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Peer-reviewed veterinary case report

Monitoring thyroid hormone levels in hyperthyroid cats

By Aldridge, C et al.·Published in Journal of veterinary internal medicine·2015·Department of Clinical Sciences·View original on PubMed

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Original publication title: Evaluation of thyroid-stimulating hormone, total thyroxine, and free thyroxine concentrations in hyperthyroid cats receiving methimazole treatment.

Species:
cat

Plain-English summary

A group of hyperthyroid cats receiving methimazole treatment were monitored for thyroid function and kidney health. Researchers found that about 33% of these cats had high levels of thyroid-stimulating hormone (TSH), which can indicate a condition called iatrogenic hypothyroidism (IH) that may affect kidney function. They discovered that measuring TSH levels could be more useful for identifying kidney issues related to IH than other thyroid hormone tests. Overall, around 20% of the cats showed signs of IH, highlighting the importance of regular monitoring during treatment.

People also search for: cat hyperthyroidism treatment · methimazole side effects · cat kidney health monitoring

Abstract

BACKGROUND: Iatrogenic hypothyroidism (IH) after treatment of hyperthyroidism can impair renal function. No study compared the efficacy of measurement of serum free thyroxine by equilibrium dialysis (fT4ed) or thyroid-stimulating hormone (TSH) concentrations for monitoring cats receiving methimazole. OBJECTIVES: To (1) compare the ability of total T4 and fT4ed concentrations in conjunction with TSH to define thyroid function in hyperthyroid cats receiving methimazole, (2) determine the prevalence of IH in cats receiving methimazole, and (3) examine the relationship between thyroid axis hormones and serum creatinine concentration. ANIMALS: One hundred and twenty-five serum samples from hyperthyroid cats receiving methimazole and total T4 concentrations &#x2264;3.9 &#x3bc;g/dL. METHODS: Total T4, fT4ed, and TSH concentrations were measured to evaluate thyroid status and serum creatinine concentration was measured to assess renal function. A low total T4 or fT4ed concentration in combination with an increased TSH concentration defined IH. RESULTS: Forty-one cats (33%) had increased TSH concentrations. Of cats with total T4 and fT4ed concentrations below the reference range, 68% and 73%, respectively, had TSH concentrations above the reference range. Only 18% of cats with a normal TSH concentration had an increased serum creatinine concentrations as compared to 39% of those with increased TSH concentrations (P < .001). CONCLUSIONS: Free T4ed does not identify more cats with potential IH as compared to total T4. The IH prevalence was approximately 20%. Measurement of TSH may be more helpful in indicating that azotemia, if present, is at least in part related to IH. Investigation is needed to define TSH assay utility in identifying possible subclinical IH.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/25832129/