Smith H. The kidney: structure and function in health and disease (1951), Oxford University Press, New York
Brandstrom E., Grzegorczyk A., Jacobsson L., Friberg P., Lindahl A., and Aurell M. GFR measurement with iohexol and 51Cr-EDTA. A comparison of the two favoured GFR markers in Europe. Nephrol Dial Transplant 13 (1998) 1176-1182
Perrone R.D., Madias N.E., and Levey A.S. Serum creatinine as an index of renal function: new insights into old concepts. Clin Chem 38 (1992) 1933-1953
Delanaye P., Lambermont B., Chapelle J.P., Gielen J., Gerard P., and Rorive G. Plasmatic cystatin C for the estimation of glomerular filtration rate in intensive care units. Intensive Care Med 30 (2004) 980-983
Mariat C., Maillard N., Phayphet M., et al. Estimated glomerular filtration rate as an end point in kidney transplant trial: where do we stand?. Nephrol Dial Transplant 23 (2008) 33-38
Brochner-Mortensen J., Giese J., and Rossing N. Renal inulin clearance versus total plasma clearance of 51Cr-EDTA. Scand J Clin Lab Invest 23 (1969) 301-305
Rootwelt K., Falch D., and Sjokvist R. Determination of glomerular filtration rate (GFR) by analysis of capillary blood after single shot injection of 99mTc-DTPA. A comparison with simultaneous 125I-iothalamate GFR estimation showing equal GFR but difference in distribution volume. Eur J Nucl Med 5 (1980) 97-102
Brown S.C., and O'Reilly P.H. Iohexol clearance for the determination of glomerular filtration rate in clinical practice: evidence for a new gold standard. J Urol 146 (1991) 675-679
Frennby B., and Sterner G. Contrast media as markers of GFR. Eur Radiol 12 (2002) 475-484
Malamos B., Dontas A.S., Koutras D.A., Marketos S., Sfontouris J., and Papanicolaou N. 125I-sodium iothalamate in the determination of the glomerular filtration rate. Nucl Med (Stuttg) 6 (1967) 304-310
Back S.E., Masson P., and Nilsson-Ehle P. A simple chemical method for the quantification of the contrast agent iohexol, applicable to glomerular filtration rate measurements. Scand J Clin Lab Invest 48 (1988) 825-829
Krutzen E., Back S.E., Nilsson-Ehle I., and Nilsson-Ehle P. Plasma clearance of a new contrast agent, iohexol: a method for the assessment of glomerular filtration rate. J Lab Clin Med 104 (1984) 955-961
Shihabi Z.K., and Constantinescu M.S. Iohexol in serum determined by capillary electrophoresis. Clin Chem 38 (1992) 2117-2120
International conference on harmonization (ICH) of technical requirements for registration of pharmaceuticals for human use, topic Q2 R1. Validation of analytical procedures: text and methodology. 2005. Geneva. 2005.
ISO 5725-1, Application of the statistics-accuracy (trueness and precision) of the results and methods of meassurement-Part 1: General principles and definitions. International Organization for Standardization (ISO). 2005. Geneva.
Hubert P., Nguyen-Huu J.J., Boulanger B., et al. Harmonization of strategies for the validation of quantitative analytical procedures. A SFSTP proposal-Part I. J Pharm Biomed Anal 36 (2004) 579-586
Guidance for idustry: Bioanalytical Mathod Validation, US Department of Health and Human Services, Food and Drug Administration, Center for Drug Evaluation and Research (CDER), Center for Biologics Evaluation and Research (CBER). 2001. Rockville.
The fitness for purpose of analytical methods: a laboratory guide to method validation and related topics (1998), Eurachem, Teddington
International vocabulary of basic and general terms in metrology (1993), ISO, Geneva
Feinberg M., Boulanger B., Dewe W., and Hubert P. New advances in method validation and measurement uncertainty aimed at improving the quality of chemical data. Anal Bioanal Chem 380 (2004) 502-514
EURACHEM/CITAC Guide CG 4; Quantifying uncertainty in analytical measurement, Second Edition. 2000.
Vardeman S.B. What about the other intervals?. The American Statistician 46 (1992) 193-196
Hahn GJ and Meeker WQ. Statistical intervals: a guide for practitioners. Wiley Edition, 392, 1991 September.
Rozet E., Ceccato A., Hubert C., et al. Analysis of recent pharmaceutical regulatory documents on analytical method validation. J Chromatogr A 1158 (2007) 111-125
Rozet E., Hubert C., Ceccato A., et al. Using tolerance intervals in pre-study validation of analytical methods to predict in-study results. The fit-for-future-purpose concept. J Chromatogr A 1158 (2007) 126-137
Hubert P., Nguyen-Huu J.J., Boulanger B., et al. Harmonization of strategies for the validation of quantitative analytical procedures. A SFSTP proposal-part III. J Pharm Biomed Anal 45 (2007) 82-96
Rozet E., Morello R., Lecomte F., et al. Performances of a multidimensional on-line SPE-LC-ECD method for the determination of three major catecholamines in native human urine: validation, risk and uncertainty assessments. J Chromatogr B Analyt Technol Biomed Life Sci 844 (2006) 251-260
Linko S., Ornemark U., Kessel R., and Taylor P.D. Evaluation of uncertainty of measurement in routine clinical chemistry-applications to determination of the substance concentration of calcium and glucose in serum. Clin Chem Lab Med 40 (2002) 391-398
Skluzacek P.A., Szewc R.G., Nolan III C.R., Riley D.J., Lee S., and Pergola P.E. Prediction of GFR in liver transplant candidates. Am J Kidney Dis 42 (2003) 1169-1176
Agarwal R. Reproducibility of renal function measurements in adult men with diabetic nephropathy: research and clinical implications. Am J Nephrol 27 (2007) 92-100
Apperloo A.J., de Zeeuw D., Donker A.J., and de Jong P.E. Precision of glomerular filtration rate determinations for long-term slope calculations is improved by simultaneous infusion of 125I-iothalamate and 131I-hippuran. J Am Soc Nephrol 7 (1996) 567-572
Farthing D., Sica D.A., Fakhry I., et al. Simple HPLC-UV method for determination of iohexol, iothalamate, p-aminohippuric acid and n-acetyl-p-aminohippuric acid in human plasma and urine with ERPF, GFR and ERPF/GFR ratio determination using colorimetric analysis. J Chromatogr B Analyt Technol Biomed Life Sci 826 (2005) 267-272
