatsopoulos, N.G.; Suminski, A.J., 2011:
Sensing with the motor cortex

Galpin, A.; Underwood, G.; Chapman, P., 2007:
Sensing without seeing in comparative visual search

Parasuraman, R.; Galster, S., 2013:
Sensing, assessing, and augmenting threat detection: behavioral, neuroimaging, and brain stimulation evidence for the critical role of attention

Sharabi, K.; Lecuona, E.; Helenius, I.Taneli.; Beitel, G.J.; Sznajder, J.Iasha.; Gruenbaum, Y., 2010:
Sensing, physiological effects and molecular response to elevated CO2 levels in eukaryotes

de Diego, J.L.; Gerold, G.; Zychlinsky, A., 2008:
Sensing, presenting, and regulating PAMPs

Christensen, S.M.; Stamou, D.G., 2012:
Sensing-applications of surface-based single vesicle arrays

Tong, C., 2004:

Reeves, J.W.; Al-Zinaty, M.; Woodland, P.; Sifrim, D.; Aziz, Q.; Birch, M.J., 2014:
Sensiprobe--a miniature thermal device incorporating Peltier technology as a diagnostic tool for studying human oesophageal sensitivity

Malickaite, R.; Rucinskas, K.; Staneviciene, A.; Miniauskas, S.; Maneikiene, V.; Zuoziene, G.; Sirvydis, V., 2009:
Sensitisation and post-transplant course after the implantation of ventricular assist device

Sykes, D.; Cankut, A.J.; Ali, N.Mohd.; Stephenson, A.; Spall, S.J.P.; Parker, S.C.; Weinstein, J.A.; Ward, M.D., 2014:
Sensitisation of Eu(III)- and Tb(III)-based luminescence by Ir(III) units in Ir/lanthanide dyads: evidence for parallel energy-transfer and electron-transfer based mechanisms

Sostegni, S.; Diakov, A.; McIntyre, P.; Bunnett, N.; Korbmacher, C.; Haerteis, S., 2015:
Sensitisation of TRPV4 by PAR2 is independent of intracellular calcium signalling and can be mediated by the biased agonist neutrophil elastase

Lin, S.; Yan, Y.; Liu, Y.; Gao, C-Zi.; Shan, D.; Li, Y.; Han, B., 2015:
Sensitisation of human lung adenocarcinoma A549 cells to radiotherapy by Nimotuzumab is associated with enhanced apoptosis and cell cycle arrest in the G2/M phase

Li, J.; Wang, Y.; Lei, J-Chuan.; Hao, Y.; Yang, Y.; Yang, C-Xiong.; Yu, J-Qing., 2014:
Sensitisation of ovarian cancer cells to cisplatin by flavonoids from Scutellaria barbata

Perrotta, A.; Serrao, M.; Sandrini, G.; Burstein, R.; Sances, G.; Rossi, P.; Bartolo, M.; Pierelli, F.; Nappi, G., 2011:
Sensitisation of spinal cord pain processing in medication overuse headache involves supraspinal pain control

Guenet, Aélie.; Eckes, F.; Bulach, Véronique.; Strassert, C.A.; D.C.la, L.; Hosseini, M.Wais., 2013:
Sensitisation of the near-infrared emission of Nd(III) from the singlet state of porphyrins bearing four 8-hydroxyquinolinylamide chelates

de Bot, C.M.A.; Röder, E.; Pols, D.H.J.; Bindels, P.J.E.; van Wijk, R.Gerth.; van der Wouden, J.C.; Moed, H., 2014:
Sensitisation patterns and association with age, gender, and clinical symptoms in children with allergic rhinitis in primary care: a cross-sectional study

Suomalainen, H., 1997:
Sensitisation through breast milk?

Ackermann-Liebrich, U.; Schindler, C.; Frei, P.; Probst-Hensch, N.M.; Imboden, M.; Gemperli, A.; Rochat, T.; Schmid-Grendemeier, P.; Bircher, A.J., 2009:
Sensitisation to Ambrosia in Switzerland: a public health threat on the wait

Pefura-Yone, E.Walter.; Kengne, Aé.Pascal.; Afane-Ze, E.; Kuaban, C., 2014 :
Sensitisation to Blattella germanica among adults with asthma in Yaounde, Cameroon: a cross-sectional study

Boquete, M.; Pineda, F.; Mazon, A.; Garcia, A.; Oliver, F.; Colomer, N.; Pamies, R.; Millan, C.; Millan Olmo, C.; Caballero, L.; Prieto, L.; Nieto, A., 2008:
Sensitisation to Lepisma saccharina (silverfish) in children with respiratory allergy

Sarinho, E.C.S.; Mariano, J.; Sarinho, S.W.; Medeiros, D.; Rizzo, J.A.; Almerinda, R.S.; Solé, D., 2010:
Sensitisation to aeroallergens among asthmatic and non-asthmatic adolescents living in a poor region in the Northeast of Brazil

Pastorino, A.C.; Kuschnir, F.C.; Arruda, L.K.P.; Casagrande, R.R.D.; de Souza, R.G.L.; Dias, G.A.C.; Silveira, H.H.N.; da Cunha, A.J.L.A.; Jacob, C.M.A.; Solé, D., 2008:
Sensitisation to aeroallergens in Brazilian adolescents living at the periphery of large subtropical urban centres

Pefura-Yone, E.Walter.; Kengne, Aé.Pascal.; Kuaban, C., 2014:
Sensitisation to mites in a group of patients with asthma in Yaounde, Cameroon: a cross-sectional study

Brans, R.; Skazik, C.; Merk, H.F.; Blömeke, B., 2009:
Sensitisation to p-Phenylenediamine. Effects of metabolism and individual susceptibility

Nicolas, J-F.; Testud, F.; Vocanson, M., 2008:
Sensitisation versus tolerance in contact eczema

Faulkner, S.; Natrajan, L.S.; Perry, W.S.; Sykes, D., 2009:
Sensitised luminescence in lanthanide containing arrays and d-f hybrids

Jones, J.E.; Pope, S.J.A., 2009:
Sensitised near-IR lanthanide luminescence exploiting anthraquinone-derived chromophores: syntheses and spectroscopic properties

Kennedy, F.; Shavaleev, N.M.; Koullourou, T.; Bell, Zë.R.; Jeffery, J.C.; Faulkner, S.; Ward, M.D., 2007:
Sensitised near-infrared luminescence from lanthanide(III) centres using Re(I) and Pt(II) diimine complexes as energy donors in d-f dinuclear complexes based on 2,3-bis(2-pyridyl)pyrazine

Nayak, D., 2014:
Sensitising doctors: a pedagogical approach to medical humanities

Klyuchnikov, E.; Kroger, N., 2009:
Sensitising leukemic cells by targeting microenvironment

Lee, J.; Armstrong, D.T.; Ssengooba, W.; Park, J-Ae.; Yu, Y.; Mumbowa, F.; Namaganda, C.; Mboowa, G.; Nakayita, G.; Armakovitch, S.; Chien, G.; Cho, S-Nae.; Via, L.E.; Barry, C.E.; Ellner, J.J.; Alland, D.; Dorman, S.E.; Joloba, M.L., 2014:
Sensititre MYCOTB MIC plate for testing Mycobacterium tuberculosis susceptibility to first- and second-line drugs

Weingarth, M.; Masuda, Y.; Takegoshi, K.; Bodenhausen, G.; Tekely, P., 2011:
Sensitive (13)C- (13)C correlation spectra of amyloid fibrils at very high spinning frequencies and magnetic fields

Ruthstein, S.; Ji, M.; Mehta, P.; Jen-Jacobson, L.; Saxena, S., 2013:
Sensitive Cu2+-Cu2+ distance measurements in a protein-DNA complex by double-quantum coherence ESR

Jang, H.Soo.; Park, K.No.; Kim, J.P.; Sim, S.Jun.; Kwon, O.J.; Han, Y-Geun.; Lee, K.Shik., 2009:
Sensitive DNA biosensor based on a long-period grating formed on the side-polished fiber surface

Niu, S.; Han, B.; Cao, W.; Zhang, S., 2009:
Sensitive DNA biosensor improved by Luteolin copper(II) as indicator based on silver nanoparticles and carbon nanotubes modified electrode

Ami, T.; Matsumura, H.; Fujimoto, K., 2008:
Sensitive DNA probe for photochemical ligation prepared in click chemistry

Yin, B-Cheng.; Wu, D.; Ye, B-Ce., 2011:
Sensitive DNA-based electrochemical strategy for trace bleomycin detection

McNicholas, T.P.; Zhao, K.; Yang, C.; Hernandez, S.C.; Mulchandani, A.; Myung, N.V.; Deshusses, M.A., 2011:
Sensitive Detection of Elemental Mercury Vapor by Gold Nanoparticle Decorated Carbon Nanotube Sensors

Hendriks, G.; Atallah, M.; Raamsman, M.; Morolli, B.; van der Putten, H.; Jaadar, H.; Tijdens, I.; Esveldt-van Lange, R.; Mullenders, L.; van de Water, B.; Vrieling, H., 2011:
Sensitive DsRed fluorescence-based reporter cell systems for genotoxicity and oxidative stress assessment

Chang, C-Yu.; Wang, L.; Shy, J-Tsong.; Lin, C-En.; Chou, C., 2011:
Sensitive Faraday rotation measurement with auto-balanced photodetection

Jones, A.T., 1926:
Sensitive Flames

Barus, C., 1924:
Sensitive Flames And Apparent Flame Pressure

Kim, Y.Ahm.; Kakegawa, H.; Fujisawa, K.; Shimamoto, D.; Muramatsu, H.; Kim, J.Hee.; Jung, Y.Chae.; Hayashi, T.; Endo, M.; Terrones, M.; Dresselhaus, M.S., 2010:
Sensitive G-band Raman features for the electrical conductivity of multi-walled carbon nanotubes

Farthing, D.E.; Buxbaum, N.P.; Bare, C.V.; Treadwell, S.M.; Kapoor, V.; Williams, K.M.; Gress, R.E., 2013:
Sensitive GC-MS/MS method to measure deuterium labeled deoxyadenosine in DNA from limited mouse cell populations

Oki, Y.; Nakazono, S.; Nonaka, Y.; Maeda, M., 2007:
Sensitive H(2) detection by use of thermal-lens Raman spectroscopy without a tunable laser

Li, B.; Li, Z.; Situ, B.; Dai, Z.; Liu, Q.; Wang, Q.; Gu, D.; Zheng, L., 2014:
Sensitive HIV-1 detection in a homogeneous solution based on an electrochemical molecular beacon coupled with a nafion-graphene composite film modified screen-printed carbon electrode

Antunes, M.Venzon.; Rosa, D.Dornelles.; Viana, T.Dos.Santos.; Andreolla, H.; Fontanive, T.Ozelame.; Linden, R., 2013:
Sensitive HPLC-PDA determination of tamoxifen and its metabolites N-desmethyltamoxifen, 4-hydroxytamoxifen and endoxifen in human plasma

Winder, D.M.; Ball, S.L.R.; Vaughan, K.; Hanna, N.; Woo, Y.Ling.; Fränzer, Jürgen-Theodor.; Sterling, J.C.; Stanley, M.A.; Sudhoff, H.; Goon, P.K.C., 2010:
Sensitive HPV detection in oropharyngeal cancers

Tao, P.; Zheng, W.; Wang, Y.; Bian, M-Lu., 2013:
Sensitive HPV genotyping based on the flow-through hybridization and gene chip

Melkus, G.; Mörchel, P.; Behr, V.C.; Kotas, M.; Flentje, M.; Jakob, P.M., 2010:
Sensitive J-coupled metabolite mapping using Sel-MQC with selective multi-spin-echo readout

Kristensen, T.; Vestergaard, H.; Bindslev-Jensen, C.; Møller, M.Boe.; Broesby-Olsen, S., 2014:
Sensitive KIT D816V mutation analysis of blood as a diagnostic test in mastocytosis

Jiang, B.; Xu, Y.; Xu, F.; Sun, J.; Li, N.; Luo, Y.; Guo, Q., 2010:
Sensitive LC-MS-MS method for the determination of tiopronin in human plasma

Mészáros, G.Pásztor.; Agai-Csongor, E.; Kapás, M., 2008:
Sensitive LC-MS/MS methods for the quantification of RGH-188 and its active metabolites, desmethyl- and didesmethyl-RGH-188 in human plasma and urine

Muppavarapu, R.; Guttikar, S.; Rajappan, M.; Kamarajan, K.; Mullangi, R., 2015:
Sensitive LC-MS/MS-ESI method for simultaneous determination of montelukast and fexofenadine in human plasma: application to a bioequivalence study

Xiao, F.; Yao, X.; Bao, Q.; Li, D.; Zheng, Y., 2012:
Sensitive Marker of the Cisplatin-DNA Interaction: X-Ray Photoelectron Spectroscopy of CL

Kristensen, L.S.; Mikeska, T.; Krypuy, M.; Dobrovic, A., 2008:
Sensitive Melting Analysis after Real Time- Methylation Specific PCR (SMART-MSP): high-throughput and probe-free quantitative DNA methylation detection

Song, J-Young.; Lee, C-Hee.; Choi, E-Jin.; Kim, K.; Yoon, J-Yeol., 2012:
Sensitive Mie scattering immunoagglutination assay of porcine reproductive and respiratory syndrome virus (PRRSV) from lung tissue samples in a microfluidic chip

Koh, I.; Hong, R.; Weissleder, R.; Josephson, L., 2008:
Sensitive NMR sensors detect antibodies to influenza

Shi, X.; Gu, W.; Peng, W.; Li, B.; Chen, N.; Zhao, K.; Xian, Y., 2014:
Sensitive Pb(2+) probe based on the fluorescence quenching by graphene oxide and enhancement of the leaching of gold nanoparticles

Zeanah, C.H.; Gunnar, M.R.; McCall, R.B.; Kreppner, J.M.; Fox, N.A., 2011:
Sensitive Periods

Li, Y.; Lei, C.; Zeng, Y.; Ji, X.; Zhang, S., 2013:
Sensitive SERS detection of DNA and lysozyme based on polymerase assisted cross strand-displacement amplification

Kong, K.Voon.; Ho, C.Jun.Hui.; Gong, T.; Lau, W.Kam.On.; Olivo, M., 2014:
Sensitive SERS glucose sensing in biological media using alkyne functionalized boronic acid on planar substrates

Kong, K.Voon.; Dinish, U.S.; Lau, W.Kam.On.; Olivo, M., 2014:
Sensitive SERS-pH sensing in biological media using metal carbonyl functionalized planar substrates

Umemoto, T.; Hrdlicka, P.J.; Babu, B.Ravindra.; Wengel, J., 2007:
Sensitive SNP dual-probe assays based on pyrene-functionalized 2'-amino-LNA: lessons to be learned

Waissman, F.Quadros.Boisson.; Orsini, M.; Nascimento, O.J.M.; Leite, M.Antônio.A.; Pereira, Jão.Santos., 2014:
Sensitive Training Through Body Awareness to Improve the Writing of Patients with Writer's Cramp

Tauschinsky, A.; Spreeuw, R.J.C., 2013:
Sensitive absorption imaging of single atoms in front of a mirror

Woodworth, S.C.; Cassidy, D.T.; Hamp, M.J., 2008:
Sensitive absorption spectroscopy by use of an asymmetric multiple-quantum-well diode laser in an external cavity

Namjou, K.; Cai, S.; Whittaker, E.A.; Faist, J.; Gmachl, C.; Capasso, F.; Sivco, D.L.; Cho, A.Y., 2007:
Sensitive absorption spectroscopy with a room-temperature distributed-feedback quantum-cascade laser

Berniolles, S.; Kan, H.; Tong, W.G., 2010:
Sensitive absorption-based wave-mixing detector for anthracycline drugs separated by capillary electrophoresis

Lee, D.; Struppe, J.; Elliott, D.W.; Mueller, L.J.; Titman, J.J., 2009:
Sensitive absorptive refocused scalar correlation NMR spectroscopy in solids

Li, Y.; Wang, X.; Bao, X., 2011:
Sensitive acoustic vibration sensor using single-mode fiber tapers

Johnson, A.; Song, Q.; K.F.rrigno, P.; Bueno, P.R.; Davis, J.J., 2012:
Sensitive affimer and antibody based impedimetric label-free assays for C-reactive protein

Pisareva, E.; Gutkina, N.; Kovalenko, S.; Kuehnapfel, S.; Hartmann, A.; Heinzerling, L.; Schneider-Stock, R.; Lyubchenko, L.; Shamanin, V.A., 2015:
Sensitive allele-specific real-time PCR test for mutations in BRAF codon V600 in skin melanoma

Qu, Y.; Ma, M.; Wang, Z.; Zhan, G.; Li, B.; Wang, X.; Fang, H.; Zhang, H.; Li, C., 2013:
Sensitive amperometric biosensor for phenolic compounds based on graphene-silk peptide/tyrosinase composite nanointerface

Dorraji, P.S.; Jalali, F., 2016:
Sensitive amperometric determination of methimazole based on the electrocatalytic effect of rutin/multi-walled carbon nanotube film

Nishikaze, T.; Fukuyama, Y.; Kawabata, S-ichirou.; Tanaka, K., 2012:
Sensitive analyses of neutral N-glycans using anion-doped liquid matrix G3CA by negative-ion matrix-assisted laser desorption/ionization mass spectrometry

Tian, T.; Xiao, H.; Long, Y.; Zhang, X.; Wang, S.; Zhou, X.; Liu, S.; Zhou, X., 2013:
Sensitive analysis of DNA methyltransferase based on a hairpin-shaped DNAzyme

Wu, M.; Gao, F.; Zhang, Y.; Wang, Q.; Li, H., 2015:
Sensitive analysis of amino acids and vitamin B3 in functional drinks via field-amplified stacking with reversed-field stacking in microchip electrophoresis

Choi, J.; Choi, K.; Kim, J.; Ahmed, A.Yacine.Badjah.Hadj.; Al-Othman, Z.A.; Chung, D.Soo., 2011:
Sensitive analysis of amino acids with carrier-mediated single drop microextraction in-line coupled with capillary electrophoresis

Ge, S.; Tang, W.; Han, R.; Zhu, Y.; Wang, Q.; He, P.; Fang, Y., 2013:
Sensitive analysis of aminoglycoside antibiotics via hyphenation of transient moving substitution boundary with field-enhanced sample injection in capillary electrophoresis

Huang, Y.; Gandhi, M.; Greenblatt, R.M.; Gee, W.; Lin, E.T.; Messenkoff, N., 2008:
Sensitive analysis of anti-HIV drugs, efavirenz, lopinavir and ritonavir, in human hair by liquid chromatography coupled with tandem mass spectrometry

Ogawa, T.; Hattori, H.; Kaneko, R.; Ito, K.; Iwai, M.; Mizutani, Y.; Arinobu, T.; Ishii, A.; Suzuki, O.; Seno, H., 2011:
Sensitive analysis of blonanserin, a novel antipsychotic agent, in human plasma by ultra-performance liquid chromatography-tandem mass spectrometry

Yeh, H-Hua.; Yang, Y-Han.; Ko, J-Yun.; Chen, S-Hwei., 2008:
Sensitive analysis of donepezil in plasma by capillary electrophoresis combining on-column field-amplified sample stacking and its application in Alzheimer's disease

Paradis, D.; Bérail, Géraldine.; Bonmatin, J-Marc.; Belzunces, L.P., 2014:
Sensitive analytical methods for 22 relevant insecticides of 3 chemical families in honey by GC-MS/MS and LC-MS/MS

Hong, S.; Lee, H-A.; Park, S-Ho.; Kim, O., 2011:
Sensitive and Specific Detection of Mycoplasma species by Consensus Polymerase Chain Reaction and Dot Blot Hybridization

Yoon, S.; Xuan, Z.; Makarov, V.; Ye, K.; Sebat, J., 2009:
Sensitive and accurate detection of copy number variants using read depth of coverage

Selvadurai, M.; Meyyanathan, S.Nainar., 2011:
Sensitive and accurate estimation of losartan potassium formulation by high-performance thin-layer chromatography

Barrett, C.L.; Cho, B-Kwan.; Palsson, B.O., 2011:
Sensitive and accurate identification of protein-DNA binding events in ChIP-chip assays using higher order derivative analysis

Grimsey, N.L.; Moodley, K.S.; Glass, M.; Graham, E.Scott., 2012:
Sensitive and accurate quantification of human leukocyte migration using high-content Discovery-1 imaging system and ATPlite assay

Mills, P.H.; Wu, Y-Jen.L.; Ho, C.; Ahrens, E.T., 2008:
Sensitive and automated detection of iron-oxide-labeled cells using phase image cross-correlation analysis

Duan, R.; Wang, B.; Zhang, T.; Zhang, Z.; Xu, S.; Chen, Z.; Lou, X.; Xia, F., 2015:
Sensitive and bidirectional detection of urine telomerase based on the four detection-color states of difunctional gold nanoparticle probe

Tong, S.; Chern, S-Wern.Wang.; Li, Y.; Pallansch, M.A.; Anderson, L.J., 2008:
Sensitive and broadly reactive reverse transcription-PCR assays to detect novel paramyxoviruses

Seto, Y.; Sekiguchi, H.; Maruko, H.; Yamashiro, S.; Sano, Y.; Takayama, Y.; Sekioka, R.; Yamaguchi, S.; Kishi, S.; Satoh, T.; Sekiguchi, H.; Iura, K.; Nagashima, H.; Nagoya, T.; Tsuge, K.; Ohsawa, I.; Okumura, A.; Takada, Y.; Ezawa, N.; Watanabe, S.; Hashimoto, H., 2015:
Sensitive and comprehensive detection of chemical warfare agents in air by atmospheric pressure chemical ionization ion trap tandem mass spectrometry with counterflow introduction

Yi, X.; Hao, Y.; Xia, N.; Wang, J.; Quintero, M.; Li, D.; Zhou, F., 2013:
Sensitive and continuous screening of inhibitors of β-site amyloid precursor protein cleaving enzyme 1 (BACE1) at single SPR chips

Tian, T.; Xiao, H.; Zhang, Z.; Long, Y.; Peng, S.; Wang, S.; Zhou, X.; Liu, S.; Zhou, X., 2013:
Sensitive and convenient detection of microRNAs based on cascade amplification by catalytic DNAzymes

Tochigi, Y.; Sato, N.; Sahara, T.; Wu, C.; Saito, S.; Irie, T.; Fujibuchi, W.; Goda, T.; Yamaji, R.; Ogawa, M.; Ohmiya, Y.; Ohgiya, S., 2010:
Sensitive and convenient yeast reporter assay for high-throughput analysis by using a secretory luciferase from Cypridina noctiluca

Chen, C.; Bajpai, L.; Mollova, N.; Leung, K., 2009:
Sensitive and cost-effective LC-MS/MS method for quantitation of CVT-6883 in human urine using sodium dodecylbenzenesulfonate additive to eliminate adsorptive losses

Voss, P., 2013:
Sensitive and critical periods in visual sensory deprivation

Ghazani, A.A.; Castro, C.M.; Gorbatov, R.; Lee, H.; Weissleder, R., 2012:
Sensitive and direct detection of circulating tumor cells by multimarker µ-nuclear magnetic resonance

Takahashi, T.; Kawakami, T.; Mizuno, T.; Minami, A.; Uchida, Y.; Saito, T.; Matsui, S.; Ogata, M.; Usui, T.; Sriwilaijaroen, N.; Hiramatsu, H.; Suzuki, Y.; Suzuki, T., 2014:
Sensitive and direct detection of receptor binding specificity of highly pathogenic avian influenza A virus in clinical samples

Lock, E.A., 2010:
Sensitive and early markers of renal injury: where are we and what is the way forward?

