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Renal Failure Volume 15, 1993 - Issue 2
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Original Article

Thyroid Hormone Profiles in Experimental Acute Renal Failure

Momĉilo Bogićević Institute of Nephrology and Hemodialysis University Clinical Center, Niš, Yugoslavia
,
Slobodan Ilić Institute of Nephrology and Hemodialysis University Clinical Center, Niš, Yugoslavia
,
Vidojko Djordjević Institute of Nephrology and Hemodialysis University Clinical Center, Niš, Yugoslavia
,
Mileva Ivić Institute of Physiology, Niš, Yugoslavia
,
Darinka Koraćević Institute of Biochemistry Faculty of Medicine, Niš, Yugoslavia
&
Vladisav Stefanović Institute of Nephrology and Hemodialysis University Clinical Center, Niš, Yugoslavia
Pages 173-179 | Published online: 07 Jul 2009

References

  • Chopra I. J., Chopra U., Smith SR, et al. Reciprocial changes in serum concentrations of 3,3′,5′-triiodthyronine (reverse T3) and 3,3′,5-triiodthyronine (T3) in systemic illnesses. J Clin Endo-crinol Metab 1975; 4: 1043–1049
  • Uttger RD. Thyrotropin-releasing hormone and thyrotropin secretion. J Lab Clin Med. 1987; 109: 327–335
  • Smith D., DeFronzo RA. Endocrine dysfunction in chronic renal failure. Clinical Dialysis, A.R Nissenson, R.N Fine, DE Gentile. Appleton-Century-Crofts, Norwalk, CN 1984; 451–497
  • Cavalieri R. R., Castle J. M., McMahon FA. Effects of dexametha-sone on kinetics and distribution of triiodothyronine in the rat. Endocrinology 1984; 114: 215–221
  • Handlesman D. J., Spaliviero J. A., Turtle JR. Hypothalamic-pitu-itary function in experimental uremic hypogonadism. Endocrinology 1985; 117: 1984–1995
  • Stefanović V., Ivić M.A, Strahinjić S. Calcium and phosphate metabolism in uranyl nitrate-induced acute renal failure. Arch Int Physiol Biochim 1987; 95: 223–228
  • Ivić M.A, Strahinjić S., Lajši&c A-Grubor G., Steanović V. Serum testosterone levels in experimental acute renal failure. Exp Clin Endocrinol 1988; 92: 349–356
  • Ivić M.A, Strahinjić S., Stefanović V. Plasma aldosterone and cortisol levels in experimental acute renal failure. Acta Med lug 1990; 4: 177–184
  • Weeke J., Ørskov H. Ultrasensitive radioimmunoassay for direct determination of free triiodthyronine concentration in serum. Scand J Clin Lab Invest 1975; 35: 237–244
  • Laurberg P., Weeke J. Radioimmunological determination of reverse triiodothyronine in unextracted serum and serum dialy-sates. Scand J Clin Lab Invest 1977; 35: 237–244
  • Weeke J., Ørskov H. Evaluation of thyroid function. Recent Advances in Clinical Biochemistry, KGMM Alberti. Churchill Livingstone, London 1978; 1: 111–128
  • Abraham G. E., Manlimos F. S., Garza R. Radioimmunoassay of steroids. Handbook of Radioimmunoassay, GE Abraham. New York, Dekker 1977; 591
  • Bodzyoni D., Kokot F., Czekalski S. Thyroid function in patients with acute renal failure. Int Urol Nephrol 1981; 13: 81–88
  • Kaptein EM, Levitan D., Feinstein El, et al. Alterations of thyroid hormone indices in acute renal failure and in acute critical illness with and without acute renal failure. Am J Nephrol 1981; 1: 138–143
  • Ilić S., Bogićević M., Stefanović V. Thyroid hormone profiles in different phases of acute renal failure. Nephrol Dial Transpl 1989; 4: 444
  • Flamenbaum W., McNeil S. J., Kotchen A., Saladano JA. Experimental acute renal failure induced by uranyl nitrate in the dog. Circ Res 1972; 31: 682–698
  • Blantz RC. The mechanism of acute renal failure after uranyl nitrate. J Clin Invest 1975; 55: 621–635
