EurekaMag Full Text Articles Chapter 72,777

Feng, Z.-Q.; Guo, Q.-Y.; Wang, W.; Yuan, Y.-Y.; Jin, X.-G.; Zhou, H.; Liu, J.; Lei, H.-Y.; Yang, X.-Y.; Liu, J.; Lu, B.; Shao, J.-Q.; Gu, P. 2021: Time in range, especially overnight time in range, is associated with sudomotor dysfunction in patients with type 1 diabetes. Diabetology and Metabolic Syndrome 13(1): 119

Wilmot, E.G.; Lumb, A.; Hammond, P.; Murphy, H.R.; Scott, E.; Gibb, F.W.; Platts, J.; Choudhary, P. 2021: Time in range: a best practice guide for UK diabetes healthcare professionals in the context of the COVID-19 global pandemic. Diabetic Medicine: a Journal of the British Diabetic Association 38(1): E14433

An, J.; Nichols, G.A.; Qian, L.; Harrison, T.N.; Li, Z.; Munis, M.A.; Wei, R.; Weiss, T.; Rajpathak, S.; Reynolds, K. 2020: Time in suboptimal glycemic control over 10 years for patients newly diagnosed with type 2 diabetes. Journal of Diabetes and its Complications 34(8): 107607

Mostowik, J.; Mielimąka, M.ł; Rutkowski, K.; Ostrowski, T. 2022: Time in the Mental Health Context: Neurotic Symptomatology, Defense Mechanisms and the Perception of time Perspective Among Patients Diagnosed with Neurotic and Personality Disorders - a Clinical Study. Psychological Reports 125(1): 232-255

Reiffel, J.A. 2017: Time in the Therapeutic Range (TTR): An Overly Simplified Conundrum. Journal of Innovations in Cardiac Rhythm Management 8(3): 2643-2646

Topcuoglu, M.A.; Arsava, E.M. 2021: Time in therapeutic range among warfarin users in Turkey: Are there enough data to set definitive criteria for reimbursement?. Turk Kardiyoloji Dernegi Arsivi: Turk Kardiyoloji Derneginin Yayin Organidir 49(4): 254-256

Avarello, I.; Bianchi, S.; Toschi, V.; Zighetti, M.L.; Faioni, E.M. 2021: Time in therapeutic range is lower in women than in men and is not explained by differences in age or comorbidity. Thrombosis Research 203: 18-21

Dinç Asarcıklı, L.; Kafes, H.; Şen, T.; Gucuk İpek, E.; Cebeci, M.; Gül, M.; Kanat, S.çu.; Temizhan, A. 2021: Time in therapeutic range values of patients using warfarin and factors that influence time in therapeutic range. Turk Kardiyoloji Dernegi Arsivi: Turk Kardiyoloji Derneginin Yayin Organidir 49(6): 463-473

Oh, H.; Lee, J.; Kim, S.; Rufino, K.A.; Fonagy, P.; Oldham, J.M.; Schanzer, B.; Patriquin, M.A. 2020: Time in treatment: Examining mental illness trajectories across inpatient psychiatric treatment. Journal of Psychiatric Research 130: 22-30

Suekane, T.; Tachibana, D.; Kurihara, Y.; Yokoi, N.; Seo, N.; Kitada, K.; Tahara, M.; Hamuro, A.; Misugi, T.; Nakano, A.; Koyama, M. 2021: Time interval analysis of ductus venosus and cardiac cycles in relation with umbilical artery pH at birth in fetal growth restriction. Bmc Pregnancy and Childbirth 21(1): 671

Pézier, T.F.; Rijken, J.A.; Tijink, B.M.; Braunius, W.W.; de Bree, R. 2021: Time interval between (chemo)radiotherapy and subsequent laryngectomy is not prognostic for post operative complications and survival. European Archives of Oto-Rhino-Laryngology: Official Journal of the European Federation of Oto-Rhino-Laryngological Societies: Affiliated with the German Society for Oto-Rhino-Laryngology - Head and Neck Surgery 278(7): 2511-2516

Huang, C.-W.; Su, W.-C.; Yin, T.-C.; Chen, P.-J.; Chang, T.-K.; Chen, Y.-C.; Li, C.-C.; Hsieh, Y.-C.; Tsai, H.-L.; Wang, J.-Y. 2020: Time interval between the completion of radiotherapy and robotic-assisted surgery among patients with stage I-IIi rectal cancer undergoing preoperative chemoradiotherapy. Plos one 15(10): E0240742

Kadan, Y.; Asali, A.; Fishman, A.; Helpman, L.; Perri, T.; Korach, J.; Beiner, M. 2020: Time interval from biopsy to surgery and risk for adjuvant therapy in patients with low-risk endometrial cancer. Surgical Oncology 35: 1-4

Gulersen, M.; Gyamfi-Bannerman, C.; Greenman, M.; Lenchner, E.; Rochelson, B.; Bornstein, E. 2021: Time interval from late preterm antenatal corticosteroid administration to delivery and the impact on neonatal outcomes. American Journal of Obstetrics and Gynecology Mfm 3(5): 100426

Durda-Masny, M.; Szwed, A.; Litwiniuk, Z.; Jarząbek-Bielecka, G.ży.; Hanć, T.; Czapla, Z.; Kaczmarek, M. 2021: Time intervals between the age at menarche and the onset of sexual activity in Polish women born between 1959 and 2001. American Journal of Human Biology: the Official Journal of the Human Biology Council 33(1): E23436

Singh, P.; Tewari, S.; Kesberg, R.; Karl, J.A.; Bulbulia, J.; Fischer, R. 2020: Time investments in rituals are associated with social bonding, affect and subjective health: a longitudinal study of Diwali in two Indian communities. Philosophical Transactions of the Royal Society of London. Series B Biological Sciences 375(1805): 20190430

Boehm, E.; Better, N. 2022: Time is Myocardium, but who Does Best?. Journal of Nuclear Cardiology: Official Publication of the American Society of Nuclear Cardiology 29(5): 2633-2636

Leeb, B. 2021: Time is Rushing by-Rheuma Plus is Rushing Along. Rheuma Plus 20(4): 135-137

Richter, F.; Ibáñez, A.ín. 2021: Time is body: Multimodal evidence of crosstalk between interoception and time estimation. Biological Psychology 159: 108017

Gawlitza, J.; Steinhäuser, J.; Bücker, A.; Krasteva-Christ, G.; Tschernig, T. 2021: Time is bone - Quantitative comparison of decalcification solvents in human femur samples using dual-X-ray-absorptiometry and computed tomography. Annals of Anatomy 235: 151696

Risitano, A.; Toni, D. 2020: Time is brain: timing of revascularization of brain arteries in stroke. European Heart Journal Suppls: Journal of the European Society of Cardiology 22(Suppl L): L155-L159

Shapiro, M.L. 2019: Time is just a memory. Nature Neuroscience 22(2): 151-153

López Castro, J.é 2020: Time is money and time is life. Polish Archives of Internal Medicine 130(6): 481-482

Warde, C. 2001: Time is of the essence. Journal of General Internal Medicine 16(10): 712-713

Keim, R.G. 2005: Time is of the essence. Journal of Clinical Orthodontics: Jco 39(7): 395-396

Gautier, S.; Monakhov, A.; Tsiroulnikova, O.; Mironkov, B.; Voskanov, M.; Dzhanbekov, T.; Azoev, E.; Khizroev, K.; Dzhiner, D.; Pashkova, I. 2021: Time is of the essence: a single-center experience of hepatic arterial supply impairment management in pediatric liver transplant recipients. Pediatric Transplantation 25(3): E13934

Kohtala, S.; Alitalo, O.; Rosenholm, M.; Rozov, S.; Rantamäki, T. 2021: Time is of the essence: Coupling sleep-wake and circadian neurobiology to the antidepressant effects of ketamine. Pharmacology and Therapeutics 221: 107741

Aw, S.; Cohen, S.M. 2012: Time is of the essence: micro RNAs and age-associated neurodegeneration. Cell Research 22(8): 1218-1220

Cothron, A.; McLeod, C. 2020: Time is on the side of change in dentistry. Journal of Public Health Dentistry 80(Suppl 2): S100-S103

Bendixen, M.; Best, J.; Hackney, C.; Iversen, L.Lønsmann. 2019: Time is running out for sand. Nature 571(7763): 29-31

Merali, Z. 2011: Time is running out for the leap second. Nature 479(7372): 158

De la Charie, A.; Delteil, F.; Labrell, F.; Colas, P.; Vigneras, J.; Câmara-Costa, H.; Mikaeloff, Y. 2021: Time knowledge impairments in children with ADHD. Archives de Pediatrie: Organe Officiel de la Societe Francaise de Pediatrie 28(2): 129-135