Pan, D.; Senpan, A.; Caruthers, S.D.; Williams, T.A.; Scott, M.J.; Gaffney, P.J.; Wickline, S.A.; Lanza, G.M., 2009:
Sensitive and efficient detection of thrombus with fibrin-specific manganese nanocolloids

Sun, F.; Bai, T.; Zhang, L.; Ella-Menye, J-Rene.; Liu, S.; Nowinski, A.K.; Jiang, S.; Yu, Q., 2015:
Sensitive and fast detection of fructose in complex media via symmetry breaking and signal amplification using surface-enhanced Raman spectroscopy

Fukuji, T.S.; Castro-Puyana, Mía.; Tavares, M.F.M.; Cifuentes, A., 2012:
Sensitive and fast determination of Sudan dyes in chili powder by partial-filling micellar electrokinetic chromatography-tandem mass spectrometry

Thomas, A.; Schänzer, W.; Delahaut, P.; Thevis, M., 2010:
Sensitive and fast identification of urinary human, synthetic and animal insulin by means of nano-UPLC coupled with high-resolution/high-accuracy mass spectrometry

Hormozdiari, F.; Hach, F.; Sahinalp, S.Cenk.; Eichler, E.E.; Alkan, C., 2011:
Sensitive and fast mapping of di-base encoded reads

Li, X.; Li, Z.; Gan, W.; Wang, T.; Zhao, S.; Lu, Y.; Cheng, J.; Huang, G., 2013:
Sensitive and high resolution subcutaneous fluorescence in vivo imaging using upconversion nanoparticles and microarrays

Kavsak, P.A.; McQueen, M.J., 2011:
Sensitive and high sensitivity cardiac troponin I concentrations in the Heart Outcomes Prevention Evaluation (HOPE) study--a high risk population

Christenson, R.H.; Phillips, D., 2011:
Sensitive and high sensitivity next generation cardiac troponin assays: more than just a name

Piao, Y.; Jin, Z.; Lee, D.; Lee, H-Jin.; Na, H-Bin.; Hyeon, T.; Oh, M-Kyu.; Kim, J.; Kim, H-Sung., 2011:
Sensitive and high-fidelity electrochemical immunoassay using carbon nanotubes coated with enzymes and magnetic nanoparticles

Schiro, P.G.; Zhao, M.; Kuo, J.S.; Koehler, K.M.; Sabath, D.E.; Chiu, D.T., 2012:
Sensitive and high-throughput isolation of rare cells from peripheral blood with ensemble-decision aliquot ranking

Guertler, P.; Paul, V.; Albrecht, C.; Meyer, H.H.D., 2009:
Sensitive and highly specific quantitative real-time PCR and ELISA for recording a potential transfer of novel DNA and Cry1Ab protein from feed into bovine milk

Xue, L.; Zhou, X.; Xing, D., 2012:
Sensitive and homogeneous protein detection based on target-triggered aptamer hairpin switch and nicking enzyme assisted fluorescence signal amplification

Long, Y.; Zhou, X.; Xing, D., 2011:
Sensitive and isothermal electrochemiluminescence gene-sensing of Listeria monocytogenes with hyperbranching rolling circle amplification technology

Cao, A.; Zhang, C-yang., 2012:
Sensitive and label-free DNA methylation detection by ligation-mediated hyperbranched rolling circle amplification

Hong, S.; Lee, S.; Yi, J., 2011:
Sensitive and molecular size-selective detection of proteins using a chip-based and heteroliganded gold nanoisland by localized surface plasmon resonance spectroscopy

Soman, C.; Giorgio, T., 2010:
Sensitive and multiplexed detection of proteomic antigens via quantum dot aggregation

Liu, X.; Shen, Z.; Wang, T.; Liu, M., 2015:
Sensitive and photo-triggered transformation of hierarchical helices assembled from achiral bolaamphiphiles

Zhu, X.; Xu, H.; Lin, R.; Yang, G.; Lin, Z.; Chen, G., 2015:
Sensitive and portable detection of telomerase activity in HeLa cells using the personal glucose meter

Hamase, K., 2010:
Sensitive and precise 2D-HPLC determination of D-amino acids in real biological samples

Baugh, L.Ryan.; Kurhanewicz, N.; Sternberg, P.W., 2011:
Sensitive and precise quantification of insulin-like mRNA expression in Caenorhabditis elegans

Shi, C.; Fukushima, N.; Abe, T.; Bian, Y.; Hua, L.; Wendelburg, B.J.; Yeo, C.J.; Hruban, R.H.; Goggins, M.G.; Eshleman, J.R., 2007:
Sensitive and quantitative detection of KRAS2 gene mutations in pancreatic duct juice differentiates patients with pancreatic cancer from chronic pancreatitis, potential for early detection

Pellett, S.; Du, Z-wei.; Pier, C.L.; Tepp, W.H.; Zhang, S-chun.; Johnson, E.A., 2011:
Sensitive and quantitative detection of botulinum neurotoxin in neurons derived from mouse embryonic stem cells

Zarghi, A.; Shafaati, A.; Foroutan, S.Mohsen.; Khoddam, A.; Madadian, B., 2010:
Sensitive and rapid HPLC method for determination of memantine in human plasma using OPA derivatization and fluorescence detection: application to pharmacokinetic studies

Esteban-Fernández de Ávila, B.; Pedrero, Mía.; Campuzano, S.; Escamilla-Gómez, V.; Pingarrón, Jé.M., 2012:
Sensitive and rapid amperometric magnetoimmunosensor for the determination of Staphylococcus aureus

Long, F.; Shi, H.C.; He, M.; Sheng, J.W.; Wang, J.F., 2009:
Sensitive and rapid chemiluminescence enzyme immunoassay for microcystin-LR in water samples

Chen, J.; Ma, X.; Yuan, Y.; Zhang, W., 2011:
Sensitive and rapid detection of Alicyclobacillus acidoterrestris using loop-mediated isothermal amplification

Yamazaki, W., 2013:
Sensitive and rapid detection of Campylobacter jejuni and Campylobacter coli using loop-mediated isothermal amplification

Krõlov, K.; Frolova, J.; Tudoran, O.; Suhorutsenko, J.; Lehto, T.; Sibul, H.; Mäger, I.; Laanpere, M.; Tulp, I.; Langel, Ülo., 2014:
Sensitive and rapid detection of Chlamydia trachomatis by recombinase polymerase amplification directly from urine samples

Li, J.; Wang, P.; Zhang, A.; Zhang, P.; Alsarakibi, M.; Li, G., 2013:
Sensitive and rapid detection of Giardia lamblia infection in pet dogs using loop-mediated isothermal amplification

Yoshino, M.; Annaka, T.; Kojima, T.; Ikedo, M., 2008:
Sensitive and rapid detection of Mycoplasma pneumoniae by loop-mediated isothermal amplification

Zhang, W.; Meng, X.; Wang, J., 2013:
Sensitive and rapid detection of Trueperella pyogenes using loop-mediated isothermal amplification method

Liu, G.F.; Wang, J.Y.; Xu, L.W.; Ding, X.; Zhou, S.N., 2010 :
Sensitive and rapid detection of Vibrio corallilyticus by loop-mediated isothermal amplification targeted to the alpha subunit gene of RNA polymerase

Ke, Y.; Wang, Y.; Wang, Z.; Du, X.; Huang, L.; Chen, Z., 2014:
Sensitive and rapid detection of blaNDM-1 in clinical samples by isothermal cross-priming amplification

Ushijima, H.; Nishimura, S.; Thongprachum, A.; Shimizu-Onda, Y.; Tran, D.Nguyen.; Pham, N.Thi.Kim.; Takanashi, S.; Dey, S.Kanti.; Okitsu, S.; Yamazaki, W.; Mizuguchi, M.; Hayakawa, S., 2015:
Sensitive and rapid detection of campylobacter species from stools of children with diarrhea in Japan by the loop-mediated isothermal amplification method

Yamazaki, W., 2011:
Sensitive and rapid detection of cholera toxin-producing Vibrio cholerae using loop-mediated isothermal amplification

Liu, M.; Luo, Y.; Tao, R.; He, R.; Jiang, K.; Wang, B.; Wang, L., 2010:
Sensitive and rapid detection of genetic modified soybean (Roundup Ready) by loop-mediated isothermal amplification

Boubourakas, I.N.; Fukuta, S.; Kyriakopoulou, P.E., 2009:
Sensitive and rapid detection of peach latent mosaic viroid by the reverse transcription loop-mediated isothermal amplification

Li, Y.; Cai, S-Hu., 2011:
Sensitive and rapid detection of the insect pathogenic fungus Metarhizium anisopliae var. anisopliae by loop-mediated isothermal amplification

Nair, K.Kumar.; Siddiqi, W.A.; Kumar, R.; Niwas, R.; Gogoi, R.; Srivastava, C.; Gopal, M., 2014:
Sensitive and rapid determination of elemental nanosulfur/sulfur by liquid chromatography

Balaram, V.Murali.; Parmar, D.; Teja, B.B.; Rathnam, S.; Rao, J.Venkateswara.; Dasandi, B., 2010:
Sensitive and rapid high-performance liquid chromatography tandem mass spectrometry method for estimation of fulvestrant in rabbit plasma

Ren, C-Hua.; Hu, C-Qun.; Luo, P.; Wang, Q-Bai., 2008:
Sensitive and rapid identification of Vibrio vulnificus by loop-mediated isothermal amplification

Dittmer, W.U.; de Kievit, P.; Prins, M.W.J.; Vissers, J.L.M.; Mersch, M.E.C.; Martens, M.F.W.C., 2008:
Sensitive and rapid immunoassay for parathyroid hormone using magnetic particle labels and magnetic actuation

Sun, K.; Wang, S.; Sur, R.; Chao, X.; Jeffries, J.B.; Hanson, R.K., 2014:
Sensitive and rapid laser diagnostic for shock tube kinetics studies using cavity-enhanced absorption spectroscopy

McCarthy, N.; Reen, F.Jerry.; Buckley, J.F.; Frye, J.G.; Boyd, E.Fidelma.; Gilroy, D., 2010:
Sensitive and rapid molecular detection assays for Salmonella enterica serovars Typhimurium and Heidelberg

Teske, Jörg.; Weller, J-Peter.; Fieguth, A.; Rothämel, T.; Schulz, Y.; Tröger, H.Dieter., 2011:
Sensitive and rapid quantification of the cannabinoid receptor agonist naphthalen-1-yl-(1-pentylindol-3-yl)methanone (JWH-018) in human serum by liquid chromatography-tandem mass spectrometry

Lin, L.; Liu, Y.; Zhao, X.; Li, J., 2012:
Sensitive and rapid screening of T4 polynucleotide kinase activity and inhibition based on coupled exonuclease reaction and graphene oxide platform

Nakamura, T.; Teshima, M.; Kitahara, T.; Sasaki, H.; Uematsu, M.; Kitaoka, T.; Nakashima, M.; Nishida, K.; Nakamura, J.; Higuchi, S., 2010:
Sensitive and real-time method for evaluating corneal barrier considering tear flow

Mogha, N.Kumar.; Sahu, V.; Sharma, M.; Sharma, R.Kishore.; Masram, D.T., 2015:
Sensitive and reliable ascorbic acid sensing by lanthanum oxide/reduced graphene oxide nanocomposite

Kähler, C.; Didlaukat, S.; Feller, A.C.; Merz, H., 2007:
Sensitive and reliable detection of Kit point mutation Asp 816 to Val in pathological material

Yan, Z.; Li, T.; Lv, P.; Li, X.; Zhou, C.; Yang, X., 2013:
Sensitive and reliable multianalyte quantitation of herbal medicine in rat plasma using dynamic triggered multiple reaction monitoring

Roth, M.J.; Plymire, D.A.; Chang, A.N.; Kim, J.; Maresh, E.M.; Larson, S.E.; Patrie, S.M., 2012:
Sensitive and reproducible intact mass analysis of complex protein mixtures with superficially porous capillary reversed-phase liquid chromatography mass spectrometry

Tang, X.; Zhao, D.; Zhang, M., 2014:
Sensitive and reusable electrochemiluminescent aptasensor achieved with diblock oligonucleotides immobilized solely through preferential adenine-Au interaction

Lim, H-Hee.; Shin, H-Sang., 2013:
Sensitive and robotic determination of bromate in sea water and drinking deep-sea water by headspace solid-phase micro extraction and gas chromatography-mass spectrometry

Liu, W.; Zheng, Z.; Liu, X.; Gao, S.; Ye, L.; Yang, Z.; Hu, M.; Liu, Z., 2011:
Sensitive and robust UPLC-MS/MS method to determine the gender-dependent pharmacokinetics in rats of emodin and its glucuronide

Hallberg, F.; Furó, Ián.; Yushmanov, P.V.; Stilbs, P., 2008:
Sensitive and robust electrophoretic NMR: instrumentation and experiments

Burbelo, P.D.; Leahy, H.P.; Issa, A.T.; Groot, S.; Baraniuk, J.N.; Nikolov, N.P.; Illei, G.G.; Iadarola, M.J., 2009:
Sensitive and robust luminescent profiling of anti-La and other autoantibodies in Sjogren's syndrome

Delgadillo, M.A.; Garrostas, L.; Pozo, O.J.; Ventura, R.; Velasco, Bín.; Segura, J.; Marcos, J., 2012:
Sensitive and robust method for anabolic agents in human urine by gas chromatography-triple quadrupole mass spectrometry

Parmar, V.K.; Patel, H.N.; Patel, B.K., 2015:
Sensitive and robust methods for simultaneous determination of beclomethasone dipropionate and formoterol fumarate dihydrate in rotacaps

Del Rosso, T.; Grando, D.; Marsili, P.; Giammanco, F., 2011:
Sensitive and robust second-harmonic interferometer for measuring the dispersion of the electro-optic coefficients in bulk materials

Fei, Y.; Jin, X-Yong.; Wu, Z-Sheng.; Zhang, S-Bai.; Shen, G.; Yu, R-Qin., 2011:
Sensitive and selective DNA detection based on the combination of hairpin-type probe with endonuclease/GNP signal amplification using quartz-crystal-microbalance transduction

Wang, C-I.; Wu, W-Cheng.; Periasamy, A.Prakash.; Chang, H-Tsung., 2015:
Sensitive and selective DNA probe based on "turn-on" photoluminescence of C-dots@RGO

Jayabharathi, J.; Ramanathan, P.; Thanikachalam, V.; Arunpandiyan, A., 2015:
Sensitive and selective PET-based π-expanded phenanthrimidazole luminophore for Zn2+ ion

Li, P.; Liu, H.; Yang, L.; Liu, J., 2013:
Sensitive and selective SERS probe for Hg(II) detection using aminated ring-close structure of Rhodamine6G

Ye, Y.; Liu, H.; Yang, L.; Liu, J., 2013:
Sensitive and selective SERS probe for trivalent chromium detection using citrate attached gold nanoparticles

Rand, K.N.; Young, G.P.; Ho, T.; Molloy, P.L., 2013:
Sensitive and selective amplification of methylated DNA sequences using helper-dependent chain reaction in combination with a methylation-dependent restriction enzymes

Zuo, X.; Xia, F.; Xiao, Y.; Plaxco, K.W., 2010:
Sensitive and selective amplified fluorescence DNA detection based on exonuclease III-aided target recycling

Zhang, K.; Ren, T.; Wang, K.; Zhu, X.; Wu, H.; Xie, M., 2015:
Sensitive and selective amplified visual detection of cytokines based on exonuclease III-aided target recycling

Wu, L.; Huang, T.; Yang, L.; Pan, J.; Zhu, S.; Yan, X., 2011:
Sensitive and selective bacterial detection using tetracysteine-tagged phages in conjunction with biarsenical dye

Liu, Q.; Wu, J.; Tian, J.; Zhang, C.; Gao, J.; Latep, N.; Ge, Y.; Qin, W., 2012:
Sensitive and selective capillary electrophoretic analysis of proteins by zirconia nanoparticle-enhanced copper (II)-catalyzed luminol-hydrogen peroxide chemiluminescence

Wang, Q.; Li, B.; Wang, Y.; Shou, Z.; Shi, G., 2016:
Sensitive and selective cataluminescence-based sensor system for acetone and diethyl ether determination

Li, X.; Zhang, Z.; Tao, L.; Gao, M., 2013:
Sensitive and selective chemiluminescence assay for hydrogen peroxide in exhaled breath condensate using nanoparticle-based catalysis

Esteban, J.; Ros-Lis, Jé.Vicente.; Martínez-Máñez, Rón.; Marcos, M.Dolores.; Moragues, Mía.; Soto, J.; Sancenón, Félix., 2010:
Sensitive and selective chromogenic sensing of carbon monoxide by using binuclear rhodium complexes

Moragues, Mía.E.; Esteban, J.; Ros-Lis, Jé.Vicente.; Martínez-Máñez, Rón.; Marcos, M.Dolores.; Martínez, M.; Soto, J.; Sancenón, Félix., 2012:
Sensitive and selective chromogenic sensing of carbon monoxide via reversible axial CO coordination in binuclear rhodium complexes

Asturias-Arribas, L.; Alonso-Lomillo, M.Asunción.; Domínguez-Renedo, O.; Arcos-Martínez, M.Julia., 2015:
Sensitive and selective cocaine electrochemical detection using disposable sensors

Tharmaraj, V.; Yang, J., 2015:
Sensitive and selective colorimetric detection of Cu(2+) in aqueous medium via aggregation of thiomalic acid functionalized Ag nanoparticles

Kong, B.; Zhu, A.; Luo, Y.; Tian, Y.; Yu, Y.; Shi, G., 2011:
Sensitive and selective colorimetric visualization of cerebral dopamine based on double molecular recognition

Cadnum, J.L.; Hurless, K.N.; Deshpande, A.; Nerandzic, M.M.; Kundrapu, S.; Donskey, C.J., 2015:
Sensitive and selective culture medium for detection of environmental Clostridium difficile isolates without requirement for anaerobic culture conditions

Yang, H.; Liu, X.; Fei, R.; Hu, Y., 2014:
Sensitive and selective detection of Ag+ in aqueous solutions using Fe3O4@Au nanoparticles as smart electrochemical nanosensors

Liu, J.; Ren, X.; Meng, X.; Fang, Z.; Tang, F., 2014:
Sensitive and selective detection of Hg2+ and Cu2+ ions by fluorescent Ag nanoclusters synthesized via a hydrothermal method

Zhao, W.; Wysocki, G.; Chen, W.; Fertein, E.; L.C.q, D.; Petitprez, D.; Zhang, W., 2011:
Sensitive and selective detection of OH radicals using Faraday rotation spectroscopy at 2.8 µm

Meerabai Devi, L.; Negi, D.P.S., 2011:
Sensitive and selective detection of adenine using fluorescent ZnS nanoparticles

Guan, H.; Zhou, P.; Zhou, X.; He, Z., 2008:
Sensitive and selective detection of aspartic acid and glutamic acid based on polythiophene-gold nanoparticles composite

Radaram, B.; Mako, T.; Levine, M., 2014:
Sensitive and selective detection of cesium via fluorescence quenching

Zuo, Y.; Zhao, H.Wen.; Huang, C.Zhi.; Zhang, Q., 2011:
Sensitive and selective detection of copper ions based on the aggregation of chitosan-stablized silver nanoparticles

Yuan, Z.; Cai, N.; Du, Y.; He, Y.; Yeung, E.S., 2014:
Sensitive and selective detection of copper ions with highly stable polyethyleneimine-protected silver nanoclusters

Li, L.; Li, B., 2010:
Sensitive and selective detection of cysteine using gold nanoparticles as colorimetric probes

Ortner, E.; Schroeder, V.; Walser, R.; Zerbe, O.; Kohler, H.P., 2010:
Sensitive and selective detection of free FXIII activation peptide: a potential marker of acute thrombotic events

Chen, Z.; Wang, Z.; Chen, J.; Wang, S.; Huang, X., 2012:
Sensitive and selective detection of glutathione based on resonance light scattering using sensitive gold nanoparticles as colorimetric probes

Xu, D.; Zhao, H.Wen.; Huang, C.Zhi.; Wu, L.Ping.; Pu, W.Dan.; Zheng, J.Jia.; Zuo, Y., 2012:
Sensitive and selective detection of mercury (II) based on the aggregation of gold nanoparticles stabilized by riboflavin

Xu, S.; Sharma, H.; Mutharasan, R., 2010:
Sensitive and selective detection of mycoplasma in cell culture samples using cantilever sensors

Zhang, T.; Fan, H.; Jin, Q., 2010:
Sensitive and selective detection of nitrite ion based on fluorescence superquenching of conjugated polyelectrolyte

Li, H.; Zhai, J.; Sun, X., 2011:
Sensitive and selective detection of silver(I) ion in aqueous solution using carbon nanoparticles as a cheap, effective fluorescent sensing platform

Zhao, Q.; Gao, J., 2016:
Sensitive and selective detection of thrombin by using a cyclic peptide as affinity ligand

Arvand, M.; Lashkari, Z., 2013:
Sensitive and selective detection of trace copper in standard alloys, food and biological samples using a bulk optode based on N,N'-(4,4'-ethylene biphenyl) bis(3-methoxy salicylidine imine) as neutral carrier

Hughes, S.I.; Dasary, S.S.R.; Singh, A.K.; Glenn, Z.; Jamison, H.; Ray, P.C.; Yu, H., 2014:
Sensitive and selective detection of trivalent chromium using Hyper Rayleigh Scattering with 5,5'-dithio-ibis -(2-nitrobenzoic acid)-modified gold nanoparticles

Mei, Y.; Frederickson, C.J.; Giblin, L.J.; Weiss, J.H.; Medvedeva, Y.; Bentley, P.A., 2011:
Sensitive and selective detection of zinc ions in neuronal vesicles using PYDPY1, a simple turn-on dipyrrin

Nam, Y-Sik.; Noh, K-Chul.; Kim, N-Kyoon.; Lee, Y.; Park, H-Kyung.; Lee, K-Bong., 2015:
Sensitive and selective determination of NO(2)(-) ion in aqueous samples using modified gold nanoparticle as a colorimetric probe

Patel, D.S.; Sharma, N.; Patel, M.C.; Patel, B.N.; Shrivastav, P.S.; Sanyal, M., 2014:
Sensitive and selective determination of diflunisal in human plasma by LC-MS

Hassanzadeh, J.; Amjadi, M., 2016:
Sensitive and selective determination of fluvoxamine maleate using a sensitive chemiluminescence system based on the alkaline permanganate-Rhodamine B-gold nanoparticles reaction

Zargoosh, K.; Shamsipur, M.; Qandalee, M.; Piltan, M.; Moradi, L., 2012:
Sensitive and selective determination of glucose in human serum and urine based on the peroxyoxalate chemiluminescence reaction of a new fluorophore

Haghighi, B.; Hamidi, H.; Bozorgzadeh, S., 2010:
Sensitive and selective determination of hydrazine using glassy carbon electrode modified with Pd nanoparticles decorated multiwalled carbon nanotubes

Khoobi, A.; Ghoreishi, S.Mehdi.; Behpour, M., 2015:
Sensitive and selective determination of hydroxychloroquine in the presence of uric acid using a new nanostructure self-assembled monolayer modified electrode: optimization by multivariate data analysis

Cantalapiedra, A.; Gismera, M.Jesús.; Sevilla, M.Teresa.; Procopio, Jús.R., 2014:
Sensitive and selective determination of phenolic compounds from aromatic plants using an electrochemical detection coupled with HPLC method

Seto, H.; Kondo, T.; Yuasa, M., 2012:
Sensitive and selective electrochemical detection of carbon monoxide in saline at a Pt-Ru/Nafion/MnO2-modified electrode

Jin, W.; Wu, G.; Chen, A., 2013:
Sensitive and selective electrochemical detection of chromium(VI) based on gold nanoparticle-decorated titania nanotube arrays

Guo, Z.; Seol, M-Lok.; Kim, M-Seok.; Ahn, J-Hyuk.; Choi, Y-Kyu.; Liu, J-Huai.; Huang, X-Jiu., 2013:
Sensitive and selective electrochemical detection of dopamine using an electrode modified with carboxylated carbonaceous spheres

Yang, Y.; Fang, G.; Wang, X.; Pan, M.; Qian, H.; Liu, H.; Wang, S., 2014:
Sensitive and selective electrochemical determination of quinoxaline-2-carboxylic acid based on bilayer of novel poly(pyrrole) functional composite using one-step electro-polymerization and molecularly imprinted poly(o-phenylenediamine)

Xiao, C.; Chen, J.; Liu, B.; Chu, X.; Wu, L.; Yao, S., 2011:
Sensitive and selective electrochemical sensing of L-cysteine based on a caterpillar-like manganese dioxide-carbon nanocomposite

Cywinski, P.J.; Moro, A.J.; Ritschel, T.; Hildebrandt, N.; Löhmannsröben, H-Gerd., 2011:
Sensitive and selective fluorescence detection of guanosine nucleotides by nanoparticles conjugated with a naphthyridine receptor

Chen, X.; Xiang, Y.; Li, Z.; Tong, A., 2008:
Sensitive and selective fluorescence determination of trace hydrazine in aqueous solution utilizing 5-chlorosalicylaldehyde

Zhao, Z.; Zhu, W.; Li, Z.; Jiang, J.; Shen, G.; Yu, R., 2013:
Sensitive and selective label-free alkaline phosphatase detection based on DNA hairpin probe

Liu, Y.; Liu, Y.; Qiu, F.; Di, X., 2011:
Sensitive and selective liquid chromatography-tandem mass spectrometry method for the determination of five ganoderic acids in Ganoderma lucidum and its related species

Inamadugu, J.Kumar.; Damaramadugu, R.; Mullangi, R.; Ponneri, V., 2010:
Sensitive and selective liquid chromatography-tandem mass spectrometry method for the determination of metoclopramide in human plasma: application to a bioequivalence study

Zhang, J.; Liang, J.; Tian, Y.; Zhang, Z.; Chen, Y., 2007:
Sensitive and selective liquid chromatography-tandem mass spectrometry method for the quantification of aniracetam in human plasma

Zhang, M-Yi.; Kagan, N.; Sung, M-Li.A.; Zaleska, M.M.; Monaghan, M., 2008:
Sensitive and selective liquid chromatography/tandem mass spectrometry methods for quantitative analysis of 1-methyl-4-phenyl pyridinium (MPP+) in mouse striatal tissue

Wu, C.; Xiong, C.; Wang, L.; Lan, C.; Ling, L., 2011:
Sensitive and selective localized surface plasmon resonance light-scattering sensor for Ag+ with unmodified gold nanoparticles

Shaikh, K.A.; Patil, S.D., 2010:
Sensitive and selective method for the analysis of menthol from pharmaceutical products by RP-HPLC with refractive index detector

Geens, T.; Neels, H.; Covaci, A., 2010:
Sensitive and selective method for the determination of bisphenol-A and triclosan in serum and urine as pentafluorobenzoate-derivatives using GC-ECNI/MS

Li, L.; Li, Z.; Shi, W.; Li, X.; Ma, H., 2015:
Sensitive and selective near-infrared fluorescent off-on probe and its application to imaging different levels of β-lactamase in Staphylococcus aureus

Zhang, Z.; Zheng, Y.; Hang, W.; Yan, X.; Zhao, Y., 2011:
Sensitive and selective off-on rhodamine hydrazide fluorescent chemosensor for hypochlorous acid detection and bioimaging

Tajon, C.A.; Seo, D.; Asmussen, J.; Shah, N.; Jun, Y-wook.; Craik, C.S., 2015:
Sensitive and selective plasmon ruler nanosensors for monitoring the apoptotic drug response in leukemia

Jornet-Martínez, N.; González-Béjar, Mía.; Moliner-Martínez, Y.; Campíns-Falcó, P.; Pérez-Prieto, J., 2014:
Sensitive and selective plasmonic assay for spermine as biomarker in human urine

McWilliams, M.A.; Anka, F.H.; Balkus, K.J.; Slinker, J.D., 2014:
Sensitive and selective real-time electrochemical monitoring of DNA repair

Thakur, A.; Mandal, D.; Ghosh, S., 2013:
Sensitive and selective redox, chromogenic, and "turn-on" fluorescent probe for Pb(II) in aqueous environment

Han, B.; Yuan, J.; Wang, E., 2009:
Sensitive and selective sensor for biothiols in the cell based on the recovered fluorescence of the CdTe quantum dots-Hg(II) system

Ramesh, P.Jagannathamurthy.; Basavaiah, K.; Rajendraprasad, N., 2011:
Sensitive and selective spectrophotometric assay of doxycycline hyclate in pharmaceuticals using Folin-Ciocalteu reagent

Abdulrahman, S.A.M.; Basavaiah, K., 2012:
Sensitive and selective spectrophotometric assay of gabapentin in capsules using sodium 1, 2-naphthoquinone-4-sulfonate

Alizadeh, N.; Keyhanian, F., 2015:
Sensitive and selective spectrophotometric assay of piroxicam in pure form, capsule and human blood serum samples via ion-pair complex formation

Abdulrahman, S.A.M.; Basavaiah, K., 2011:
Sensitive and selective spectrophotometric determination of gabapentin in capsules using two nitrophenols as chromogenic agents

Li, B.; Zhang, Y.; Liu, J.; Xie, X.; Zou, D.; Li, M.; Liu, J., 2014:
Sensitive and selective system of benzene detection based on a cataluminescence sensor

Page, S.E.; Wilke, K.T.; Pierre, Vérie.C., 2010:
Sensitive and selective time-gated luminescence detection of hydroxyl radical in water

Park, S.; Yang, H., 2015:
Sensitive and selective trypsin detection using redox cycling in the presence of L-ascorbic acid

Urano, Y., 2008:
Sensitive and selective tumor imaging with novel and highly activatable fluorescence probes

Schopf, E.; Fischer, N.O.; Chen, Y.; Tok, J.B-H., 2008:
Sensitive and selective viral DNA detection assay via microbead-based rolling circle amplification

Zhou, H.; Wang, X.; Yu, P.; Chen, X.; Mao, L., 2012:
Sensitive and selective voltammetric measurement of Hg2+ by rational covalent functionalization of graphene oxide with cysteamine

