Maillard LC, Action des acides amines sur les sucres: formation des melanoi’dines par voie m6thodique. CR Acad Sci 1912;154:66-8.
Mauron J, The Maillard reaction in food; a critical review from the nutritional standpoints. In: Progress in food and nutrition science editor. Vol. 5. Oxford: C. Pergamon Press, 1981:5-35.
Hurrell RF, Interactions of food components during processing. In: Birch GG, Parker KJ, eds. Food and health: science and technology. London: Applied Science Publishers, 1980:369-88.
Finot PA, Deutsh R, Bujard E, The extent of the Maillard reaction during heat processing of milk. In: Eriksson C, ed. Progress in food and nutrition science. Vol. 5. Oxford: Per-gamon Press, 1981:345-56.
Finot PA, Non enzymatic Browning products: physiologic effects and metabolic transit in relation to chemical structure. A review. Diabetes 1982;31(suppl 3):22-8.
Hurrell RF, Influence of the Maillard reaction on the nutritional value of food. In: Finot PA, Aeschbacher HU, Hurrell RF, Liardon R, eds. Advances in life sciences. The Maillard reaction in food processing, human nutrition and physiology. Basel: Birkhäuser Verlag, 1990:245-58.
Hurrell RF, Finot PA, Food processing and storage as a determinant of protein and amino acid availability. Nutri-tional adequacy nutrient availability and needs. Experientia [Suppl] 1983;44:135-56.
Finot PA, Magnenat E, Metabolic transit of early and advanced Maillard products. In: Eriksson C, ed. Progress in food and nutrition sciences. Vol. 5. Oxford: Pergamon Press, 1981:193-207.
Finot PA, Metabolism and physiological effects of Maillard reaction products (MRP). In: Finot PA, Aeschbacher HU, Hurrell RF, Liardon R, eds. Advances in life sciences. The Maillard reaction in food processing, human nutrition and physiology. Basel: Birkhäuser Verlag, 1990:259-72.
Erbersdobler HF, Buhl K, Klusmann U, Balance studies with glycosylated proteins on human volunteers. In: Finot PA, Aeschbacher HU, Hurrell RF, Liardon R, eds. Advances in life sciences. The Maillard reaction in food processing, human nutrition and physiology. Basel: Birkhäuser Verlag, 1990:273-8.
Hurrell RF, Finot PA, Ford J, Storage of milk powders under adverse conditions. 1. Losses of lysine and other essential amino acids as determined by chemical and microbiological methods. Br J Nutr 1983;49:343-54.
Ford JE, Hurrell RF, Finot PA, Storage of milk powders under adverse conditions. 2. Influence on the content of water-soluble vitamins. Br J Nutr 1983;49:355-64.
Furniss DE, Hurrell RF, Finot PA, Modification of urinary zinc excretion in the rat associated with the feeding of Maillard reaction products. Acta Pharmacol Toxicol 1986;59,S7:188-91.
Furniss DE, Vuichoud J, Finot PA, Hurrel RF, The effect of Maillard reaction products on zinc metabolism in the rat. Br J Nutr 1989;62:739-49.
Erbersdobler HF, Brandt A, Scharrer E, von Wangenheim MB, Transport and metabolism studies with fructose amino acids. Prog Food Nutr Sci 1981;5:257-63.
Struthers BJ, Dahlgren RR, Hopkins DT, Biological effects of feeding graded levels of alkali-treated soybean-protein containing lysino alanine in Sprague-Dawley and Wistar rats. J Nutr 1977;107:1190-8.
Bujard E, Finot PA, Mesure de la disponibilité et du blocage de la lysine dans les laits industriels. Ann Nutr Alim 1978; 32:291-305.
Finnstrom O, Studies on maturity in newborn infants. IX. Further observations on the use of external characteristics in estimating gestational age. Acta Paediatr Scand 1977;66: 601-4.
Wahlefeld AW, Herz G, Bergmeyer HU, A completely en-zymatic determination of creatinine in human sera or urine [Abstract], Scand J Clin Lab Invest 1972;29(suppl 126):30.
Bernard A, Lauwerys R, Continuous flow system for automation of latex immunoassay by particle counting. Clin Chem 1983;29:1007-11.
Flandrois C, Feldmann D, Baltassat P, et al. Evaluation de l’enzymurie comme marqueur de n6phrotoxicit£ : r6sultats d’une experience multicentrique. Ann Biol Clin 1989;47: 340-5.
Jung K, Schulze G, Reinholdt C, Different diuresis dependent excretions of urinary enzymes: N-acetyl-β-D-glu-cosaminidase, alanine aminopeptidase, alkaline phosphatase and gamma-glutamyltransferase. Clin Chem 1986;32:529-32.
Shaw LM, Stromme JH, London JL, Theodoven L, IFFC methods for the measurement of catalytic concentration of enzymes. Part 4. IFFC method for gamma glutamyl-transferase. J Clin Chem Clin Biochem 1983;21:633-46.
The Committee on Enzymes of the Scandinavian Society for Clinical Chemistry and Clinical Physiology. Recommended methods for determination of four enzymes in blood. Scand J Clin Lab Invest 1974;33:291-306.