Lepiemme, F.; Silva, C.G.; Nguyen, L. 2021: Time lapse recording of cortical interneuron migration in mouse organotypic brain slices and explants. Star Protocols 2(2): 100467

Azarfar, G.; Aboualizadeh, E.; Ratti, S.; Olivieri, C.; Norici, A.; Nasse, M.J.; Giordano, M.; Hirschmugl, C.J. 2021: Time lapse synchrotron IR chemical imaging for observing the acclimation of a single algal cell to CO 2 treatment. Scientific Reports 11(1): 13246

Vidmar, A.P.; Goran, M.I.; Naguib, M.; Fink, C.; Wee, C.P.; Hegedus, E.; Lopez, K.; Gonzalez, J.; Raymond, J.K. 2020: Time limited eating in adolescents with obesity (time LEAd): Study protocol. Contemporary Clinical Trials 95: 106082

Lawler-Heavner, J.; Ruttenber, A.J.; Yin, M.; Wade, T.D. 1999: Time lines and computer-based visual editing: new techniques for assessing exposure in epidemiologic studies. Journal of Exposure Analysis and Environmental Epidemiology 9(2): 150-157

Castillo-Ruiz, A.; Indic, P.; Schwartz, W.J. 2018: Time management in a co-housed social rodent species (Arvicanthis niloticus). Scientific Reports 8(1): 1202

Torres, R.Augusto.Tamasauskas.; Fischer, F.Marina. 2019: Time management of Internal Medicine medicalresidents, São Paulo, Brasil. Revista da Associacao Medica Brasileira 65(8): 1048-1054

Perkel, J.M. 2015: Time management: Seize the moment. Nature 517(7535): 517-519

Yosefi, G.; Levi, T.; Rapaport, H.; Bitton, R. 2020: Time matters for macroscopic membranes formed by alginate and cationic β-sheet peptides. Soft Matter 16(44): 10132-10142

Thrue, C.; Riemenschneider, M.; Hvid, L.G.; Stenager, E.; Dalgas, U. 2021: Time matters: Early-phase multiple sclerosis is accompanied by considerable impairments across multiple domains. Multiple Sclerosis 27(10): 1477-1485

Hlásny, T.áš; Augustynczik, A.L.D.; Dobor, L. 2021: Time matters: Resilience of a post-disturbance forest landscape. Science of the Total Environment 799: 149377

Mamballikalam, G.; Senthilkumar, S.; Clinto, C.O.; Ahamed Basith, P.M.; Jaon Bos, R.C.; Thomas, T. 2021: Time motion study to evaluate the impact of flattening filter free beam on overall treatment time for frameless intracranial radiosurgery using Varian TrueBeam® linear accelerator. Reports of Practical Oncology and Radiotherapy: Journal of Greatpoland Cancer Center in Poznan and Polish Society of Radiation Oncology 26(1): 111-118

Chen, G.; Sanjeev, A.; Trivedi, V.; Garcia, J.; Rubio, R.; Zalevsky, Z. 2021: Time multiplexing super-resolved imaging without a priori knowledge of the spatial distribution of the encoding structured illumination. Optics Express 29(4): 5798-5807

Gould, J.B.; Abreo, A.M.; Chang, S.-C.; Main, E.K. 2020: Time of Birth and the Risk of Severe Unexpected Complications in Term Singleton Neonates. Obstetrics and Gynecology 136(2): 377-385

Payano Sosa, J.S.; Da Silva, J.T.; Burrowes, S.A.B.; Yoo, S.Y.; Keaser, M.L.; Meiller, T.F.; Seminowicz, D.A. 2021: Time of day Influences Psychophysical Measures in Women with Burning Mouth Syndrome. Frontiers in Neuroscience 15: 698164

Belfry, K.D.; Deibel, S.H.; Kolla, N.J. 2020: Time of day Matters: An Exploratory Assessment of Chronotype in a Forensic Psychiatric Hospital. Frontiers in Psychiatry 11: 550597

Douglas, C.M.; Hesketh, S.J.; Esser, K.A. 2021: Time of day and Muscle Strength: a Circadian Output?. Physiology 36(1): 44-51

Wright, C.J.; Rentschler, K.M.; Wagner, N.T.J.; Lewis, A.M.; Beggiato, S.; Pocivavsek, A. 2021: Time of Day-Dependent Alterations in Hippocampal Kynurenic Acid, Glutamate, and GABA in Adult Rats Exposed to Elevated Kynurenic Acid During Neurodevelopment. Frontiers in Psychiatry 12: 734984

Rezaee, M.; Mojaveri, S.H.; Babaee, N.; Varaei, S. 2021: Time of Delivery in Women with Coronavirus Disease. Iranian Journal of Nursing and Midwifery Research 26(1): 85

Schlunegger, S.; Rodgers, K.B.; Sarmiento, J.L.; Ilyina, T.; Dunne, J.P.; Takano, Y.; Christian, J.R.; Long, M.C.; Frölicher, T.L.; Slater, R.; Lehner, F. 2020: Time of Emergence and Large Ensemble Intercomparison for Ocean Biogeochemical Trends. Global Biogeochemical Cycles 34(8): E2019gb006453

Hirata, J.; Inoue, K. 2021: Time of Evaluation of Pain Catastrophizing after Surgery for Upper Extremity Motor Disorders. Journal of Hand Surgery Asian-Pacific Volume 26(1): 41-46

Schaart, D.R.; Schramm, G.; Nuyts, J.; Surti, S. 2021: Time of Flight in Perspective: Instrumental and Computational Aspects of time Resolution in Positron Emission Tomography. IEEE Transactions on Radiation and Plasma Medical Sciences 5(5): 598-618

Lefebvre, G.; Shevlyakova, M.; Charpagne, A.; Marquis, J.; Vogel, M.; Kirsten, T.; Kiess, W.; Austin, S.; Sprenger, N.; Binia, A. 2020: Time of Lactation and Maternal Fucosyltransferase Genetic Polymorphisms Determine the Variability in Human Milk Oligosaccharides. Frontiers in Nutrition 7: 574459

Berrington, J.E.; Embleton, N.D. 2021: Time of Onset of Necrotizing Enterocolitis and Focal Perforation in Preterm Infants: Impact on Clinical, Surgical, and Histological Features. Frontiers in Pediatrics 9: 724280

Biston, M.-C.; Chiavassa, S.; Grégoire, V.; Thariat, J.; Lacornerie, T. 2020: Time of PTV is ending, robust optimization comes next. Cancer Radiotherapie: Journal de la Societe Francaise de Radiotherapie Oncologique 24(6-7): 676-686

Valencia-Enciso, N.; Ortiz-Pereira, M.ón.; Zafra-Sierra, M.ía.P.; Espinel-Gómez, L.; Bayona, H. 2020: Time of Stroke Onset in Coronavirus Disease 2019 Patients Around the Globe: a Systematic Review and Analysis. Journal of Stroke and Cerebrovascular Diseases: the Official Journal of National Stroke Association 29(12): 105325

Deol, M.S.; Whitten, W.K. 1972: Time of X chromosome inactivation in retinal melanocytes of the mouse. Nature: new Biology 238(83): 159-160

Henderson, S.A. 1966: Time of chiasma formation in relation to the time of deoxyribonucleic acid synthesis. Nature 211(5053): 1043-1047

Van Beuningen, E.G.A. 1947: Time of day influence in field of view measurements on pregnant women. Zentralblatt für Gynakologie 69(8): 787-791

Ha, K.H.; Schomer, A.C.; Leonardo, J.; Quigg, M. 2021: Time of day is an inaccurate surrogate marker for sleep-wake state in an epilepsy monitoring unit. Epilepsy Research 169: 106524

Zhang, H.; Li, L.; Wu, J.; Qu, H.-P.; Tang, Y.-Q.; Chen, D.-C. 2020: Time of dissociation between microcirculation, macrocirculation, and lactate levels in a rabbit model of early endotoxemic shock. Chinese Medical Journal 133(18): 2153-2160

Billingsley, H.E.; Dixon, D.L.; Canada, J.M.; Kirkman, D.L.; Rotelli, B.; Kadariya, D.; Bohmke, N.; Markley, R.; Van Tassell, B.W.; Celi, F.S.; Abbate, A.; Carbone, S. 2021: Time of eating and cardiorespiratory fitness in patients with heart failure with preserved ejection fraction and obesity. Nutrition Metabolism and Cardiovascular Diseases: Nmcd 31(8): 2471-2473

Chiang, C-Chieh.; Chuang, C-Chao.; Ni, Y-Ching.; Jan, M-Ling.; Chuang, K-Shih.; Lin, H-Hon. 2020: Time of flight dual photon emission computed tomography. Scientific Reports 10(1): 19514

Sahu, A.K.; Sengupta, P. 2020: Time of flight mass spectrometry based in vitro and in vivo metabolite profiling of ribociclib and their toxicity prediction. Journal of Chromatography. B Analytical Technologies in the Biomedical and Life Sciences 1147: 122142