Ruan, M.; Niu, C-Gang.; Qin, P-Zhu.; Zeng, G-Ming.; Yang, Z-Hui.; He, H.; Huang, J., 2010:
Sensitive and simple detection of Escherichia coli strain based on time-resolved fluorescence DNA hybridization assay

Yokota, A.; Kubota, H.; Komiya, S.; Sato, K.; Akiyama, H.; Koshiishi, I., 2013:
Sensitive and simple determination of bromate in foods disinfected with hypochlorite reagents using high performance liquid chromatography with post-column derivatization

Chen, P-Yen.; Yangi, H-Hui.; Zen, J-Myng.; Shih, Y., 2012:
Sensitive and simple flow injection analysis of formaldehyde using an activated barrel plating nickel electrode

Snow, D.D.; Damon-Powell, T.; Onanong, S.; Cassada, D.A., 2013:
Sensitive and simplified analysis of natural and synthetic steroids in water and solids using on-line solid-phase extraction and microwave-assisted solvent extraction coupled to liquid chromatography tandem mass spectrometry atmospheric pressure photoionization

Lee, J.; Choi, Y-Suk.; Lee, Y.; Lee, H.Joo.; Lee, J.Nam.; Kim, S.Kyu.; Han, K.Yeon.; Cho, E.Chol.; Park, J.Chan.; Lee, S.Suk., 2012:
Sensitive and simultaneous detection of cardiac markers in human serum using surface acoustic wave immunosensor

Huang, H.; Liu, F.; Huang, S.; Yuan, S.; Liao, B.; Yi, S.; Zeng, Y.; Chu, P.K., 2013:
Sensitive and simultaneous detection of different disease markers using multiplexed gold nanorods

Greifenhagen, U.; Nguyen, V.Duc.; Moschner, J.; Giannis, A.; Frolov, A.; Hoffmann, R., 2016:
Sensitive and site-specific identification of carboxymethylated and carboxyethylated peptides in tryptic digests of proteins and human plasma

Ramón-Azcón, J.; Yasukawa, T.; Mizutani, F., 2011:
Sensitive and spatially multiplexed detection system based on dielectrophoretic manipulation of DNA-encoded particles used as immunoreactions platform

Sun, A.Hua.; Mao, Y.Fei.; Hu, Y.; Sun, Q.; Yan, J., 2009:
Sensitive and specific ELISA coated by TpN15-TpN17-TpN47 fusion protein for detection of antibodies to Treponema pallidum

van Eijk, R.; van Puijenbroek, M.; Chhatta, A.R.; Gupta, N.; Vossen, R.H.A.M.; Lips, E.H.; Cleton-Jansen, A-Marie.; Morreau, H.; van Wezel, T., 2010:
Sensitive and specific KRAS somatic mutation analysis on whole-genome amplified DNA from archival tissues

Kirby, B.J.; Kalhorn, T.; Hebert, M.; Easterling, T.; Unadkat, J.D., 2008:
Sensitive and specific LC-MS assay for quantification of digoxin in human plasma and urine

Yoshikawa, T.; Fukushi, S.; Tani, H.; Fukuma, A.; Taniguchi, S.; Toda, S.; Shimazu, Y.; Yano, K.; Morimitsu, T.; Ando, K.; Yoshikawa, A.; Kan, M.; Kato, N.; Motoya, T.; Kuzuguchi, T.; Nishino, Y.; Osako, H.; Yumisashi, T.; Kida, K.; Suzuki, F.; Takimoto, H.; Kitamoto, H.; Maeda, K.; Takahashi, T.; Yamagishi, T.; Oishi, K.; Morikawa, S.; Saijo, M.; Shimojima, M., 2015:
Sensitive and specific PCR systems for detection of both Chinese and Japanese severe fever with thrombocytopenia syndrome virus strains and prediction of patient survival based on viral load

Komorowski, L.; Müller, R.; Vorobyev, A.; Probst, C.; Recke, A.; Jonkman, M.F.; Hashimoto, T.; Kim, S-Chan.; Groves, R.; Ludwig, R.J.; Zillikens, D.; Stöcker, W.; Schmidt, E., 2013:
Sensitive and specific assays for routine serological diagnosis of epidermolysis bullosa acquisita

Moskalev, E.A.; Frohnauer, J.; Merkelbach-Bruse, S.; Schildhaus, H-Ulrich.; Dimmler, A.; Schubert, T.; Boltze, C.; König, H.; Fuchs, F.; Sirbu, H.; Rieker, R.J.; Agaimy, A.; Hartmann, A.; Haller, F., 2015:
Sensitive and specific detection of EML4-ALK rearrangements in non-small cell lung cancer (NSCLC) specimens by multiplex amplicon RNA massive parallel sequencing

Qvarnstrom, Y.; Schijman, A.G.; Veron, V.; Aznar, C.; Steurer, F.; da Silva, A.J., 2012:
Sensitive and specific detection of Trypanosoma cruzi DNA in clinical specimens using a multi-target real-time PCR approach

Watanabe, Y.; Kim, H.Soo.; Castoro, R.J.; Chung, W.; Estecio, M.R.H.; Kondo, K.; Guo, Y.; Ahmed, S.S.; Toyota, M.; Itoh, F.; Suk, K.Tae.; Cho, M-Yon.; Shen, L.; Jelinek, J.; Issa, J-Pierre.J., 2009:
Sensitive and specific detection of early gastric cancer with DNA methylation analysis of gastric washes

Caravelli, A.; Luz, D.E.; Andrade, F.B.; Moraes, C.T.P.; Maranhão, A.Q.; Piazza, R.M.F., 2014:
Sensitive and specific detection of enteropathogenic and enterohemorrhagic Escherichia coli using recombinant anti-intimin antibody by immunofluorescence assay

Cho, M.Seok.; Jeon, Y.Ho.; Kang, M.Jung.; Ahn, H.Il.; Baek, H-Jin.; Na, Y.Wang.; Choi, Y.Mi.; Kim, T.San.; Park, D.Suk., 2010:
Sensitive and specific detection of phaseolotoxigenic and nontoxigenic strains of Pseudomonas syringae pv. phaseolicola by TaqMan real-time PCR using site-specific recombinase gene sequences

Röder, M.; Vieths, S.; Holzhauser, T., 2011:
Sensitive and specific detection of potentially allergenic almond (Prunus dulcis) in complex food matrices by Taqman(®) real-time polymerase chain reaction in comparison to commercially available protein-based enzyme-linked immunosorbent assay

Diaz, S.L.; Padler-Karavani, V.; Ghaderi, D.; Hurtado-Ziola, N.; Yu, H.; Chen, X.; Brinkman-Van der Linden, E.C.M.; Varki, A.; Varki, N.M., 2009:
Sensitive and specific detection of the non-human sialic Acid N-glycolylneuraminic acid in human tissues and biotherapeutic products

Tinsley, R.B.; Kotschet, K.; Modesto, D.; Ng, H.; Wang, Y.; Nagley, P.; Shaw, G.; Horne, M.K., 2011:
Sensitive and specific detection of α-synuclein in human plasma

Hamasha, K.; Mohaidat, Q.I.; Putnam, R.A.; Woodman, R.C.; Palchaudhuri, S.; Rehse, S.J., 2013:
Sensitive and specific discrimination of pathogenic and nonpathogenic Escherichia coli using Raman spectroscopy-a comparison of two multivariate analysis techniques

Dhénin, S.G.Y.; Moreau, V.; Nevers, M-Claire.; Créminon, C.; Djedaïni-Pilard, F., 2010:
Sensitive and specific enzyme immunoassays for antigenic trisaccharide from Bacillus anthracis spores

Prieto, Jé.M.; Balseiro, A.; Casais, R.; Abendaño, N.; Fitzgerald, L.E.; Garrido, J.M.; Juste, R.A.; Alonso-Hearn, M., 2015:
Sensitive and specific enzyme-linked immunosorbent assay for detecting serum antibodies against Mycobacterium avium subsp. paratuberculosis in fallow deer

Fujimoto, K.; Chan, K-Hung.; Takeda, K.; Lo, K-Fai.; Leung, R.H.K.; Okamoto, T., 2007:
Sensitive and specific enzyme-linked immunosorbent assay using chemiluminescence for detection of severe acute respiratory syndrome viral infection

Lebedeva, I.V.; Pande, P.; Patton, W.F., 2011:
Sensitive and specific fluorescent probes for functional analysis of the three major types of mammalian ABC transporters

Lee, H-A.; Hong, S.; Chung, Y.; Kim, O., 2011:
Sensitive and specific identification by polymerase chain reaction of Eimeria tenella and Eimeria maxima, important protozoan pathogens in laboratory avian facilities

Karabacak, N.Murat.; Li, L.; Tiwari, A.; Hayward, L.J.; Hong, P.; Easterling, M.L.; Agar, J.N., 2009:
Sensitive and specific identification of wild type and variant proteins from 8 to 669 kDa using top-down mass spectrometry

Barth, T.F.E.; Herrmann, T.S.; Tappe, D.; Stark, L.; Grüner, B.; Buttenschoen, K.; Hillenbrand, A.; Juchems, M.; Henne-Bruns, D.; Kern, P.; Seitz, H.M.; Möller, P.; Rausch, R.L.; Kern, P.; Deplazes, P., 2013:
Sensitive and specific immunohistochemical diagnosis of human alveolar echinococcosis with the monoclonal antibody Em2G11

Usher, P.A.; Galsgaard, E.D.; Kruse, K.; Wang, J.; Krogh, B.O.; Mandelbaum, J.; Almholt, K., 2015:
Sensitive and specific in situ hybridization for early drug discovery

Golbahar, J.; Al-Ayadhi, M.; Das, N.Mohan.; Gumaa, K., 2012:
Sensitive and specific markers for insulin resistance, hyperandrogenemia, and inappropriate gonadotrophin secretion in women with polycystic ovary syndrome: a case-control study from Bahrain

Morley, A.A.; Latham, S.; Brisco, M.J.; Sykes, P.J.; Sutton, R.; Hughes, E.; Wilczek, V.; Budgen, B.; van Zanten, K.; Kuss, B.J.; Venn, N.C.; Norris, M.D.; Crock, C.; Storey, C.; Revesz, T.; Waters, K., 2009:
Sensitive and specific measurement of minimal residual disease in acute lymphoblastic leukemia

Pasteran, F.; Veliz, O.; Rapoport, M.; Guerriero, L.; Corso, A., 2012:
Sensitive and specific modified Hodge test for KPC and metallo-beta- lactamase detection in Pseudomonas aeruginosa by use of a novel indicator strain, Klebsiella pneumoniae ATCC 700603

Hoppe, C.; Helmstaedter, C., 2011:
Sensitive and specific neuropsychological assessments of the behavioral effects of epilepsy and its treatment are essential

Shiomi, K.; Hagiwara, Y.; Sonoue, K.; Segawa, T.; Miyashita, K.; Maeda, M.; Izumi, H.; Masuda, K.; Hirabayashi, M.; Moroboshi, T.; Yoshiyama, T.; Ishida, A.; Natori, Y.; Inoue, A.; Kobayashi, M.; Sakao, Y.; Miyamoto, H.; Takahashi, K.; Hino, O., 2008:
Sensitive and specific new enzyme-linked immunosorbent assay for N-ERC/mesothelin increases its potential as a useful serum tumor marker for mesothelioma

Emanuele, V.A.; Panicker, G.; Gurbaxani, B.M.; Lin, J-Mann.S.; Unger, E.R., 2013:
Sensitive and specific peak detection for SELDI-TOF mass spectrometry using a wavelet/neural-network based approach

Pluquet, E.; Arlet, G.; Bingen, E.; Drieux, L.; Mammeri, H., 2011:
Sensitive and specific phenotypic assay for metallo-beta-lactamase detection in Enterobacteria by use of a moxalactam disk supplemented with EDTA

Mijatovic-Rustempasic, S.; Tam, K.Ian.; Kerin, T.K.; Lewis, J.M.; Gautam, R.; Quaye, O.; Gentsch, J.R.; Bowen, M.D., 2014:
Sensitive and specific quantitative detection of rotavirus A by one-step real-time reverse transcription-PCR assay without antecedent double-stranded-RNA denaturation

Wimalawansa, S.J., 1989:
Sensitive and specific radioreceptor assay for calcitonin gene-related Peptide

Wu, Y.Ling.; Savelli, S.L.; Yang, Y.; Zhou, B.; Rovin, B.H.; Birmingham, D.J.; Nagaraja, H.N.; Hebert, L.A.; Yu, C.Yung., 2007:
Sensitive and specific real-time polymerase chain reaction assays to accurately determine copy number variations (CNVs) of human complement C4A, C4B, C4-long, C4-short, and RCCX modules: elucidation of C4 CNVs in 50 consanguineous subjects with defined HLA genotypes

Guo, J-Jie.; Zheng, H-Jun.; Xu, J.; Zhu, X-Quan.; Wang, S-Yue.; Xia, C-Ming., 2012:
Sensitive and specific target sequences selected from retrotransposons of Schistosoma japonicum for the diagnosis of schistosomiasis

van Genderen, F.T.; Gorus, F.K.; Pipeleers, D.G.; van Schravendijk, C.F.H., 2013:
Sensitive and specific time-resolved fluorescence immunoassay of rat C-peptide for measuring hormone secretory and storage capacity of β-cells in vivo and in vitro

Musameh, M.; Wang, J., 2007:
Sensitive and stable amperometric measurements at ionic liquid-carbon paste microelectrodes

Collyer, C.E.; Melisi, J., 2008:
Sensitive and tolerant raters differ in their magnitude estimates of extremely violent behaviors

Cui, L.; Yao, M.; Ren, B.; Zhang, K-Song., 2013:
Sensitive and versatile detection of the fouling process and fouling propensity of proteins on polyvinylidene fluoride membranes via surface-enhanced Raman spectroscopy

Theorell, J.; Schlums, H.; Chiang, S.C.C.; Huang, T.Y.; Tattermusch, A.; Wood, S.M.; Bryceson, Y.T., 2011:
Sensitive and viable quantification of inside-out signals for LFA-1 activation in human cytotoxic lymphocytes by flow cytometry

Pan, Y.; Shan, W.; Fang, H.; Guo, M.; Nie, Z.; Huang, Y.; Yao, S., 2014:
Sensitive and visible detection of apoptotic cells on Annexin-V modified substrate using aminophenylboronic acid modified gold nanoparticles (APBA-GNPs) labeling

Zhang, M.; Huang, J.; Deng, M.; Weng, X.; Ma, H.; Zhou, X., 2009:
Sensitive and visual detection of adenosine by a rationally designed FokI-based biosensing strategy

Ou, L-Juan.; Jin, P-Yan.; Chu, X.; Jiang, J-Hui.; Yu, R-Qin., 2010:
Sensitive and visual detection of sequence-specific DNA-binding protein via a gold nanoparticle-based colorimetric biosensor

Cho, E-Jin.; Yang, J.; Mohamedali, K.A.; Lim, E-Kyung.; Kim, E-Jung.; Farhangfar, C.J.; Suh, J-Suck.; Haam, S.; Rosenblum, M.G.; Huh, Y-Min., 2011:
Sensitive angiogenesis imaging of orthotopic bladder tumors in mice using a selective magnetic resonance imaging contrast agent containing VEGF121/rGel

Shahneh, F.Zare., 2014:
Sensitive antibody-based CTCs detection from peripheral blood

Kroeger, F.R.; Wenson, C.A.; Hoyle, W.C.; Diehl, H., 1975:
Sensitive apparatus for obtaining freezing curves Purity of 4-aminopyridine

Anonymous, 2007:
Sensitive approach to smoking ban

Arfaj, N.Al.; Abdine, H.H.; Sultan, M.A., 2007:
Sensitive assay for carvedilol in tablets and spiked human plasma using a flow-injection chemiluminometric method

Degeling, M.Hannah.; Maguire, C.A.; Bovenberg, M.Sarah.S.; Tannous, B.A., 2012:
Sensitive assay for mycoplasma detection in mammalian cell culture

Scaccia, S.; Frangini, S., 2008:
Sensitive assay for oxygen solubility in molten alkali metal carbonates by indirect flame atomic absorption spectrometric Cr(VI) determination

Hige, S.; Yamamoto, Y.; Yoshida, S.; Kobayashi, T.; Horimoto, H.; Yamamoto, K.; Sho, T.; Natsuizaka, M.; Nakanishi, M.; Chuma, M.; Asaka, M., 2011:
Sensitive assay for quantification of hepatitis B virus mutants by use of a minor groove binder probe and peptide nucleic acids

Makino, Y.; Omichi, K., 2009:
Sensitive assay of glycogen phosphorylase activity by analysing the chain-lengthening action on a Fluorogenic [corrected] maltooligosaccharide derivative

Wang, C.; Ouyang, J.; Wang, Y-Yi.; Ye, D-Kai.; Xia, X-Hua., 2015:
Sensitive assay of protease activity on a micro/nanofluidics preconcentrator fused with the fluorescence resonance energy transfer detection technique

Ishihara, T.; Haraguchi, G.; Kamiishi, T.; Tezuka, D.; Inagaki, H.; Isobe, M., 2011:
Sensitive assessment of activity of Takayasu's arteritis by pentraxin3, a new biomarker

Geretti, A.Maria.; Fox, Z.; Johnson, J.A.; Booth, C.; Lipscomb, J.; Stuyver, L.J.; Tachedjian, G.; Baxter, J.; Touloumi, G.; Lehmann, C.; Owen, A.; Phillips, A., 2014:
Sensitive assessment of the virologic outcomes of stopping and restarting non-nucleoside reverse transcriptase inhibitor-based antiretroviral therapy

Meins, E., 2014:
Sensitive attunement to infants' internal states: operationalizing the construct of mind-mindedness

Oliveira, T.M.B.F.; Barroso, M.Fátima.; Morais, S.; Araújo, M.; Freire, C.; de Lima-Neto, P.; Correia, A.N.; Oliveira, M.B.P.P.; Delerue-Matos, C., 2014:
Sensitive bi-enzymatic biosensor based on polyphenoloxidases-gold nanoparticles-chitosan hybrid film-graphene doped carbon paste electrode for carbamates detection

Deng, C.; Chen, J.; Nie, L.; Nie, Z.; Yao, S., 2010:
Sensitive bifunctional aptamer-based electrochemical biosensor for small molecules and protein

Xia, W.; Wan, Y-Jian.; Wang, X.; Li, Y-Yuan.; Yang, W-Jie.; Wang, C-Xiang.; Xu, S-qing., 2012:
Sensitive bioassay for detection of PPARα potentially hazardous ligands with gold nanoparticle probe

Rasooly, R.; He, X., 2012:
Sensitive bioassay for detection of biologically active ricin in food

Weiss, A.; Klein, C.; Woodman, B.; Sathasivam, K.; Bibel, M.; Régulier, E.; Bates, G.P.; Paganetti, P., 2007:
Sensitive biochemical aggregate detection reveals aggregation onset before symptom development in cellular and murine models of Huntington's disease

Kim, B.; Schmieder, A.H.; Stacy, A.J.; Williams, T.A.; Pan, D., 2012:
Sensitive biological detection with a soluble and stable polymeric paramagnetic nanocluster

Johnson, T.V.; Master, V.A., 2012:
Sensitive biomarkers of cancer recurrence and metastasis: inexpensive tools to cut costs and reduce radiation exposure among cancer patients

Yi, H.; Yao, Y.; Gu, J., 2015:
Sensitive biomarkers of preoperative radiotherapy in advanced rectal cancer patients

Lee, K-Li.; Lee, C-Wei.; Wang, W-Seen.; Wei, P-Kuen., 2007:
Sensitive biosensor array using surface plasmon resonance on metallic nanoslits

Lee, K-Li.; Wu, S-Han.; Lee, C-Wei.; Wei, P-Kuen., 2012:
Sensitive biosensors using Fano resonance in single gold nanoslit with periodic grooves

Yu, X.; Ma, H.; Jin, Z.; Pan, M.; Hou, L.; Xie, W., 2014:
Sensitive birefringent temperature sensor based on a waveguide ring resonator

Vangala, K.; Yanney, M.; Hsiao, C-Te.; Wu, W.W.; Shen, R-Fong.; Zou, S.; Sygula, A.; Zhang, D., 2011:
Sensitive carbohydrate detection using surface enhanced Raman tagging

Mazurek, J.A., 2010:
Sensitive cardiac troponin T assay

Wong, B.Y.L., 2010 :
Sensitive cardiac troponin assays

Omland, Tørn., 2012:
Sensitive cardiac troponin assays: sense and sensibility

Fileccia, J., 2012:
Sensitive care for the deaf: a cultural challenge

Taillens, Fçoise., 2012:
Sensitive care, beyond the labels

Tölle, R., 2013:
Sensitive character: an almost forgotten personality disorder - illustrated by the case Anton Reiser

Khan, S.Bahadar.; Faisal, M.; Rahman, M.M.; Akhtar, K.; Asiri, A.M.; Alamry, K.A., 2013:
Sensitive chemi-sensor for environmental applications as marker of chloroform in aqueous solution

Cai, S.; Sun, Y.; Lau, C.; Lu, J., 2013:
Sensitive chemiluminescence aptasensor based on exonuclease-assisted recycling amplification

Azam, G.; Shibata, T.; Kabashima, T.; Kai, M., 2011:
Sensitive chemiluminescence detection of prion protein on a membrane by using a peroxidase-labeled dextran probe

Chen, X.; He, C.; Zhang, Z.; Wang, J., 2014:
Sensitive chemiluminescence detection of wild-type p53 protein captured by surface-confined consensus DNA duplexes

Du, J.; Li, H., 2011:
Sensitive chemiluminescence determination of thirteen cephalosporin antibiotics with luminol-copper(II) reaction

Liu, Y-ming.; Mei, L.; Liu, L-juan.; Peng, L-fei.; Chen, Y-hong.; Ren, S-wei., 2011 :
Sensitive chemiluminescence immunoassay by capillary electrophoresis with gold nanoparticles

Zhang, Y.; Tan, C.; Fei, R.; Liu, X.; Zhou, Y.; Chen, J.; Chen, H.; Zhou, R.; Hu, Y., 2014:
Sensitive chemiluminescence immunoassay for E. coli O157:H7 detection with signal dual-amplification using glucose oxidase and laccase

Han, E.; Ding, L.; Qian, R.; Bao, L.; Ju, H., 2012:
Sensitive chemiluminescent imaging for chemoselective analysis of glycan expression on living cells using a multifunctional nanoprobe

Díaz, A.N.; Sánchez, F.G.; Baro, E.N.; Díaz, A.F.G.; Aguilar, A.; Algarra, M., 2012:
Sensitive chemiluminescent immunoassay of triclopyr by digital image analysis

Patterson, D.; Doyle, J.M., 2013:
Sensitive chiral analysis via microwave three-wave mixing

Kruglenko, I.; Shirshov, Y.; Burlachenko, J.; Savchenko, A.; Kravchenko, S.; Manera, M.G.; Rella, R., 2010:
Sensitive coating for water vapors detection based on thermally sputtered calcein thin films

Geng, Y.; Wu, J.; Shao, L.; Yan, F.; Ju, H., 2015:
Sensitive colorimetric biosensing for methylation analysis of p16/CDKN2 promoter with hyperbranched rolling circle amplification

Liu, S.; Du, Z.; Li, P.; Li, F., 2012:
Sensitive colorimetric visualization of dihydronicotinamide adenine dinucleotide based on anti-aggregation of gold nanoparticles via boronic acid-diol binding

Niu, H.; Wang, S.; Zhou, Z.; Ma, Y.; Ma, X.; Cai, Y., 2014:
Sensitive colorimetric visualization of perfluorinated compounds using poly(ethylene glycol) and perfluorinated thiols modified gold nanoparticles

Tillmann, R.Liza.; Simon, A.; Müller, A.; Schildgen, O., 2007 :
Sensitive commercial NASBA assay for the detection of respiratory syncytial virus in clinical specimen

Tilby, M.J., 1992:
Sensitive competitive enzyme-linked immunoassay for quantitation of modified bases in DNA

Qi, H.; Shangguan, L.; Liang, L.; Ling, C.; Gao, Q.; Zhang, C., 2012:
Sensitive competitive flow injection chemiluminescence immunoassay for IgG using gold nanoparticle as label

Martinsen, B.; Harder, I.; Biering-Sorensen, F., 2010:
Sensitive cooperation: a basis for assisted feeding

Baudart, J.; Robyns, A.; Peuchet, S.; Drocourt, J.L.; Lebaron, P., 2011:
Sensitive counting of viable Enterobacteriaceae in seawaters and relationship with fecal indicators

Rajapandiyan, P.; Yang, J., 2012:
Sensitive cylindrical SERS substrate array for rapid microanalysis of nucleobases

Gibson, R.M.; Meyer, A.M.; Winner, D.; Archer, J.; Feyertag, F.; Ruiz-Mateos, E.; Leal, M.; Robertson, D.L.; Schmotzer, C.L.; Quiñones-Mateu, M.E., 2014:
Sensitive deep-sequencing-based HIV-1 genotyping assay to simultaneously determine susceptibility to protease, reverse transcriptase, integrase, and maturation inhibitors, as well as HIV-1 coreceptor tropism

Pallagrosi, M.; Majorana, M.; Carlone, C.; Marini, I.; Todini, L.; Fonzi, L.; Biondi, M., 2013:
Sensitive delusion of reference, rivisitation of a concept: clinical accounts on onset paranoid psychosis

Machina, A.; Edwards, R.; van den Driessche, P., 2014:
Sensitive dependence on initial conditions in gene networks

Raman, N.V.V.S.S.; Prasad, A.V.S.S.; Reddy, K.Ratnakar., 2014:
Sensitive derivatization methods for the determination of genotoxic impurities in drug substances using hyphenated techniques

Lee, H.K.; Kim, S.I.; Chae, H.; Kim, M.; Lim, J.; Oh, E.J.; Kim, Y.; Park, Y.J.; Lee, W.; Han, K., 2012:
Sensitive detection and accurate monitoring of Plasmodium vivax parasites on routine complete blood count using automatic blood cell analyzer (DxH800(TM))

Bardea, A.; Burshtein, N.; Rudich, Y.; Salame, T.; Ziv, C.; Yarden, O.; Naaman, R., 2012:
Sensitive detection and identification of DNA and RNA using a patterned capillary tube

Ikehata, A.; Ohara, K.; Shinzawa, H.; Ozaki, Y., 2008:
Sensitive detection and identification of organic liquids using the second derivative of surface plasmon resonance near-infrared spectra

Gu, L.; Kitamura, M., 2013:
Sensitive detection and monitoring of senescence-associated secretory phenotype by SASP-RAP assay

Mossali, C.; Palermo, S.; Capra, E.; Piccolo, G.; Botti, S.; Bandi, C.; D'Amelio, S.; Giuffra, E., 2010:
Sensitive detection and quantification of anisakid parasite residues in food products

Chu, P-Tzu.; Wen, H-Wei., 2014:
Sensitive detection and quantification of gliadin contamination in gluten-free food with immunomagnetic beads based liposomal fluorescence immunoassay

