Confirming the Utility of Four Kidney Biomarker Tests in a Longitudinal Follow-Up Study

References

• Agency for Toxic Substances and Disease Registry. Biomarkers of Kidney Function for Environmental Health Field Studies. Atlanta: U.S. Department of Health and Human Services, Public Health Service, 1998a
   Google Scholar
• Mueller P.W., Price R.B., Finn W.F. New approaches for detecting thresholds of human nephrotoxicity using cadmium as an example. Environ. Health Perspect. 1998; 106(5)227–230
   Google Scholar
• Wedeen R.P., Udasin I., Fiedler N., D'Haese P., De Broe M., Gelpi E., Jones K.W., Gochfeld M. Urinary biomarkers as indicators of renal disease. Ren. Fail. 1999; 21: 241–249
   Google Scholar
• Mueller P.W., Lash L.H., Price R.G., Stolte H., Gelpi E., Maack T., Berndt W.O. Urinary biomarkers to detect significant effects of environmental and occupational exposure to nephrotoxins. I: categories of tests for detecting effects of nephrotoxins. Ren. Fail. 1997a; 19(4)505–521
   Google Scholar
• Mueller P.W., Price R.G., Porter G.A. Proceedings of the Joint US/EU Workshop: Urinary Biomarkers to Detect Significant Effects of Environmental and Occupational Exposure to Nephrotoxins. Ren. Fail. 1997b; 19(4)501–504
   Google Scholar
• Bakris G.L. Microalbuminuria: what is it? why is it important? what should be done about it?. J. Clin. Hyperten. 2001; 3: 99–102
   Google Scholar
• Kordonouri O., Kahl A., Jorres A., Hopfenmuller W., Muller C., Danne T. The prevalence of incipient tubular dysfunction, but not of glomerular dysfunction, is increased in patients with diabetes onset in childhood. J. Diab. Comp. 1999; 13: 320–324
   Google Scholar
• Moore T.H., Shield J.P. Prevalence of abnormal urinary albumin excretion in adolescents and children with insulin dependent diabetes: the MIDAC study. Microalbinuria in Diabetic Adolescents and Children (MIDAC) research group. Arch. Dis. Child. 2000; 83(3)239–243
   Google Scholar
• Royal College of Physicians. Near-normal urinary albumin concentrations predict progression to diabetic nephropathy in type 1 diabetes mellitus. Diabet. Med. 2000; 17: 782–791
   Google Scholar
• Twyman S., Rowe D., Mansell P., Schapira D., Betts P., Leatherdale B. Longitudinal study of urinary excretion in young diabetic patients—Wessex Diabetic Nephropathy Project. Diabet. Med. 2001; 18: 402–408
   Google Scholar
• Nishijo M., Nakagawa H., Morikawa Y., Miura K., Tabata M., Ishizaki M. Microalbuminuria and hypertension in nondiabetic Japanese men. Am. J. Hypertens. 1999; 12: 16–20
   Google Scholar
• Jager A., Kostense P.J., Ruhe H.G., Heine R.J., Nijpels G., Dekker J.M., Bouter L.M., Stehouwer C.D.A. Microalbuminuria and peripheral arterial disease are independent predictors of cardiovascular and all-cause mortality, especially among hypertensive subjects. Arterioscler. Thromb. Vasc. Biol. 1999; 19: 617–624
   Google Scholar
• Groop L., Ekstrand A., Forsblom C., Widen E., Groop P.H., Teppo A.M., Eriksson J. Insulin resistance, hypertension, and microalbuminuria in patients with type 2 (noninsulin-dependent) diabetes mellitus. Diabetologia 1993; 36(7)642–647
   Google Scholar
• Martinez M.A., Moreno A., Aguirre de Carcer A., Cabrera R., Rocha R., Torre A., Nevado A., Ramos T., Neri J., Anton G., Miranda I., Fernandez P., Rodrigues E., Miguel A., Martinez J.L., Rodriguez M., Eisman C., Puig J.G. Frequency and determinants of microalbuminuria in mild hypertension: a primary care based study. J. Hypertens. 2001; 19: 319–326
