Renal depth influence on the gamma-camera effective renal plasma flow determination A comparison between ERPF calculated by Taylor and Tonnesen formulas versus blood clearance with single sample method
Benti, R.; Voltini, F.; Palatresi, S.; Marotta, G.; Bencini, C.; Del Vecchio, C.; Rognoni, M.; Morganti, A.; Gerundini, P.
Journal of Nuclear Medicine 42(5 Suppl): 348P
2001
ISSN/ISBN: 0161-5505 Accession: 035647792
Full Text Article emailed within 1 workday: $29.90
Related References
Schumann, L.; Esther, G.; Wüstenberg, P.W.; Hortian, B. 1990: Simultaneous determination of the GRF and the ERPF (effective renal plasma flow) using a single blood sample in the slope clearance with 99mTc-DTPA and i 131-hippurate Zeitschrift für Urologie und Nephrologie 83(7): 391-397Freedland, S.J.; Mishkin, F.; Shoskes, D.A. 2001: Effective renal plasma flow calculated from a single blood sample following Technetium-99m mercaptoacetyltriglycine renal scan can predict delayed graft function in renal transplantation Techniques in Urology 7(4): 281-284
Jakubowski, W. 1976: Calculation of effective renal plasma flow (ERPF) based on external recording of radioactivity decay in the circulation after a single dose of intravenous hippuran 131J. Part I: Determination of ERPF value according to the one compartment model Polski Przeglad Radiologii i Medycyny Nuklearnej 40(5): 335-341
Aydin, F.; Güngör, F.; Cengiz, A.K.; Tuncer, M.; Mahsereci, E.; Ozdem, S.; Cenkçi, M.; Karayalçin, B. 2008: Comparison of glomerular filtration rate measurements with the two plasma sample and single plasma sample, gamma camera Gates, creatinine clearance, and prediction equation methods in potential kidney donors with normal renal function Nuclear Medicine Communications 29(2): 157-165
Jakubowski, W. 1976: Calculation of effective renal plasma flow (ERPF) based on external recording of radioactivity decay in the circulation after a single dose of intravenous hippurate 131J. Part II. Comparison of ERPF value according to the one compartment and two compartments models Polski Przeglad Radiologii i Medycyny Nuklearnej 40(5): 343-346
Lee, Y.H.; Liu, R.S.; Chen, M.T.; Yeh, P.S.; Huang, J.K.; Chang, L.S. 1992: Comparison of effective renal plasma flow (ERPF) and endogenous creatinine clearance (Ccr) in evaluation of the differential kidney function: an in vivo study Zhonghua Yi Xue Za Zhi 49(3): 147-152
Abdel-Dayem, H.M.; Sadek, S.; al-Bahar, R.; Sabha, M.; el-Sayed, M. 1989: Comparison of 99Tcm-mercaptoacetyltriglycine and 131I-orthoiodohippurate in determination of effective renal plasma flow (ERPF) Nuclear Medicine Communications 10(2): 99-107
Stritzke, P.H.; Kupfer, S.; Zhu, P.; Vallabhajosula, S.; Kim, C.K.; Burrows, L.; Goldsmith, S.J. 1990: Measurement of glomerular filtration rate gfr and renal plasma flow rpf or effective renal plasma flow erpf and renal plasma flow by a two minute dynamic scintigraphic study Journal of Nuclear Medicine 31(5 Suppl): 914
Rehling, M.; Møller, M.L.; Thamdrup, B.; Lund, J.O.; Trap-Jensen, J. 1986: Reliability of a 99mTc-DTPA gamma camera technique for determination of single kidney glomerular filtration rate. A comparison to plasma clearance of 51Cr-EDTA in one-kidney patients, using the renal clearance of inulin as a reference Scandinavian Journal of Urology and Nephrology 20(1): 57-62
Arroyo, A.J. 1993: Effective renal plasma flow determination using technetium-99m MAG3 : comparison of two camera techniques with the Tauxe method Journal of Nuclear Medicine Technology 21(3): 162-166
Radin, M.J.; Hoepf, T.M.; Swayne, D.E. 1993: Use of a single injection solute-clearance method for determination of glomerular filtration rate and effective renal plasma flow in chickens Laboratory Animal Science 43(6): 594-596
Schaap, G.H.; De Jong, R.B.J.; Alferink, T.H.R.; Roos, J.C.; Donker, A.J.M. 1987: Technetium 99m mag 3 is not suitable for the determination of the effective renal plasma flow erpf Kidney International 32(5): 775
Abdel Dayem H.M.; Sadek S.; Al Bahar R.; Sabha M.; El Sayed M. 1989: Comparison of technetium 99m labeled mercaptoacetyltriglycine and iodine 131 labeled o iodohippurate in determination of effective renal plasma flow erpf Nuclear Medicine Communications 10(2): 99-108
Senf, L.; Schmidt, U. 1979: Preliminary determination of the effective renal plasma flow and of the glomerular filtration rate by means of a single blood sample Radiologia Diagnostica 20(6): 876-881
Skelly, R. H.; Gaffney, M. M.; Dowsett, D. J.; Firth, R. G.R. 1993: Measurement of glomerular filtration rate (GFR), effective renal plasma flow (ERPF) and plasma volume (PV) using a single injection cocktail Nuclear Medicine Communications 14(3): 236-237
Llamas Elvira, J.M.; Martinez Paredes, M.; Sopena Monforte, R.; Cruz Fombellida Cortaraz, J.; Marti Vidal, J.F.; Esteban Velasco, J. 1987: Effective renal plasma flow measurement by blood sample counting comparison of result obtained by the classical sapirstein method and by a simplified method using two samples Radiologia 29(3): 199-202
Itkin, R.J.; Krawiec, D.R.; Twardock, A.R.; Gelberg, H.B.; Koritz, G.D. 1994: Evaluation of the single-injection plasma disappearance of technetium-99m mercaptoacetyltriglycine method for determination of effective renal plasma flow in dogs with normal or abnormal renal function American Journal of Veterinary Research 55(12): 1652-1659
Delpassand, E.S.; Homayoon, K.; Madden, T.; Mathai, M.; Podoloff, D.A. 2000: Determination of glomerular filtration rate using a dual-detector gamma camera and the geometric mean of renal activity: correlation with the Tc-99m DTPA plasma clearance method Clinical Nuclear Medicine 25(4): 258-262
Tauxe, W.N.; Dubovsky, E.V.; Kidd, T.E. 1984: Comparison of measurement of effective renal plasma flow by single plasma sample and plasma disappearance slope/volume methods European Journal of Nuclear Medicine 9(10): 443-445
Akutsu, T.; Komatani, A.; Yamaguchi, K.; Takahashi, K.; Konta, T. 1998: Modification of measurement of effective renal plasma flow from blood pool clearance curve of I-123-orthoiodohippurate using single blood sampling Radiation Medicine 16(4): 245-250