Bartley, P.A.; Ross, D.M.; Latham, S.; Martin-Harris, M.H.; Budgen, B.; Wilczek, V.; Branford, S.; Hughes, T.P.; Morley, A.A., 2011:
Sensitive detection and quantification of minimal residual disease in chronic myeloid leukaemia using nested quantitative PCR for BCR-ABL DNA

Huijsmans, C.J.J.; Poodt, J.; Savelkoul, P.H.M.; Hermans, M.H.A., 2012:
Sensitive detection and quantification of the JAK2V617F allele by real-time PCR blocking wild-type amplification by using a peptide nucleic acid oligonucleotide

Kiwan, A.M.; El-Shahawi, M.S.; Aldhaheri, S.M.; Saleh, M.H., 2008:
Sensitive detection and semiquantitative determination of mercury(II) and lead(II) in aqueous media using polyurethane foam immobilized 1,5-di-(2-fluorophenyl)-3-mercaptoformazan

Masek, B.J.; Hardick, J.; Won, H.; Yang, S.; Hsieh, Y-Hsiang.; Rothman, R.E.; Gaydos, C.A., 2014:
Sensitive detection and serovar differentiation of typhoidal and nontyphoidal Salmonella enterica species using 16S rRNA Gene PCR coupled with high-resolution melt analysis

Stramer, S.L.; Collins, C.; Nugent, T.; Wang, X.; Fuschino, M.; Heitman, J.W.; Law, J.; Krysztof, D.E.; Kiely, N.; Todd, D.; Vermeulen, N.M.J.; Harrington, K.; Kamel, H.; Kelvin, D.J.; Busch, M.P.; S.G.orge, K.; Hewlett, I.K.; Linnen, J.M.; Norris, P.J.; Cable, R.; Rios, J.; Benjamin, R.; Roback, J.D.; Sacher, R.A.; Wilkinson, S.L.; Carey, P.M.; Murphy, E.L.; Custer, B.; Hirschler, N.; Triulzi, D.; Kakaiya, R.; Kiss, J.; Gottschall, J.; Mast, A.; Schulman, J.; King, M.; Nemo, G.; Busch, M.P.; No, 2012:
Sensitive detection assays for influenza RNA do not reveal viremia in US blood donors

Tudela, E.; Deventer, K.; Van Eenoo, P., 2013:
Sensitive detection of 3'-hydroxy-stanozolol glucuronide by liquid chromatography-tandem mass spectrometry

McKillen, J.; McMenamy, M.; Hjertner, B.; McNeilly, F.; Uttenthal, A.; Gallardo, C.; Adair, B.; Allan, G., 2010:
Sensitive detection of African swine fever virus using real-time PCR with a 5' conjugated minor groove binder probe

Kamali-Moghaddam, M.; Pettersson, F.Ekholm.; Wu, D.; Englund, H.; Darmanis, S.; Lord, A.; Tavoosidana, G.; Sehlin, D.; Gustafsdottir, S.; Nilsson, L.N.G.; Lannfelt, L.; Landegren, U., 2010:
Sensitive detection of Aβ protofibrils by proximity ligation--relevance for Alzheimer's disease

Huang, T.; Zhuge, J.; Zhang, W.W., 2013:
Sensitive detection of BRAF V600E mutation by Amplification Refractory Mutation System (ARMS)-PCR

Chenau, Jérôme.; Fenaille, Fçois.; Ezan, E.; Morel, N.; Lamourette, P.; Goossens, P.L.; Becher, Fçois., 2012:
Sensitive detection of Bacillus anthracis spores by immunocapture and liquid chromatography-tandem mass spectrometry

Zheng, D.; Zhu, X.; Ding, X.; Zhu, X.; Yin, Y.; Li, G., 2013:
Sensitive detection of CD147/EMMPRIN and its expression on cancer cells with electrochemical technique

Bremer, K.; Pal, A.; Yao, S.; Lewis, E.; Sen, R.; Sun, T.; Grattan, K.T.V., 2013:
Sensitive detection of CO2 implementing tunable thulium-doped all-fiber laser

Xing, X-Wen.; Tang, F.; Wu, J.; Chu, J-Mei.; Feng, Y-Qi.; Zhou, X.; Yuan, B-Feng., 2015:
Sensitive detection of DNA methyltransferase activity based on exonuclease-mediated target recycling

Zeng, Y-ping.; Hu, J.; Long, Y.; Zhang, C-yang., 2014:
Sensitive detection of DNA methyltransferase using hairpin probe-based primer generation rolling circle amplification-induced chemiluminescence

Yang, H.; Cai, L.; Zhang, Y.; Tan, H.; Deng, Q.; Zhao, M.; Xu, X., 2015:
Sensitive detection of EGFR mutations in cerebrospinal fluid from lung adenocarcinoma patients with brain metastases

Rho, J.Kyung.; Lee, H.; Park, C-Sik.; Choi, C-Min.; Lee, J.Cheol., 2014:
Sensitive detection of EML4-ALK fusion oncoprotein of lung cancer by in situ proximity ligation assay

Chen, L.; Qi, Z.; Chen, R.; Li, Y.; Liu, S., 2011:
Sensitive detection of Epstein-Barr virus-derived latent membrane protein 1 based on CdTe quantum dots-capped silica nanoparticle labels

Gerner, W.; Stadler, M.; Hammer, S.E.; Klein, D.; Saalmüller, A., 2011:
Sensitive detection of Foxp3 expression in bovine lymphocytes by flow cytometry

Ioos, R.; Fourrier, Céline.; Iancu, G.; Gordon, T.R., 2009:
Sensitive detection of Fusarium circinatum in pine seed by combining an enrichment procedure with a real-time polymerase chain reaction using dual-labeled probe chemistry

Xiong, C.; Xiao, Z.; Zhang, M.; Ling, L., 2013:
Sensitive detection of H2O2 and H2O2-related reactant with Ru(bipy)(2)(7,8-dimethyl-dipyridophenazine)2+ and oligodeoxyribonucleotide

Mubeen, S.; Zhang, T.; Chartuprayoon, N.; Rheem, Y.; Mulchandani, A.; Myung, N.V.; Deshusses, M.A., 2010:
Sensitive detection of H2S using gold nanoparticle decorated single-walled carbon nanotubes

Hartmann, H.J.; Laubereau, A., 1981:
Sensitive detection of IR photons with picosecond time resolution

Ausch, C.; Buxhofer-Ausch, V.; Oberkanins, C.; Holzer, B.; Minai-Pour, M.; Jahn, S.; Dandachi, N.; Zeillinger, R.; Kriegshäuser, G., 2010:
Sensitive detection of KRAS mutations in archived formalin-fixed paraffin-embedded tissue using mutant-enriched PCR and reverse-hybridization

How Kit, A.; Mazaleyrat, N.; Daunay, A.; Nielsen, H.Myrtue.; Terris, Bît.; Tost, Jörg., 2014:
Sensitive detection of KRAS mutations using enhanced-ice-COLD-PCR mutation enrichment and direct sequence identification

Zhuge, J.; Zhang, W.; Zhang, W.; Xu, M.; Hoffman, R., 2010:
Sensitive detection of MPLW515L/K mutations by amplification refractory mutation system (ARMS)-PCR

Todescato, F.; Antognoli, A.; Meneghello, A.; Cretaio, E.; Signorini, R.; Bozio, R., 2014:
Sensitive detection of Ochratoxin A in food and drinks using metal-enhanced fluorescence

Hou, T.; Wang, X.; Lu, T.; Liu, X.; Li, F., 2015:
Sensitive detection of T4 polynucleotide kinase activity based on coupled exonuclease reaction and nicking enzyme-assisted fluorescence signal amplification

Tang, J.; Khan, S.; Delmiglio, C.; Ward, L.I., 2014:
Sensitive detection of Tomato ringspot virus by real-time TaqMan RT-PCR targeting the highly conserved 3'-UTR region

Lang, J.M.; Langlois, P.; Nguyen, M.Hanna.R.; Triplett, L.R.; Purdie, L.; Holton, T.A.; Djikeng, A.; Vera Cruz, C.M.; Verdier, Vérie.; Leach, J.E., 2015:
Sensitive detection of Xanthomonas oryzae Pathovars oryzae and oryzicola by loop-mediated isothermal amplification

Lu, D.; Zhang, Y.; Wang, L.; Lin, S.; Wang, C.; Chen, X., 2012:
Sensitive detection of acetaminophen based on Fe₃O₄ nanoparticles-coated poly(diallyldimethylammonium chloride)-functionalized graphene nanocomposite film

Liu, C.; Shen, Y.; Yin, P.; Li, L.; Liu, M.; Zhang, Y.; Li, H.; Yao, S., 2015:
Sensitive detection of acetylcholine based on a novel boronate intramolecular charge transfer fluorescence probe

Pavone, F.S.; Marin, F.; Inguscio, M.; Ernst, K.; Lonardo, G.D., 1993:
Sensitive detection of acetylene absorption in the visible by using a stabilized AlGaAs diode laser

Togashi, M.; Urano, Y.; Kojima, H.; Terai, T.; Hanaoka, K.; Igarashi, K.; Hirata, Y.; Nagano, T., 2010:
Sensitive detection of acrolein in serum using time-resolved luminescence

Huan, T.Ngoc.; Ganesh, T.; Han, S-Hwan.; Yoon, M-Young.; Chung, H., 2011:
Sensitive detection of an anthrax biomarker using a glassy carbon electrode with a consecutively immobilized layer of polyaniline/carbon nanotube/peptide

Göransson, J.; Zardán Gómez D.L.T.rre, T.; Strömberg, M.; Russell, C.; Svedlindh, P.; Strømme, M.; Nilsson, M., 2010:
Sensitive detection of bacterial DNA by magnetic nanoparticles

Liang, X.; Zhou, Q.; Wang, W.; Wang, X.; Chen, W.; Chen, C.; Li, Y.; Hou, K.; Li, J.; Li, H., 2013 :
Sensitive detection of black powder by a stand-alone ion mobility spectrometer with an embedded titration region

Liang, X.; Wang, X.; Wang, W.; Zhou, Q.; Chen, C.; Peng, L.; Wen, M.; Qu, T.; Wang, Z.; Zhao, K.; Li, J.; Li, H., 2014:
Sensitive detection of black powder by stand-alone ion mobility spectrometer with chlorinated hydrocarbon modifiers in drift gas

Huang, Z.; Wu, S.; Duan, N.; Hua, D.; Hu, Y.; Wang, Z., 2012:
Sensitive detection of carcinoembryonic antigen with magnetic nano-bead and upconversion nanoparticles-based immunoassay

Cowles, C.L.; Zhu, X., 2012:
Sensitive detection of cardiac biomarker using ZnS nanoparticles as novel signal transducers

Ochi, Y.; Sugawara, H.; Iwami, M.; Tanaka, M.; Eki, T., 2011:
Sensitive detection of chemical-induced genotoxicity by the Cypridina secretory luciferase reporter assay, using DNA repair-deficient strains of Saccharomyces cerevisiae

Price, A.L.; Tandon, A.; Patterson, N.; Barnes, K.C.; Rafaels, N.; Ruczinski, I.; Beaty, T.H.; Mathias, R.; Reich, D.; Myers, S., 2009:
Sensitive detection of chromosomal segments of distinct ancestry in admixed populations

Grützmann, R.; Molnar, B.; Pilarsky, C.; Habermann, J.K.; Schlag, P.M.; Saeger, H.D.; Miehlke, S.; Stolz, T.; Model, F.; Roblick, U.J.; Bruch, H-Peter.; Koch, R.; Liebenberg, V.; Devos, T.; Song, X.; Day, R.H.; Sledziewski, A.Z.; Lofton-Day, C., 2008:
Sensitive detection of colorectal cancer in peripheral blood by septin 9 DNA methylation assay

Su, J.; Xu, J.; Chen, Y.; Xiang, Y.; Yuan, R.; Chai, Y., 2013:
Sensitive detection of copper(II) by a commercial glucometer using click chemistry

Shang, L.; Dong, S., 2008:
Sensitive detection of cysteine based on fluorescent silver clusters

Meier, L.; Berchtold, C.; Schmid, S.; Zenobi, R., 2012:
Sensitive detection of drug vapors using an ion funnel interface for secondary electrospray ionization mass spectrometry

Riobé, Fçois.; Schenning, A.P.H.J.; Amabilino, D.B., 2013:
Sensitive detection of enantiomeric excess in different acids through chiral induction in an oligo(p-phenylenevinylene) aggregate

Gurban, A-Maria.; Rotariu, L.; Baibarac, M.; Baltog, I.; Bala, C., 2011:
Sensitive detection of endocrine disrupters using ionic liquid--single walled carbon nanotubes modified screen-printed based biosensors

Deng, J.; Jin, Y.; Wang, L.; Chen, G.; Zhang, C., 2012:
Sensitive detection of endonuclease activity and inhibition using gold nanorods

Lu, D.; Zhang, Y.; Lin, S.; Wang, L.; Wang, C., 2012:
Sensitive detection of esculetin based on a CdSe nanoparticles-decorated poly(diallyldimethylammonium chloride)-functionalized graphene nanocomposite film

Carroll, P.; Schreuder, L.J.; Muwanguzi-Karugaba, J.; Wiles, S.; Robertson, B.D.; Ripoll, J.; Ward, T.H.; Bancroft, G.J.; Schaible, U.E.; Parish, T., 2011:
Sensitive detection of gene expression in mycobacteria under replicating and non-replicating conditions using optimized far-red reporters

Li, T.; Zhu, K.; He, S.; Xia, X.; Liu, S.; Wang, Z.; Jiang, X., 2011:
Sensitive detection of glucose based on gold nanoparticles assisted silver mirror reaction

Miao, X.; Ling, L.; Shuai, X., 2013:
Sensitive detection of glucose in human serum with oligonucleotide modified gold nanoparticles by using dynamic light scattering technique

Lian, S.; Yang, W.; Wang, Y.; Liu, C.; Li, Z., 2015:
Sensitive detection of hexokinase activity by use of Zr(4+)-coated magnetic beads coupled with phenylboronic acid-functionalized upconversion nanophosphors

Gustiananda, M.; Andreoni, A.; Tabares, L.C.; Tepper, A.W.J.W.; Fortunato, L.; Aartsma, T.J.; Canters, G.W., 2012:
Sensitive detection of histamine using fluorescently labeled oxido-reductases

Sidhu, J.P.S.; Ahmed, W.; Toze, S., 2013:
Sensitive detection of human adenovirus from small volume of primary wastewater samples by quantitative PCR

Zhu, X.; Yang, J.; Liu, M.; Wu, Y.; Shen, Z.; Li, G., 2013:
Sensitive detection of human breast cancer cells based on aptamer-cell-aptamer sandwich architecture

Mitchell, D.A.; Xie, W.; Schmittling, R.; Learn, C.; Friedman, A.; McLendon, R.E.; Sampson, J.H., 2007:
Sensitive detection of human cytomegalovirus in tumors and peripheral blood of patients diagnosed with glioblastoma

Lei, C.; Noonan, O.; Jambhrunkar, S.; Qian, K.; Xu, C.; Zhang, J.; Nouwens, A.; Yu, C., 2015:
Sensitive detection of human insulin using a designed combined pore approach

Zhang, H.; Zheng, J., 2012:
Sensitive detection of hydroxylamine at a simple baicalin carbon nanotubes modified electrode

Quiel, A.; Jürgen, B.; Greinacher, A.; Lassen, S.; Wörl, R.; Witt, S.; Schweder, T., 2012:
Sensitive detection of idiotypic platelet-reactive alloantibodies by an electrical protein chip

Yang, Y.; Zhang, C-yang., 2012:
Sensitive detection of intracellular sumoylation via SNAP tag-mediated translation and RNA polymerase-based amplification

Li, Y.; Teneberg, S.; Thapa, P.; Bendelac, A.; Levery, S.B.; Zhou, D., 2007:
Sensitive detection of isoglobo and globo series tetraglycosylceramides in human thymus by ion trap mass spectrometry

Tang, L.; Zeng, G.; Shen, G.; Li, Y.; Liu, C.; Li, Z.; Luo, J.; Fan, C.; Yang, C., 2008:
Sensitive detection of lip genes by electrochemical DNA sensor and its application in polymerase chain reaction amplicons from Phanerochaete chrysosporium

Grange, T., 2009:
Sensitive detection of mRNA decay products by use of reverse-ligation-mediated PCR (RL-PCR)

Ikeno, S.; Suzuki, M-Omi.; Muhsen, M.; Ishige, M.; Kobayashi-Ishihara, M.; Ohno, S.; Takeda, M.; Nakayama, T.; Morikawa, Y.; Terahara, K.; Okada, S.; Takeyama, H.; Tsunetsugu-Yokota, Y., 2013:
Sensitive detection of measles virus infection in the blood and tissues of humanized mouse by one-step quantitative RT-PCR

Shiiyama, R.; Fukushima, S.; Jinnin, M.; Yamashita, J.; Miyashita, A.; Nakahara, S.; Kogi, A.; Aoi, J.; Masuguchi, S.; Inoue, Y.; Ihn, H., 2015:
Sensitive detection of melanoma metastasis using circulating microRNA expression profiles

Feng, J-Ju.; Huang, H.; Chen, W-Jie.; Chen, J-Rong.; Lin, H-Jun.; Wang, A-Jun., 2013:
Sensitive detection of mercury (II) ion using water-soluble captopril-stabilized fluorescent gold nanoparticles

Peng, J.; Ling, J.; Zhang, X-Qing.; Bai, H-Ping.; Zheng, L.; Cao, Q-E.; Ding, Z-Tao., 2015:
Sensitive detection of mercury and copper ions by fluorescent DNA/Ag nanoclusters in guanine-rich DNA hybridization

Yao, B.; Liu, Y.; Tabata, M.; Zhu, H.; Miyahara, Y., 2015:
Sensitive detection of microRNA by chronocoulometry and rolling circle amplification on a gold electrode

Yin, B-Cheng.; Liu, Y-Qiang.; Ye, B-Ce., 2014:
Sensitive detection of microRNA in complex biological samples via enzymatic signal amplification using DNA polymerase coupled with nicking endonuclease

Zhang, Y.; Zhang, C-yang., 2012:
Sensitive detection of microRNA with isothermal amplification and a single-quantum-dot-based nanosensor

Wang, G-lei.; Zhang, C-yang., 2012:
Sensitive detection of microRNAs with hairpin probe-based circular exponential amplification assay

Fu, X.; Feng, Y.; Niu, S.; Zhao, C.; Yang, M.; Yang, Y., 2013:
Sensitive detection of microcystin-LR by using a label-free electrochemical immunosensor based on Au nanoparticles/silicon template/methylene blue nanocomposite

Hu, W.; Chen, H.; Zhang, H.; He, G.; Li, X.; Zhang, X.; Liu, Y.; Li, C.Ming., 2015:
Sensitive detection of multiple mycotoxins by SPRi with gold nanoparticles as signal amplification tags

Lian, W.; Wu, D.; Lim, D.V.; Jin, S., 2010:
Sensitive detection of multiplex toxins using antibody microarray

Chen, H.; Yang, S.; Li, M.; Hu, B.; Li, J.; Wang, J., 2010:
Sensitive detection of native proteins using extractive electrospray ionization mass spectrometry

Shiraishi, T.; Deborggraeve, S.; Büscher, P.; Nielsen, P.E., 2011:
Sensitive detection of nucleic acids by PNA hybridization directed co-localization of fluorescent beads

Hu, J.; Zhang, C-yang., 2014:
Sensitive detection of nucleic acids with rolling circle amplification and surface-enhanced Raman scattering spectroscopy

Prieto-Simón, B.; Karube, I.; Saiki, H., 2013:
Sensitive detection of ochratoxin A in wine and cereals using fluorescence-based immunosensing

Sommers, C.D.; Mans, D.J.; Mecker, L.C.; Keire, D.A., 2011:
Sensitive detection of oversulfated chondroitin sulfate in heparin sodium or crude heparin with a colorimetric microplate based assay

Wang, X.; Zhang, X.; He, P.; Fang, Y., 2011:
Sensitive detection of p53 tumor suppressor gene using an enzyme-based solid-state electrochemiluminescence sensing platform

Goedhart, J.; Vermeer, J.E.M.; Adjobo-Hermans, M.J.W.; van Weeren, L.; Gadella, T.W.J., 2007:
Sensitive detection of p65 homodimers using red-shifted and fluorescent protein-based FRET couples

Rivera, C.G.; Tyler, B.M.; Murali, T.M., 2013:
Sensitive detection of pathway perturbations in cancers

Gaspar, Vítor.M.; Cruz, C.; Queiroz, Jão.A.; Pichon, C.; Correia, Iídio.J.; Sousa, F., 2013:
Sensitive detection of peptide-minicircle DNA interactions by surface plasmon resonance

Wang, C-Wei.; Chang, H-Tsung., 2015:
Sensitive detection of platelet-derived growth factor through surface-enhanced Raman scattering

Yang, L.; Chen, B.; Luo, S.; Li, J.; Liu, R.; Cai, Q., 2011:
Sensitive detection of polycyclic aromatic hydrocarbons using CdTe quantum dot-modified TiO₂ nanotube array through fluorescence resonance energy transfer

Tang, W.; Zhu, G.; Zhang, C-yang., 2015:
Sensitive detection of polynucleotide kinase using rolling circle amplification-induced chemiluminescence

Iqbal, Z.; Aleem, A.; Iqbal, M.; Naqvi, M.Iqbal.; Gill, A.; Taj, A.Sohail.; Qayyum, A.; ur-Rehman, N.; Khalid, A.Mukhtar.; Shah, I.Hussain.; Khalid, M.; Haq, R.; Khan, M.; Baig, S.Mahmood.; Jamil, A.; Abbas, M.Naeem.; Absar, M.; Mahmood, A.; Rasool, M.; Akhtar, T., 2013:
Sensitive detection of pre-existing BCR-ABL kinase domain mutations in CD34+ cells of newly diagnosed chronic-phase chronic myeloid leukemia patients is associated with imatinib resistance: implications in the post-imatinib era

George, S.; Chaudhery, V.; Lu, M.; Takagi, M.; Amro, N.; Pokhriyal, A.; Tan, Y.; Ferreira, P.; Cunningham, B.T., 2014:
Sensitive detection of protein and miRNA cancer biomarkers using silicon-based photonic crystals and a resonance coupling laser scanning platform

Li, T.; Liu, X.; Liu, D.; Wang, Z., 2014:
Sensitive detection of protein kinase A activity in cell lysates by peptide microarray-based assay

Sasaki, T.; Demura, M.; Kato, N.; Mukai, Y., 2011:
Sensitive detection of protein-lipid interaction change on bacteriorhodopsin using dodecyl β-D-maltoside

Xue, Q.; Wang, Z.; Wang, L.; Jiang, W., 2012:
Sensitive detection of proteins using assembled cascade fluorescent DNA nanotags based on rolling circle amplification

Liu, M.; Deng, J.; Chen, Q.; Huang, Y.; Wang, L.; Zhao, Y.; Zhang, Y.; Li, H.; Yao, S., 2013:
Sensitive detection of rutin with novel ferrocene benzyne derivative modified electrodes

Green, H.C.; Field, K.G., 2012:
Sensitive detection of sample interference in environmental qPCR

Nagaoka, K.; Yoshioka, M.; Shimozaki, N.; Yamamura, T.; Murayama, Y.; Yokoyama, T.; Mohri, S., 2010:
Sensitive detection of scrapie prion protein in soil

Ballihaut, G.; Claverie, F.; Pécheyran, C.; Mounicou, S.; Grimaud, Régis.; Lobinski, R., 2007:
Sensitive detection of selenoproteins in gel electrophoresis by high repetition rate femtosecond laser ablation-inductively coupled plasma mass spectrometry

Syahir, A.; Kajikawa, K.; Mihara, H. , 2012:
Sensitive detection of small molecule-protein interactions on a metal-insulator-metal label-free biosensing platform

Cheng, S.; Shi, F.; Jiang, X.; Wang, L.; Chen, W.; Zhu, C., 2012:
Sensitive detection of small molecules by competitive immunomagnetic-proximity ligation assay

Bauer, T.; Kirschbaum, K.; Panter, S.; Kenk, M.; Bergemann, Jörg., 2012:
Sensitive detection of soy (Glycine max) by real-time polymerase chain reaction targeting the mitochondrial atpA gene

Gómez de la Torre, T.Zardán.; Ke, R.; Mezger, A.; Svedlindh, P.; Strømme, M.; Nilsson, M., 2013:
Sensitive detection of spores using volume-amplified magnetic nanobeads

Colton, J.S.; Erickson, S.D.; Smith, T.J.; Watt, R.K., 2014:
Sensitive detection of surface- and size-dependent direct and indirect band gap transitions in ferritin

Wang, B.; Dwyer, D.E.; Chew, C.Beng.; Kol, C.; He, Z.Ping.; Joshi, H.; Steain, M.C.; Cunningham, A.L.; Saksena, N.K., 2009:
Sensitive detection of the K103N non-nucleoside reverse transcriptase inhibitor resistance mutation in treatment-naïve HIV-1 infected individuals by rolling circle amplification

Takanosu, M.; Sato, M.; Kagawa, Y., 2014:
Sensitive detection of the c-KIT c.1430G>T mutation by mutant-specific polymerase chain reaction in feline mast cell tumours

Xie, F.; Huang, J.; Qu, S.; Wu, W.; Jiang, J.; Wang, H.; Wang, S.; Liu, Q.; Zhang, S.; Xu, L.; Gao, S.; Zhang, Y.; Zhao, J.; Chen, W., 2015:
Sensitive detection of trace amounts of KRAS codon 12 mutations by a fast and novel one-step technique

Zhu, H.; Wang, S., 2013:
Sensitive detection of trace hemoglobin using fluorescence method based on functionalized quantum dots

Zhang, Y.; Hu, J.; Zhang, C-Yang., 2013:
Sensitive detection of transcription factors by isothermal exponential amplification-based colorimetric assay

Zhu, D.; Zhu, J.; Zhu, Y.; Wang, L.; Jiang, W., 2015:
Sensitive detection of transcription factors using an Ag(+)-stabilized self-assembly triplex DNA molecular switch

Yin, J.; Gan, P.; Zhou, F.; Wang, J., 2015:
Sensitive detection of transcription factors using near-infrared fluorescent solid-phase rolling circle amplification

Zhang, M.; Jang, C-Hyun., 2015:
Sensitive detection of trypsin using liquid-crystal droplet patterns modulated by interactions between poly-L-lysine and a phospholipid monolayer

Li, Y-Chang.; Chiou, C-Chian.; Luo, J-Dung.; Chen, W-Ju.; Su, L-Chen.; Chang, Y-Feng.; Chang, Y-Sun.; Lai, C-Sung.; Lee, C-Chung.; Chou, C., 2012:
Sensitive detection of unlabeled oligonucleotides using a paired surface plasma waves biosensor

