In the present study, we used streptozocin (STZ) to induce diabetes in rats and observed alterations in several physiologic functions and in monoamine content of different brain regions. Rats with STZ diabetes displayed a thermoregulatory deficit in the cold. Both the body temperature and metabolic rate of the diabetic animals were reduced at ambient temperatures below 22 degrees C. These diabetic animals had a higher level of the spontaneous pain threshold, but displayed a reduced sensitivity of analgesic responses to morphine injection. In addition, these diabetic animals had a lower level of spontaneous motor activity, but displayed an increased sensitivity of locomotor stimulant responses to amphetamine administration. Biochemical examination revealed that the diabetic animals had a lower serotonin level in both the hypothalamus and the brainstem without changes in the serotonin levels of the corpus striatum. These diabetic animals also had a lower catecholamine level in the hypothalamus, but a higher catecholamine level in the corpus striatum. The alterations in brain monoamine content and in the above-mentioned physiologic parameters were reversed after insulin replacement therapy. The data suggest that alterations in various autonomic, somatosensory, and motor neural functions of untreated STZ-diabetic rats correlated with a reproducible pattern of monoamine content in various brain regions (a pattern that differed from that observed in healthy control rats), and that both the altered neural function and the altered brain monoamine pattern were reversed after insulin therapy.
To investigate the long term usefulness of sodium ipodate (Oragrafin) in the management of Graves' hyperthyroidism, we studied the effects of ipodate (500 mg, orally, daily for 23-31 weeks) on serum T3, T4, rT3, and some clinical parameters in five newly diagnosed Graves' hyperthyroid patients. Mean pretreatment serum T3, T4, and rT3 concentrations were 780 ng/dl, 25.4 micrograms/dl, and 118 ng/dl, respectively. One day after the first dose of ipodate, serum T3 decreased by 62% (P less than 0.01), and it was within the normal range thereafter throughout treatment. The serum T4 concentration decreased by 20% (P = 0.09) at 24 h and by 43% (P less than 0.05) at 14 days. Subsequently, serum T4 was 41-65% lower than before treatment throughout the study; rT3 increased 24 h after the first dose of ipodate (118% above baseline; P = 0.1), remained elevated (97-109%) for 10 weeks, and then gradually decreased to the pretreatment level. A marked gain in body weight [5.1 +/- 1.1 (+/- SEM) kg] occurred in all patients. After discontinuation of ipodate, mean thyroid radioiodine (RAI) uptake values increased serially in four patients and were similar to pretreatment values: pretreatment, 74 +/- 6% (+/- SEM); after 7 days, 66 +/- 8%; after 14 days, 71 +/- 7%; after 28 days, 69 +/- 7%. The fifth patients's RAI uptake was 12-16% (vs. a pretreatment value of 48%) from 7-28 days after the end of a 31-week course of ipodate. He remained euthyroid without further treatment for the subsequent 4 months. We conclude that 1) ipodate (500 mg daily) reduces serum T4 and T3 levels as fast and as much as does the 1-g daily dose studied previously; 2) long term use (for 23-31 weeks) of ipodate for the treatment of Graves' hyperthyroidism is clinically feasible; no adverse effects occurred during or after ipodate treatment; and 3) RAI uptake returns to pretreatment levels as early as 7 days after the discontinuation of ipodate. Hence, use of ipodate does not prevent use of 131I therapy for those patients for whom it is otherwise desirable.
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