Carpinelli Mazzi, M.; Iavarone, A.; Musella, C.; De Luca, M.; de Vita, D.; Branciforte, S.; Coppola, A.; Scarpa, R.; Raimondo, S.; Sorrentino, S.; Lualdi, F.; Postiglione, A. 2020: Time of isolation, education and gender influence the psychological outcome during COVID-19 lockdown in caregivers of patients with dementia. European Geriatric Medicine 11(6): 1095-1098

Gomes, D.G.E.; Appel, G.; Barber, J.R. 2020: Time of night and moonlight structure vertical space use by insectivorous bats in a Neotropical rainforest: an acoustic monitoring study. Peerj 8: E10591

Rawles, J.M.; Metcalfe, M.J.; Jennings, K. 1990: Time of occurrence, duration, and ventricular rate of paroxysmal atrial fibrillation: the effect of digoxin. British Heart Journal 63(4): 225-227

Littrell, J.L.; Tom, J.; Hartman, C.G. 1946: Time of opening of the vaginal closure membrane in weanling guinea pigs in relation to concentration of estrogen. Anatomical Record 94: 367

Kirkwood, T.B.L. 2005: Time of our lives. What controls the length of life?. Embo Reports 6 Spec No: S4-S8

Sobol, M.łg.; Blachnio, A.; Przepiórka, A. 2020: Time of pandemic: Temporal perspectives related to compliance with public health regulations concerning the COVID-19 pandemic. Social Science and Medicine 265: 113408

Koury, J.C.; Passos, M.C.F.; Figueiredo, F.A.; Chain, A.; Franco, J.G. 2013: Time of physical exercise practice after injury in cervical spinal cord-injured men is related to the increase in insulin sensitivity. Spinal Cord 51(2): 116-119

McFadyen, L.; Robertson, D.; Sedgley, M.; Kristiansen, P.; Olesen, T. 2012: Time of pruning affects fruit abscission, stem carbohydrates and yield of macadamia. Functional Plant Biology: Fpb 39(6): 481-492

Costa, L.J.; Micallef, I.N.; Inwards, D.J.; Johnston, P.B.; Porrata, L.F.; Ansell, S.M. 2008: Time of relapse after initial therapy significantly adds to the prognostic value of the IPI-R in patients with relapsed DLBCL undergoing autologous stem cell transplantation. Bone Marrow Transplantation 41(8): 715-720

He, Z.; Sun, B.; Feng, F.; Bai, J.; Wang, H.; Wang, H.; Yang, F.; Cui, F.; Huang, X. 2022: Time of symptoms beyond the bulbar region predicts survival in bulbar onset amyotrophic lateral sclerosis. Neurological Sciences: Official Journal of the Italian Neurological Society and of the Italian Society of Clinical Neurophysiology 43(3): 1817-1822

Villa, L.; Krüger, T.; Seikrit, C.; Mühlfeld, A.S.; Kunter, U.; Werner, C.; Kleines, M.; Schulze-Hagen, M.; Dreher, M.; Kersten, A.; Marx, N.; Floege, J.ür.; Rauen, T.; Braun, G.S. 2021: Time on previous renal replacement therapy is associated with worse outcomes of COVID-19 in a regional cohort of kidney transplant and dialysis patients. Medicine 100(10): E24893

Bonardi, C.; Pardon, M.-C.; Armstrong, P. 2021: Time or place? Dissociation between object-in-place and relative recency in young APPswe/PS1dE9 mice. Behavioral Neuroscience 135(1): 39-50

Pristyazhnyuk, I.E.; Minina, J.; Korablev, A.; Serova, I.; Fishman, V.; Gridina, M.; Rozhdestvensky, T.S.; Gubar, L.; Skryabin, B.V.; Serov, O.L. 2019: Time origin and structural analysis of the induced CRISPR/cas9 megabase-sized deletions and duplications involving the Cntn6 gene in mice. Scientific Reports 9(1): 14161

Bíró, A.ó; Branyiczki, R.ék.; Elek, P.ét. 2022: Time patterns of precautionary health behaviours during an easing phase of the COVID-19 pandemic in Europe. European Journal of Ageing 19(4): 837-848

Kingma, B.R.M.; Roijendijk, L.M.M.; Van Maanen, L.; Van Rijn, H.; Van Beurden, M.H.P.H. 2020: Time perception and timed decision task performance during passive heat stress. Temperature 8(1): 53-63

Nejati, V.; Yazdani, S. 2020: Time perception in children with attention deficit-hyperactivity disorder (ADHD): Does task matter? A meta-analysis study. Child Neuropsychology: a Journal on Normal and Abnormal Development in Childhood and Adolescence 26(7): 900-916

Seeman, E. 2020: Time present and time past are both perhaps present in time future, and time future contained in time past - TSEliot, the Four Quartets. Bone 137: 115427

Mazzoccoli, G.; Miscio, G.; Fontana, A.; Copetti, M.; Francavilla, M.; Bosi, A.; Perfetto, F.; Valoriani, A.; De Cata, A.; Santodirocco, M.; Totaro, A.; Rubino, R.; di Mauro, L.; Tarquini, R. 2016: Time related variations in stem cell harvesting of umbilical cord blood. Scientific Reports 6: 21404

Marston, J.H.; Kelly, W.A. 1968: Time relationships of spermatozoon penetration into the egg of the rhesus monkey. Nature 217(5133): 1073-1074

Moyer, R.S.; Landauer, T.K. 1967: Time required for judgements of numerical inequality. Nature 215(5109): 1519-1520

Kilcoyne, I.; Nieto, J.E.; Galuppo, L.D.; Dechant, J.E. 2021: Time required to achieve maximum amikacin concentration in the synovial fluid of the tarsocrural joint following administration of the drug by intravenous regional limb perfusion in horses. American Journal of Veterinary Research 82(2): 99-104

Boussen, S.; Spiegler, A.; Benar, C.; Carrère, M.; Bartolomei, F.; Metellus, P.; Voituriez, R.; Velly, L.; Bruder, N.; Trébuchon, A. 2018: Time rescaling reproduces EEG behavior during transition from propofol anesthesia-induced unconsciousness to consciousness. Scientific Reports 8(1): 6015

Von Wedel, H. 1978: Time resolution ability in dichotic hearing experiments. Archives of Oto-Rhino-Laryngology 219(2): 419-420

Konishi, M. 1969: Time resolution by single auditory neurones in birds. Nature 222(5193): 566-567

Wilkinson, R.; Howse, P.E. 1975: Time resolution of acoustic signals by birds. Nature 258(5533): 320-321

Prade, F.; Fischer, K.; Heinz, D.; Meyer, P.; Mohr, Jürgen.; Pfeiffer, F. 2016: Time resolved X-ray Dark-Field Tomography Revealing Water Transport in a Fresh Cement Sample. Scientific Reports 6: 29108

Retelletti Brogi, S.; Balestra, C.; Casotti, R.; Cossarini, G.; Galletti, Y.; Gonnelli, M.; Vestri, S.; Santinelli, C. 2020: Time resolved data unveils the complex DOM dynamics in a Mediterranean river. Science of the Total Environment 733: 139212

Dwivedi, P.; Muench, D.E.; Wagner, M.; Azam, M.; Grimes, H.Leighton.; Greis, K.D. 2019: Time resolved quantitative phospho-tyrosine analysis reveals Bruton's Tyrosine kinase mediated signaling downstream of the mutated granulocyte-colony stimulating factor receptors. Leukemia 33(1): 75-87

Pagliazzi, M.; Colombo, L.; Vidal-Rosas, E.E.; Dragojević, T.; Parfentyeva, V.; Culver, J.P.; Konugolu Venkata Sekar, S.; Di Sieno, L.; Contini, D.; Torricelli, A.; Pifferi, A.; Dalla Mora, A.; Durduran, T. 2021: Time resolved speckle contrast optical spectroscopy at quasi-null source-detector separation for non-invasive measurement of microvascular blood flow. Biomedical Optics Express 12(3): 1499-1511

Bildé, A.; Redeckas, K.; Melninkaitis, A.; Vengris, M.; Guizard, S. 2021: Time resolved study of carrier relaxation dynamics inα-Al2O3. Journal of Physics. Condensed Matter: An Institute of Physics Journal 33(31)

Nadweh, S.; Khaddam, O.; Hayek, G.; Atieh, B.; Haes Alhelou, H. 2020: Time response enhancement for variable speed drive systems by using five-level cascade four quadrant chopper in dc-link. Heliyon 6(8): E04739

Ferragut Cardoso, A.P.; Gomide, L.íg.M.M.; Souza, N.P.; de Jesus, C.M.ár.N.; Arnold, L.L.; Cohen, S.M.; de Camargo, J.ão.L.V.; Nascimento E Pontes, M.G. 2021: Time response of rat testicular alterations induced by cryptorchidism and orchiopexy. International Journal of Experimental Pathology 102(1): 57-69