   Google Scholar
• Tomura S., Kawada K., Saito K., Lin Y.L., Endou K., Hirano C., Yanagi H., Tsuchiya S., Shiba K. Prevalence of microalbuminuria and relationship to the risk of cardiovascular disease in the Japanese population. Am. J. Nephrol. 1999; 19: 13–20
   Google Scholar
• Hillege H.L., Janssen W.M.T., Bak A.A.A., Kiercks G.F.H., Grobbee D.E., Crijns H.J.G.M., Van Gilst W.H., De Zeeuw D., De Jong P.E. Microalbuminuria is common, also in a nondiabetic, nonhypertensive population, and an independent indicator of cardiovascular risk factors and cardiovascular morbidity. J. Int. Med. 2001; 249: 519–526
   Google Scholar
• Rachmani R., Levi Z., Lida M., Slavachevski I., Half-Onn E., Ravid M. Considerations about the threshold value of microalbuminuria in patients with diabetes mellitus: lessons from an 8-year follow-up study of 599 patients. Diabetes Res. Clin. Pract. 2000; 49: 187–194
   Google Scholar
• Roest M., Banga J.D., Janssen W.M.T., Grobbee D.E., Sixma J.J., de Jong P.E., de Zeeuw D., van der Schouw Y.T. Excessive urinary albumin levels are associated with future cardiovascular mortality in postmenopausal women. Circulation 2001; 103: 3057–3061
   Google Scholar
• Mueller P.W., Paschal D.C., Hammel R.R., Klincewicz S.L., MacNeil M.L., Spierto B., Steinberg K.K. Chronic renal effects in three studies of men and women occupationally exposed to cadmium. Arch. Environ. Contam. Toxicol. 1992; 23: 125–136
   Google Scholar
• Ellingsen D.G., Efskind J., Berg K.J., Gaarder P.I., Thomassen Y. Renal and immunologic markers for chloralkali workers with low exposure to mercury vapor. Scand. J. Work Environ. Health 2000; 26: 427–435
   Google Scholar
• Lauwerys R., Bernard A., Cardenas A. Monitoring of early nephrotoxic effects of industrial chemicals. Toxicol. Lett. 1992; 64/65: 33–42
   Google Scholar
• Cardenas A., Roels H., Bernard A.M., Barbon R., Buchet J.P., Lauwerys R.R., Rosello J., Ramis I., Mutti A., Franchini I., Fels I.M., Stolte H., De Broe M.E., Nuyts G.D., Taylor S.A., Price R.G. Markers of early renal changes induced by industrial pollutants. II. Application to workers exposed to lead. Brit. J. Ind. Med. 1993; 50: 28–36
   Google Scholar
• Mutti A., Alinovi R., Bergamaschi E., Biagini C., Cavazzini S., Franchini I., Lauwerys R.R., Bernard A.M., Roels H., Gelpi E. Nephropathies and exposure to perchlorethylene in dry cleaners. Lancet 1992; 340: 189–193
   Google Scholar
• Roels H.A., Hoet P., Lison D. Usefulness of biomarkers of exposure to inorganic mercury, lead, or cadmium in controlling occupational and environmental risks of nephrotoxicity. Ren. Fail. 1999; 21: 251–262
   Google Scholar
• Lim Y.C., Chia K.S., Ong H.Y., Ng V., Chew Y.L. Renal dysfunction in workers exposed to inorganic lead. Ann. Acad. Med. Singapore 2001 Mar; 30(2)112–7
   Google Scholar
• Drake P.L., Rojas M., Reh C.M., Mueller C.A., Jenkins F.M. Occupational exposure to airborne mercury during gold mining operations near El callao, Venezuela. Int. Arch. Occup. Environ. Health 2001; 74: 206–212
   Google Scholar
• Suwazono Y., Kobayashi E., Okubo Y., Nogawa K., Kido T., Nakagawa H. Renal effects of cadmium exposure in cadmium nonpolluted areas in Japan. Environ. Res. 2000; 84: 44–55
   Google Scholar
• Noonan C.W., Sarasua S.M., Campagna D., Kathman S.J., Lybarger J.A., Mueller P.W. Effects of exposure to low levels of environmental cadmium on renal biomarkers. Environ. Health Perspect. 2002; 110(2)151–155
