Journal
FRONTIERS IN ENDOCRINOLOGY
Volume 13, Issue -, Pages -Publisher
FRONTIERS MEDIA SA
DOI: 10.3389/fendo.2022.843539
Keywords
liothyronine; rapid effects of thyroid hormone; cardiovascular function; energy expenditure; pharmacokinetics; pharmacodynamics
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Funding
- Career Development Award from the American Heart Association [19CDA34660318]
- Clinical and Translational Science Awards Program from National Institutes of Health [UL1TR002649]
- NIH-NIDDK grant [1 R21 DK122310-01A1]
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This study assessed the clinical relevance of transient increase of T3 levels on cardiovascular system and energy metabolism. The results showed that no measurable rapid effects on the cardiovascular system were observed following a high dose of liothyronine.
ContextThe pharmacokinetics of liothyronine causes concerns for cardiovascular toxicity. While the effects of sustained increase in serum T3 concentrations are well described, little is known on the effects of acute changes in T3 concentrations due to rapid action of thyroid hormone. ObjectiveTo assess the clinical relevance of transient increase of T3 levels on cardiovascular system and energy metabolism. SettingDouble-blind, three arms, placebo controlled, cross-over study (ClinicalTrials.gov Identifier: NCT03098433). Study ParticipantsTwelve volunteers (3 females, 9 males), age 27.7 +/- 5.1 years. InterventionOral administration of liothyronine 0.7 mcg/kg, equimolar dose of levothyroxine (0.86 mcg/kg), or placebo in three identical study visits. Blood samples for total T3, free T4 were collected at times 0', 60' 120' 180' 240'. Continuous recording of heart rate, blood pressure, and hemodynamic data was performed using the volume clamp method. Resting energy expenditure was measured by indirect calorimetry. An echocardiogram was performed on each study visit at baseline and after the last blood sampling. Main Outcome MeasuresChanges in cardiovascular function and energy expenditure. ResultsFollowing the administration of liothyronine, serum T3 reached a C-max of 421 +/- 57 ng/dL with an estimated T-max of 120 +/- 26 minutes. No differences between study arms were observed in heart rate, blood pressure, hemodynamics parameters, energy expenditure, and in echocardiogram parameters. ConclusionsThe absence of measurable rapid effects on the cardiovascular system following a high dose of liothyronine supports the rationale to perform long-term studies to assess its safety and effectiveness in patients affected by hypothyroidism.
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