Schelhorn, S-Eric.; Fischer, M.; Tolosi, L.; Altmüller, J.; Nürnberg, P.; Pfister, H.; Lengauer, T.; Berthold, F., 2014:
Sensitive detection of viral transcripts in human tumor transcriptomes

Watanabe, M.; Goto, K.; Sugita-Konishi, Y.; Kamata, Y.; Hara-Kudo, Y., 2013:
Sensitive detection of whole-genome differentiation among closely-related species of the genus Fusarium using DNA-DNA hybridization and a microplate technique

Kodamatani, H.; Matsuyama, A.; Saito, K.; Kono, Y.; Kanzaki, R.; Tomiyasu, T., 2013:
Sensitive determination method for mercury ion, methyl-, ethyl-, and phenyl-mercury in water and biological samples using high-performance liquid chromatography with chemiluminescence detection

Fan, K.; Luo, X.; Ping, J.; Tang, W.; Wu, J.; Ying, Y.; Zhou, Q., 2012:
Sensitive determination of (-)-epigallocatechin gallate in tea infusion using a novel ionic liquid carbon paste electrode

Ohyama, K.; Kishikawa, N.; Matayoshi, K.; Adutwum, L.Asamoah.; Wada, M.; Nakashima, K.; Kuroda, N., 2009:
Sensitive determination of 1- and 2-naphthol in human plasma by HPLC-fluorescence detection with 4-(4,5-diphenyl-1H-imidazol-2-yl)benzoyl chloride as a labeling reagent

Fontana, A.R.; Altamirano, J.C., 2010:
Sensitive determination of 2,4,6-trichloroanisole in water samples by ultrasound assisted emulsification microextraction prior to gas chromatography-tandem mass spectrometry analysis

Yao, H.; Zhang, M.; Zeng, W.; Zeng, X.; Zhang, Z., 2014:
Sensitive determination of 2-methoxyestradiol in pharmaceutical preparations and serum samples using flow injection chemiluminescence

Ren, H-Can.; Sun, J-Guo.; Wang, G-Ji.; A.J.Ye.; Xie, H-Tang.; Zha, W-Bin.; Yan, B.; Sun, F-Zhi.; Hao, H-Ping.; Gu, S-Hua.; Sheng, L-Sheng.; Shao, F.; Shi, J.; Zhou, F., 2008:
Sensitive determination of 20(S)-protopanaxadiol in rat plasma using HPLC-APCI-MS: application of pharmacokinetic study in rats

Setty, P.; Gessi, M.; Waha, A.; Hammes, J.; El-Maarri, O.; Pietsch, T.; Waha, A., 2011:
Sensitive determination of BRAF copy number in clinical samples by pyrosequencing

Sánchez-Hernández, L.; García-Ruiz, C.; Crego, A.L.; Marina, M.Luisa., 2011:
Sensitive determination of D-carnitine as enantiomeric impurity of levo-carnitine in pharmaceutical formulations by capillary electrophoresis-tandem mass spectrometry

Henry, H.; Marmy Conus, N.; Steenhout, P.; Béguin, A.; Boulat, O., 2012:
Sensitive determination of D-lactic acid and L-lactic acid in urine by high-performance liquid chromatography-tandem mass spectrometry

Wu, T.; Fang, B.; Chang, L.; Liu, M.; Chen, F., 2014:
Sensitive determination of DNA based on the interaction between prulifloxacin-terbium(III) complex and DNA

Huang, K-Jing.; Xie, W-Zhen.; Wang, H.; Zhang, H-Shan., 2007:
Sensitive determination of S-nitrosothiols in human blood by spectrofluorimetry using a fluorescent probe: 1,3,5,7-tetramethyl-8-(3',4'-diaminophenyl)-difluoroboradiaza-s-indacene

Heinig, K.; Wirz, T.; Gajate-Perez, A., 2011:
Sensitive determination of a drug candidate in dried blood spots using a TLC-MS interface integrated into a column-switching LC-MS/MS system

Olsen, R.; Ovrebø, S.; Thorud, S.; Lundanes, E.; Thomassen, Y.; Greibrokk, T.; Molander, P., 2008:
Sensitive determination of a glyoxal-DNA adduct biomarker candidate by column switching capillary liquid chromatography electrospray ionization mass spectrometry

Heinig, K.; Wirz, T.; Bucheli, F.; Monin, V.; Gloge, A., 2011:
Sensitive determination of a pharmaceutical compound and its metabolites in human plasma by ultra-high performance liquid chromatography-tandem mass spectrometry with on-line solid-phase extraction

Xu, Z.; Doi, T.; Timerbaev, A.R.; Hirokawa, T., 2008:
Sensitive determination of anions in saliva using capillary electrophoresis after transient isotachophoretic preconcentration

Taheri, S.; Jalali, F.; Fattahi, N.; Bahrami, G., 2015:
Sensitive determination of atorvastatin in human plasma by dispersive liquid-liquid microextraction and solidification of floating organic drop followed by high-performance liquid chromatography

Fan, L-Yin.; He, T.; Tang, Y-Yun.; Zhang, W.; Song, C-Jin.; Zhao, X.; Zhao, X-Yu.; Cao, C-Xi., 2012:
Sensitive determination of barbiturates in biological matrix by capillary electrophoresis using online large-volume sample stacking

Rastkari, N.; Ahmadkhaniha, R.; Yunesian, M.; Baleh, L.J.; Mesdaghinia, A., 2010:
Sensitive determination of bisphenol A and bisphenol F in canned food using a solid-phase microextraction fibre coated with single-walled carbon nanotubes before GC/MS

Shin, H-Sang., 2012:
Sensitive determination of bromate in ozonated and chlorinated water, and sea water by gas chromatography-mass spectrometry after derivatization

Razzino, C.A.; Sgobbi, Lívia.F.; Canevari, T.C.; Cancino, J.; Machado, S.A.S., 2015:
Sensitive determination of carbendazim in orange juice by electrode modified with hybrid material

Hosseini, M.; Mirzanasiri, N.; Rezapour, M.; Sheikhha, M.Hasan.; Faridbod, F.; Norouzi, P.; Ganjali, M.Reza., 2016:
Sensitive determination of carbidopa through the electrochemiluminescence of luminol at graphene-modified electrodes

Tsuruta, Y.; Maruyama, K.; Inoue, H.; Kosha, K.; Date, Y.; Okamura, N.; Eto, S.; Kojima, E., 2010:
Sensitive determination of carnosine in urine by high-performance liquid chromatography using 4-(5,6-dimethoxy-2-phthalimidinyl)-2-methoxyphenylsulfonyl chloride as a fluorescent labeling reagent

Chen, H.; Ren, J., 2012:
Sensitive determination of chromium (VI) based on the inner filter effect of upconversion luminescent nanoparticles (NaYF4:Yb3+, Er3+)

Castilleja-Rivera, W.L.; Hinojosa-Reyes, L.; Guzmán-Mar, J.L.; Hernández-Ramírez, A.; Ruíz-Ruíz, E.; Cerdà, V., 2012:
Sensitive determination of chromium (VI) in paint samples using a membrane optode coupled to a multisyringe flow injection system

Shimizu, H.; Mawatari, K.; Kitamori, T., 2010:
Sensitive determination of concentration of nonfluorescent species in an extended-nano channel by differential interference contrast thermal lens microscope

Huang, X.; Li, Y.; Wang, P.; Wang, L., 2009:
Sensitive determination of dopamine and uric acid by the use of a glassy carbon electrode modified with poly(3-methylthiophene)/gold nanoparticle composites

Mahshid, S.; Li, C.; Mahshid, S.Sadat.; Askari, M.; Dolati, A.; Yang, L.; Luo, S.; Cai, Q., 2011:
Sensitive determination of dopamine in the presence of uric acid and ascorbic acid using TiO2 nanotubes modified with Pd, Pt and Au nanoparticles

Xu, F.; Gao, M.; Wang, L.; Shi, G.; Zhang, W.; Jin, L.; Jin, J., 2008:
Sensitive determination of dopamine on poly(aminobenzoic acid) modified electrode and the application toward an experimental Parkinsonian animal model

Chen, F.; Wang, C.; Zhang, M.; Zhang, X.; Liu, Y.; Ye, J.; Chu, Q., 2014:
Sensitive determination of endogenous hexanal and heptanal in urine by hollow-fiber liquid-phase microextraction prior to capillary electrophoresis with amperometric detection

Liu, Y.; Liu, Z.; Shi, Y., 2011:
Sensitive determination of epinephrine in pharmaceutical preparation by flow injection coupled with chemiluminescence detection and mechanism study

Jiang, X.; Waterland, M.; Blackwell, L.; Wu, Y.; Jayasundera, K.P.; Partridge, A., 2009:
Sensitive determination of estriol-16-glucuronide using surface plasmon resonance sensing

Guo, Y.; Meng, L.; Zhang, Y.; Tang, W.; Zhang, W.; Xia, Y.; Ban, F.; Wu, N.; Zhang, S., 2014:
Sensitive determination of four tetracycline antibiotics in pig plasma by field-amplified sample stacking open-tubular capillary electrochromatography with dimethylethanolamine aminated polychloromethyl styrene nano-latex coated capillary column

He, X.; Xie, X.; Shao, X.; Song, Z., 2011:
Sensitive determination of gentiopicroside in medicine and bio-fluids using luminol-myoglobin chemiluminescence combined with flow injection technique

Houdier, Séphan.; Barret, M.; Dominé, F.; Charbouillot, T.; Deguillaume, L.; Voisin, D., 2011:
Sensitive determination of glyoxal, methylglyoxal and hydroxyacetaldehyde in environmental water samples by using dansylacetamidooxyamine derivatization and liquid chromatography/fluorescence

Cao, J-Tao.; Wang, H.; Chen, Y-Hong.; Liu, Y-Ming., 2015 :
Sensitive determination of hemoglobin in human blood and serum by flow injection coupled with chemiluminescence detection

Parajuli, S.; Miao, W., 2009:
Sensitive determination of hexamethylene triperoxide diamine explosives, using electrogenerated chemiluminescence enhanced by silver nitrate

Oh, J-Aa.; Park, J-Hyun.; Shin, H-Sang., 2013:
Sensitive determination of hydrazine in water by gas chromatography-mass spectrometry after derivatization with ortho-phthalaldehyde

Molina-García, Lía.; Fernández-de Córdova, M.Luisa.; Ruiz-Medina, A., 2010:
Sensitive determination of indomethacin in pharmaceuticals and urine by sequential injection analysis and optosensing

Janicka, M.; Kubica, Pł.; Kot-Wasik, A.; Kot, J.; Namieśnik, J., 2012:
Sensitive determination of isoprostanes in exhaled breath condensate samples with use of liquid chromatography-tandem mass spectrometry

Zhang, Q.; Zhang, Y.; Zhang, Z.; Lu, Z., 2009:
Sensitive determination of kaempferol in rat plasma by high-performance liquid chromatography with chemiluminescence detection and application to a pharmacokinetic study

Yang, F.; Liu, R.; Tan, Z.; Wen, X.; Zheng, C.; Lv, Y., 2010:
Sensitive determination of mercury by a miniaturized spectrophotometer after in situ single-drop microextraction

Meesters, R.J.W.; Duisken, M.; Jähnigen, H.; Hollender, J., 2008:
Sensitive determination of monoterpene alcohols in urine by HPLC-FLD combined with ESI-MS detection after online-solid phase extraction of the monoterpene-coumarincarbamate derivates

Liu, Y-Ming.; Cao, J-Tao.; Zheng, Y-Li.; Chen, Y-Hong., 2008:
Sensitive determination of norepinephrine, synephrine, and isoproterenol by capillary electrophoresis with indirect electrochemiluminescence detection

Lin, F.; Nong, S.; Huang, X.; Yuan, D., 2013:
Sensitive determination of organic acid preservatives in juices and soft drinks treated by monolith-based stir cake sorptive extraction and liquid chromatography analysis

Heinig, K.; Bucheli, F., 2008:
Sensitive determination of oseltamivir and oseltamivir carboxylate in plasma, urine, cerebrospinal fluid and brain by liquid chromatography-tandem mass spectrometry

E.H.rmoudi, H.; Achak, M.; Farahi, A.; Lahrich, S.; E.G.ini, L.; Abdennouri, M.; Bouzidi, A.; Bakasse, M.; E.M.ammedi, M.A., 2014:
Sensitive determination of paraquat by square wave anodic stripping voltammetry with chitin modified carbon paste electrode

Garbi, A.; Sakkas, V.; Fiamegos, Y.C.; Stalikas, C.D.; Albanis, T., 2010:
Sensitive determination of pesticides residues in wine samples with the aid of single-drop microextraction and response surface methodology

Li, P.; Hu, B., 2011:
Sensitive determination of phenylarsenic compounds based on a dual preconcentration method with capillary electrophoresis/UV detection

Huang, F.; Jin, G.; Liu, Y.; Kong, J., 2008:
Sensitive determination of phenylephrine and chlorprothixene at poly(4-aminobenzene sulfonic acid) modified glassy carbon electrode

Liu, Y-Long.; Chen, X-Feng.; Wang, X.; Zhou, J-Bin.; Zhao, R-Song., 2016:
Sensitive determination of polychlorinated biphenyls in environmental water samples by headspace solid-phase microextraction with bamboo charcoal@iron oxide black fibers prior to gas chromatography with tandem mass spectrometry

Huang, K-Jing.; Li, J.; Liu, Y-Ming.; Wang, L., 2013:
Sensitive determination of polycyclic aromatic hydrocarbons in water samples by HPLC coupled with SPE based on graphene functionalized with triethoxysilane

Galán-Cano, F.; Bernabé-Zafón, V.; Lucena, R.; Cárdenas, S.; Herrero-Martínez, Jé.Manuel.; Ramis-Ramos, G.; Valcárcel, M., 2011:
Sensitive determination of polycyclic aromatic hydrocarbons in water samples using monolithic capillary solid-phase extraction and on-line thermal desorption prior to gas chromatography-mass spectrometry

Lin, Z.; Sun, X.; Hu, W.; Yin, Y.; Chen, G., 2014:
Sensitive determination of positional isomers of benzenediols in human urine by boronate affinity capillary electrophoresis with chemiluminescence detection

Thomas, A.; Geyer, H.; Schänzer, W.; Crone, C.; Kellmann, M.; Moehring, T.; Thevis, M., 2012:
Sensitive determination of prohibited drugs in dried blood spots (DBS) for doping controls by means of a benchtop quadrupole/Orbitrap mass spectrometer

Guo, Y.; Yang, J.; Wu, X.; Mao, H., 2010:
Sensitive determination of protein based on the fluorescence enhancement effect of terbium (III)-epinephrine-protein-sodium dodecylsulfate system

Leonenko, I.; Aleksandrova, D.; Yegorova, A.; Antonovich, V.; Karasyov, A., 2012:
Sensitive determination of proteins by its quenching effect on fluorescence of new terbium(III) complex

Wang, H-Song.; Xiao, F-Nan.; Li, Z-Qiu.; Ouyang, J.; Wu, Z-Qiang.; Xia, X-Hua.; Zhou, G-Jun., 2014:
Sensitive determination of reactive oxygen species in cigarette smoke using microchip electrophoresis-localized surface plasmon resonance enhanced fluorescence detection

Ijiri, S.; Todoroki, K.; Yoshida, H.; Yoshitake, T.; Nohta, H.; Yamaguchi, M., 2010:
Sensitive determination of rhodamine 110-labeled monosaccharides in glycoprotein by capillary electrophoresis with laser-induced fluorescence detection

Huang, S-Wen.; Hsieh, M-Mu.; Chang, S.Y., 2013:
Sensitive determination of sertraline by capillary electrophoresis with dispersive liquid-liquid microextraction and field-amplified sample stacking

Huang, X.; Qiu, N.; Yuan, D.; Lin, Q., 2009:
Sensitive determination of strongly polar aromatic amines in water samples by stir bar sorptive extraction based on poly(vinylimidazole-divinylbenzene) monolithic material and liquid chromatographic analysis

Song, Z.; Hou, S., 2008:
Sensitive determination of sub-nanogram amounts of rutin by its inhibition on chemiluminescence with immobilized reagents

Chen, X.; You, J.; Suo, Y.; Fan, B., 2015:
Sensitive determination of taurine, γ-aminobutyric acid and ornithine in wolfberry fruit and cortex lycii by HPLC with fluorescence detection and online mass spectrometry identification

Zeeb, M.; Sadeghi, M., 2012:
Sensitive determination of terazosin in pharmaceutical formulations and biological samples by ionic-liquid microextraction prior to spectrofluorimetry

Escudero, L.B.; Wuilloud, R.G.; Olsina, R.A., 2013:
Sensitive determination of thallium species in drinking and natural water by ionic liquid-assisted ion-pairing liquid-liquid microextraction and inductively coupled plasma mass spectrometry

Nakajima, Y.; Ezekiel, S., 1986:
Sensitive determination of the existence of higher-order modes in a quasi-single-mode fiber

Mascher, D.; Tscherwenka, W.; Mascher, H.; Fischer, B., 2013:
Sensitive determination of the peptide AP301--a motif of TNF-α--from human plasma using HPLC-MS/MS

Chen, J.; Zhang, J.; Zhang, W.; Chen, Z., 2014:
Sensitive determination of the potential biomarker sarcosine for prostate cancer by LC-MS with N,N'-dicyclohexylcarbodiimide derivatization

Liu, Y-Ming.; Shi, Y-Mei.; Liu, Z-Li.; Peng, L-Fei., 2010:
Sensitive determination of tilmicosin, erythromycin ethylsuccinate and clindamycin by CE with electrochemiluminescence detection using azithromycin as internal standard and its applications

Yin, C.; Iqbal, J.; Hu, H.; Liu, B.; Zhang, L.; Zhu, B.; Du, Y., 2013:
Sensitive determination of trace mercury by UV-visible diffuse reflectance spectroscopy after complexation and membrane filtration-enrichment

Parajuli, S.; Miao, W., 2013:
Sensitive determination of triacetone triperoxide explosives using electrogenerated chemiluminescence

Gao, Y.; Xu, Y.; Han, B.; Li, J.; Xiang, Q., 2010:
Sensitive determination of verticine and verticinone in Bulbus Fritillariae by ionic liquid assisted capillary electrophoresis-electrochemiluminescence system

Surujballi, O.; Lutze-Wallace, C.; Turcotte, C.; Savic, M.; Stevenson, D.; Romanowska, A.; Monagle, W.; Berlie-Surujballi, G.; Tangorra, E., 2009:
Sensitive diagnosis of bovine tuberculosis in a farmed cervid herd with use of an MPB70 protein fluorescence polarization assay

Adams, E.R.; Gomez, M.Adelaida.; Scheske, L.; Rios, R.; Marquez, R.; Cossio, A.; Albertini, A.; Schallig, H.; Saravia, N.Gore., 2014:
Sensitive diagnosis of cutaneous leishmaniasis by lesion swab sampling coupled to qPCR

Grand, Y.L.; Floch, A.L., 1990:
Sensitive dichroism measurements using eigenstate decay times

Xiao, S.Jin.; Hu, P.Ping.; Wu, X.Dong.; Zou, Y.Li.; Chen, L.Qiang.; Peng, L.; Ling, J.; Zhen, S.Jun.; Zhan, L.; Li, Y.Fang.; Huang, C.Zhi., 2011:
Sensitive discrimination and detection of prion disease-associated isoform with a dual-aptamer strategy by developing a sandwich structure of magnetic microparticles and quantum dots

Boyd, R.W.; Heebner, J.E., 2008:
Sensitive disk resonator photonic biosensor

Wu, W.; Zhu, H.; Fan, L.; Liu, D.; Renneberg, R.; Yang, S., 2007:
Sensitive dopamine recognition by boronic acid functionalized multi-walled carbon nanotubes

Mezzanotte, L.; Que, I.; Kaijzel, E.; Branchini, B.; Roda, A.; Löwik, C., 2011:
Sensitive dual color in vivo bioluminescence imaging using a new red codon optimized firefly luciferase and a green click beetle luciferase

Maligaspe, E.; Sandanayaka, A.S.D.; Hasobe, T.; Ito, O.; D'Souza, F., 2010:
Sensitive efficiency of photoinduced electron transfer to band gaps of semiconductive single-walled carbon nanotubes with supramolecularly attached zinc porphyrin bearing pyrene glues

Wustoni, S.; Hideshima, S.; Kuroiwa, S.; Nakanishi, T.; Hashimoto, M.; Mori, Y.; Osaka, T., 2015:
Sensitive electrical detection of human prion proteins using field effect transistor biosensor with dual-ligand binding amplification

Chen, X.; Wang, Y.; Zhang, Y.; Chen, Z.; Liu, Y.; Li, Z.; Li, J., 2015:
Sensitive electrochemical aptamer biosensor for dynamic cell surface N-glycan evaluation featuring multivalent recognition and signal amplification on a dendrimer-graphene electrode interface

Wu, L.; Zhang, X.; Liu, W.; Xiong, E.; Chen, J., 2014:
Sensitive electrochemical aptasensor by coupling "signal-on'' and "signal-off'' strategies

He, C.; Xu, Z.; Sun, T.; Wang, L., 2014:
Sensitive electrochemical aptasensor for thrombin detection based on graphene served as platform and graphene oxide as enhancer

Zhu, J.; Wu, X-Yan.; Shan, D.; Yuan, P-Xin.; Zhang, X-Ji., 2015:
Sensitive electrochemical detection of NADH and ethanol at low potential based on pyrocatechol violet electrodeposited on single walled carbon nanotubes-modified pencil graphite electrode

Wang, X.; You, Z.; Sha, H.; Cheng, Y.; Zhu, H.; Sun, W., 2015:
Sensitive electrochemical detection of dopamine with a DNA/graphene bi-layer modified carbon ionic liquid electrode

Lee, A-Cheng.; Liu, G.; Heng, C-Kiat.; Tan, S-Ngin.; Lim, T-Meng.; Lin, Y., 2008:
Sensitive electrochemical detection of horseradish peroxidase at disposable screen-printed carbon electrode

Wu, L.; Yang, Y.; Zhang, H.; Zhu, G.; Zhang, X.; Chen, J., 2013:
Sensitive electrochemical detection of hydroxyl radical with biobarcode amplification

Ma, J.; Zhang, Y.; Zhang, X.; Zhu, G.; Liu, B.; Chen, J., 2012:
Sensitive electrochemical detection of nitrobenzene based on macro-/meso-porous carbon materials modified glassy carbon electrode

Santhosh, P.; Manesh, K.Manian.; Lee, S-Hee.; Uthayakumar, S.; Gopalan, A.Iyengar.; Lee, K-Pill., 2011:
Sensitive electrochemical detection of superoxide anion using gold nanoparticles distributed poly(methyl methacrylate)-polyaniline core-shell electrospun composite electrode

Tatsumi, H.; Osaku, N., 2012:
Sensitive electrochemical detection of the hydroxyl radical using enzyme-catalyzed redox cycling

Zhao, D.; Zhang, X.; Feng, L.; Qi, Q.; Wang, S., 2011:
Sensitive electrochemical determination of luteolin in peanut hulls using multi-walled carbon nanotubes modified electrode

Tang, J.; Tang, D.; Li, Q.; Su, B.; Qiu, B.; Chen, G., 2011:
Sensitive electrochemical immunoassay of carcinoembryonic antigen with signal dual-amplification using glucose oxidase and an artificial catalase

Chen, M.; Zhao, C.; Chen, W.; Weng, S.; Liu, A.; Liu, Q.; Zheng, Z.; Lin, J.; Lin, X., 2014:
Sensitive electrochemical immunoassay of metallothionein-3 based on K3[Fe(CN)6] as a redox-active signal and C-dots/Nafion film for antibody immobilization

Qi, H.; Ling, C.; Ma, Q.; Gao, Q.; Zhang, C., 2012:
Sensitive electrochemical immunosensor array for the simultaneous detection of multiple tumor markers

Li, H.; Wei, Q.; Wang, G.; Yang, M.; Qu, F.; Qian, Z., 2011:
Sensitive electrochemical immunosensor for cancer biomarker with signal enhancement based on nitrodopamine-functionalized iron oxide nanoparticles

Munge, B.S.; Fisher, J.; Millord, L.N.; Krause, C.E.; Dowd, R.S.; Rusling, J.F., 2010:
Sensitive electrochemical immunosensor for matrix metalloproteinase-3 based on single-wall carbon nanotubes

An, Y.; Jiang, X.; Bi, W.; Chen, H.; Jin, L.; Zhang, S.; Wang, C.; Zhang, W., 2012:
Sensitive electrochemical immunosensor for α-synuclein based on dual signal amplification using PAMAM dendrimer-encapsulated Au and enhanced gold nanoparticle labels

Tatsumi, H.; Tsuchiya, Y.; Sakamoto, K., 2015:
Sensitive electrochemical measurement of hydroxyl radical generation induced by the xanthine-xanthine oxidase system

Tang, X.; Zhang, T.; Liang, B.; Han, D.; Zeng, L.; Zheng, C.; Li, T.; Wei, M.; Liu, A., 2015:
Sensitive electrochemical microbial biosensor for p-nitrophenylorganophosphates based on electrode modified with cell surface-displayed organophosphorus hydrolase and ordered mesopore carbons

Zhuang, J.; Fu, L.; Xu, M.; Yang, H.; Chen, G.; Tang, D., 2013:
Sensitive electrochemical monitoring of nucleic acids coupling DNA nanostructures with hybridization chain reaction

Zhu, G.; Yi, Y.; Han, Z.; Wang, K.; Wu, X., 2015:
Sensitive electrochemical sensing for polycyclic aromatic amines based on a novel core-shell multiwalled carbon nanotubes@ graphene oxide nanoribbons heterostructure

Mao, S.; Li, W.; Long, Y.; Tu, Y.; Deng, A., 2012:
Sensitive electrochemical sensor of tryptophan based on Ag@C core-shell nanocomposite modified glassy carbon electrode

Jiang, J.; Du, X., 2015:
Sensitive electrochemical sensors for simultaneous determination of ascorbic acid, dopamine, and uric acid based on Au@Pd-reduced graphene oxide nanocomposites

Bai, H-Yu.; Del Campo, F.Javier.; Tsai, Y-Chen., 2013:
Sensitive electrochemical thrombin aptasensor based on gold disk microelectrodearrays

Wu, M-Sheng.; Yuan, D-Jing.; Xu, J-Juan.; Chen, H-Yuan., 2014:
Sensitive electrochemiluminescence biosensor based on Au-ITO hybrid bipolar electrode amplification system for cell surface protein detection

Jiang, X.; Wang, H.; Yuan, R.; Chai, Y., 2016:
Sensitive electrochemiluminescence detection for CA15-3 based on immobilizing luminol on dendrimer functionalized ZnO nanorods

Wu, M-Sheng.; Qian, G-sheng.; Xu, J-Juan.; Chen, H-Yuan., 2012:
Sensitive electrochemiluminescence detection of c-Myc mRNA in breast cancer cells on a wireless bipolar electrode

