Références bibliographiques

Introduction générale

Atkins, G. L. 1969. Multicompartment models for biological systems London: Methuen. 153 pp.

Brownell, G. L. 1951. Analysis of techniques for the determination of thyroid function with radioiodine. J. Clin. Endocrinol. Metab. 11:1095-1105

Brownell, G. L., Berman, M., Robertson, J. S. 1968. Nomenclature for tracers kinetics. Int. J. Appl. Radiat. Isotopes 19:249-262

Bruguerolle, B. 1987. Données récentes en chronopharmacocinétique. Pathol. Biol. 35:925-934

Chevallier, F. 1972. Biodynamique et indicateurs: cours et documents de biologie Vol. 4. Paris: Gordon and Breach. 212 pp.

Chevallier, F. 1984. Systèmes et modèles : une introduction à la méthode des indicateurs Paris: Editions du CNRS. 250 pp.

Hevesey, G. 1923. The absorption and translocation of lead by plants. Biochem. J. 17:439

Hevesey, G., Hofer, E. 1934. Elimination of water from the human body. Nature (London) 134:879

Magot, T., Champarnaud, G. 1990. La modélisation des métabolismes: application au métabolisme du cholestérol et des lipoprotéines plasmatiques Paris: Masson. 328 pp.

Reinberg, A. E., Labrecque, G., Smolensky, M. H. 1991. Chronobiologie et chronothérapeutique: heure optimale d'administration des médicaments Paris: Flammarion. 201 pp.

Riggs, D. S. 1952. Quantitative aspects of iodine metabolism in man. Pharmacol. Rev. 4:284-370

Schoenheimer, R., Rittenberg, D. 1935. Deuterium as an indicator in the study of intermediary metabolism. I. J. Biol. Chem. 111:163

Schoenheimer, R., Rittenberg, D. 1939. General considerations in the application of isotopes to the study of protein metabolism. The normal abundance of nitrogen isotopes in amino acids. J. Biol. Chem. 127:285

Sheppard, C. W. 1962. Basic principles of the tracer method New York: Wiley and Sons. 282 pp.

Shipley, R. A., Clark, R. E. 1972. Tracer methods for in vivo kinetics : theory and applications New York: Academic Press. 239 pp.

Simon, C. 1964. Une nouvelle méthode d'étude du métabolisme de l'iode : la méthode d'équilibre isotopique. Aspects cinétiques et quantitatifs obtenus chez le rat. In Faculté des Sciences. pp. 87. Paris: Université de Paris

Chapitre I : Eléments de mathématiques, calcul matriciel, transformations de Laplace

Delachet, A. 1958. Calcul Différentiel et Intégral Coll. Que sais-je ? Paris: PUF. 128 pp.

Delachet, A. 1966. Les logarithmes et leurs applications Coll. Que sais-je ? Paris: PUF. 128 pp.

Déplanche, Y. 1991. Mémo Formulaire Coll. Educalivre Paris: Editions Casteilla. 320 pp.

Escané, J. M. 1972. Fonctions d'une variable complexe Paris: Masson. 145 pp.

Piskounov, N. 1980a. Calcul différentiel et intégral: tome I Moscou: Editions MIR. 511 pp.

Piskounov, N. 1980b. Calcul différentiel et intégral; tome II Moscou: Editions MIR. 614 pp.

Riggs, D. S. 1976. The mathematical approach to physiological problems Cambridge: MIT Press. 445 pp.

Searle, S. R. 1966. Matrix algebra for the biological sciences (including applications in statistics) New York: Wiley and Sons. 296 pp.

Chapitre II : Etude des systèmes et modélisation

Aloia, J. F., Vaswani, A., Flaster, E., Ma, R. 1998. Relationship of body water compartments to age, race, and fat-free mass. J. Lab. Clin. Med. 132:483-490

Bauer, J. H., Willis, L. R., Burt, R. W., Grim, C. E. 1975. Volume studies. II. Simultaneous determination of plasma volume, red cell mass, extracellular fluid, and total body water before and after volume expansion in dog and man. J. Lab. Clin. Med. 86:1009-1017

Hevesey, G., Hofer, E. 1934. Elimination of water from the human body. Nature (London) 134:879

Lassiter, W. E., Gottschalk, C. W. 1980. Volume and composition of the body fluids. In Medical Physiology, ed. V. B. Mountcastle. pp. 1149-1164. Vol. 2. St-Louis: Mosby

Rose, B. D. 1977. Clinical Physiology of Acid-Base and Electrolyte Disorders Tokyo: McGraw-Hill Kogakusha. 548 pp.

Vander, A. J., Sherman, J. H., Luciano, D. S., Brière, R. 1995. Physiologie Humaine. 3^ème éd. Montréal: Chenelière / Mc Graw-Hill. 814 pp.