Przulj, D.; Ladmore, D.; Smith, K.M.; Phillips-Waller, A.; Hajek, P. 2021: Time restricted eating as a weight loss intervention in adults with obesity. Plos one 16(1): E0246186

Currenti, W.; Godos, J.; Castellano, S.; Mogavero, M.P.; Ferri, R.; Caraci, F.; Grosso, G.; Galvano, F. 2020: Time restricted feeding and mental health: a review of possible mechanisms on affective and cognitive disorders. International Journal of Food Sciences and Nutrition 2020: 1-11

Bhoumik, S.; Kumar, R.; Rizvi, S.I. 2020: Time restricted feeding provides a viable alternative to alternate day fasting when evaluated in terms of redox homeostasis in rats. Archives of Gerontology and Geriatrics 91: 104188

Zhang, X.; Shen, Y.; Zhang, J.; Casanova, J.; Lamata, L.; Solano, E.; Yung, M-Hong.; Zhang, J-Ning.; Kim, K. 2015: Time reversal and charge conjugation in an embedding quantum simulator. Nature Communications 6: 7917

Gomez, V.S.; Spiousas, I.; Eguia, M.C. 2021: Time reversal focusing in the audible range using a tunable sonic crystal. Journal of the Acoustical Society of America 149(6): 4024

Hargus, C.; Klymko, K.; Epstein, J.M.; Mandadapu, K.K. 2020: Time reversal symmetry breaking and odd viscosity in active fluids: Green-Kubo and NEMD results. Journal of Chemical Physics 152(20): 201102

Mounaix, M.; Fontaine, N.K.; Neilson, D.T.; Ryf, R.; Chen, H.; Alvarado-Zacarias, J.Carlos.; Carpenter, J. 2020: Time reversed optical waves by arbitrary vector spatiotemporal field generation. Nature Communications 11(1): 5813

Tollefson, J. 2009: Time running out for climate talks. Nature 461(7267): 1034-1035

Cressey, D. 2014: Time running out for rarest primate. Nature 508(7495): 163

Check, E. 2007: Time runs short for HapMap. Nature 447(7142): 242-243

Murphy, G. 2003: Time runs short for opponents of chemical-testing rules. Nature 424(6946): 241

Speth, M.M.; Singer-Cornelius, T.; Oberle, M.; Gengler, I.; Brockmeier, S.J.; Sedaghat, A.R. 2020: Time scale for resolution of olfactory dysfunction in COVID-19. Rhinology 58(4): 404-405

Wang, Q.; Tang, Q.; Zhao, L.; Zhang, Q.; Wu, Y.; Hu, H.; Liu, L.; Liu, X.; Zhu, Y.; Guo, A.; Yang, X. 2020: Time serial transcriptome reveals Cyp2c29 as a key gene in hepatocellular carcinoma development. Cancer Biology and Medicine 17(2): 401-417

Xu, J.-L.; Gowen, A.A. 2021: Time series Fourier transform infrared spectroscopy for characterization of water vapor sorption in hydrophilic and hydrophobic polymeric films. Spectrochimica Acta. Part a Molecular and Biomolecular Spectroscopy 250: 119371

Manisty, C.; Treibel, T.A.; Jensen, M.; Semper, A.; Joy, G.; Gupta, R.K.; Cutino-Moguel, T.; Andiapen, M.; Jones, J.; Taylor, S.; Otter, A.; Pade, C.; Gibbons, J.; Lee, J.; Bacon, J.; Thomas, S.; Moon, C.; Jones, M.; Williams, D.; Lambourne, J.; Fontana, M.; Altmann, D.M.; Boyton, R.; Maini, M.; McKnight, A.; Chain, B.; Noursadeghi, M.; Moon, J.C. 2021: Time series analysis and mechanistic modelling of heterogeneity and sero-reversion in antibody responses to mild SARS‑CoV-2 infection. Ebiomedicine 65: 103259

Regauer, S.; Kashofer, K.; Reich, O. 2019: Time series analysis of TP53 gene mutations in recurrent HPV-negative vulvar squamous cell carcinoma. Modern Pathology: An Official Journal of the United States and Canadian Academy of Pathology Inc 32(3): 415-422

Gao, J.; Li, J.; Wang, M. 2020: Time series analysis of cumulative incidences of typhoid and paratyphoid fevers in China using both Grey and SARIMA models. Plos one 15(10): E0241217

Lv, C.-X.; An, S.-Y.; Qiao, B.-J.; Wu, W. 2021: Time series analysis of hemorrhagic fever with renal syndrome in mainland China by using an XGBoost forecasting model. Bmc Infectious Diseases 21(1): 839

Ariens, S.; Ceulemans, E.; Adolf, J.K. 2020: Time series analysis of intensive longitudinal data in psychosomatic research: a methodological overview. Journal of Psychosomatic Research 137: 110191

Chang, H.H.; Fuentes, M.; Frey, H.Christopher. 2012: Time series analysis of personal exposure to ambient air pollution and mortality using an exposure simulator. Journal of Exposure Science and Environmental Epidemiology 22(5): 483-488

Wang, Y.; Xu, C.; Wu, W.; Ren, J.; Li, Y.; Gui, L.; Yao, S. 2020: Time series analysis of temporal trends in hemorrhagic fever with renal syndrome morbidity rate in China from 2005 to 2019. Scientific Reports 10(1): 9609

Zeng, Q.; Li, D.; Huang, G.; Xia, J.; Wang, X.; Zhang, Y.; Tang, W.; Zhou, H. 2016: Time series analysis of temporal trends in the pertussis incidence in Mainland China from 2005 to 2016. Scientific Reports 6: 32367

Koehler, D.; Ozga, A.-K.; Molwitz, I.; May, P.; Görich, H.M.; Keller, S.; Adam, G.; Yamamura, J. 2021: Time series analysis of the demand for COVID-19 related chest imaging during the first wave of the SARS-CoV-2 pandemic: An explorative study. Plos one 16(3): E0247686

Koehler, D.; Ozga, A.-K.; Molwitz, I.; Görich, H.M.; Keller, S.; Mayer-Runge, U.; Adam, G.; Yamamura, J. 2021: Time series analysis of the in-hospital diagnostic process in suspected pulmonary embolism evaluated by computed tomography: An explorative study. European Journal of Radiology 140: 109758

Avoka, J.A.; Dun-Dery, E.J.; Seidu, I.; Abou, A.N.E.; Twene, P.; Tandoh, I.O.; Dun-Dery, F. 2021: Time series analysis of the relationship between diarrhea in children and Rota 2 vaccine in the Fanteakwa District of the eastern region of Ghana. Bmc Pediatrics 21(1): 88

Wiener, M.J.; Moreno, S.án.; Jafvert, C.T.; Nies, L.F. 2020: Time series analysis of water use and indirect reuse within a HUC-4 basin (Wabash) over a nine year period. Science of the Total Environment 738: 140221

Zhao, Z.; Fang, H.; Williams, S.; Relton, S.D.; Alty, J.; Casson, A.J.; Wong, D.C. 2020: Time series clustering to examine presence of decrement in Parkinson's finger-tapping bradykinesia. Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Annual International Conference 2020: 780-783

James, A.; Tripathi, V. 2021: Time series data analysis and ARIMA modeling to forecast the short-term trajectory of the acceleration of fatalities in Brazil caused by the corona virus (COVID-19). Peerj 9: E11748

Chen, H.; Chen, C-Yi.; Shao, K-Tsao. 2018: Time series dataset of fish assemblages near thermal discharges at nuclear power plants in northern Taiwan. Scientific Data 5: 180085

Lao, J.; Liu, Y.; Yang, Y.; Peng, P.; Ma, F.; Ji, S.; Chen, Y.; Tang, F. 2021: Time series decomposition into dyslipidemia prevalence among urban Chinese population: secular and seasonal trends. Lipids in Health and Disease 20(1): 114

Zhong, Y.; Cheng, F.; Yang, M.; Song, H.; Zhao, R. 2020: Time series expression patterns reveal the molecular processes of pancreatic cancer progression. Journal of Buon: Official Journal of the Balkan Union of Oncology 25(4): 1960-1968

Tan, C.W.; Bergmeir, C.; Petitjean, F.ço.; Webb, G.I. 2021: Time series extrinsic regression: Predicting numeric values from time series data. Data Mining and Knowledge Discovery 35(3): 1032-1060

Rauf, H.T.; Lali, M.I.U.; Khan, M.A.; Kadry, S.; Alolaiyan, H.; Razaq, A.; Irfan, R. 2023: Time series forecasting of COVID-19 transmission in Asia Pacific countries using deep neural networks. Personal and Ubiquitous Computing 27(3): 733-750

