The role of thyroid in renovascular function: Independent association of serum TSH with renal plasma flow
Abstract Context There are well-established interactions between the thyroid and the kidney. Thyroid hypofunction is associated with reduced renal plasma flow and hypothyroidism is highly prevalent in chronic kidney disease; however, less is known about the thyroid-kidney axis in the euthyroid state. Objective To study the association of thyroid function with renovascular parameters in a well phenotyped cohort of euthyroid normotensive and hypertensive individuals. Design Cross sectional study, the HyperPATH Consortium Setting Multi-center study in five US and European academic institutions Participants 789 individuals aged 18-65 years with serum TSH 0.4-5.5 mIU/L. Subjects with uncontrolled or secondary hypertension or on medication affecting the hypothalamus-pituitary-thyroid axis were excluded. Interventions Hemodynamic parameters including renal plasma flow, thyroid function testing and the Thr92Ala deiodinase 2 polymorphism were assessed in the setting of liberal and restricted salt diet. Main outcome measures We searched for associations between thyroid function and renovascular parameters and accounted for confounding factors, such as older age, hypertension and diabetes. Results Serum TSH was inversely associated with renal plasma flow assessed in the setting of both liberal and restricted salt diets. This association remained significant and independent when accounting for confounding factors, whereas free thyroxine index (fTI) and the Thr92Ala polymorphism, associated with lower deiodinase 2 catalytic activity and disrupted thyroid hormone tissue availability, were not independently associated with renal plasma flow. Serum TSH remained an independent predictor of renal plasma flow on a liberal salt diet when the analysis was restricted to healthy young individuals. Conclusions Serum TSH levels, but not fTI nor the Thr92Ala deiodinase 2 polymorphism, were independently inversely associated with renal plasma flow in individuals of the HyperPATH Consortium. These findings suggest a direct interconnection of TSH and renovascular dynamics even with TSH within reference range, warranting further investigation.