REFERENCES
- Baker, B. A., Alexander, B. H., Mandel, J. S., Acquavella, J. F., Honeycutt, R., and Chapman, P. 2005. Farm Family Exposure Study: Methods and recruitment practices for a biomonitoring study of pesticide exposure. J. Expos. Anal. Environ. Epidemiol. 15: 491–499.
- Bales, J. R., Higham, D. P., Howe, I., Nicholson, J. K., and Sadler, P. J. 1984. Use of high-resolution proton nuclear magnetic resonance spectroscopy for rapid multi-component analysis of urine. Clin. Chem. 30: 426–432.
- Barbanel, C. S., Winkelman, J. W., Fischer, G. A., and King, A. J. 2002. Confirmation of the Department of Transportation criteria for a substituted urine specimen. J. Occup. Environ. Med. 44: 407–416.
- Barber, T. E., and Wallis, G. 1986. Correction of urinary mercury concentration by specific gravity, osmolality, and creatinine. J. Occup. Med. 28: 354–359.
- Barr, D. B., Wilder, L. C., Caudill, S. P., Gonzalez, A. J., Needham, L. L., and Pirkle, J. L. 2005. Urinary creatinine concentrations in the U.S. population: Implications for urinary biologic monitoring measurements. Environ. Health Perspect. 113: 192–200.
- Boeniger, M. F., Lowry, L. K., and Rosenberg, J. 1993. Interpretation of urine results used to assess chemical exposure with emphasis on creatinine adjustments: A review. Am. Ind. Hyg. Assoc. J. 54: 615–627.
- Cook, J. D., Caplan, Y. H., LoDico, C. P., and Bush, D. M. 2000. The characterization of human urine for specimen validity determination in workplace drug testing: A review. J. Anal. Toxicol. 24: 579–588.
- Emond, P., Mavel, S., Aidoud, N., Nadal-Desbarats, L., Montigny, F., Bonnet-Brilhault, F., Barthelemy, C., Merten, M., Sarda, P., Laumonnier, F., Vourc’h, P., Blasco, H., and Andres, C. R. 2013. GC-MS-based urine metabolic profiling of autism spectrum disorders. Anal. Bioanal. Chem. 405: 5291–5300.
- Fortin, M. C., Carrier, G., and Bouchard, M. 2008. Concentrations versus amounts of biomarkers in urine: A comparison of approaches to assess pyrethroid exposure. Environ. Health 7: 55.
- Gaines, L. G., Fent, K. W., Flack, S. L., Thomasen, J. M., Ball, H. Zhou, L. M., Whittaker, S. G., and Nylander-French, L. A. 2010. Effect of creatinine and specific gravity normalization on urinary biomarker 1,6-hexamethylene diamine. J. Environ. Monit. 12: 591–599.
- Husdan, H., and Rapoport, A. 1968. Estimation of creatinine by the Jaffe reaction. A comparison of three methods. Clin. Chem. 14: 222–238.
- Jafar, T. H., Schmid, C. H., and Levey, A. S. 2005. Serum creatinine as marker of kidney function in South Asians: A study of reduced GFR in adults in Pakistan. J. Am. Soc. Nephrol. 16: 1413–1419.
- Jaffe, M. 1886. About the precipitation caused by picric acid in normal urine and about a new reaction of creatinine. Physiol. Chem. 10: 391–400.
- Jaynes, P. K., Feld, R. D., and Johnson, G. F. 1982. An enzymic, reaction-rate assay for serum creatinine with a centrifugal analyzer. Clin. Chem. 28: 114–117.
- Koch, H. M., Bolt, H. M., Preuss, R., and Angerer, J. 2005. New metabolites of di(2-ethylhexyl)phthalate (DEHP) in human urine and serum after single oral doses of deuterium-labelled DEHP. Arch. Toxicol. 79: 367–376.
- Kochansky, C. J., and Strein, T. G. 2000. Determination of uremic toxins in biofluids: Creatinine, creatine, uric acid and xanthines. J. Chromatogr. B Biomed. Sci. Appl. 747: 217–227.
- Lafolie, P., Beck, O., Blennow, G., Boreus, L., Borg, S., Elwin, C. E., Karlsson, L., Odelius, G., and Hjemdahl, P. 1991. Importance of creatinine analyses of urine when screening for abused drugs. Clin. Chem. 37: 1927–1931.
- Levy, S., Sherritt, L., Vaughan, B. L., Germak, M., and Knight, J. R. 2007. Results of random drug testing in an adolescent substance abuse program. Pediatrics 119: e843–e848.
- Naeher, L. P., Tulve, N. S., Egeghy, P. P., Barr, D. B., Adetona, O., Fortmann, R. C., Needham, L. L., Bozeman, E., Hilliard, A., and Sheldon, L. S. 2010. Organophosphorus and pyrethroid insecticide urinary metabolite concentrations in young children living in a southeastern United States city. Sci. Total Environ. 408: 1145–1153.
- Narayanan, S., and Appleton, H. D. 1980. Creatinine: A review. Clin. Chem. 26: 1119–1126.
- Park, E. K., Watanabe, T., Gee, S. J., Schenker, M. B., and Hammock, B. D. 2008. Creatinine measurements in 24 h urine by liquid chromatography–tandem mass spectrometry. J. Agric. Food Chem. 56: 333–336.
- Patel, C. P., and George, R. C. 1981. Liquid chromatographic determination of creatinine in serum and urine. Anal. Chem. 53: 734–735.
- Pino, S., Benotti, J., and Gardyna, H. 1965. An automated method for urine creatinine which does not require a dialyzer module. Clin. Chem. 11: 664–666.
- Price, C. P., Newall, R. G., and Boyd, J. C. 2005. Use of protein: creatinine ratio measurements on random urine samples for prediction of significant proteinuria: A systematic review. Clin. Chem. 51: 1577–1586.
- Rappaport, S. M. 1991. Assessment of long-term exposures to toxic substances in air. Ann. Occup. Hyg. 35: 61–121.
- Serdar, B., Waidyanatha, S., Zheng, Y., and Rappaport, S. M. 2003. Simultaneous determination of urinary 1- and 2-naphthols, 3- and 9-phenanthrols, and 1-pyrenol in coke oven workers. Biomarkers 8: 93–109.
- Spencer, K. 1986. Analytical reviews in clinical biochemistry: The estimation of creatinine. Ann. Clin. Biochem. 23: 1–25.
- Stokes, P., and O’Connor, G. 2003. Development of a liquid chromatography-mass spectrometry method for the high-accuracy determination of creatinine in serum. J. Chromatogr. B Anal. Technol. Biomed. Life Sci. 794: 125–136.
- Toffaletti, J., Blosser, N., Hall, T., Smith, S., and Tompkins, D. 1983. An automated dry-slide enzymatic method evaluated for measurement of creatinine in serum. Clin. Chem. 29: 684–687.
- Vasillades, J. 1976. Reaction of alkaline sodium picrate with creatinine: I. Kinetics and mechanism of formation of the mono-creatinine picric acid complex. Clin. Chem. 22: 1664–1671.
- World Health Organization. 1996. Biological monitoring of chemical exposure in the workplace, vol. 1. Geneva, Switzerland: World Health Organization. WHO/HPR/OCH 96.1.