Shastri, S.; Singh, K.; Kumar, S.; Kour, P.; Mansotra, V. 2020: Time series forecasting of Covid-19 using deep learning models: India-USA comparative case study. Chaos Solitons and Fractals 140: 110227

Ayoobi, N.; Sharifrazi, D.; Alizadehsani, R.; Shoeibi, A.; Gorriz, J.M.; Moosaei, H.; Khosravi, A.; Nahavandi, S.; Gholamzadeh Chofreh, A.; Goni, F.A.; Klemeš, J.ří J.ír.; Mosavi, A. 2021: Time series forecasting of new cases and new deaths rate for COVID-19 using deep learning methods. Results in Physics 27: 104495

Sulandari, W.; Subanar, S.; Lee, M.H.; Rodrigues, P.C. 2020: Time series forecasting using singular spectrum analysis, fuzzy systems and neural networks. Methodsx 7: 101015

Penas, C.; Maloof, M.E.; Stathias, V.; Long, J.; Tan, S.Kiat.; Mier, J.; Fang, Y.; Valdes, C.; Rodriguez-Blanco, J.; Chiang, C-Ming.; Robbins, D.J.; Liebl, D.J.; Lee, J.K.; Hatten, M.E.; Clarke, J.; Ayad, N.G. 2019: Time series modeling of cell cycle exit identifies Brd4 dependent regulation of cerebellar neurogenesis. Nature Communications 10(1): 3028

Warnasekara, J.; Agampodi, S.; Abeynayake R, R. 2021: Time series models for prediction of leptospirosis in different climate zones in Sri Lanka. Plos one 16(5): E0248032

Hamilton, B.; Coops, N.C.; Lokman, K. 2021: Time series monitoring of impervious surfaces and runoff impacts in Metro Vancouver. Science of the Total Environment 760: 143873

Ruhnau, O.; Hirth, L.; Praktiknjo, A. 2019: Time series of heat demand and heat pump efficiency for energy system modeling. Scientific Data 6(1): 189

Priesmann, J.; Nolting, L.; Kockel, C.; Praktiknjo, A. 2021: Time series of useful energy consumption patterns for energy system modeling. Scientific Data 8(1): 148

Wang, P.; Zheng, X.; Ai, G.; Liu, D.; Zhu, B. 2020: Time series prediction for the epidemic trends of COVID-19 using the improved LSTM deep learning method: Case studies in Russia, Peru and Iran. Chaos Solitons and Fractals 140: 110214

Pathan, R.K.; Biswas, M.; Khandaker, M.U. 2020: Time series prediction of COVID-19 by mutation rate analysis using recurrent neural network-based LSTM model. Chaos Solitons and Fractals 138: 110018

Adeyinka, D.A.; Muhajarine, N. 2020: Time series prediction of under-five mortality rates for Nigeria: comparative analysis of artificial neural networks, Holt-Winters exponential smoothing and autoregressive integrated moving average models. Bmc Medical Research Methodology 20(1): 292

Alvarez-Fernandez, R.; Penfold, C.A.; Galvez-Valdivieso, G.; Exposito-Rodriguez, M.; Stallard, E.J.; Bowden, L.; Moore, J.D.; Mead, A.; Davey, P.A.; Matthews, J.S.A.; Beynon, J.; Buchanan-Wollaston, V.; Wild, D.L.; Lawson, T.; Bechtold, U.; Denby, K.J.; Mullineaux, P.M. 2021: Time-series transcriptomics reveals a BBX32-directed control of acclimation to high light in mature Arabidopsis leaves. Plant Journal: for Cell and Molecular Biology 107(5): 1363-1386

Appelman, B.; van der Straten, K.; Lavell, A.H.A.; Schinkel, M.; Slim, M.A.; Poniman, M.; Burger, J.A.; Oomen, M.; Tejjani, K.; Vlaar, A.P.J.; Wiersinga, W.J.; Smulders, Y.M.; van Vught, L.A.; Sanders, R.W.; van Gils, M.J.; Bomers, M.K.; Sikkens, J.J.; Appelman, B.; van de Beek, D.; Bomers, M.K.; de Brabander, J.; Brouwer, M.C.; Buis, D.T.; Chekrouni, N.; van Gils, M.J.; de Jong, M.D.; Lavell, A.A.; van Mourik, N.; Olie, S.E.; Peters, E.J.; Reijnders, T.D.; Schinkel, M.; Schuurman, A.R.; Sikkens, J.J.; Slim, M.A.; van der Straten, K.; Smulders, Y.M.; Vlaar, A.P.; van Vught, L.A.; Wiersinga, W.J. 2021: Time since SARS-CoV-2 infection and humoral immune response following BNT162b2 mRNA vaccination. Ebiomedicine 72: 103589

Zhu, Y.; Li, L.; Miao, X.; Hu, W. 2020: Time skew enabled vestigial sideband modulation for dispersion-tolerant direct-detection transmission. Optics Letters 45(22): 6138-6141

Courtemanche, C.; Pinkston, J.C.; Stewart, J. 2021: Time spent exercising and obesity: An application of Lewbel's instrumental variables method. Economics and Human Biology 41: 100940

Svensson, J.; Lissbrant, I.Franck.; Gauffin, O.; Hjälm-Eriksson, M.; Kilany, S.; Fagerlund, K.; Stattin, Pär. 2020: Time spent in hormone-sensitive and castration-resistant disease states in men with advanced prostate cancer, and its health economic impact: registry-based study in Sweden. Scandinavian Journal of Urology 2020: 1-8

Zhou, D.; Li, Z.; Shi, G.; Zhou, J. 2020: Time spent in oxygen saturation 95-99% is associated with reduced mortality in critically ill patients with mechanical ventilation. Critical Care 24(1): 414

Demiralp, B.; Koenig, L.; Xu, J.; Soltoff, S.; Votto, J. 2021: Time spent in prior hospital stay and outcomes for ventilator patients in long-term acute care hospitals. Bmc Pulmonary Medicine 21(1): 104

Mitchell, J.A.; Pate, R.R.; Beets, M.W.; Nader, P.R. 2013: Time spent in sedentary behavior and changes in childhood BMI: a longitudinal study from ages 9 to 15 years. International Journal of Obesity 37(1): 54-60

Tigbe, W.W.; Granat, M.H.; Sattar, N.; Lean, M.E.J. 2017: Time spent in sedentary posture is associated with waist circumference and cardiovascular risk. International Journal of Obesity 41(5): 689-696

Cutruzzolà, A.; Irace, C.; Parise, M.; Fiorentino, R.; Pio Tripodi, P.F.; Ungaro, S.; Babinsky, V.; Gnasso, A. 2020: Time spent in target range assessed by self-monitoring blood glucose associates with glycated hemoglobin in insulin treated patients with diabetes. Nutrition Metabolism and Cardiovascular Diseases: Nmcd 30(10): 1800-1805

Petrigna, L.; Treigienė, M.; Thomas, E.; Mani, D.; Pajaujiene, S.; Drid, P.; Lavanco, G.; Palma, A.; Bianco, A. 2021: Time spent on the smartphone does not relate to manual dexterity in young adults. Bmc Neuroscience 22(1): 34

Scott, C.F.; Bay-Cheng, L.Y.; Prince, M.A.; Nochajski, T.H.; Collins, R.L. 2017: Time spent online: Latent profile analyses of emerging adults' social media use. Computers in Human Behavior 75: 311-319

Miguet, M.; Venetis, S.; Rukh, G.; Lind, L.; Schiöth, H.B. 2021: Time spent outdoors and risk of myocardial infarction and stroke in middle and old aged adults: Results from the UK Biobank prospective cohort. Environmental Research 199: 111350

Lingham, G.; Yazar, S.; Lucas, R.M.; Milne, E.; Hewitt, A.W.; Hammond, C.J.; MacGregor, S.; Rose, K.A.; Chen, F.K.; He, M.; Guggenheim, J.A.; Clarke, M.W.; Saw, S-Mei.; Williams, C.; Coroneo, M.T.; Straker, L.; Mackey, D.A. 2021: Time spent outdoors in childhood is associated with reduced risk of myopia as an adult. Scientific Reports 11(1): 6337

Yuen, K.S.C.; Mahesh, L.; Chan, D.D.N.; Lam, D.S.C.; Chan, W-M. 2005: Time taken to do external and endoscopic endonasal dacryocystorhinostomy (DCR) surgery. Eye 19(6): 693

Jo, S.; Lee, S.H.; Jang, S.W.; Choi, H.B.; Kim, B.R.; Jeong, J.H.; Kim, S.A. 2020: Time taken to resume driving following hip arthroscopy. Bmc Musculoskeletal Disorders 21(1): 643

Stossel, T.P.; Stell, L.K. 2011: Time to 'walk the walk' about industry ties to enhance health. Nature Medicine 17(4): 437-438