Jung K, Scholz O, An optimized assay of alanine aminopeptidase activity in urine. Clin Chem 1980;26:1251-4.
Langhendries JP, Gillain N, Battisti O, Carlier B, Bertrand JM, Normal values for urinary N-acetyl-β-glucosaminidase excretion in preterm and term babies. Arch Dis Child 1987; 62:483-6.
Langhendries JP, Mattot M, Francois A, et al. Validity of N-acetyl- β -D-glucosaminidase (NAG) determination in assessing netilmicin nephrotoxicity in preterm babies. Biol Ne-onate 1989;56:76-82.
Yakata M, Sugita O, Sakai T, Uchiyama K, Wada K, Basic studies on assay of NAG activity in urine and its variability in course of renal diseases. Jpn J Clin Pathol 1983; 56(suppl):90.
Horak E, Hopfer SM, Sunderman F Jr. Spectrophotometric assay for urinary N-acetyl- β-D-glucosaminidase activity. Clin Chem 1981;27:1180-5.
Flandrois C, Lahet C, Feldmann D, Maire I, Aymard P, Mathieu M, Optimisation de la mesure dans l’urine de l’ala-nine aminopeptidase, de la gamma glutamyl-transferase et de la N-acetyl-β-glucosaminidase. Ann Biol Clin 1989;47: 252-60.
Takaddine F, Tabbara M, Hall P, Sokol RJ, King KC, Fetal renal maturation. Studies on urinary β2 microglobulin in the neonate. Acta Obstet Gynecol Scand 1983;62:311-4.
Peterson PA, Berggard I, Isolation and properties of a human retinol transporting protein. J Biol Chem 1971;246: 25-33.
Tack ED, Perlman JM, Robson AM, Renal injury in sick newborn infants: a prospective evaluation using urinary β2-microglobulin concentrations. Pediatrics 1988;81:432-40.
Bernard AM, Lauwerys RR, Noel A, Vandeleene B, Lambert A, Urine protein PI: a sex-dependant marker of tubular or glomerular dysfunction. Clin Chem 1989;35:2141-2.
Evrin PE, Peterson PA, Wide L, Berggard I, Radioimmuno-assay of β2-microglobulin in human biological fluids. Scand J Clin Lab Invest 1971;28:439-43.
Finot PA, Bujard E, Arnaud M, Metabolic transit of lysinoalanine bound to protein and of free radioactive 14C-lysinoalanine. In: Friedman M, ed. Protein cross linkings, nutritional and medical consequences. New York: Plenum Publishing Corporation, 1977:51-71. (Advances in experi-mental medicine and biology. Vol. 86B.)
Wallenstein S, Zucker CL, Fleiss JL, Some statistical methods useful in circulation research. Circ Res 1980;47:1-9.
SAS/STAT quick for personal computers, version 6, editor. Cary, North Carolina: SAS Institute Inc, 1985, 378 pp.
Struthers BJ, Brielmaier JR, Raymond ML, Dahleren RR, Hopkins DT, Excretion and tissue distribution of radioactive lysinoalanine N-DL-(2-amino-2-carboxyethyl)-[U-14C]L-lysine (LAL) in Sprague Dawley rats. J Nutr 1980; 110: 2065-77.
Finot PA, Magnenat E, Mottu F, Bujard E, Disponibilité biologique et transit métabolique des acides aminés modifiés par les traitements technologiques. Ann Nutr Alim 1978;32: 325-38.
Langhendries JP, Battisti O, Bertrand JM, Le rein dans la periode périnatale. Rev Med Liege 1989;21:642-53.
Senterre J, Putet G, Salle B, Rigo J, Effects of vitamin D and phosphorus supplementation on calcium retention in pre-term infants fed banked human milk. J Pediatr 1983;103: 305-7.
Flandrois C, Gravagna B, Maire I, Mathieu M, Enzymurie. Ann Biol Clin 1986;44:486-90.
De Broe ME, Wieme RJ, Logghe GN, Roles F, Spontaneous shedding of plasma membrane fragments by human cells. Clin ChimActa 1977;81:237-45.
Gatta A, Bazzerla G, Amodio P, et al. Detection of the early steps of cadmium nephropathy. Comparison of light-and electron-microscopical patterns with the urinary enzymes excretion. An experimental study. Nephron 1989;51:20-4.
Bernard A, Ouled AA, Viau C, Lauwerijs R, The renal up-take of proteins’, a non selective process as evidenced by competition experiments in conscious rats. Kidney Int 1988; 34:175-85.
Simonnet-Nguyen H, Gauthier C, Vincent C, Revillard J-P. Renal brush border membrane binding of p2-microglobulin is rapid, saturable and inhibited by albumin. In: Bianchi C, Bocci V, Carone EA, Rabkin R, eds. Nephrology; kidney and proteins in health and disease. Basel: Karger, 1988: 26-31.
Gherig JJ, Jamison RL, Baylis C, Troy JL, Brenner BM, Effect of intermittent feeding on renal hemodynamic in con-scious rats. Am J Physiol 1986;250:F566-72.
Hostetter T, Human renal response to a meat meal. Am J Physiol 1986;250:F613-8.