Utsumi, T.; Yoshimura, Y., 2009:
Sensitive embryonic endpoints with in ovo treatment for detecting androgenic and anti-androgenic effects of chemicals in Japanese quail (Coturnix japonica)

Ma, Y.; Zhang, H.; Rahman, Z.Ur.; Wang, W.; Li, X.; Chen, H.; Chen, X., 2015:
Sensitive enantioanalysis of β-blockers via field-amplified sample injection combined with water removal in microemulsion electrokinetic chromatography

Sueyoshi, K.; Koino, H.; Kitagawa, F.; Otsuka, K., 2013:
Sensitive enantioseparation by transient trapping-cyclodextrin electrokinetic chromatography

Szwagierczak, A.; Bultmann, S.; Schmidt, C.S.; Spada, F.; Leonhardt, H., 2010:
Sensitive enzymatic quantification of 5-hydroxymethylcytosine in genomic DNA

Shiu, C-Min.; Wang, J-Jhih.; Yu, F-Yih., 2010:
Sensitive enzyme-linked immunosorbent assay and rapid one-step immunochromatographic strip for fumonisin B1 in grain-based food and feed samples

Jahnke, A.; Mayer, P.; McLachlan, M.S., 2013:
Sensitive equilibrium sampling to study polychlorinated biphenyl disposition in Baltic Sea sediment

Wang, C.C.; Fernández, L.P.; Gómez, Mía.Roxana., 2013:
Sensitive ergotamine determination in pharmaceuticals and biological samples using cloud point preconcentration and spectrofluorimetric detection

Misiuk, W.; Tykocka, A., 2007:
Sensitive extractive spectrophotometric methods for the determination of nortriptyline hydrochloride in pharmaceutical formulations

Weiser, H.; Vitz, R.C.; Moos, H.W.; Weinstein, A., 1976:
Sensitive far uv spectrograph with a multispectral element microchannel plate detector for rocket-borne astronomy

Kang, S-Wook.; Kim, J-Lye.; Kwon, G.Taik.; Lee, Y-Jin.; Park, J.Han.Yoon.; Lim, S.Sung.; Kang, Y-Hee., 2012:
Sensitive fern (Onoclea sensibilis) extract suppresses proliferation and migration of vascular smooth muscle cells inflamed by neighboring macrophages

Marczenko, Z.; Jankowski, K., 1985:
Sensitive flotation-spectrophotometric determination of gold, based on the gold(I)-iodide-methylene blue system

Kadowaki, R.; Nakano, S.; Kawashima, T., 2008:
Sensitive flow injection colorimetry of nitrite by catalytic coupling of N-phenyl-p-phenylenediamine with N,N-dimethylaniline

Lima, L.Spazzapam.; Los Weinert, Pícia.; Pezza, L.; Pezza, H.Redigolo., 2015:
Sensitive flow-injection spectrophotometric analysis of bromopride

Oh, B.Nim.; Lee, S.; Park, H-Yeon.; Baeg, J-Ook.; Yoon, M-Young.; Kim, J., 2011:
Sensitive fluorescence assay of anthrax protective antigen with two new DNA aptamers and their binding properties

Wei, X.; Lin, W.; Ma, N.; Luo, F.; Lin, Z.; Guo, L.; Qiu, B.; Chen, G., 2012:
Sensitive fluorescence biosensor for folate receptor based on terminal protection of small-molecule-linked DNA

Luk, K.C.; Hyde, E.G.; Trojanowski, J.Q.; Lee, V.M-Y., 2007:
Sensitive fluorescence polarization technique for rapid screening of alpha-synuclein oligomerization/fibrillization inhibitors

Zheng, S.; Smith, P.; Burton, L.; Adams, M.L., 2014:
Sensitive fluorescence-based method for the rapid determination of polysorbate-80 content in therapeutic monoclonal antibody products

Oliveri, I.Pietro.; D.B.lla, S., 2011:
Sensitive fluorescent detection and Lewis basicity of aliphatic amines

Zhang, M.; Cao, X.; Li, H.; Guan, F.; Guo, J.; Shen, F.; Luo, Y.; Sun, C.; Zhang, L., 2013:
Sensitive fluorescent detection of melamine in raw milk based on the inner filter effect of Au nanoparticles on the fluorescence of CdTe quantum dots

Tani, C.; Inoue, K.; Tani, Y.; Harun-ur-Rashid, M.; Azuma, N.; Ueda, S.; Yoshida, K.; Maeda, I., 2010:
Sensitive fluorescent microplate bioassay using recombinant Escherichia coli with multiple promoter-reporter units in tandem for detection of arsenic

Chang, Q.; Zhu, L.; Jiang, G.; Tang, H., 2010:
Sensitive fluorescent probes for determination of hydrogen peroxide and glucose based on enzyme-immobilized magnetite/silica nanoparticles

Cong, W-Tao.; Hwang, S-Young.; Jin, L-Tai.; Choi, J-Kap., 2008:
Sensitive fluorescent staining for proteomic analysis of proteins in 1-D and 2-D SDS-PAGE and its comparison with SYPRO Ruby by PMF

Nakaya, M.; Oshima, M.; Takayanagi, T.; Motomizu, S.; Yamashita, H., 2011:
Sensitive fluorimetric flow injection analysis for fluoride ion with a novel reagent, 2',7'-dichlorofluorescein di-tert-butyldimethylsilyl ether

Liu, S.F., 2014:
Sensitive fluorometric method for the determination of rutin in combined tablet dosage form

Pihlasalo, S.; Pellonperä, L.; Martikkala, E.; Hänninen, P.; Härmä, H., 2011:
Sensitive fluorometric nanoparticle assays for cell counting and viability

Hiki, S.; Mawatari, K.; Aota, A.; Saito, M.; Kitamori, T., 2011:
Sensitive gas analysis system on a microchip and application for on-site monitoring of NH3 in a clean room

Kinsella, M.; Harismendy, O.; Nakano, M.; Frazer, K.A.; Bafna, V., 2011:
Sensitive gene fusion detection using ambiguously mapping RNA-Seq read pairs

Emelyanova, M.; Arkhipova, K.; Mazurenko, N.; Chudinov, A.; Demidova, I.; Zborovskaya, I.; Lyubchenko, L.; Zasedatelev, A.; Nasedkina, T., 2015:
Sensitive genotyping of somatic mutations in the EGFR, KRAS, PIK3CA, BRAF genes from NSCLC patients using hydrogel biochips

Lapko, V.N.; Miller, P.S.; Brown, G.Paul.; Islam, R.; Peters, S.K.; Sukovaty, R.L.; Ruhn, P.F.; Kafonek, C.J., 2014:
Sensitive glucagon quantification by immunochemical and LC-MS/MS methods

Tomicic, C.; Berode, Mèle., 2010:
Sensitive headspace gas chromatography analysis of free and conjugated 1-methoxy-2-propanol in urine

Weber, M., 2010:
Sensitive health data in the personal medical file: separate storage required

Urva, S.R.; Shin, B.Soo.; Yang, V.C.; Balthasar, J.P., 2009:
Sensitive high performance liquid chromatographic assay for assessment of doxorubicin pharmacokinetics in mouse plasma and tissues

Ruiz-Olmedo, M.I.; Gallegos-Perez, J.L.; Calderon-Gonzalez, K.G.; Franco-Perez, J.; Jung-Cook, H., 2009:
Sensitive high performance liquid chromatographic assay for nitazoxanide metabolite in plasma

Sim, H-Jung.; Jeong, J-Seon.; Kwon, H-Jeong.; Lee, Y-Moon.; Hong, S-Pyo., 2010:
Sensitive high-performance anion-exchange chromatographic determination of paeoniflorin and albiflorin by pulsed amperometric detection after solid-phase extraction

Kwon, H-Jeong.; Jeong, J-Seon.; Sim, H-Jung.; Lee, Y-Moon.; Kim, Y.Shik.; Hong, S-Pyo., 2009:
Sensitive high-performance liquid chromatography method of non-polar ginsenosides by alkaline-enhanced pulsed amperometric detection

Benoit-Biancamano, M-Odile.; Caron, P.; Lévesque, E.; Delage, R.; Couture, Félix.; Guillemette, C., 2007:
Sensitive high-performance liquid chromatography-tandem mass spectrometry method for quantitative analysis of mycophenolic acid and its glucuronide metabolites in human plasma and urine

Chen, W.; Lu, Z.; Li, C.Ming., 2008:
Sensitive human interleukin 5 impedimetric sensor based on polypyrrole-pyrrolepropylic acid-gold nanocomposite

Wang, Y.; Wang, D.N.; Yang, F.; Li, Z.; Yang, M., 2014:
Sensitive hydrogen sensor based on selectively infiltrated photonic crystal fiber with Pt-loaded WO₃ coating

Li, X.; Uboh, C.E.; Soma, L.R.; Liu, Y.; Guan, F.; Aurand, C.R.; Bell, D.S.; You, Y.; Chen, J.; Maylin, G.A., 2014:
Sensitive hydrophilic interaction liquid chromatography/tandem mass spectrometry method for rapid detection, quantification and confirmation of cathinone-derived designer drugs for doping control in equine plasma

Xuan, F.; Luo, X.; Hsing, I-Ming., 2012:
Sensitive immobilization-free electrochemical DNA sensor based on isothermal circular strand displacement polymerization reaction

Fan, Z.; Keum, Y.Soo.; Li, Q.X.; Shelver, W.L.; Guo, L-Hong., 2012:
Sensitive immunoassay detection of multiple environmental chemicals on protein microarrays using DNA/dye conjugate as a fluorescent label

Wang, Z.; Miu, T.; Xu, H.; Duan, N.; Ding, X.; Li, S., 2011:
Sensitive immunoassay of Listeria monocytogenes with highly fluorescent bioconjugated silica nanoparticles probe

Li, N.; Yuan, R.; Chai, Y.; Chen, S.; An, H., 2008:
Sensitive immunoassay of human chorionic gonadotrophin based on multi-walled carbon nanotube-chitosan matrix

Tang, Z.; Wu, H.; Du, D.; Wang, J.; Wang, H.; Qian, W-jun.; Bigelow, D.J.; Pounds, J.G.; Smith, R.D.; Lin, Y., 2010:
Sensitive immunoassays of nitrated fibrinogen in human biofluids

Jung, H.Jin.; Hwang, J.Na.; Seo, Y.Rok., 2007:
Sensitive immunodetection of pseudo-mutant conformation of p53 protein in human cells using immune complex with protein A conjugates

Avens, H.J.; Berron, B.J.; May, A.M.; Voigt, K.R.; Seedorf, G.J.; Balasubramaniam, V.; Bowman, C.N., 2011:
Sensitive immunofluorescent staining of cells via generation of fluorescent nanoscale polymer films in response to biorecognition

Ichinohasama, R.; Oji, Y.; Yokoyama, H.; Takeuchi, K.; Fujiwara, T.; Ishizawa, K.; Taniguchi, O.; Tsuboi, A.; Oka, Y.; Sugiyama, H., 2010:
Sensitive immunohistochemical detection of WT1 protein in tumors with anti-WT1 antibody against WT1 235 peptide

Lin, M.; Liu, Y.; Liu, C.; Yang, Z.; Huang, Y., 2016:
Sensitive immunosensor for benzo[a]pyrene detection based on dual amplification strategy of PAMAM dendrimer and amino-modified methylene blue/SiO₂ core-shell nanoparticles

Du, D.; Zou, Z.; Shin, Y.; Wang, J.; Wu, H.; Engelhard, M.H.; Liu, J.; Aksay, I.A.; Lin, Y., 2010:
Sensitive immunosensor for cancer biomarker based on dual signal amplification strategy of graphene sheets and multienzyme functionalized carbon nanospheres

Lin, J.; Wei, Z.; Zhang, H.; Shao, M., 2013:
Sensitive immunosensor for the label-free determination of tumor marker based on carbon nanotubes/mesoporous silica and graphene modified electrode

Zhu, N.; Gao, H.; Xu, Q.; Lin, Y.; Su, L.; Mao, L., 2010:
Sensitive impedimetric DNA biosensor with poly(amidoamine) dendrimer covalently attached onto carbon nanotube electronic transducers as the tether for surface confinement of probe DNA

Zhou, Y.; Tang, L.; Xie, X.; Zeng, G.; Wang, J.; Deng, Y.; Yang, G.; Zhang, C.; Zhang, Y.; Chen, J., 2015:
Sensitive impedimetric biosensor based on duplex-like DNA scaffolds and ordered mesoporous carbon nitride for silver(I) ion detection

Zehani, N.; Dzyadevych, S.V.; Kherrat, R.; Jaffrezic-Renault, N.J., 2014:
Sensitive impedimetric biosensor for direct detection of diazinon based on lipases

McEnally, C.S.; Sawyer, R.F.; Koshland, C.P.; Lucas, D., 1994:
Sensitive in situ detection of chlorinated hydrocarbons in gas mixtures

Mahanty, S.; Paredes, A.; Marzal, M.; Gonzalez, E.; Rodriguez, S.; Dorny, P.; Guerra-Giraldez, C.; Garcia, H.H.; Nash, T., 2011:
Sensitive in vitro system to assess morphological and biochemical effects of praziquantel and albendazole on Taenia solium cysts

Trekker, J.; Leten, C.; Struys, T.; Lazenka, V.V.; Argibay, B.; Micholt, L.; Lambrichts, I.; Van Roy, W.; Lagae, L.; Himmelreich, U., 2014:
Sensitive in vivo cell detection using size-optimized superparamagnetic nanoparticles

Alcudia-León, M.C.; Lendl, B.; Lucena, R.; Cárdenas, S.; Valcárcel, M., 2010:
Sensitive in-surface infrared monitoring coupled to stir membrane extraction for the selective determination of total hydrocarbon index in waters

Darwish, I.A.; Hussein, S.A.; Mahmoud, A.M.; Hassan, A.I., 2007:
Sensitive indirect spectrophotometric method for determination of h2-receptor antagonists in pharmaceutical formulations

Hollaender, W.; Schoermann, J.; Stoeber, W.; Moenig, F.J.; Schwarzer, N., 1981:
Sensitive integrated and time-resolved aerosol measurement by means of light-transmission changes of metal-coated Nuclepore filters (filter-fotometer)

Li, R.; Xu, P.; Fan, J.; Di, J.; Tu, Y.; Yan, J., 2015:
Sensitive iodate sensor based on fluorescence quenching of gold nanocluster

Zhu, Z.; Han, J.; Zhang, Y.; Zhou, Y.; Xu, N.; Zhang, B.; Gu, H.; Chen, H., 2013:
Sensitive ionization of non-volatile analytes using protein solutions as spray liquid in desorption electrospray ionization mass spectrometry

Li, Y.; Cleary, R.; Kellogg, M.; Soul, J.S.; Berry, G.T.; Jensen, F.E., 2011:
Sensitive isotope dilution liquid chromatography/tandem mass spectrometry method for quantitative analysis of bumetanide in serum and brain tissue

Xue, L.; Wang, W-Horng.; Iliuk, A.; Hu, L.; Galan, J.A.; Yu, S.; Hans, M.; Geahlen, R.L.; Tao, W.Andy., 2012:
Sensitive kinase assay linked with phosphoproteomics for identifying direct kinase substrates

Li, X.; Zhang, Z.; Qin, S.; Wang, T.; Liu, F.; Qiu, M.; Su, Y., 2009:
Sensitive label-free and compact biosensor based on concentric silicon-on-insulator microring resonators

Boriskina, S.V.; Dal Negro, L., 2008:
Sensitive label-free biosensing using critical modes in aperiodic photonic structures

Lee, K-Li.; Wang, W-Seen.; Wei, P-Kuen., 2008:
Sensitive label-free biosensors by using gap plasmons in gold nanoslits

Zhang, Y.; Yuan, R.; Chai, Y.; Xiang, Y.; Qian, X.; Zhang, H., 2010:
Sensitive label-free immunoassay of carcinoembryonic antigen based on Au-TiO2 hybrid nanocomposite film

Wang, M.; Wang, G-Xia.; Xiao, F-Nan.; Zhao, Y.; Wang, K.; Xia, X-Hua., 2014:
Sensitive label-free monitoring of protein kinase activity and inhibition using ferric ions coordinated to phosphorylated sites as electrocatalysts

Chen, J.; Jin, Y., 2011:
Sensitive lactate determination based on acclimated mixed bacteria and palygorskite co-modified oxygen electrode

Hansen, M.Celik.; Nederby, L.; Henriksen, M.Okkels-Birk.; Hansen, M.; Nyvold, C.Guldborg., 2015:
Sensitive ligand-based protein quantification using immuno-PCR: A critical review of single-probe and proximity ligation assays

Gissot, A.; D.P.imo, C.; Bestel, I.; Giannone, G.; Chapuis, H.; Barthélémy, P., 2008:
Sensitive liposomes encoded with oligonucleotide amphiphiles: a biocompatible switch

Nirogi, R.; Kandikere, V.; Mudigonda, K., 2009:
Sensitive liquid chromatography positive electrospray tandem mass spectrometry method for the quantitation of tegaserod in human plasma using liquid-liquid extraction

Nirogi, R.; Bhyrapuneni, G.; Kandikere, V.; Mudigonda, K.; Ajjala, D.; Mukkanti, K., 2008:
Sensitive liquid chromatography tandem mass spectrometry method for the quantification of Quetiapine in plasma

Jiang, Y.; Wang, J.; Rozewski, D.M.; Kolli, S.; Wu, C-Hsien.; Chen, C-Shih.; Yang, X.; Hofmeister, C.C.; Byrd, J.C.; Johnson, A.J.; Phelps, M.A., 2014:
Sensitive liquid chromatography/mass spectrometry methods for quantification of pomalidomide in mouse plasma and brain tissue

van den Broek, I.; Sparidans, R.W.; Schellens, J.H.M.; Beijnen, J.H., 2010:
Sensitive liquid chromatography/tandem mass spectrometry assay for absolute quantification of ITIH4-derived putative biomarker peptides in clinical serum samples

Zhang, G.; Terry, A.V.; Bartlett, M.G., 2007:
Sensitive liquid chromatography/tandem mass spectrometry method for the simultaneous determination of olanzapine, risperidone, 9-hydroxyrisperidone, clozapine, haloperidol and ziprasidone in rat brain tissue

Tai, Y-Hsin.; Wei, P-Kuen., 2010:
Sensitive liquid refractive index sensors using tapered optical fiber tips

Jia, K.; Bijeon, J.L.; Adam, P.M.; Ionescu, R.E., 2012:
Sensitive localized surface plasmon resonance multiplexing protocols

Sugiyama, M.; Kumano, S.; Nishimura, K.; Hasegawa, H.; Hashimoto, Y., 2013:
Sensitive low-pressure dielectric barrier discharge ion source

Chang, Y-Cheng.; Chao, P-Wen.; Tung, C-Hsuan., 2011:
Sensitive luciferin derived probes for selective carboxypeptidase activity

Zel'tser, L.E.; Talipov, S.; Verechagina, N.G., 1987:
Sensitive luminescence analysis for inorganic ions

Pihlasalo, S.; Kulmala, A.; Rozwandowicz-Jansen, A.; Hänninen, P.; Härmä, H., 2012:
Sensitive luminometric method for protein quantification in bacterial cell lysate based on particle adsorption and dissociation of chelated europium

Peters, J.H.; Hock, M.; Krohne, H.Walter., 2012:
Sensitive maintenance: a cognitive process underlying individual differences in memory for threatening information

Kitahama, Y.; Egashira, M.; Suzuki, T.; Tanabe, I.; Ozaki, Y., 2015:
Sensitive marker bands for the detection of spin states of heme in surface-enhanced resonance Raman scattering spectra of metmyoglobin

Zhang, L.; Altabet, M.A.; Wu, T.; Hadas, O., 2007:
Sensitive measurement of NH4+ 15N/14N (delta 15NH4+) at natural abundance levels in fresh and saltwaters

Henningsen, J.; Melander, N., 2008:
Sensitive measurement of adsorption dynamics with nonresonant gas phase photoacoustics

Kang, I.; Krauss, T.; Wise, F., 1997:
Sensitive measurement of nonlinear refraction and two-photon absorption by spectrally resolved two-beam coupling

Rani, S.; Mohan, D.; Kishore, N.; Purnima, 2012:
Sensitive measurement of optical nonlinearity in amorphous chalcogenide materials in nanosecond regime

Herbelin, J.M.; McKay, J.A.; Kwok, M.A.; Ueunten, R.H.; Urevig, D.S.; Spencer, D.J.; Benard, D.J., 1980:
Sensitive measurement of photon lifetime and true reflectances in an optical cavity by a phase-shift method

Ge, S-li.; Wang, H.; Wang, Z-Fang.; Cheng, S.; Wang, Q-Jiang.; He, P-Gang.; Fang, Y-Zhi., 2013:
Sensitive measurement of polyols in urine by capillary zone electrophoresis coupled with amperometric detection using on-column complexation with borate

Chou, W-C.; Hou, H-A.; Liu, C-Y.; Chen, C-Y.; Lin, L-I.; Huang, Y-N.; Chao, Y-C.; Hsu, C-A.; Huang, C-F.; Tien, H-F., 2011:
Sensitive measurement of quantity dynamics of FLT3 internal tandem duplication at early time points provides prognostic information

Yuan, C.; Kosewick, J.; He, X.; Kozak, M.; Wang, S., 2011:
Sensitive measurement of serum 1α,25-dihydroxyvitamin D by liquid chromatography/tandem mass spectrometry after removing interference with immunoaffinity extraction

Salari, R.; Kimchi-Sarfaty, C.; Gottesman, M.M.; Przytycka, T.M., 2013:
Sensitive measurement of single-nucleotide polymorphism-induced changes of RNA conformation: application to disease studies

Rand, K.N.; Molloy, P.L., 2011:
Sensitive measurement of unmethylated repeat DNA sequences by end-specific PCR

Niwa, M.; Kawashiro, T., 2011:
Sensitive measurement of vinorelbine in dog plasma by liquid chromatography-electrospray ionization tandem mass spectrometry utilizing transitions from double-charged precursor ions

Hashemi-Moghaddam, H.; Saber-Tehrani, M., 2009:
Sensitive mercury speciation by reversed-phase column high-performance liquid chromatography with UV-visible detection after solid-phase extraction using 6-mercaptopurine and dithizone

Yu, Z.; Bracero, L.A.; Chen, L.; Song, W.; Wang, X.; Zhao, B., 2013:
Sensitive metal ions (II) determination with resonance Raman method

Lin, S-Fu.; Wang, C-Ming.; Ding, T-Jou.; Tsai, Y-Lun.; Yang, T-Hsun.; Chen, W-Yih.; Chang, J-Yang., 2012:
Sensitive metal layer assisted guided mode resonance biosensor with a spectrum inversed response and strong asymmetric resonance field distribution

Langman, L.J.; Bjergum, M.W.; Williamson, C.L.; Crow, F.W., 2010:
Sensitive method for detection of cocaine and associated analytes by liquid chromatography-tandem mass spectrometry in urine

Pihlasalo, S.; Puumala, P.; Hänninen, P.; Härmä, H., 2012:
Sensitive method for determination of protein and cell concentrations based on competitive adsorption to nanoparticles and time-resolved luminescence resonance energy transfer between labeled proteins

Zander, S.A.L.; Beijnen, J.H.; van Tellingen, O., 2013:
Sensitive method for plasma and tumor Ko143 quantification using reversed-phase high-performance liquid chromatography and fluorescence detection

Biesterbos, J.W.H.; Beckmann, G.; Anzion, R.B.M.; Ragas, A.M.J.; Russel, F.G.M.; Scheepers, P.T.J., 2015:
Sensitive method for quantification of octamethylcyclotetrasiloxane (D4) and decamethylcyclopentasiloxane (D5) in end-exhaled air by thermal desorption gas chromatography mass spectrometry

Pappu, S.V.; Kennedy, C.; Scully, M.O., 1972:
Sensitive method for the detection of laser induced damage to thin film coatings

These, A.; Scholz, J.; Preiss-Weigert, A., 2009:
Sensitive method for the determination of lipophilic marine biotoxins in extracts of mussels and processed shellfish by high-performance liquid chromatography-tandem mass spectrometry based on enrichment by solid-phase extraction

Hotha, K.Kumar.; Mullangi, R.; Lakshmanarao Krishnarao, R.; Roychowdhury, S., 2015:
Sensitive method for the determination of paricalcitol by liquid chromatography and mass spectrometry and its application to a clinical pharmacokinetic study

Kiwanuka, S-Ssekintu.; Laurila, T.; Kaminski, C.F., 2010:
Sensitive method for the kinetic measurement of trace species in liquids using cavity enhanced absorption spectroscopy with broad bandwidth supercontinuum radiation

Ashour, S.; Kattan, N., 2013:
Sensitive method for the quantitative determination of risperidone in tablet dosage form by high-performance liquid chromatography using chlordiazepoxide as internal standard

Sharma, S.; Mandal, K.; Singh, B., 2014:
Sensitive methodology for simultaneous determination of residues of imidacloprid and its metabolites in sugarcane leaves and soil

Nicoś, M.; Powrózek, T.; Krawczyk, Pł.; Jarosz, Bżena.; Pająk, B.; Sawicki, M.; Kucharczyk, K.; Trojanowski, T.; Milanowski, J., 2015:
Sensitive methods for detection of the S768R substitution in exon 18 of the DDR2 gene in patients with central nervous system metastases of non-small cell lung cancer

Lundström, C.Sund.; Mattsson, A.; Lövgren, K.; Eriksson, Åsa.; Sundberg, Åsa.Liljegren.; Lundgren, M.; Nilsson, C.Estmer., 2014:
Sensitive methods for evaluation of antibodies for host cell protein analysis and screening of impurities in a vaccine process

Krawczyk, Pł.; Nicoœ, M.; Powrózek, T.; Mlak, Rław.; Sawicki, M.; Jarosz, Bżena.; Pająk, B.; Kucharczyk, K.; Stencel, D.; Trojanowski, T.; Milanowski, J., 2013:
Sensitive methods for the detection of an insertion in exon 20 of the iHER2 gene in the metastasis of non-small cell lung cancer to the central nervous system

Basarir, O.; Bramhavar, S.; Basilio-Sanchez, G.; Morse, T.; Ekinci, K.L., 2010:
Sensitive micromechanical displacement detection by scattering evanescent optical waves

Guo, Y.; Divin, C.; Myc, A.; Terry, F.L.; Baker, J.R.; Norris, T.B.; Ye, J.Y., 2008:
Sensitive molecular binding assay using a photonic crystal structure in total internal reflection

Schaad, N.; Schuenzel, E., 2010:
Sensitive molecular diagnostic assays to mitigate the risks of asymptomatic bacterial diseases of plants

Strömberg, M.; Göransson, J.; Gunnarsson, K.; Nilsson, M.; Svedlindh, P.; Strømme, M., 2008:
Sensitive molecular diagnostics using volume-amplified magnetic nanobeads

Cheng, X.; Zhao, L.; Wang, X.; Lin, J-Ming., 2007:
Sensitive monitoring of humic acid in various aquatic environments with acidic cerium chemiluminescence detection