   Google Scholar
• Kurttio P., Auvinen. A., Salonen L., Saha H., Pekkanen J., Mäkeläinen I., Väisänen S.B., Penttilä I.M., Komulainen H. Environ. Health Perspect 2002; 110: 337–342
   Google Scholar
• Mueller P.W., Hall W.D., Caudill S.P., MacNeil M.L., Arepally A. An in-depth examination of the excretion of albumin and other sensitive markers of renal damage in mild hypertension. Am. J. Hypertens. 1995; 8(11)1072–1082
   Google Scholar
• Mueller P.W., Caudill S.P. Urinary albumin excretion in children: factors related to elevated excretion in the United States population. Ren. Fail. 1999; 21: 293–302
   Google Scholar
• Amler R.W., Mueller P.W. Biomakers of Kidney Function for Environmental Health Field Studies. Agency for Toxic Substances and Disease Registry. U.S. Department of Health and Human Services. Public Health Service. April, 1998, M.G. Schultz
   Google Scholar
• Lybarger J.A., Lichtveld M.Y., Amler R.W. Biomedical testing of the kidney for persons exposed to hazardous substances in the environment. Ren. Fail. 1999; 21(3 and 4)263–274
   Google Scholar
• Agency for Toxic Substances and Disease Registry. McClellan Air Force Base Cross-Sectional Health Study Sacramento Sacramento County California. U.S. Department of Health and Human Services Public Health Service, Atlanta, 1996a
   Google Scholar
• Agency for Toxic Substances and Disease Registry. Health Study of Communities Surrounding Otis Air National Guard Base/Camp Edwards Falmouth Massachusetts. U.S. Department of Health and Human Services Public Health Service, Atlanta, 1998b
   Google Scholar
• Agency for Toxic Substances and Disease Registry. Symptom and Disease Prevalence with Biomarkers Health Study Cornhusker Army Ammunition Plant Hall County Nebraska. U.S. Department of Health and Human Services Public Health Service, Atlanta, 1996b
   Google Scholar
• Agency for Toxic Substances and Disease Registry. A Longitudinal Study of the Reversibility and Value of Selected Kidney Biomarkers. U.S. Department of Health and Human Services, Public Health Service, Atlanta, 2001
   Google Scholar
• Mueller P.W., MacNeil M.L., Steinberg K.K. Biological reference materials for assaying human albumin in urine. Fresenius J. Anal. Chem. 1990; 338: 543–546
   Google Scholar
• Mueller P.W., MacNeil M.L., Steinberg K.K. Stabilization of alanine aminopeptidase, gamma glutamyltranspeptidase, and N-acetyl-β-d-glucosaminidase activity in normal urines. Arch. Environ. Contam. Toxicol. 1986; 15: 343–347
   Google Scholar
• Topping M.D., Forster H.W., Dolman C., Luczynska C.M., Bernard A.M. Measurement of urinary retinol-binding protein by enzyme linked immunosorbent assay and its application to detection of tubular proteinuria. Clin. Chem. 1986; 32: 1863–1866
   Google Scholar
• Clinical Guide to Laboratory Tests. N.W. Tietz. WB Saunders Company, Philadelphia 1995
   Google Scholar
• Price R.G., Patel S., Chivers I., Milligan P., Taylor S.A. Early markers of nephrotoxicity: detection of children at risk from environmental pollution. Ren. Fail. 1999; 21: 303–308
   Google Scholar
• Bernard A., Stolte H., DeBroe M.E., Mueller P.W., Mason H., Lash L.H., Fowler B.A. Urinary biomarkers to detect significant effects of environmental and occupational exposure to nephrotoxics. IV: current information on interpreting the health implications of tests. Ren. Fail. 1997; 19: 553–566
   Google Scholar
• DeGroot M.H. Probability and Statistics. Addison-Wesley, Menlo Park, CA 1989
   Google Scholar