Beletsky, A.; Gowd, A.K.; Liu, J.N.; Manderle, B.J.; Yanke, A.B.; Forsythe, B.; Cole, B.J.; Verma, N. 2020: Time to Achievement of Clinically Significant Outcomes After Isolated Arthroscopic Partial Meniscectomy: a Multivariate Analysis. Arthroscopy Sports Medicine and Rehabilitation 2(6): E723-E733

Hultgren, R.; Roy, J. 2021: Time to Act: Women Fare Worse After Complex Endovascular Aortic Repairs. European Journal of Vascular and Endovascular Surgery: the Official Journal of the European Society for Vascular Surgery 62(6): 857-858

Lazarus, B.; Davies, M.R.P.; Trubiano, J.A.; Pellicano, R. 2020: Time to Acute Kidney Injury in β-Lactam-Induced Acute Interstitial Nephritis. Kidney International Reports 5(7): 1068-1070

Nagle, L.M. 2021: Time to Adjust the Sails. Nursing Leadership 34(1): 1-3

Bayisa, L.; Abera, T.; Mulisa, D.; Mosisa, G.; Mosisa, A.; Tolosa, T.; Turi, E.; Wakuma, B.; Abdisa, E.; Bayisa, D. 2021: Time to Antiretroviral Therapy Initiation and its Predictors Among Newly Diagnosed HIV-Positive people in Nekemte Town, Western Ethiopia: Claim of Universal Test and Treat. Hiv/Aids 13: 959-972

McKechnie, P.S.; Kerslake, D.A.; Parks, R.W. 2017: Time to CT and Surgery for HPB Trauma in Scotland Prior to the Introduction of Major Trauma Centres. World Journal of Surgery 41(7): 1796-1800

Crump, M. 2021: Time to Change Direction in the Treatment of Relapsed Hodgkin Lymphoma?. Journal of Clinical Oncology: Official Journal of the American Society of Clinical Oncology 39(2): 97-99

Pizzorno, J. 2019: Time to Change Standard of Care to Include Screening for Common Disease-Inducing Toxicants. Integrative Medicine 18(5): 8-13

Shakouri, A.; Wollina, U. 2021: Time to Change Theory; Medical Leech from a Molecular Medicine Perspective Leech Salivary Proteins Playing a Potential Role in Medicine. Advanced Pharmaceutical Bulletin 11(2): 261-266

Hagen, P.; Hossain, N. 2021: Time to Complete Response after Defibrotide Initiation in Hepatic Veno-Occlusive Disease: Is Less Actually More?. Transplantation and Cellular Therapy 27(2): 192-193

Kim, C-O. 2018: Time to Conduct Community-Oriented Researches in Geriatrics. Annals of Geriatric Medicine and Research 22(3): 109-110

Wilensky, G.; Miller, B. 2020: Time to Consider a new look at Physician-Owned Hospitals to Increase Competition in Health Care?. JAMA 323(19): 1884-1885

Saliba, F.; Dharancy, S.éb.; Salamé, E.; Conti, F.én.; Eyraud, D.; Radenne, S.; Antonini, T.ér.és.; Guillaud, O.; Guguenheim, J.; Neau-Cransac, M.; Demartin, E.éo.; Lasailly, G.; Duvoux, C.; Sobesky, R.; Coilly, A.; Tresson, S.; Cailliez, V.ér.; Boillot, O.; Pageaux, G.P.; Samuel, D.; Calmus, Y.; Dumortier, J.ér.ôm. 2020: Time to Conversion to an Everolimus-Based Regimen: Renal Outcomes in Liver Transplant Recipients from the EVEROLIVER Registry. Liver Transplantation: Official Publication of the American Association for the Study of Liver Diseases and the International Liver Transplantation Society 26(11): 1465-1476

Seiwert, T.Y.; Kiess, A.P. 2021: Time to Debunk an Urban Myth? the "Abscopal Effect" with Radiation and Anti-PD-1. Journal of Clinical Oncology: Official Journal of the American Society of Clinical Oncology 39(1): 1-3

Vongthilath-Moeung, R.; Poncet, A.; Renzi, G.; Schrenzel, J.; Janssens, J.-P. 2021: Time to Detection of Growth for Mycobacterium tuberculosis in a Low Incidence Area. Frontiers in Cellular and Infection Microbiology 11: 704169

Li, J.; Bao, G.; Wang, H. 2020: Time to Develop Therapeutic Antibodies Against Harmless Proteins Colluding with Sepsis Mediators?. Immunotargets and Therapy 9: 157-166

Kvello-Alme, M.; Bråthen, G.; White, L.R.; Sando, S.B. 2021: Time to Diagnosis in Young Onset Alzheimer's Disease: a Population-Based Study from Central Norway. Journal of Alzheimer's Disease: Jad 82(3): 965-974

Prieske, O.; Behrens, M.; Chaabene, H.; Granacher, U.; Maffiuletti, N.A. 2020: Time to Differentiate Postactivation "Potentiation" from "Performance Enhancement" in the Strength and Conditioning Community. Sports Medicine 50(9): 1559-1565

Maldey, H.; Tadesse, S.; Alem, A.Z.; Hagezom, H.M.; Hagos Gufue, Z. 2021: Time to Euthyroidism and its Determinants Among Thyrotoxicosis Patients on Anti-Thyroid Drug who Attend to Medical and Ambulatory Clinics of South Tigrai General Hospitals. Therapeutics and Clinical Risk Management 17: 1091-1101

Kellner, C.P.; Song, R.; Ali, M.; Nistal, D.A.; Samarage, M.; Dangayach, N.S.; Liang, J.; McNeill, I.; Zhang, X.; Bederson, J.B.; Mocco, J. 2021: Time to Evacuation and Functional Outcome After Minimally Invasive Endoscopic Intracerebral Hemorrhage Evacuation. Stroke 52(9): E536-E539

Do Amaral, Y.N.d.V.; Malacarne, J.; Brandão, P.G.; Brasil, P.íc.; Nielsen-Saines, K.; Moreira, M.E.L. 2021: Time to Evaluate the Clinical Repercussions of Zika Virus Vertical Transmission? a Systematic Review. Frontiers in Psychiatry 12: 699115

Stern, L.D.; Waikar, S. 2020: Time to Expand Access and Utilization of Home Dialysis: Lessons from the COVID-19 Pandemic. Mayo Clinic Proceedings 95(7): 1323-1324

Barrett, J.S. 2020: Time to Expect more from Pharmacometrics. Clinical Pharmacology and Therapeutics 108(6): 1129-1131

García, A.M.; Hesse, E.; Birba, A.; Adolfi, F.; Mikulan, E.; Caro, M.M.; Petroni, A.ín.; Bekinschtein, T.A.; Del Carmen García, M.ía.; Silva, W.; Ciraolo, C.; Vaucheret, E.; Sedeño, L.; Ibáñez, A.ín. 2020: Time to Face Language: Embodied Mechanisms Underpin the Inception of Face-Related Meanings in the Human Brain. Cerebral Cortex 30(11): 6051-6068

Buell, K.G.; Casey, J.D.; Noto, M.J.; Rice, T.W.; Semler, M.W.; Stollings, J.L. 2021: Time to first Culture Positivity for Gram-Negative Rods Resistant to Ceftriaxone in Critically Ill Adults. Journal of Intensive Care Medicine 36(1): 51-57

Zenebe, E.; Washo, A.; Addis Gesese, A. 2021: Time to First-Line Antiretroviral Treatment Failure and its Predictors among HIV-Positive Children in Shashemene Town Health Facilities, Oromia Region, Ethiopia, 2019. Thescientificworldjournal 2021: 8868479

Yung, R.L.; Gralow, J.R. 2021: Time to Focus on Breast Cancer in Young Adults. Jco Oncology Practice 17(6): 314-316

Dietz, J.R.; Pronovost, P. 2020: Time to Focus on Value-Based Metrics for Cancer Care?. JAMA Oncology 6(9): 1325-1326

Kheirbek, T.; Luhrs, A.R.; Marawha, J.; Stephen, A.H.; Adams, C.A.; Lueckel, S.N. 2021: Time to Head Computed Tomography Protocol in Traumatic Brain Injury: a Quality Improvement Metric. Rhode Island Medical Journal 104(6): 28-32

Seigerman, D.; McEntee, R.M.; Matzon, J.; Lutsky, K.; Fletcher, D.; Rivlin, M.; Vialonga, M.; Beredjiklian, P. 2021: Time to Improvement After Corticosteroid Injection for Trigger Finger. Cureus 13(8): E16856

Engels, D.; Huang, F.; Zhou, X.-N. 2021: Time to Integrate Malaria and Neglected Tropical Diseases Control and Elimination. China Cdc Weekly 3(17): 372-374

Niruthisard, D.; Tulvatana, W.; Satitpitakul, V. 2021: Time to Keratometric Stability After Pterygium Excision and the Associated Factors: a Clinical Perspective. Clinical Ophthalmology 15: 1277-1283