Chapitre III : Temps de résidence moyen

Cutler, D. J. 1978. Theory of the mean absorption time, an adjunct to conventional bioavailibility studies. J. Pharm. Pharmacol. 30:476-478

Matis, J. M., Wehrly, T. E., Gerald, K. B. 1985. Use of residence time moments in compartmental analysis. Am. J. Physiol. 249:E409-E415

Sheppard, C. W. 1962. Basic principles of the tracer method New York: Wiley and Sons. 282 pp.

Shipley, R. A., Clark, R. E. 1972. Tracer methods for in vivo kinetics : theory and applications New York: Academic Press. 239 pp.

Taburet, A. M., Steimer, J. L., Doucet, D., Singlas, E. 1986. Le temps de présence moyen dans l'organisme: un nouveau paramètre? Thérapie 41:1-10

Yamaoka, K., Nakagawa, T., Uno, T. 1978. Statistical moments in pharmacokinetics. J. Pharmacokin. Biopharm. 6:547-558

Chapitre IV : Analyse dite non-compartimentale

DiStefano, J. J. 1982. Noncompartmental vs. compartmental analysis: some bases for choice. Am. J. Physiol. 243:R1-R6

DiStefano, J. J. 1989. Hormone kinetic analysis. In Endocrinology, ed. L. De Groot. pp. 2726-2740. Vol. 3. Philadelphia: Saunders

DiStefano, J. J., Landaw, E. M. 1984. Multiexponential, multicompartmental, and noncompartmental modeling. I. Methodological limitations and physiological interpretations. Am. J. Physiol. 246:R651-R664

Landaw, E. M., DiStefano, J. J. 1984. Multiexponential, multicompartmental, and noncompartmental modeling. II. Data analysis and statistical considerations. Am. J. Physiol. 246:R665-R677

Norwich, K. H. 1997. Noncompartmental models of whole-body clearance of tracers: a review. Ann. Biomed. Eng. 25:421-439

Oppenheimer, J. H., Schwartz, H. L., Surks, M. I. 1975. Determination of common parameters of iodothyronine metabolism and distribution in man by noncompartmental analysis. J. Clin. Endocrinol. Metab. 41:319-324

Chapitre V : Applications : analyse de flux métaboliques, pharmacocinétiques.

DiStefano, J. J., Malone, T. K., Jang, M. 1982b. Comprehensive kinetics of thyroxine distribution and metabolism in blood and tissue pools of the rat from only six blood samples : dominance of large, slowly exchanging tissue pools. Endocrinology 111:108-117

Oppenheimer, J. H., Bernstein, R. E., Surks, M. I. 1968. Increased thyroxine turnover and thyroidal function after stimulation of hepatocellular binding of thyroxine by phenobarbital. J. Clin. Invest. 47:1399-1406

Schröder-van der Elst, J. P., van der Heide, D. 1990. Effects of 5,5'-diphenylhydantoin on thyroxine and 3,5,3'-triiodothyronine concentrations in several tissues of the rat. Endocrinology 126:186-191

Schwartz, H. L., Surks, M. I., Oppenheimer, J. H. 1971. Quantitation of extrathyroidal conversion of L-thyroxine to 3,5, 3'-triiodo-L-thyronine in the rat. J. Clin. Invest. 50:1124-1130

Seddon, T., Lockwood, G. F., Chenery, R. J. 1989. In vitro drug metabolism and pharmacokinetics of diazepam in cynomolgus monkey hepatocytes during culture for six days. Biochem. Pharmacol. 38:2621-2630

Valentin, S., Cheynel, I., Vigouroux, E. 2000. Revised T3 uptake and T4-to-T3 conversion in brain and cerebellum of 10-day-old rats: a compartment analysis. Arch. Physiol. Biochem. 108:281-292

van Doorn, J., Roelfsema, F., van der Heide, D. 1985. Concentrations of thyroxine and 3,5,3'-triiodothyronine at 34 different sites in euthyroid rats as determined by an isotopic equilibrium technique. Endocrinology 117:1201-1208

van Doorn, J., van der Heide, D., Roelfsema, F. 1984. The influence of partial food deprivation on the quantity and source of triiodothyronine in several tissues of athyreotic thyroxine- maintained rats. Endocrinology 115:705-711

Zeghal, N., Gondran, F., Redjem, M., Giudicelli, M. D., Aissouni, Y., Vigouroux, E. 1992. Iodide and T4 kinetics in plasma, thyroid gland and skin of 10-day-old rats : effects of iodine deficiency. Acta Endocrinol. (Copenh.) 127:425-434

Chapitre VI : Ajustement des courbes aux données expérimentales.

Holford, N. H. 1986. MKMODEL an extended least squares modelling program Cambridge: Elsevier-Biosoft. 208 pp.

Nogami, H., Hanano, M., Awazu, S., Moon, H. H. 1969. Pharmacokinetic analysis on the disappearance of ethoxybenzamide from plasma. Statistical treatment of data of two compartmental model by a digital computer. Chem. Pharm. Bull. (Tokyo) 17:2097-2104