Schmidt, L.; Belov, V.N.; Göen, T., 2014:
Sensitive monitoring of monoterpene metabolites in human urine using two-step derivatisation and positive chemical ionisation-tandem mass spectrometry

Huang, X.; Chen, L.; Chen, M.; Yuan, D.; Nong, S., 2013:
Sensitive monitoring of penicillin antibiotics in milk and honey treated by stir bar sorptive extraction based on monolith and LC-electrospray MS detection

Seto, Y.; Kanamori-Kataoka, M.; Tsuge, K.; Ohsawa, I.; Iura, K.; Itoi, T.; Sekiguchi, H.; Matsushita, K.; Yamashiro, S.; Sano, Y.; Sekiguchi, H.; Maruko, H.; Takayama, Y.; Sekioka, R.; Okumura, A.; Takada, Y.; Nagano, H.; Waki, I.; Ezawa, N.; Tanimoto, H.; Honjo, S.; Fukano, M.; Okada, H., 2013:
Sensitive monitoring of volatile chemical warfare agents in air by atmospheric pressure chemical ionization mass spectrometry with counter-flow introduction

Mercader, J.V.; López-Moreno, R.; Esteve-Turrillas, F.A.; Agulló, C.; Abad-Somovilla, A.; Abad-Fuentes, A., 2014:
Sensitive monoclonal antibody-based immunoassays for kresoxim-methyl analysis in QuEChERS-based food extracts

Chan, K.; Marras, S.A.E.; Parveen, N., 2014:
Sensitive multiplex PCR assay to differentiate Lyme spirochetes and emerging pathogens Anaplasma phagocytophilum and Babesia microti

Shin, G.Won.; Hwang, H.Sung.; Nam, H.Gil.; Oh, M-Hwa.; Jung, G.Yeol., 2010:
Sensitive multiplex RNA quantification using capillary electrophoresis-based single-strand conformation polymorphism

Laosinchai-Wolf, W.; Ye, F.; Tran, V.; Yang, Z.; White, R.; Bloom, K.; Choppa, P.; Labourier, E., 2011:
Sensitive multiplex detection of KRAS codons 12 and 13 mutations in paraffin-embedded tissue specimens

Dinish, U.S.; Balasundaram, G.; Chang, Y.Tae.; Olivo, M., 2015:
Sensitive multiplex detection of serological liver cancer biomarkers using SERS-active photonic crystal fiber probe

Sorokin, E.; Sorokina, I.T.; Mandon, J.; Guelachvili, G.; Picque, N., 2007:
Sensitive multiplex spectroscopy in the molecular fingerprint 2.4 mum region with a Cr(2+):ZnSe femtosecond laser

Wang, W.; Pang, D-Wen.; Tang, H-Wu., 2015:
Sensitive multiplexed DNA detection using silica nanoparticles as the target capturing platform

Adarsh, N.; Krishnan, M.S.; Ramaiah, D., 2014:
Sensitive naked eye detection of hydrogen sulfide and nitric oxide by aza-BODIPY dyes in aqueous medium

Ma, X.; Sheng, Z.; Jiang, L., 2015:
Sensitive naked-eye detection of Hg2+ based on the aggregation and filtration of thymine functionalized vesicles caused by selective interaction between thymine and Hg2+

Lin, L.; Liu, Y.; Yan, J.; Wang, X.; Li, J., 2013:
Sensitive nanochannel biosensor for T4 polynucleotide kinase activity and inhibition detection

Mortazavi, S.S.; Sahraei, R.; Farmany, A., 2013:
Sensitive nanosilver-based spectrophotometric determination of Brilliant Blue FCF in surface water samples

Wang, R.; Chen, L.; Liu, P.; Zhang, Q.; Wang, Y., 2012:
Sensitive near-infrared fluorescent probes for thiols based on Se-N bond cleavage: imaging in living cells and tissues

Dinçkaya, E.; Akyilmaz, E.; Sezgintürk, M.Kemal.; Ertaş, F.Nil., 2010:
Sensitive nitrate determination in water and meat samples by amperometric biosensor

Alisi, A.; Nobili, V., 2012:
Sensitive non-invasive circulating markers in paediatric non-alcoholic fatty liver disease

Jomrit, J.; Summpunn, P.; Meevootisom, V.; Wiyakrutta, S., 2011:
Sensitive non-radioactive determination of aminotransferase stereospecificity for C-4' hydrogen transfer on the coenzyme

Crawford, M., 1986:
Sensitive nuclear technology escapes detailed export review

Luchansky, M.S.; Washburn, A.L.; McClellan, M.S.; Bailey, R.C., 2011:
Sensitive on-chip detection of a protein biomarker in human serum and plasma over an extended dynamic range using silicon photonic microring resonators and sub-micron beads

Lund-Olesen, T.; Dufva, M.; Dahl, J.Arne.; Collas, P.; Hansen, M.Fougt., 2008:
Sensitive on-chip quantitative real-time PCR performed on an adaptable and robust platform

Rabin, M-Paule.; Testard, I.; Landazuri, F., 2012:
Sensitive paranoia, concepts and a clinical case study

Feldman, R.; Zagoory-Sharon, O.; Weisman, O.; Schneiderman, I.; Gordon, I.; Maoz, R.; Shalev, I.; Ebstein, R.P., 2012:
Sensitive parenting is associated with plasma oxytocin and polymorphisms in the OXTR and CD38 genes

Sweeny, T.D.; Wurnitsch, N.; Gopnik, A.; Whitney, D., 2014:
Sensitive perception of a person's direction of walking by 4-year-old children

Bedny, M.; Konkle, T.; Pelphrey, K.; Saxe, R.; Pascual-Leone, A., 2011:
Sensitive period for a multimodal response in human visual motion area MT/MST

Li, Y.; Ding, G.; Booth, J.R.; Huang, R.; Lv, Y.; Zang, Y.; He, Y.; Peng, D., 2012:
Sensitive period for white-matter connectivity of superior temporal cortex in deaf people

Tsubaki, M.; Tomii, K.; Sese, J., 2018:
Compound-protein interaction prediction with end-to-end learning of neural networks for graphs and sequences

Guttmannova, K.; Bailey, J.A.; Hill, K.G.; Lee, J.Olivia.; Hawkins, J.David.; Woods, M.Lacey.; Catalano, R.F., 2011:
Sensitive periods for adolescent alcohol use initiation: predicting the lifetime occurrence and chronicity of alcohol problems in adulthood

de Vries, G.J.; Fields, C.T.; Peters, N.V.; Whylings, J.; Paul, M.J., 2014:
Sensitive periods for hormonal programming of the brain

Zevin, J.D.; Datta, H.; Skipper, J.I., 2012:
Sensitive periods for language and recovery from stroke: conceptual and practical parallels

Roeder, K.M.; Cole, D.A.; Sinclair, K.R.; Dukewich, T.L.; Preacher, K.J.; Felton, J.W.; Jacky, A.; Tilghman-Osborne, C., 2015:
Sensitive periods for the effect of peer victimization on self-cognition: moderation by age and gender

Röder, B.; Ley, P.; Shenoy, B.H.; Kekunnaya, R.; Bottari, D., 2013:
Sensitive periods for the functional specialization of the neural system for human face processing

Nagy, C.; Turecki, G., 2012:
Sensitive periods in epigenetics: bringing us closer to complex behavioral phenotypes

King, E.C.; Pattwell, S.S.; Glatt, C.E.; Lee, F.S., 2014:
Sensitive periods in fear learning and memory

Pechtel, P.; Lyons-Ruth, K.; Anderson, C.M.; Teicher, M.H., 2015:
Sensitive periods of amygdala development: the role of maltreatment in preadolescence

Zeng, L-Qing.; Liu, J-Ming.; Li, F-Ming.; Huang, X-Mei.; Lin, L-Ping.; Wang, X-Xing.; Zhang, L-Hong.; Lin, C-Qing., 2011:
Sensitive phosphorimetric determination of bumetanide in human urine with its inhibition effect on the formation of [Fe-morin]3+ complex

Hao, Y.; Liu, L.; Long, Y.; Wang, J.; Liu, Y-Nian.; Zhou, F., 2013:
Sensitive photoluminescent detection of Cu2+ in real samples using CdS quantum dots in combination with a Cu(2+)-reducing reaction

Okada, T.; Andou, H.; Moriyama, Y.; Maeda, M., 1989:
Sensitive photon detector based on selective laser ionization

Boccara, A.C.; Fournier, D.; Jackson, W.; Amer, N.M., 1980:
Sensitive photothermal deflection technique for measuring absorption in optically thin media

Anighoro, A.; Bajorath, Jürgen., 2018:
Compound Ranking Based on Fuzzy Three-Dimensional Similarity Improves the Performance of Docking into Homology Models of G-Protein-Coupled Receptors

Darmanis, S.; Nong, R.Yuan.; Hammond, M.; Gu, J.; Alderborn, A.; Vänelid, J.; Siegbahn, A.; Gustafsdottir, S.; Ericsson, O.; Landegren, U.; Kamali-Moghaddam, M., 2010:
Sensitive plasma protein analysis by microparticle-based proximity ligation assays

Xu, J.; Jiang, B.; Xie, J.; Xiang, Y.; Yuan, R.; Chai, Y., 2013:
Sensitive point-of-care monitoring of HIV related DNA sequences with a personal glucometer

Wang, Q.; Liu, F.; Yang, X.; Wang, K.; Wang, H.; Deng, X., 2015:
Sensitive point-of-care monitoring of cardiac biomarker myoglobin using aptamer and ubiquitous personal glucose meter

Jain, A.; Jain, A.; Jain, A., 2013:
Sensitive polarographic electrochemical determination of clarithromycin in blood serum

Burch, G.E., 1948:
Sensitive portable plethysmograph

Xu, Z.; Okada, J.; Timerbaev, A.R.; Hirokawa, T., 2010:
Sensitive profiling of biogenic amines in urine using CE with transient isotachophoretic preconcentration

Liu, Y.; Guo, C.Xian.; Hu, W.; Lu, Z.; Li, C.Ming., 2011:
Sensitive protein microarray synergistically amplified by polymer brush-enhanced immobilizations of both probe and reporter

Yuan, Y.; Gao, M.; Liu, G.; Chai, Y.; Wei, S.; Yuan, R., 2014:
Sensitive pseudobienzyme electrocatalytic DNA biosensor for mercury(II) ion by using the autonomously assembled hemin/G-quadruplex DNAzyme nanowires for signal amplification

Takagi, A.; Miyao, M.; Ishihara, S.; Sakakibara, H.; Kondo, T.; Toyoshima, H.; Kono, K.; Iguchi, A., 1999:
Sensitive pupil response of early-onset alzheimer's patients to a dilute mixture of cholinergic antagonist and α-Adrenergic stimulant

Donhauser, S.Christian.; Niessner, R.; Seidel, M., 2011:
Sensitive quantification of Escherichia coli O157:H7, Salmonella enterica , and Campylobacter jejuni by combining stopped polymerase chain reaction with chemiluminescence flow-through DNA microarray analysis

Cox, H.D.; Hughes, C.M.; Eichner, D., 2015:
Sensitive quantification of IGF-1 and its synthetic analogs in dried blood spots

Su, Y-Cheng.; Chen, B-Mae.; Chuang, K-Hsiang.; Cheng, T-Lu.; Roffler, S.R., 2010:
Sensitive quantification of PEGylated compounds by second-generation anti-poly(ethylene glycol) monoclonal antibodies

Xiong, X.; Zhai, S.; Yao, Z., 2009:
Sensitive quantification of bulleyaconitine A in human serum by liquid chromatography-tandem mass spectrometry

Wohlfarth, A.; Toepfner, N.; Hermanns-Clausen, M.; Auwärter, V., 2011:
Sensitive quantification of clozapine and its main metabolites norclozapine and clozapine-N-oxide in serum and urine using LC-MS/MS after simple liquid-liquid extraction work-up

Birka, M.; Wehe, C.A.; Telgmann, L.; Sperling, M.; Karst, U., 2014:
Sensitive quantification of gadolinium-based magnetic resonance imaging contrast agents in surface waters using hydrophilic interaction liquid chromatography and inductively coupled plasma sector field mass spectrometry

Hu, Y.; Jia, H.; Wang, Y.; Cheng, Y.; Li, Z., 2015:
Sensitive quantification of messenger RNA with a real-time ligase chain reaction by using a ribonucleotide-modified DNA probe

Knebel, N.G.; Herzog, R.; Reutter, F.; Zech, K., 2012:
Sensitive quantification of roflumilast and roflumilast N-oxide in human plasma by LC-MS/MS employing parallel chromatography and electrospray ionisation

Mueller, D.M.; Rentsch, K.M., 2010:
Sensitive quantification of sirolimus and everolimus by LC-MS/MS with online sample cleanup

Hirani, R.; Connolly, A.R.; Putral, L.; Dobrovic, A.; Trau, M., 2012:
Sensitive quantification of somatic mutations using molecular inversion probes

Abbasi, S.; Farmany, A.; Roushani, M.; Mortazavi, S.Shima., 2014:
Sensitive quantification of trace zinc in water samples by adsorptive stripping voltammetry

Li, Y.; Zhou, D.; Xia, C.; Wang, P.G.; Levery, S.B., 2007:
Sensitive quantitation of isoglobotriaosylceramide in the presence of isobaric components using electrospray ionization-ion trap mass spectrometry

Goh, H-Gyung.; Lin, M.; Fukushima, T.; Saglio, G.; Kim, D.; Choi, S-Young.; Kim, S-Hyun.; Lee, J.; Lee, Y-Seok.; Oh, S-Mi.; Kim, D-Wook. , 2011:
Sensitive quantitation of minimal residual disease in chronic myeloid leukemia using nanofluidic digital polymerase chain reaction assay

Pinto, E.; Melo, A.; Ferreira, I.M.P.L.V.O., 2015:
Sensitive quantitation of polyamines in plant foods by ultrasound-assisted benzoylation and dispersive liquid-liquid microextraction with the aid of experimental designs

Turnpenny, P.; Fraier, D., 2008:
Sensitive quantitation of reboxetine enantiomers in rat plasma and brain, using an optimised reverse phase chiral LC-MS/MS method

Harigaya, K.; Yamada, H.; Horimoto, S.; Nishi, H.; Haginaka, J., 2015:
Sensitive quantitation of residual phenylhydrazine in antipyrine by LC-ICP-MS with iodo derivatization

Newman, M.; Blyth, B.J.; Hussey, D.J.; Jardine, D.; Sykes, P.J.; Ormsby, R.J., 2012:
Sensitive quantitative analysis of murine LINE1 DNA methylation using high resolution melt analysis

Yano, Y.; Yano, T.; Kinoshita, A.; Matoba, A.; Hasuma, T.; Wanibuchi, H.; Morimura, K.; Otani, S.; Fukushima, S., 2010:
Sensitive quantitative assay for point mutations in the rat H-ras gene based on single nucleotide primer extension

Acker, C.M.; Forest, S.K.; Zinkowski, R.; Davies, P.; d'Abramo, C., 2013:
Sensitive quantitative assays for tau and phospho-tau in transgenic mouse models

Inoue, Y.; Nakaho, K., 2015:
Sensitive quantitative detection of Ralstonia solanacearum in soil by the most probable number-polymerase chain reaction (MPN-PCR) method

Härmä, H.; Dähne, L.; Pihlasalo, S.; Suojanen, J.; Peltonen, J.; Hänninen, P., 2008:
Sensitive quantitative protein concentration method using luminescent resonance energy transfer on a layer-by-layer europium(III) chelate particle sensor

Marcus, A.; Short, A.H., 1983:
Sensitive questions

Tourangeau, R.; Yan, T., 2007:
Sensitive questions in surveys

Waggoner, J.J.; Balassiano, I.; Abeynayake, J.; Sahoo, M.K.; Mohamed-Hadley, A.; Liu, Y.; Vital-Brazil, J.Magalhães.; Pinsky, B.A., 2015:
Sensitive real-time PCR detection of pathogenic Leptospira spp. and a comparison of nucleic acid amplification methods for the diagnosis of leptospirosis

Calhoun, W.R.; Maeta, H.; Roy, S.; Bali, L.M.; Bali, S., 2010:
Sensitive real-time measurement of the refractive index and attenuation coefficient of milk and milk-cream mixtures

Nikitakis, N.G.; Brooks, J.K., 2011:
Sensitive red bumps on the tongue. Transient lingual papillitis

Hosoi, R.; Kashiwagi, Y.; Tokumura, M.; Abe, K.; Hatazawa, J.; Inoue, O., 2007:
Sensitive reduction in 14C-acetate uptake in a short-term ischemic rat brain

Oates, T.C.; Burgess, L.W., 2012:
Sensitive refractive index detection using a broad-band optical ring resonator

Abel, C.; Kössl, M., 2008:
Sensitive response to low-frequency cochlear distortion products in the auditory midbrain

Pauwels, S.; Antonio, L.; Jans, I.; Lintermans, A.; Neven, P.; Claessens, F.; Decallonne, B.; Billen, J.; Vanderschueren, D.; Vermeersch, P., 2014:
Sensitive routine liquid chromatography-tandem mass spectrometry method for serum estradiol and estrone without derivatization

Zhou, F.; Wang, M.; Yuan, L.; Cheng, Z.; Wu, Z.; Chen, H., 2012:
Sensitive sandwich ELISA based on a gold nanoparticle layer for cancer detection

Dai, Y.; Cai, Y.; Zhao, Y.; Wu, D.; Liu, B.; Li, R.; Yang, M.; Wei, Q.; Du, B.; Li, H., 2012:
Sensitive sandwich electrochemical immunosensor for alpha fetoprotein based on prussian blue modified hydroxyapatite

Liu, R.; Xing, Z.; Lv, Y.; Zhang, S.; Zhang, X., 2011:
Sensitive sandwich immunoassay based on single particle mode inductively coupled plasma mass spectrometry detection

Godse, K.; Zawar, V., 2012:
Sensitive scalp

Pasteran, F.; Mendez, T.; Guerriero, L.; Rapoport, M.; Corso, A., 2009:
Sensitive screening tests for suspected class A carbapenemase production in species of Enterobacteriaceae

Erdem, A.; Kuralay, F.; Çubukçu, H.Evren.; Congur, G.; Karadeniz, H.; Canavar, E., 2012:
Sensitive sepiolite-carbon nanotubes based disposable electrodes for direct detection of DNA and anticancer drug-DNA interactions

Huang, G.; Wang, C.; Ma, L.; Yang, X.; Yang, X.; Wang, G., 2011:
Sensitive sequence-specific molecular identification system comprising an aluminum micro-nanofluidic chip and associated real-time confocal detector

Zisiou, E-Pavlina.; Pinto, P.C.A.G.; Saraiva, M.Lúcia.M.F.S.; Siquet, C.; Lima, Jé.L.F.C., 2008:
Sensitive sequential injection determination of naproxen based on interaction with beta-cyclodextrin

Vidal, M.T.; Chisvert, A.; Salvador, A., 2008:
Sensitive sequential-injection system for the determination of 2-phenylbenzimidazole-5-sulphonic acid in human urine samples using on-line solid-phase extraction coupled with fluorimetric detection

Duller, D.; Stiegler, P.; Schweiger, M.; Kahn, J.; Kniepeiss, D.; Jakoby, E.; Tscheliessnigg, K.; Iberer, F., 2007:
Sensitive serum parameters for hepatocellular carcinoma recurrence monitoring after liver transplantation: a case report

Anonymous, 2008:
Sensitive side shown in pounds 3.7m new build

McCullen, N.J.; Mullin, T.; Golubitsky, M., 2007:
Sensitive signal detection using a feed-forward oscillator network

Zhang, N.; Qu, F.; Luo, H.Qun.; Li, N.Bing., 2013:
Sensitive signal-on fluorescent sensing for copper ions based on the polyethyleneimine-capped silver nanoclusters-cysteine system

Gimenes, Fícia.; Medina, F.Soares.; Abreu, Aé.Luelsdorf.Pimenta.de.; Irie, M.Mayumi.Taguti.; Esquiçati, I.Baroni.; Malagutti, Nália.; Vasconcellos, Vícius.Rodrigo.Bulla.; Discacciati, M.Garcia.; Bonini, M.Gialluisi.; Maria-Engler, S.Stuchi.; Consolaro, M.Edilaine.Lopes., 2015:
Sensitive simultaneous detection of seven sexually transmitted agents in semen by multiplex-PCR and of HPV by single PCR

Mascher, H.J.; Zech, K.; Mascher, D.G., 2008:
Sensitive simultaneous determination of ciclesonide, ciclesonide-M1-metabolite and fluticasone propionate in human serum by HPLC-MS/MS with APPI

Zhang, B.; Lan, T.; Huang, X.; Dong, C.; Ren, J., 2014:
Sensitive single particle method for characterizing rapid rotational and translational diffusion and aspect ratio of anisotropic nanoparticles and its application in immunoassays

Zhang, R.; Zhao, D.; Ding, H-Guo.; Huang, Y-Xiang.; Zhong, H-Zheng.; Xie, H-Yan., 2014:
Sensitive single-color fluorescence "off-on" switch system for dsDNA detection based on quantum dots-ruthenium assembling dyads

Misery, L., 2012:
Sensitive skin and rosacea: nosologic framework

Taieb, C.; Auges, M.; Georgescu, V.; Perez Cullell, N.; Miséry, L., 2015:
Sensitive skin in Brazil and Russia: an epidemiological and comparative approach

Misery, L.; Boussetta, S.; Nocera, T.; Perez-Cullell, N.; Taieb, C., 2009:
Sensitive skin in Europe

Escalas-Taberner, J.; González-Guerra, E.; Guerra-Tapia, A., 2012:
Sensitive skin: a complex syndrome

Inamadar, A.C.; Palit, A., 2013:
Sensitive skin: an overview

Farage, M.A.; Maibach, H.I., 2010:
Sensitive skin: closing in on a physiological cause

Misery, L.; Myon, E.; Martin, N.; Consoli, S.; Boussetta, S.; Nocera, T.; Taieb, C., 2007:
Sensitive skin: psychological effects and seasonal changes

Schlaf, G.; Pollok-Kopp, B.; Altermann, W.W., 2014:
Sensitive solid-phase detection of donor-specific antibodies as an aid highly relevant to improving allograft outcomes

Konstantatos, G.; Levina, L.; Tang, J.; Sargent, E.H., 2008:
Sensitive solution-processed Bi2S3 nanocrystalline photodetectors

Shen, Y.; Yang, X-Feng.; Wu, Y.; Li, C., 2007:
Sensitive spectrofluorimetric determination of cytochrome C with spirocyclic rhodamine B hydrazide in micellar medium

Pal, B.K.; Sahedur Rahman, M., 2008:
Sensitive spectrofluorimetric determination of ruthenium at nanotrace levels using 2-(alpha-pyridyl) thioquinaldinamide [PTQA

Shahnawaz, S.; Siddiqui, Z.; Hoda, Q., 2011:
Sensitive spectrofluorimetric method of analysis for venlafaxine in spiked rat plasma and formulations

Zhan, L.; Peng, L.; Yu, Y.; Zhen, S.Jun.; Huang, C.Zhi., 2013:
Sensitive spectrofluorometry of cellular prion protein based on the on-off interaction between fluorescent dye-labelled aptamers and multi-walled carbon nanotubes

Aderibigbe, S.A.; Adegoke, O.A.; Idowu, O.S.; Olaleye, S.O., 2012:
Sensitive spectrophotometric determination of aceclofenac following azo dye formation with 4-carboxyl-2,6-dinitrobenzene diazonium ion

Prashanth, K.N.; Basavaiah, K., 2012:
Sensitive spectrophotometric determination of atenolol in pharmaceutical formulations using bromate-bromide mixture as an eco-friendly brominating agent

Fu-Sheng, W.; Pei-Hua, Q.; Nai-Kui, S.; Fang, Y., 1981:
Sensitive spectrophotometric determination of nickel(II) with 2-(5-bromo-2-pyridylazo)-5-diethylaminophenol

Zhang, C.P.; Qi, D.Y.; Zhou, T.Z., 1982:
Sensitive spectrophotometric determination of traces of zirconium with 2-(6-bromo-2-benzothiazolylazo)-5-diethylaminophenol in the presence of sodium lauryl sulphate

Abdallah, O.M., 2010:
Sensitive spectrophotometric method for quantitation of guaifenesin and dropropizine in their dosage forms

Prakash, O.; Kumar, S.; Mushran, S.P., 1979:
Sensitive spectrophotometric method for trace amounts of uranium

Campbell, J.W., 1972:
Sensitive stellar photometer with a cassegrainian optical system for use in the 1300-2000-a region

Demming, A., 2012:
Sensitive structures: refractive indices in nanotechnology

García-Arieta, A., 2012:
Sensitive studies with a significant dose-response curve for inhaled corticosteroids to investigate equivalent relative potency are feasible

Conde, C., 2016:
Sensitive subjects

Capps, R.; Fix, M., 2014:
Sensitive subjects: research choices and presentational challenges in studying immigrant children and families

Fan, J.; Li, R.; Xu, P.; Di, J.; Tu, Y.; Yan, J., 2015:
Sensitive sulfide sensor with a trypsin-stabilized gold nanocluster

Twig, Y.; Suhovoy, E.; Blank, A., 2011:
Sensitive surface loop-gap microresonators for electron spin resonance

Wang, M.; D.V.vo, B.; Lu, W.; Muniz-Miranda, M., 2014:
Sensitive surface-enhanced Raman scattering (SERS) detection of nitroaromatic pollutants in water

Kroll, M.W.; Calkins, H.; Luceri, R.M.; Graham, M.A.; Heegaard, W.G., 2009:
Sensitive swine and TASER electronic control devices

Scott, W.R.; Muldawer, L.; Graber, M.A., 1974:
Sensitive technique for measuring differences in reflectivity

Yarmchuk, E.J.; Glaberson, W.I., 1978:
Sensitive temperature gradiometer for use at low temperatures

Wei, X.; Hunt, G.; Abdool Karim, S.S.; Naranbhai, V.; Sibeko, S.; Abdool Karim, Q.; Li, J-Fen.; Kashuba, A.D.M.; Werner, L.; Passmore, J-Ann.S.; Morris, L.; Heneine, W.; Johnson, J.A., 2014:
Sensitive tenofovir resistance screening of HIV-1 from the genital and blood compartments of women with breakthrough infections in the CAPRISA 004 tenofovir gel trial

Duerkop, A.; Aleksandrova, D.; Scripinets, Y.; Yegorova, A.; Vityukova, E., 2008:
Sensitive terbium probes for luminescent determination of both alkaline phosphatase and codeine phosphate

Kasper, J.C.; Maruca, B.A.; Stevens, M.L.; Zaslavsky, A., 2013:
Sensitive test for ion-cyclotron resonant heating in the solar wind

Leonard, I.; Alfalou, A.; Brosseau, C., 2014:
Sensitive test for sea mine identification based on polarization-aided image processing

Geretti, A.Maria.; Conibear, T.; Hill, A.; Johnson, J.A.; Tambuyzer, L.; Thys, K.; Vingerhoets, J.; Van Delft, Y.; Rieger, A.; Vetter, N.; Greil, R.; Pedersen, C.; Storgaard, M.; Morlat, P.; Katlama, C.; Durant, J.; Cotte, L.; Duvivier, C.; Rey, D.; Esser, S.; Stellbrink, C.; Schmidt, W.; Stoll, M.; Stephan, C.; Fatkenheuer, G.; Stoehr, A.; Rockstroh, J.; Banhegyi, D.; Itzchak, L.; Shahar, E.; Maayan, S.; Turner, D.; Lazzarin, A.; Antinori, A.; Carosi, G.; Minoli, L.; di Perri, G.; Filice, G.; A, 2014:
Sensitive testing of plasma HIV-1 RNA and Sanger sequencing of cellular HIV-1 DNA for the detection of drug resistance prior to starting first-line antiretroviral therapy with etravirine or efavirenz

Garg, B.S.; Mehta, Y.L.; Katyal, M., 1976:
Sensitive tests for nitrite through azo-dye formation

Ahumada, O.; Pérez-Madrigal, M.M.; Ramirez, J.; Curcó, D.; Esteves, C.; Salvador-Matar, A.; Luongo, G.; Armelin, E.; Puiggalí, J.; Alemán, C., 2013:
Sensitive thermal transitions of nanoscale polymer samples using the bimetallic effect: application to ultra-thin polythiophene

Li, M.; Sheng, E.; Yuan, Y.; Liu, X.; Hua, X.; Wang, M., 2014 :
Sensitive time-resolved fluoroimmunoassay for quantitative determination of clothianidin in agricultural samples

Meredith, R.M.; Dawitz, J.; Kramvis, I., 2012:
Sensitive time-windows for susceptibility in neurodevelopmental disorders

Kim, S.Youl.; Yang, E.Sun.; Lee, Y.Sup.; Lee, J.; Park, J-Woo., 2011:
Sensitive to apoptosis gene protein regulates ionizing radiation-induced apoptosis

Kooiman, L.A.M.; Jansen, B.J.A.; Peeters, F.P.M.L., 2007:
Sensitive to change: neuroendocrinologic aspects of depression in women

Weinstein, J., 2012:
Sensitive to emotional needs

Dijk, D-Jan., 2014:
Sensitive to sleep loss or not: neurons, working memory, insomnia and the heart

Tranchart, S.; Bachir, I.H.; Destombes, J.L., 1996:
Sensitive trace gas detection with near-infrared laser diodes and an integrating sphere

Mikhnenko, O.V.; Blom, P.W.M.; Loi, M.Antonietta., 2011:
Sensitive triplet exciton detection in polyfluorene using Pd-coordinated porphyrin

Keller, T.; Zeller, T.; Peetz, D.; Tzikas, S.; Roth, A.; Czyz, E.; Bickel, C.; Baldus, S.; Warnholtz, A.; Fröhlich, M.; Sinning, C.R.; Eleftheriadis, M.S.; Wild, P.S.; Schnabel, R.B.; Lubos, E.; Jachmann, N.; Genth-Zotz, S.; Post, F.; Nicaud, V.; Tiret, L.; Lackner, K.J.; Münzel, T.F.; Blankenberg, S., 2009:
Sensitive troponin I assay in early diagnosis of acute myocardial infarction

Clough, J.D.; Martin, S.S.; Cope, M.W., 2011:
Sensitive troponin I assay in patients with suspected acute coronary syndrome

Ndrepepa, G.; Braun, S.; Schulz, S.; Fusaro, M.; Keta, D.; Pache, Jürgen.; Seyfarth, M.; Mehilli, J.; Schömig, A.; Kastrati, A., 2012:
Sensitive troponin and N-terminal probrain natriuretic peptide in stable angina

Reed, M.J.; Mills, N.L.; Weir, C.J., 2013:
Sensitive troponin assay predicts outcome in syncope

Boukili, M.Y., 2013:
Sensitive troponin: A new definition of acute myocardial infarction?