Liang, Y.; Guo, T.; Hong, D.; Xiao, W.; Zhou, Z.; Zhang, X. 2020: Time to Local Recurrence as a Predictor of Survival in Patients with Soft Tissue Sarcoma of the Extremity and Abdominothoracic Wall. Frontiers in Oncology 10: 599097

Coulibaly, A.; Millogo, T.; Baguiya, A.; Tran, N.T.; Thieba, B.; Seuc, A.; Cuzin-Kihl, A.; Landoulsi, S.; Kiarie, J.; Yodi, R.; Mashinda, D.és.é; Kouanda, S.én. 2021: Time to Long-Acting Reversible Contraceptive Uptake over Twelve Months Postpartum: Findings of the Yam Daabo Cluster Randomized-Controlled Trial in Burkina Faso and the Democratic Republic of the Congo. Open Access Journal of Contraception 12: 73-82

Hsu, P-I.; Tsai, F-Woei.; Kao, S-Shuo.; Kao, J.Y. 2018: Time to Make a Change in the Cutoff Value of Clarithromycin Resistance in the Treatment of Helicobacter pylori Infection. American Journal of Gastroenterology 113(1): 142-143

Yamada, A. 2021: Time to make the Most use of Three-Dimensional Global Strains in Daily Clinical Practice. Circulation Journal: Official Journal of the Japanese Circulation Society 85(10): 1744-1745

Lexchin, J. 2021: Time to Marketing of Generic Drugs After Patent Expiration in Canada. JAMA Network Open 4(3): E211143

Afonso, J.é; Olivares-Jabalera, J.ús.; Andrade, R. 2021: Time to Move from Mandatory Stretching? we Need to Differentiate "Can I?" from "do i have To?". Frontiers in Physiology 12: 714166

Gustafsson, K.; Tatz, A.J.; Dahan, R.; Britzi, M.; Soback, S.; Sutton, G.A.; Kelmer, G. 2020: Time to Peak Concentration of Amikacin in the Antebrachiocarpal Joint Following Cephalic Intravenous Regional Limb Perfusion in Standing Horses. Veterinary and Comparative Orthopaedics and Traumatology: V.C.O.T 33(5): 327-332

Alpern, E.R.; Kuppermann, N.; Blumberg, S.; Roosevelt, G.; Cruz, A.T.; Nigrovic, L.E.; Browne, L.R.; VanBuren, J.M.; Ramilo, O.; Mahajan, P. 2020: Time to Positive Blood and Cerebrospinal Fluid Cultures in Febrile Infants ≤60 Days of Age. Hospital Pediatrics 10(9): 719-727

Temmermand, R.; Mitrev, L.; van Helmond, N.; Roberts, D.; Lombardi, J.; Vuckovic, D. 2021: Time to Post-Anesthesia Neurological Evaluation and Hemodynamic Stability in Carotid Endarterectomy Comparing Three General Anesthetic Techniques Targeted to a Preset Bispectral Index Value: a Pilot Study. Aana Journal 89(3): 213-220

Haakinson, D.J. 2021: Time to Procurement and Post-Kidney Transplant Outcomes: how do we Provide a Personalized Medicine Approach to Optimizing Organ Donation?. Clinical Journal of the American Society of Nephrology: Cjasn 16(3): 340-342

Savulescu, J. 2021: Time to Professionalize Service to Research? Pay Nothing or Full Wage for Labor. American Journal of Bioethics: Ajob 21(3): 32-34

Smith, G.A. 2020: Time to Protect our Children from Liquid Laundry Detergent Packets. American Journal of Public Health 110(8): 1119-1120

Feld, K.A.; Feld, A.D. 2016: Time to Put Managing Endoscopic Complications Into the Curriculum. American Journal of Gastroenterology 111(3): 353-354

Yung, C.F.; Saffari, E.; Liew, C. 2020: Time to Rt < 1 for COVID-19 public health lockdown measures. Epidemiology and Infection 148: E301

Jeon, J.Y. 2021: Time to Reach Target Glycosylated Hemoglobin Is Associated with Long-Term Durable Glycemic Control and Risk of Diabetic Complications in Patients with Newly Diagnosed Type 2 Diabetes Mellitus: a 6-Year Observational Study (Diabetes Metab J 2021;45:368-78). Diabetes and Metabolism Journal 45(4): 613-614

Kim, K.J.; Choi, J.; Bae, J.H.; Kim, K.J.; Yoo, H.J.; Seo, J.A.; Kim, N.H.; Choi, K.M.; Baik, S.H.; Kim, S.G.; Kim, N.H. 2021: Time to Reach Target Glycosylated Hemoglobin Is Associated with Long-Term Durable Glycemic Control and Risk of Diabetic Complications in Patients with Newly Diagnosed Type 2 Diabetes Mellitus: a 6-Year Observational Study (Diabetes Metab J 2021;45:368-78). Diabetes and Metabolism Journal 45(4): 617-618

Hatamizadeh, P. 2021: Time to Recognize Nephrocardiology as a Discipline. Cardiology Clinics 39(3): Xiii

Kent, E.E. 2020: Time to Recognize and Support Emerging Adult Caregivers in Public Health. American Journal of Public Health 110(12): 1720-1721

Nomura, S.; Yoneoka, D.; Tanoue, Y.; Kawashima, T.; Shi, S.; Eguchi, A.; Miyata, H. 2020: Time to Reconsider Diverse Ways of Working in Japan to Promote Social Distancing Measures against the COVID-19. Journal of Urban Health: Bulletin of the new York Academy of Medicine 97(4): 457-460

Laina, A.; Gatzoulis, K.A.; Soulaidopoulos, S.; Arsenos, P.; Doundoulakis, I.; Tsiachris, D.; Sideris, S.; Kordalis, A.; Tousoulis, D.; Tsioufis, K. 2021: Time to reconsider risk stratification in dilated cardiomyopathy. Hellenic Journal of Cardiology: Hjc 62(5): 392-393

Peters, G.W.; Hallemeier, C.L.; Jethwa, K.R. 2020: Time to Reconsider Staging Laparoscopy in Pancreatic Cancer?. Journal of Clinical Oncology: Official Journal of the American Society of Clinical Oncology 38(25): 2944-2945

Jain, A.; Ramasamy, K. 2020: Time to Redefine Risk-Stratification and Response Criteria in Immunoglobulin Light Chain Amyloidosis?. Clinical Lymphoma Myeloma and Leukemia 20(10): E769-E776

Liu, P.P.; Al-Khalaf, M.; Blet, A. 2020: Time to Reframe Ejection Fraction in Light of new Pathophysiological Insights into Heart Failure. Journal of the American College of Cardiology 76(17): 1995-1998

Gebrehiwot, M.; Kassa, M.; Gebrehiwot, H.; Sibhat, M. 2020: Time to Relapse and its Predictors among Children with Nephrotic Syndrome in Comprehensive Specialized Hospitals, Tigray, Ethiopia, 2019. International Journal of Pediatrics 2020: 8818953

Verma, S.; Bhatt, D.L.; Tseng, E.E. 2021: Time to Remove the Left Atrial Appendage at Surgery: LAAOS III in Perspective. Circulation 144(14): 1088-1090

Mohottige, D.; Diamantidis, C.J.; Norris, K.C.; Boulware, L.E. 2021: Racism and Kidney Health: Turning Equity into a Reality. American Journal of Kidney Diseases: the Official Journal of the National Kidney Foundation 77(6): 951-962

Butler, S.M. 2021: Time to Rethink Nursing Homes. JAMA 325(14): 1383-1384

Ruzieh, M.; Foy, A.J. 2020: Time to Rethink Surveillance Testing Prior to Kidney Transplant: a Teachable Moment. JAMA Internal Medicine 180(10): 1365-1366

Karck, M. 2020: Time to Rethink about Prophylactic Aortic Root Surgery in Patients with Marfan's Syndrome. Thoracic and Cardiovascular Surgeon 68(4): 330

Schleicher, S.M.; Chaudhry, B.; Dickson, N.R.; Aviki, E.; Arrowsmith, E.; Parikh, R.B.; Yue, A.T.; Connor, N.; Schwartzberg, L.; Lyss, A.J. 2021: Time to Rethink the Role of Clinical Pathways in the Era of Precision Medicine: a Lung Cancer Case Study. Jco Oncology Practice 17(7): 379-381

Willimon, S.C.; Johnson, M.M.; Herzog, M.M.; Busch, M.T. 2019: Time to Return to School After 10 Common Orthopaedic Surgeries Among Children and Adolescents. Journal of Pediatric Orthopedics 39(6): 322-327

