生长激素给药以剂量依赖的方式刺激能量消耗和甲状腺外甲状腺素向三碘甲状腺原氨酸的转化，并抑制昼夜促甲状腺素水平：对生长激素缺乏成年人的研究。

Growth hormone administration stimulates energy expenditure and extrathyroidal conversion of thyroxine to triiodothyronine in a dose-dependent manner and suppresses circadian thyrotrophin levels: studies in GH-deficient adults.

作者信息

Jørgensen J O, Møller J, Laursen T, Orskov H, Christiansen J S, Weeke J

机构信息

Medical Department M (Endocrinology and Diabetes), Aarhus Kommunehospital, Denmark.

出版信息

Clin Endocrinol (Oxf). 1994 Nov;41(5):609-14. doi: 10.1111/j.1365-2265.1994.tb01826.x.

DOI:10.1111/j.1365-2265.1994.tb01826.x

PMID:7828350

Abstract

OBJECTIVE

The impact of exogenous GH on thyroid function remains controversial although most data add support to a stimulation of peripheral T4 to T3 conversion. For further elucidation we evaluated iodothyronine and circadian TSH levels in GH-deficient patients as part of a GH dose-response study.

PATIENTS

Eight GH-deficient adults, who received stable T4 substitution due to central hypothyroidism; two patients, who were euthyroid without T4 supplementation were studied separately.

DESIGN

All patients were initially studied after at least 4 weeks without GH followed by 3 consecutive 4-week periods in fixed order during which they received daily doses of 1, 2 and 4 IU of GH/m2 body surface area. The patients were hospitalized for 24 hours at the end of each period.

MEASUREMENTS

Circulating total and free concentrations of T4 and T3, total rT3 and TSH were measured once at the end of each study period. Circadian TSH levels were recorded during the period without GH and during GH treatment with 2 IU GH.

RESULTS

Highly significant GH dose-dependent increases in total and free T3 and a reduction in rT3 were observed. The T3/T4 ratio also increased with increasing GH dosages (P < 0.001). In seven patients subnormal T3 levels were recorded in the period off GH, despite T4 levels well within the normal range. Resting energy expenditure also increased and correlated with free T3 levels (r = 0.47, P < 0.05). The circadian TSH levels exhibited a significant nocturnal increase during the period without GH, whereas GH therapy significantly suppressed the TSH levels and blunted the circadian rhythm (mean TSH levels (mU/l) 0.546 +/- 0.246 (no GH) vs 0.066 +/- 0.031 (2 IU GH) (P < 0.05)). The two euthyroid non-T4 substituted patients exhibited qualitatively similar changes in all parameters.

CONCLUSIONS

GH administration stimulated peripheral T4 to T3 conversion in a dose-dependent manner. Serum T3 levels were subnormal despite T4 substitution when the patients were off GH but normalized with GH therapy. Energy expenditure increased with GH and correlated with free T3 levels. GH caused a significant blunting of serum TSH. These findings suggest that GH plays a distinct role in the physiological regulation of thyroid function in general, and of peripheral T4 metabolism in particular.

摘要

目的

外源性生长激素（GH）对甲状腺功能的影响仍存在争议，尽管大多数数据支持其刺激外周T4向T3转化。为进一步阐明这一问题，我们在一项GH剂量反应研究中评估了生长激素缺乏患者的碘甲状腺原氨酸和昼夜促甲状腺激素（TSH）水平。

患者

8名因中枢性甲状腺功能减退接受稳定T4替代治疗的生长激素缺乏成年人；另外单独研究了2名甲状腺功能正常且未补充T4的患者。

设计

所有患者最初在至少4周未使用GH的情况下进行研究，随后按固定顺序连续进行3个为期4周的阶段，在此期间他们每天接受1、2和4 IU/m²体表面积的GH剂量。每个阶段结束时患者住院24小时。

测量

在每个研究阶段结束时测量一次循环中T4和T3的总浓度和游离浓度、总反T3（rT3）和TSH。在未使用GH期间和使用2 IU GH进行GH治疗期间记录昼夜TSH水平。

结果

观察到总T3和游离T3呈高度显著的GH剂量依赖性增加，rT3降低。T3/T4比值也随着GH剂量增加而升高（P < 0.001）。7名患者在停用GH期间T3水平低于正常，尽管T4水平在正常范围内。静息能量消耗也增加，且与游离T3水平相关（r = 0.47，P < 0.05）。在未使用GH期间，昼夜TSH水平在夜间显著升高，而GH治疗显著抑制TSH水平并减弱昼夜节律（平均TSH水平（mU/l）：未使用GH时为0.546 ± 0.246，使用2 IU GH时为0.066 ± 0.031（P < 0.05））。2名甲状腺功能正常且未接受T4替代治疗的患者在所有参数上表现出定性相似的变化。