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Distribution of iodine-131 in thyroid, blood plasma and salivary gland in experimental silicosis in rats


, : Distribution of iodine-131 in thyroid, blood plasma and salivary gland in experimental silicosis in rats. Izvestiya Akademii Nauk Kazakhskoi SSR Biol, (5): 87-90


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Related references

Bainazarova B.Y., 1966: Distribution of iodine 131 in the thyroid gland blood plasma and salivary gland under experimental silicosis in rats. Izvestiya Akademii Nauk Kazakhskoi SSR Seriya Biologicheskaya (5): 87-90

Ito, Y.; Kawada, J.; Kurata, M., 1961: On the functional correlation between salivary glands and other endocrine organs. III. The relationship between iodine metabolism by the thyroid gland and the weight of the salivary glands of rats. (Studies on the physiological chemistry of the salivary glands. L). Endocrinologia Japonica 8: 1-8

Ito, Y.Soji, K.Wada, J.N.K.Rata, M.Netsu, U., 1961: On the functional correlation between salivary glands and other endocrine organs III The relationship between iodine metabolism by the thyroid gland and the weight of the salivary glands of rats. Endocrinologia Japonica 8(1): 1-8

Anonymous, 1942: Radioactive iodine as an indicator of the metabolism of iodine V The effects of hypophysectomy on the distribution of labeled thyroxine and diiodotyrosine in thyroid gland and plasma

Morton, M.E.; Perlman, I.; Anderson, E.; Chalkoff, I.L., 1942: Radioactive iodine as an indicator of the metabolism of iodine. 5. The effects of hypophysectomy on the distribution of labeled thyroxine and diiodotyrosine in thyroid gland and plasma. Hypophysectomised and intact rats, 2 months old, were injected with tracer amounts of radioactive iodine and killed at intervals up to 96 hours. At 4 hours, it was found that the thyroids of the normal rats had taken up 60 per cent. of the adminis...

Rachev R.; Filipova E.; Milanov S.; Dashev G., 1973: The effect of iodine compounds on the accumulation of iodine 131 in the thyroid gland and on the thyrotropic hormone content in the blood plasma. Problemy Endokria 19(5): 99-105

Van Best J.A., 1981: Dose calculations for iodine 123 iodine 124 iodine 125 and iodine 131 in the thyroid gland of the mouse rat and man and comparison with thyroid function for mice and rats. To assess the radiotoxicity of various iodine isotopes to the thyroid gland, refined dosimetric calculations of the average dose rate distribution and total absorbed dose were performed using Monte Carlo procedures applied on a microscopic scale t...

Babaev, T.A., 1963: Blood plasma glucoproteins in experimental hyper- and hypothyreosis in rats and patients with functional disturbances of the thyroid gland. A significant increase in a-glucoproteins content and concomitant decrease in [beta]-glucoproteins content in experimental hyperthyreosis, induced by thyroxin administration was demonstrated in rats. Blood plasma neuraminic acid content decreases...

Lamas, L.; Morreale de Escobar, G., 1972: Iodoamino acid distribution in the thyroid of rats on different iodine intakes and with normal plasma protein bound iodine. Acta Endocrinologica 69(3): 473-487

Kang, J.Yeon.; Jang, S.Jin.; Lee, W.Woo.; Jang, S.June.; Lee, Y.Jong.; Kim, S.Eun., 2011: Evaluation of Salivary Gland Dysfunction Using Salivary Gland Scintigraphy in Sjögren's Syndrome Patients and in Thyroid Cancer Patients after Radioactive Iodine Therapy. Salivary gland scintigraphy (SGS) provides an objective means of diagnosing salivary gland dysfunction in Sjögren's syndrome (SS) patients and in thyroid cancer patients after radioactive iodine (RAI) therapy. In the present study, SGS was p...