Beane, A.; Dongelmans, D.A.; Fernandez, A.L.; Guidet, B.; Haniffa, R.; Arias Lopez, M.P.; Pilcher, D.; Salluh, J.; Vijayaraghavan, B.K.T. 2021: Time to Revisit Treatment Limitations in Critical Care Benchmarking. Critical Care Medicine 49(4): E472-E473

Xu, W.; Piper-Vallillo, A.J.; Bindal, P.; Wischhusen, J.; Patel, J.M.; Costa, D.B.; Peters, M.L.B. 2020: Time to SARS-CoV-2 Clearance Among Patients with Cancer and COVID-19. Medrxiv: the Preprint Server for Health Sciences 2020

Epstein, R.L.; Sperring, H.; Hofman, M.; Lodi, S.; White, L.F.; Barocas, J.A.; Bouton, T.C.; Xiao, Y.; Hsu, H.E.; Miller, N.S.; Linas, B.P.; Marathe, J.G. 2021: Time to SARS-CoV-2 PCR Clearance in Immunocompromising Conditions: Is Test-Based Removal from Isolation Necessary in Severely Immunocompromised Individuals?. Open Forum Infectious Diseases 8(6): Ofab 164

Grant, H.; Gomez, G.B.; Kripke, K.; Barnabas, R.V.; Watts, C.; Medley, G.F.; Mukandavire, Z. 2020: Time to Scale up Preexposure Prophylaxis Beyond the Highest-Risk Populations? Modeling Insights from High-Risk Women in Sub-Saharan Africa. Sexually Transmitted Diseases 47(11): 767-777

Hayajneh, A.A.; Rababa, M.; Al-Rawashedeh, S. 2022: Time to Seek Care and Hospital Length of Stay Among Older Adults with Acute Coronary Syndrome During the COVID-19 Pandemic. Clinical Nursing Research 31(3): 364-375

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Susanah, S.; Idjradinata, P.S.; Sari, N.M.; Rakhmilla, L.E.; Sribudiani, Y.; Trisaputra, J.O.; Moestopo, O. 2020: Time to Start Delivering Iron Chelation Therapy in Newly Diagnosed Severe β-Thalassemia. Biomed Research International 2020: 8185016

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Mayi, B.; Cook, N.; Pandya, N. 2020: Time to Strategically Position Nursing Homes to Effectively Manage Emerging Infections. Journal of the American Medical Directors Association 21(11): 1578-1579

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Van Tol, F.R.; Versteeg, A.L.; Verkooijen, H.M.; Öner, F.C.; Verlaan, J.-J. 2023: Time to Surgical Treatment for Metastatic Spinal Disease: Identification of Delay Intervals. Global Spine Journal 13(2): 316-323

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Ji, N.; Bai, Y.; Xu, J.; Liu, M.; Jia, A. 2021: Time to take Actions to Reduce the Harmful use of Alcohol in China. China Cdc Weekly 3(4): 74-77

Watkins, H. 2021: Time to Think Differently About Sarcomere-Negative Hypertrophic Cardiomyopathy. Circulation 143(25): 2415-2417

Yafasova, A.; Fosbøl, E.L.; Johnsen, S.ør.P.; Kruuse, C.; Petersen, J.K.; Alhakak, A.; Vinding, N.E.; Torp-Pedersen, C.; Gislason, G.H.; Køber, L.; Butt, J.H. 2021: Time to Thrombolysis and Long-Term Outcomes in Patients with Acute Ischemic Stroke: a Nationwide Study. Stroke 52(5): 1724-1732

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Koolmees, D.; Ramkumar, P.N.; Hessburg, L.; Guo, E.; Bernstein, D.N.; Makhni, E.C. 2021: Time-Driven Activity-based Costing for Anterior Cruciate Ligament Reconstruction: a Comparison to Traditional Accounting Methods. Arthroscopy Sports Medicine and Rehabilitation 3(1): E39-E45

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Bodar, Y.J.L.; Srinivasan, A.K.; Shah, A.S.; Kawal, T.; Shukla, A.R. 2020: Time-Driven activity-based costing identifies opportunities for process efficiency and cost optimization for robot-assisted laparoscopic pyeloplasty. Journal of Pediatric Urology 16(4): 460.E1-460.E10

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Kanas, N.; Bjørk, R.; Wells, K.H.øy.; Schuler, R.; Einarsrud, M.-A.; Pryds, N.; Wiik, K. 2021: Time-Enhanced Performance of Oxide Thermoelectric Modules Based on a Hybrid p-n Junction. Acs Omega 6(1): 197-205

Nishihara, Y.; Mitsui, K.; Azama, S.; Okamoto, D.; Sato, M.; Naito, K.; Aibe, H. 2020: Time-Enhancement Curve of Four-Dimensional Computed Tomography Predicts Aneurysm Enlargement with Type-Ii Endoleak after Endovascular Aneurysm Repair. Aorta 8(2): 29-34

Mousavi, S.M.; Asgharzadeh-Bonab, A.; Ranjbarzadeh, R. 2021: Time-Frequency Analysis of EEG Signals and GLCM Features for Depth of Anesthesia Monitoring. Computational Intelligence and Neuroscience 2021: 8430565

Behbahani, S.; Ramezani, A.; Karimi Moridani, M.; Sabbaghi, H. 2020: Time-Frequency Analysis of Photopic Negative Response in CRVO Patients. Seminars in Ophthalmology 35(3): 187-193

Munia, T.T.K.; Aviyente, S. 2019: Time-Frequency Based Phase-Amplitude Coupling Measure For Neuronal Oscillations. Scientific Reports 9(1): 12441

Thangavel, P.; Thomas, J.; Peh, W.Y.; Jing, J.; Yuvaraj, R.; Cash, S.S.; Chaudhari, R.; Karia, S.; Rathakrishnan, R.; Saini, V.; Shah, N.; Srivastava, R.; Tan, Y.-L.; Westover, B.; Dauwels, J. 2021: Time-Frequency Decomposition of Scalp Electroencephalograms Improves Deep Learning-Based Epilepsy Diagnosis. International Journal of Neural Systems 31(8): 2150032

Liang, T.; Zhang, Q.; Liu, X.; Lou, C.; Liu, X.; Wang, H. 2020: Time-Frequency Maximal Information Coefficient Method and its Application to Functional Corticomuscular Coupling. IEEE Transactions on Neural Systems and Rehabilitation Engineering: a Publication of the IEEE Engineering in Medicine and Biology Society 28(11): 2515-2524

Cardoso Dos Santos, M.; Colin, I.; Ribeiro Dos Santos, G.; Susumu, K.; Demarque, M.ël.; Medintz, I.L.; Hildebrandt, N. 2020: Time-Gated FRET Nanoprobes for Autofluorescence-Free Long-Term in Vivo Imaging of Developing Zebrafish. Advanced Materials 32(39): E2003912

Montero, M.ía.M.; Domene Ochoa, S.; López-Causapé, C.; Luque, S.; Sorlí, L.; Campillo, N.úr.; López Montesinos, I.; Padilla, E.; Prim, N.úr.; Angulo-Brunet, A.; Grau, S.; Oliver, A.; Horcajada, J.P. 2021: Time-Kill Evaluation of Antibiotic Combinations Containing Ceftazidime-Avibactam against Extensively Drug-Resistant Pseudomonas aeruginosa and their Potential Role against Ceftazidime-Avibactam-Resistant Isolates. Microbiology Spectrum 9(1): E0058521

Chang, K.; Chen, C-Dong.; Shih, C-Ming.; Lee, T-Chi.; Wu, M-Tsang.; Wu, D-Chyang.; Chen, Y-Hsu.; Hung, C-Hsing.; Wu, M-Chieh.; Huang, C-Chi.; Lee, C-Hung.; Ho, C-Kung. 2016: Time-Lagging Interplay Effect and Excess Risk of Meteorological/Mosquito Parameters and Petrochemical Gas Explosion on Dengue Incidence. Scientific Reports 6: 35028

Murai, S.; Shirasaki, Y.; Nakano, H. 2021: Time-Lapse Imaging of Necroptosis and DAMP Release at Single-Cell Resolution. Methods in Molecular Biology 2274: 353-363

Ing-Esteves, S.; Lefebvre, J.L. 2021: Time-Lapse Imaging of Neuronal Arborization using Sparse Adeno-Associated Virus Labeling of Genetically Targeted Retinal Cell Populations. Journal of Visualized Experiments: Jove 2021(169)

Kim, H.-S.; Park, S.-Y.; Kang, S.; Czymmek, K.J. 2022: Time-Lapse Imaging of Root Pathogenesis and Fungal Proliferation Without Physically Disrupting Roots. Methods in Molecular Biology 2391: 153-170

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Bizzarri, A.R.; Cannistraro, S. 2020: Time-Resolved Fluorescence and Essential Dynamics Study on the Structural Heterogeneity of p53DBD Bound to the Anticancer p28 Peptide. Journal of Physical Chemistry. B 124(44): 9820-9828

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