Artunc, F.; Mueller, C.; Breidthardt, T.; Twerenbold, R.; Peter, A.; Thamer, C.; Weyrich, P.; Haering, H-Ulrich.; Friedrich, B., 2013:
Sensitive troponins--which suits better for hemodialysis patients? Associated factors and prediction of mortality

Shang, L.; Jin, L.; Dong, S., 2009:
Sensitive turn-on fluorescent detection of cyanide based on the dissolution of fluorophore functionalized gold nanoparticles

Guo, L.; Zhong, J.; Wu, J.; Fu, F.; Chen, G.; Chen, Y.; Zheng, X.; Lin, S., 2011:
Sensitive turn-on fluorescent detection of melamine based on fluorescence resonance energy transfer

Huang, S.Tian.; Shi, Y.; Li, N.Bing.; Luo, H.Qun., 2012:
Sensitive turn-on fluorescent detection of tartrazine based on fluorescence resonance energy transfer

Wallace, K.D.; Marsh, J.N.; Baldwin, S.L.; Connolly, A.M.; Keeling, R.; Lanza, G.M.; Wickline, S.A.; Hughes, M.S., 2007:
Sensitive ultrasonic delineation of steroid treatment in living dystrophic mice with energy-based and entropy-based radio frequency signal processing

Cretin, B.; Vairac, P.; Jachez, N.; Pergaud, J., 2007:
Sensitive ultrasonic vibrometer for very low frequency applications

Pal, A.B., 1948:
Sensitive ultraviolet meters

Das, D.; Mondal, T.Kumar.; Mobin, S.M.; Lahiri, G.Kumar., 2009:
Sensitive valence structures of [(pap)(2)Ru(Q)](n) (n = +2, +1, 0, -1, -2) with two different redox noninnocent ligands, Q = 3,5-Di-tert-butyl-N-aryl-1,2-benzoquinonemonoimine and pap = 2-phenylazopyridine

Bruner, E.C., 1972:
Sensitive visual test for concave diffraction gratings

Wang, Z.; Zheng, Z.; Wang, K.; Su, Y.; Liu, L.; Song, L.; Bian, Y.; Hou, R.; Li, S.; Zhu, J., 2012:
Sensitive voltage interrogation method using electro-optically tunable SPR sensors

Hung, W-Chi.; Chen, Y-Jen.; Lin, C-Huey.; Jiang, I-Min.; Hsu, T-Fang., 2009:
Sensitive voltage-dependent diffraction of a liquid crystal Fresnel lens

Hasebe, Y.; Wang, Y., 2014:
Sensitive voltammetric and amperometric responses of respiratory toxins at hemin-adsorbed carbon-felt

Wang, F.; Zhao, F.; Zhang, Y.; Yang, H.; Ye, B., 2011:
Sensitive voltammetric determination of baicalein at DNA Langmuir-Blodgett film modified glassy carbon electrode

Ghadimi, H.; Tehrani, R.M.A.; Ali, A.Salhin.Mohamed.; Mohamed, N.; A.G.ani, S., 2013:
Sensitive voltammetric determination of paracetamol by poly (4-vinylpyridine)/multiwalled carbon nanotubes modified glassy carbon electrode

Tyszczuk, K., 2009:
Sensitive voltammetric determination of rutin at an in situ plated lead film electrode

Zhang, Y.; Zheng, J., 2008 :
Sensitive voltammetric determination of rutin at an ionic liquid modified carbon paste electrode

Deng, P.; Fei, J.; Feng, Y., 2012:
Sensitive voltammetric determination of tryptophan using an acetylene black paste electrode modified with a Schiff's base derivative of chitosan

Huang, K-Jing.; Luo, D-Fa.; Xie, W-Zhen.; Yu, Y-Sheng., 2007:
Sensitive voltammetric determination of tyrosine using multi-walled carbon nanotubes/4-aminobenzeresulfonic acid film-coated glassy carbon electrode

Shang, L.; Zhao, F.; Zeng, B., 2015:
Sensitive voltammetric determination of vanillin with an AuPd nanoparticles-graphene composite modified electrode

Wang, L.; Yang, R.; Chen, J.; Li, J.; Qu, L.; de B Harrington, P., 2015:
Sensitive voltammetric sensor based on isopropanol-Nafion-PSS-GR nanocomposite modified glassy carbon electrode for determination of clenbuterol in pork

Goyal, R.N.; Bishnoi, S., 2011:
Sensitive voltammetric sensor for the determination of oxidative DNA damage in calf thymus DNA

Lauter, G.; Söll, I.; Hauptmann, G., 2014:
Sensitive whole-mount fluorescent in situ hybridization in zebrafish using enhanced tyramide signal amplification

Campion, S.N.; Davenport, S.J.; Nowland, W.S.; Cappon, G.D.; Bowman, C.J.; Hurtt, M.E., 2013:
Sensitive windows of skeletal development in rabbits determined by hydroxyurea exposure at different times throughout gestation

Wilhelm, R.; Szeitz, Aás.; Klassen, T.L.; Mohn, W.W., 2015:
Sensitive, Efficient Quantitation of 13C-Enriched Nucleic Acids via Ultrahigh-Performance Liquid Chromatography-Tandem Mass Spectrometry for Applications in Stable Isotope Probing

Chen, G.; Liu, J.; Liu, M.; Li, G.; Sun, Z.; Zhang, S.; Song, C.; Wang, H.; Suo, Y.; You, J., 2014:
Sensitive, accurate and rapid detection of trace aliphatic amines in environmental samples with ultrasonic-assisted derivatization microextraction using a new fluorescent reagent for high performance liquid chromatography

Qin, W.; Tao, H.; Chen, Y.; Chen, Z.; Wu, N., 2012:
Sensitive, accurate and simple liquid chromatography-tandem mass spectrometric method for the quantitation of amphotericin B in human or minipig plasma

Rostami, A.; Dolatyari, M.; Amini, E.; Rasooli, H.; Baghban, H.; Miri, S., 2013:
Sensitive, fast, solution-processed ultraviolet detectors based on passivated zinc oxide nanorods

Smith, C.A.; Li, X.; Mize, T.H.; Sharpe, T.D.; Graziani, E.I.; Abell, C.; Huck, W.T.S., 2014:
Sensitive, high throughput detection of proteins in individual, surfactant-stabilized picoliter droplets using nanoelectrospray ionization mass spectrometry

Maurer, G.S.; Cole, J.H.; Bucaro, J.A., 1982:
Sensitive, high-speed thermometry using optical fibers

Boland, C.S.; Khan, U.; Backes, C.; O'Neill, A.; McCauley, J.; Duane, S.; Shanker, R.; Liu, Y.; Jurewicz, I.; Dalton, A.B.; Coleman, J.N., 2015:
Sensitive, high-strain, high-rate bodily motion sensors based on graphene-rubber composites

Phaneuf, C.R.; Oh, K.; Pak, N.; Saunders, D.Curtis.; Conrardy, C.; Landers, J.P.; Tong, S.; Forest, C.R., 2013:
Sensitive, microliter PCR with consensus degenerate primers for Epstein Barr virus amplification

Larman, H.Benjamin.; Scott, E.R.; Wogan, M.; Oliveira, G.; Torkamani, A.; Schultz, P.G., 2014:
Sensitive, multiplex and direct quantification of RNA sequences using a modified RASL assay

Li, H.; Meng, S.; Levine, S.M.; Stratton, C.W.; Tang, Y-Wei., 2009 :
Sensitive, qualitative detection of human herpesvirus-6 and simultaneous differentiation of variants A and B

Donovan, K.J.; Allen, M.; Martin, R.W.; Shaka, A.J., 2009:
Sensitive, quantitative carbon-13 NMR spectra by mechanical sample translation

Fang, L.; Lv, Y.; Sheng, X.; Yao, S., 2012:
Sensitive, rapid and easy analysis of three catecholamine metabolites in human urine and serum by liquid chromatography tandem mass spectrometry

Horak, J.; Dincer, C.; Bakirci, Hüseyin.; Urban, G., 2015:
Sensitive, rapid and quantitative detection of substance P in serum samples using an integrated microfluidic immunochip

Munteanu, B.; von Reitzenstein, C.; Hänsch, G.Maria.; Meyer, Börn.; Hopf, C., 2013:
Sensitive, robust and automated protein analysis of cell differentiation and of primary human blood cells by intact cell MALDI mass spectrometry biotyping

Noblitt, S.D.; Staicu, L.C.; Ackerson, C.J.; Henry, C.S., 2015:
Sensitive, selective analysis of selenium oxoanions using microchip electrophoresis with contact conductivity detection

Pu, F.; Huang, Z.; Hu, D.; Ren, J.; Wang, S.; Qu, X., 2010:
Sensitive, selective and label-free protein detection using a smart polymeric transducer and aptamer/ligand system

Parekh, J.M.; Sutariya, D.K.; Vaghela, R.N.; Sanyal, M.; Yadav, M.; Shrivastav, P.S., 2012:
Sensitive, selective and rapid determination of bupropion and its major active metabolite, hydroxybupropion, in human plasma by LC-MS/MS: application to a bioequivalence study in healthy Indian subjects

Zhang, L.; Pan, Z.; Geng, S.; Chen, X.; Hu, S.; Liu, H.; Wu, Y.; Jiao, X.; Liu, X., 2011:
Sensitive, semi-nested RT-PCR amplification of fusion gene sequences for the rapid detection and differentiation of Newcastle disease virus

Zhang, Y.; Pilapong, C.; Guo, Y.; Ling, Z.; Cespedes, O.; Quirke, P.; Zhou, D., 2014:
Sensitive, simultaneous quantitation of two unlabeled DNA targets using a magnetic nanoparticle-enzyme sandwich assay

Bazewicz, C.G.; Liskov, M.T.; Hines, K.J.; Brewer, S.H., 2014:
Sensitive, site-specific, and stable vibrational probe of local protein environments: 4-azidomethyl-L-phenylalanine

Mackay, C.Logan.; Ramsahoye, B.; Burgess, K.; Cook, K.; Weidt, S.; Creanor, J.; Harrison, D.; Langridge-Smith, P.; Hupp, T.; Hayward, L., 2008:
Sensitive, specific, and quantitative FTICR mass spectrometry of combinatorial post-translational modifications in intact histone H4

Takagi, H.; Itoh, M.; Islam, M.Zahidul.; Razzaque, A.; Ekram, A.R.M.Saifuddin.; Hashighuchi, Y.; Noiri, E.; Kimura, E., 2009:
Sensitive, specific, and rapid detection of Leishmania donovani DNA by loop-mediated isothermal amplification

Gerlach, H.; Toussaint, S., 2011:
Sensitive, specific, predictive… statistical basics: how to use biomarkers

Jaffee, S.R., 2007:
Sensitive, stimulating caregiving predicts cognitive and behavioral resilience in neurodevelopmentally at-risk infants

Wang, X.; Jiao, K., 2010:
Sensitively electrochemical detection of the DNA damage in situ by electro-Fenton reaction based on Fe@Fe2O3 core-shell nanonecklace and multi-walled carbon nanotube composite

Qin, S.; Cai, W.; Tang, X.; Yang, L., 2014:
Sensitively monitoring photodegradation process of organic dye molecules by surface-enhanced Raman spectroscopy based on Fe3O4@SiO2@TiO2@Ag particle

Pivina, S.G.; Shamolina, T.S.; Akulova, V.K.; Ordian, N.E., 2008:
Sensitiveness to social stress in female rats with alteration of the pituitary-adrenal axis stress reactivity

Koukounari, A.; Webster, J.P.; Donnelly, C.A.; Bray, B.C.; Naples, J.; Bosompem, K.; Shiff, C., 2009:
Sensitivities and specificities of diagnostic tests and infection prevalence of Schistosoma haematobium estimated from data on adults in villages northwest of Accra, Ghana

Lu, H-Ming.; Brett, R.; Engelsman, M.; Slopsema, R.; Kooy, H.; Flanz, J., 2007:
Sensitivities in the production of spread-out Bragg peak dose distributions by passive scattering with beam current modulation

Dündar, M.A.; Ryckebosch, E.C.I.; Nötzel, R.; Karouta, F.; van Ijzendoorn, L.J.; van der Heijden, R.W., 2010:
Sensitivities of InGaAsP photonic crystal membrane nanocavities to hole refractive index

Hyde, J.; Benbrook, D.M., 2006:
Sensitivities of Uterine Adenocarcinoma, Mixed Mullerian Tumor (MMT) and Sarcoma Cell Lines to Chemotherapeutic Agents and a Flex-Het Drug

Brown, R.J.C.; Keates, A.C.; Brewer, P.J., 2012:
Sensitivities of a standard test method for the determination of the pHe of bioethanol and suggestions for improvement

Suzuki, Y.; Nakajima, C.; Tamaru, A.; Kim, H.; Matsuba, T.; Saito, H., 2012:
Sensitivities of ciprofloxacin-resistant Mycobacterium tuberculosis clinical isolates to fluoroquinolones: role of mutant DNA gyrase subunits in drug resistance

Aygül, R.; Ulvi, H.; Kotan, D.; Kuyucu, M.; Demir, R., 2009:
Sensitivities of conventional and new electrophysiological techniques in carpal tunnel syndrome and their relationship to body mass index

Brewer, P.J.; Stoica, D.; Brown, R.J.C., 2012:
Sensitivities of key parameters in the preparation of silver/silver chloride electrodes used in Harned cell measurements of pH

Iwasa, T.; Matsuzaki, T.; Murakami, M.; Kinouchi, R.; Gereltsetseg, G.; Fujisawa, S.; Kuwahara, A.; Yasui, T.; Irahara, M., 2010:
Sensitivities of mRNA expression levels of Kiss1 and its receptor, Kiss1r, to nutritional status are changed during the developmental period in female rats

Currie, A.; Davis, L.; Odrobina, E.; Waldman, S.; White, D.; Tomassi, J.; Katz, K.C., 2008:
Sensitivities of nasal and rectal swabs for detection of methicillin-resistant Staphylococcus aureus colonization in an active surveillance program

Liao, K-Jen.; Tagaris, E.; Manomaiphiboon, K.; Napelenok, S.L.; Woo, J-Hun.; He, S.; Amar, P.; Russell, A.G., 2008:
Sensitivities of ozone and fine particulate matter formation to emissions under the impact of potential future climate change

Vastani, N.; Seifert, B.; Spahn, D.R.; Maurer, K., 2013:
Sensitivities of rat primary sensory afferent nerves to magnesium: implications for differential nerve blocks

Cho, J.Hyun.; Song, H.Yeop.; Lee, J.Hoon., 2014:
Sensitivities of seasonal and pandemic rapid antigen tests differentiated by the level of immunofluorescence for the detection of pandemic influenza A/H1N1 2009 virus

Gammelgaard, B.; Larsen, E.H., 2008:
Sensitivities of selenite, selenate, selenomethionine and trimethylselenonium ion in aqueous solution and in blood plasma-ETAAS compared with ICP-MS

Fischer, N.; Goddard-Borger, E.D.; Greiner, R.; Klapötke, T.M.; Skelton, B.W.; Stierstorfer, Jörg., 2012:
Sensitivities of some imidazole-1-sulfonyl azide salts

Lee, C-Yu.; Bennett, K.M.; Debbins, J.P., 2013:
Sensitivities of statistical distribution model and diffusion kurtosis model in varying microstructural environments: a Monte Carlo study

López-Ruiz, F.J.; Pérez-García, A.; Fernández-Ortuño, D.; Romero, D.; García, E.; de Vicente, A.; Brown, J.K.M.; Torés, J.A., 2011:
Sensitivities to DMI fungicides in populations of Podosphaera fusca in south central Spain

Liu, Q.; Liu, M.; Wu, Q.; Li, C.; Zhou, T.; Ni, Y., 2010:
Sensitivities to biocides and distribution of biocide resistance genes in quaternary ammonium compound tolerant Staphylococcus aureus isolated in a teaching hospital

Harris, R.C.; Boschitsch, A.H.; Fenley, M.O., 2014:
Sensitivities to parameterization in the size-modified Poisson-Boltzmann equation

Jordan, R.W.; Smith, N.A.; Saithna, A.; Sprowson, A.P.; Foguet, P., 2015:
Sensitivities, specificities, and predictive values of microbiological culture techniques for the diagnosis of prosthetic joint infection

Lewis, M.K., 2011:
Sensitivities: emotion-work and resulting personal effects in researching Black lesbians

Swaminathan, S.; Antony, L.; Venkatesan, P.; Hanna, L.Elizabeth.; Angayarkanni, B.; Ponnuraja, C.; Robin, J.; Precilla, K.Lucia.; Ramachandran, R., 2009:
Sensitivity & specificity of combination testing algorithms for HIV in a tuberculosis clinic

Shepherd, B.E.; Gilbert, P.B.; Lumley, T., 2007:
Sensitivity Analyses Comparing Time-to-Event Outcomes Existing Only in a Subset Selected Postrandomization

Wilkins, A.Katharina.; Tidor, B.; White, J.; Barton, P.I., 2009:
Sensitivity Analysis For Oscillating Dynamical Systems

Jo, B.; Vinokur, A.D., 2011:
Sensitivity Analysis and Bounding of Causal Effects With Alternative Identifying Assumptions

Kaida, T.; Izumi, S.; Sakai, S., 2014 :
Sensitivity Analysis of Fitness-for-Service Assessment Based on Reliability for Cylindrical Pressure Vessels With Local Metal Loss

Blozis, S.A.; Ge, X.; Xu, S.; Natsuaki, M.N.; Shaw, D.S.; Neiderhiser, J.; Scaramella, L.; Leve, L.; Reiss, D., 2014:
Sensitivity Analysis of Multiple Informant Models When Data are Not Missing at Random

Gilbert, P.B.; Shepherd, B.E.; Hudgens, M.G., 2013:
Sensitivity Analysis of Per-Protocol Time-to-Event Treatment Efficacy in Randomized Clinical Trials

Chu, C.; Lee, J.; Choi, D.Hoon.; Youn, S-Ki.; Lee, J-Koo., 2011:
Sensitivity Analysis of the Parameters of Korea's Pandemic Influenza Preparedness Plan

Abbas, A.; Linman, M.J.; Cheng, Q., 2011:
Sensitivity Comparison of Surface Plasmon Resonance and Plasmon-Waveguide Resonance Biosensors

Taylor, S.R.; Gunawan, R.; Petzold, L.R.; Doyle, F.J., 2008:
Sensitivity Measures for Oscillating Systems: Application to Mammalian Circadian Gene Network

Spevack, S.; Yu, C.T.; Lee, M.S.; Martin, G.L., 2006:
Sensitivity Of Passive Approach During Preference And Reinforcer Assessments For Children With Severe And Profound Intellectual Disabilities And Minimal Movement

Gottschalk, A.; Anger, H.O., 2014:
Sensitivity Of The Positron Scintillation Camera For Detecting Simulated Brain Tumors. Ucrl-11033

Choma, M.; Sarunic, M.; Yang, C.; Izatt, J., 2003:
Sensitivity advantage of swept source and Fourier domain optical coherence tomography

Gahm, J.; Jurell, Göran.; Wickman, M.; Hansson, P., 2007:
Sensitivity after bilateral prophylactic mastectomy and immediate reconstruction

Ge, H.; Qian, M., 2008:
Sensitivity amplification in the phosphorylation-dephosphorylation cycle: nonequilibrium steady states, chemical master equation, and temporal cooperativity

Shepherd, B.E.; Gilbert, P.B.; Dupont, C.T., 2012:
Sensitivity analyses comparing time-to-event outcomes only existing in a subset selected postrandomization and relaxing monotonicity

Abe, Y.; Gee, K.A., 2015:
Sensitivity analyses for clustered data: an illustration from a large-scale clustered randomized controlled trial in education

Albert, J.M.; Wang, W., 2015:
Sensitivity analyses for parametric causal mediation effect estimation

Hamra, G.B.; MacLehose, R.F.; Cole, S.R., 2013:
Sensitivity analyses for sparse-data problems-using weakly informative bayesian priors

Mao, C.; Liao, R.Y.; Chen, Q., 2010:
Sensitivity analyses including and excluding the HWE-violating studies are required for meta-analyses of genetic association studies

Zetterberg, T.; Köhler, S.J.; Löfgren, S., 2014:
Sensitivity analyses of MAGIC modelled predictions of future impacts of whole-tree harvest on soil calcium supply and stream acid neutralizing capacity

Peters, S.; Kromhout, H.; Portengen, Lützen.; Olsson, A.; Kendzia, B.; Vincent, R.; Savary, B.; Lavoué, Jérôme.; Cavallo, D.; Cattaneo, A.; Mirabelli, D.; Plato, N.; Fevotte, J.; Pesch, B.; Brüning, T.; Straif, K.; Vermeulen, R., 2014:
Sensitivity analyses of exposure estimates from a quantitative job-exposure matrix (SYN-JEM) for use in community-based studies

Shimadera, H.; Hayami, H.; Chatani, S.; Morino, Y.; Mori, Y.; Morikawa, T.; Yamaji, K.; Ohara, T., 2014 :
Sensitivity analyses of factors influencing CMAQ performance for fine particulate nitrate

Meyhoff, C.S.; Wetterslev, Jørn.; Jorgensen, L.N.; Rasmussen, L.S., 2012:
Sensitivity analyses of supplemental oxygen to prevent surgical site infection

Groenwold, R.H.H.; Nelson, D.B.; Nichol, K.L.; Hoes, A.W.; Hak, E., 2010:
Sensitivity analyses to estimate the potential impact of unmeasured confounding in causal research

Carpenter, J.R.; Kenward, M.G.; White, I.R., 2007:
Sensitivity analysis after multiple imputation under missing at random: a weighting approach

Karimi, M.Taghi., 2014:
Sensitivity analysis and comparison of two methods of using heart rate to represent energy expenditure during walking

Roelofs, V.J.; Kennedy, M.C., 2012:
Sensitivity analysis and estimation of extreme tail behavior in two-dimensional Monte Carlo simulation

Singh, R.B.; Huber, A.H.; Braddock, J.N., 2007:
Sensitivity analysis and evaluation of MicroFacPM: a microscale motor vehicle emission factor model for particulate matter emissions

Meima, J.A.; Naranjo, N.Mora.; Haarstrick, A., 2007:
Sensitivity analysis and literature review of parameters controlling local biodegradation processes in municipal solid waste landfills

Ellwein, L.M.; Tran, H.T.; Zapata, C.; Novak, V.; Olufsen, M.S., 2007:
Sensitivity analysis and model assessment: mathematical models for arterial blood flow and blood pressure

Niederberger, A.C.R.; Fattal, D.A.; Gauger, N.R.; Fan, S.; Beausoleil, R.G., 2014:
Sensitivity analysis and optimization of sub-wavelength optical gratings using adjoints

Ojeda, D.; L.R.lle, V.; Harmouche, M.; Drochon, Aès.; Corbineau, Hé.; Verhoye, J-Philippe.; Hernández, A.I., 2014:
Sensitivity analysis and parameter estimation of a coronary circulation model for triple-vessel disease