Rachelle Halpern scite author profile

Rachelle Halpern

3Publications

45Citation Statements Received

85Citation Statements Given

How they've been cited

103

How they cite others

Affiliations

Massachusetts General Hospital, Harvard University

Publications

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Propylthiouracil (PTU) Pharmacology in the Rat,II. Effects of PTU on Thyroid Function*

et al. 1983

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Using a sensitive and specific RIA for propylthiouracil (PTU), we examined the effects of short term (1 week) and long term (1 month) PTU treatment on thyroid function in the rat, and correlated changes in thyroid function with serum and thyroid PTU levels. After 1 week, dose-dependent decreases in thyroid PBI, serum T4, and serum T3 were observed, with concomitant elevations in the serum rT3 to T4 ratio and serum TSH. Fifty percent suppression of thyroid PBI occurred at a PTU concentration in the drinking water of 0.0005% (ED50), with concomitant serum and thyroid PTU levels of 0.3 micrograms/ml and 300 ng/thyroid, respectively. After 1 month of PTU, serum T4 values were lower than after 1 week of treatment for all PTU concentrations, but values for the other thyroid functional variables were similar to those in the 1 week group at comparable PTU dosage. The PTU dose-response curve for thyroid PBI was similar to that seen after 1 week of treatment, with an ED50 of 0.0004%. After discontinuation of PTU treatment, PTU disappeared from serum in a biexponential fashion, with an early rapid distribution phase (t 1/2 = approximately 4 h) and a second slower elimination phase (t 1/2 = approximately 2.6 days). In the thyroid, an initial increase in PTU content was seen up to 18 h after PTU withdrawal; thereafter, thyroid PTU declined linearly, with a t 1/2 of 1.4 days in both groups. After PTU withdrawal, thyroid PBI recovered with a t 1/2 of 1.09 days after 1 week on PTU, but recovery was prolonged (t 1/2 = 2.8 days) after 1 month of treatment. Log thyroid PTU and log thyroid PBI were linearly related after PTU withdrawal (r = 0.97; P less than 0.001) after 1 week but not after 1 month. Serum T4 and serum T3 remained below control values for 2 days, but then rapidly normalized, with T3 values rising transiently above the control value. This rebound occurred at a time when PTU was still present within the thyroid, before thyroid PBI had returned to baseline. These data indicate a close inverse relationship between PTU dose and both thyroid hormone biosynthesis and peripheral T4 deiodination. In addition, short and long term PTU treatments have quantitatively similar effects on thyroid function, although recovery of thyroid function is prolonged after long term treatment. The biexponential disappearance of PTU from the serum is compatible with a two-compartment model of PTU distribution. The early increase in thyroid PTU after drug withdrawal is suggestive of an inhibitory effect of PTU upon its own uptake by the thyroid, whereas the faster disappearance of PTU from the thyroid than from serum is consistent with intrathyroid drug metabolism.

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Propylthiouracil (PTU) Pharmacology in the Rat,I. Serum and Thyroid PTU Measurements by Radioimmunoassay*

et al. 1983

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We have developed a highly sensitive and specific RIA for propylthiouracil (PTU) which uses 125I-labeled PTU as the radioactive ligand. At a final antibody dilution of 1:10,000, the detection limit for PTU was 100 pg; cross-reactivity with circulating, urinary, and intrathyroid PTU metabolites was negligible. Using this assay, serum and thyroid PTU levels were determined after short term (1 week) and long term (1 month) PTU treatment at doses of 0.0001-0.05%. Serum PTU was a linear function of the PTU dose (r = 0.99; P less than 0.001), whereas thyroid PTU was a linear function of the logarithm of the PTU dose (r = 0.99; P less than 0.001). Serum PTU levels were higher after 1 month of treatment than after administration for 1 week, probably because steady state conditions were not achieved after 1 week. At several doses, thyroid PTU levels were also higher after 1 month of treatment, but the differences were not as striking as those seen in the serum levels. The pharmacokinetic data are consistent with a multicompartmental model for PTU distribution. The logarithmic relationship between thyroid PTU and PTU dose suggests a saturable uptake mechanism for PTU by the thyroid; inhibition of thyroid PTU uptake by PTU itself could also explain these observations.

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The Relation of the Kidney to Body Growth and to the Utilization of Protein and Urea–Parti. Effects of Subtotal Nephrectomy on the Growth of Rats on Diets with and without Urea Supplementation

Halpern¹,

Halpern²,

Hall³

1964

Nephron

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Part I. Effects of Subtotal Nephrectomy on the Growth of Rats on Diets with and without Urea SupplementationSubtotally nephrectomized rats, in contrast to normal rats, show impaired growth rates when urea is added to low protein diets. It is suggested that an intact kidney is necessary for the utilization of urea in growth and further that the kidney serves as one limiting determinant of the extent of protein utilization.

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