  • Stein J. H., Gottschall J., Osgood R. W., Ferris TF. Pathophysiology of nephrotoxic model of acute renal failure. Kidney Int 1980; 8: 281–292
  • Wilson DR. Pathophysiology of obstructive uropathy. Kidney Int 1980; 18: 281–292
  • Navar L. G., Baer PG. Renal autoregulatory and glomerular filtration response to graded obstruction. Nephron 1970; 7: 301–309
  • Mori M., Michimata T., Yamada M., et al. Food deprivation decreases the blood TRH concentration in the rat. Exp Clin Endo-crinol 1988; 91: 97–104
  • Germain St D. L., Galton VA. Comparative study of pituitary-thyroid hormone economy in fasting and hypothyroid rats. J Clin Invest 1985; 75: 679–688
  • Heyden van der JTM, Docter R., Toorvan H., et al. Effects of caloric deprivation on thyroid hormone tissue uptake and generation of low-T3 syndrome. Am J Physiol 1986; 251: E156–E163
  • Laurberg P., Boye N. Propylthiouracil, ipodate, dexamethasone and periods of fasting induce different variations in serum rT3 in dogs. Metabolism 1984; 33: 323–326
  • Bianco A. C., Nunes M. T., Hell N. S., Maciel MB. The role of glu-cocorticoids in the stress-induced reduction of extrathyroidal 3,5,3′-triiodothyronine generation in rats. Endocrinology 1987; 120: 1033–1038
  • Sapolsky RM. Stress-induced suppression of testicular function in the wild baboon: Role of glucocorticoids. Endocrinology 1985; 116: 2273–2276
  • Barsano C. P., Burke S. F., Quintana M., et al. The effects of postoperative factors on serum thyroid hormones and rat nuclear 3,5,3′-triiodothyronine receptor concentrations in surgical models of uremia and regenerating liver. Endocrinology 1987; 120: 1354–1360
  • Spinedi E., Herrra L., Chisari A. Angiotensin II (All) and adreno-corticotropin release: Modulation by estradiol of the AH biological activity and binding characteristics in anterior pituitary dispersed cells. Endocrinology 1988; 123: 641–646
  • Gill G. V., Prudhoe K., Cook D. R., Latner AL. Effect of surgical trauma on plasma concentrations of cyclic AMP and cortisol. Br J Surg 1975; 62: 441–443
  • Fromm M., Oelkers W., Hegel U., et al. Time course of aldosterone and corticosterone plasma levels in rats during general anestesis and abdominal surgery. Pflügers Arch 1983; 399: 249–254
  • Chopra U., Williams D. E., Orgiazzi J., Solomon DH. Opposite effects of dexamethasone on serum concentrations of 3,3′,5′-triiodothyronine (reverse T3) and 3,5,3′-triiodothyronine (T3). J Clin Endocrinol Metab 1975; 41: 911–920
  • DeGroot L. J., Hoye K. Dexamethasone suppression of serum T3 and T. J Clin Endocrinol Metab 1976; 42: 976–979
  • Morley JE. Neuroendocrine control of thyrotropin secretion. Endocrine Rev 1981; 2: 396–436
  • Cavalieri R. R., Castle J. N., McMahon FA. Effects of dexamethasone on kinetics and distribution of triiodthyronine in the rat. Endocrinology 1984; 114: 215–221
  • Sluszkiewicz E. Effect of prednisone therapy on serum levels of thyroxine (T4), triodothyronine (T3), reverse triiodothyronine (rT3), T3-binding capacity, basal TSH level and TSH response to thyreoliberin (TRH) in children. Exp Clin Endocrinol 1985; 85: 191–198
  • Utiger RD. Decreased extrathyroidal triiodathyronine production in nonthyroidal illness: Benefit or harm?. Am J Med 1980; 69: 907–810
  • Gelfand R. A., Hutchinson-Wiliams K. A., Bonde AA, et al. Cata-bolic effects of thyroid hormone excess: The contribution of adrenergic activity to hypermetabolism and protein breakdown. Metabolism 1987; 36: 562–569

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