Disturbance of the hypothalamopituitary- thyroid axis and alteration of circulating thyroid hormones levels are common in non-thyroidal illness (NTI) including infection, burns, and trauma. The commonest abnormality is the low T3 syndrome due to reduced activity of 5’-deiodinase. In acute illness this is associated with an increase in reverse T3 but in more chronic illness reverse T3 is not usually raised. Serum T3 shows a negative correlation with serum concentrations of soluble receptors for TNF and IL-2. Low T3 syndrome may be an appropriate energy-saving adaptation. In critical illness the low T4 syndrome is common. Both total T4 and T3 levels are low. Serum total T4 inversely correlates with mortality. fT4 measurement in critical illness is problematic because of marked method-dependence of results. Direct measurement yields normal/high values but two-step immunoassays used clinically show low values. Falls in the levels of serum thyroid hormone binding proteins and alteration to the affinity of hormone binding due to exogenous and endogenous inhibitors of binding generated in illness further complicate in vivo and in vitro assessment. T4 clearance by deiodination is impaired but non-deiodinative pathways are accelerated. Cellular uptake of free hormone is impaired but expression of nuclear thyroid hormone receptors is increased in critical illness. Serum TSH is normal in the low T3 syndrome but can be low in the low T4 syndrome. Low TSH can be a hypothalamo-pituitary manifestation of illness due to the effect of cytokines on TRH release and TSH synthesis, but TSH is also suppressed by dopamine or glucocorticoid therapy. After drug cessation or in recovery, TSH can transiently increase above the normal range. TSH in critical illness is less glycosylated and less bio-active. Limited trials of T4 and T3 therapy in critical illness have not shown benefit on mortality. No adequate large-scale trial has been conducted.

"/> Disturbance of the hypothalamopituitary- thyroid axis and alteration of circulating thyroid hormones levels are common in non-thyroidal illness (NTI) including infection, burns, and trauma. The commonest abnormality is the low T3 syndrome due to reduced activity of 5’-deiodinase. In acute illness this is associated with an increase in reverse T3 but in more chronic illness reverse T3 is not usually raised. Serum T3 shows a negative correlation with serum concentrations of soluble receptors for TNF and IL-2. Low T3 syndrome may be an appropriate energy-saving adaptation. In critical illness the low T4 syndrome is common. Both total T4 and T3 levels are low. Serum total T4 inversely correlates with mortality. fT4 measurement in critical illness is problematic because of marked method-dependence of results. Direct measurement yields normal/high values but two-step immunoassays used clinically show low values. Falls in the levels of serum thyroid hormone binding proteins and alteration to the affinity of hormone binding due to exogenous and endogenous inhibitors of binding generated in illness further complicate in vivo and in vitro assessment. T4 clearance by deiodination is impaired but non-deiodinative pathways are accelerated. Cellular uptake of free hormone is impaired but expression of nuclear thyroid hormone receptors is increased in critical illness. Serum TSH is normal in the low T3 syndrome but can be low in the low T4 syndrome. Low TSH can be a hypothalamo-pituitary manifestation of illness due to the effect of cytokines on TRH release and TSH synthesis, but TSH is also suppressed by dopamine or glucocorticoid therapy. After drug cessation or in recovery, TSH can transiently increase above the normal range. TSH in critical illness is less glycosylated and less bio-active. Limited trials of T4 and T3 therapy in critical illness have not shown benefit on mortality. No adequate large-scale trial has been conducted.

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Alterations in the Thyroid Axis in Critical Illness: A Brief Review

AUTHORS

D Topliss 1 , *

1 Department of Endocrinology & Diabetes, Alfred Hospital, Monash University, [email protected], Australia

How to Cite: Topliss D. Alterations in the Thyroid Axis in Critical Illness: A Brief Review, Int J Endocrinol Metab. Online ahead of Print ; 7(4):248-25.

ARTICLE INFORMATION

International Journal of Endocrinology and Metabolism: 7 (4); 248-25
Article Type: Original Article
Received: January 4, 2008
Accepted: November 5, 2009
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Abstract

Disturbance of the hypothalamopituitary- thyroid axis and alteration of circulating thyroid hormones levels are common in non-thyroidal illness (NTI) including infection, burns, and trauma. The commonest abnormality is the low T3 syndrome due to reduced activity of 5’-deiodinase. In acute illness this is associated with an increase in reverse T3 but in more chronic illness reverse T3 is not usually raised. Serum T3 shows a negative correlation with serum concentrations of soluble receptors for TNF and IL-2. Low T3 syndrome may be an appropriate energy-saving adaptation. In critical illness the low T4 syndrome is common. Both total T4 and T3 levels are low. Serum total T4 inversely correlates with mortality. fT4 measurement in critical illness is problematic because of marked method-dependence of results. Direct measurement yields normal/high values but two-step immunoassays used clinically show low values. Falls in the levels of serum thyroid hormone binding proteins and alteration to the affinity of hormone binding due to exogenous and endogenous inhibitors of binding generated in illness further complicate in vivo and in vitro assessment. T4 clearance by deiodination is impaired but non-deiodinative pathways are accelerated. Cellular uptake of free hormone is impaired but expression of nuclear thyroid hormone receptors is increased in critical illness. Serum TSH is normal in the low T3 syndrome but can be low in the low T4 syndrome. Low TSH can be a hypothalamo-pituitary manifestation of illness due to the effect of cytokines on TRH release and TSH synthesis, but TSH is also suppressed by dopamine or glucocorticoid therapy. After drug cessation or in recovery, TSH can transiently increase above the normal range. TSH in critical illness is less glycosylated and less bio-active. Limited trials of T4 and T3 therapy in critical illness have not shown benefit on mortality. No adequate large-scale trial has been conducted.

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