甲状腺激素对心脏变时性的直接影响。

M Valente, C De Santo, P de Martino Rosaroll, V Di Maio, S Di Meo, T De Leo
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引用次数: 22

摘要

为了确定甲状腺激素是直接改变心率还是通过对其他神经内分泌调节剂的作用,作者检查了几种血浆中这类化合物水平不同的动物模型。大鼠甲状腺功能低下状态的诱导产生缓慢发作的心动过缓,可通过延长三碘甲状腺原氨酸治疗来消除。排除了TSH的作用,因为通过比较去甲状腺、去垂体和冷暴露的大鼠,发现心率随甲状腺水平而变化,而不随TSH水平变化。此外,生长激素、促肾上腺皮质激素和促性腺激素不影响心率,因为三碘甲状腺原氨酸治疗完全消除了垂体切除术引起的心动过缓。用皮质类固醇或睾酮分别治疗去甲状腺的大鼠,证实ACTH和GnH没有影响。最后,甲状腺激素并没有通过改变心脏交感神经末梢的去甲肾上腺素输出来影响心率。事实上,甲状腺切除术比交感神经切除术产生更强烈的心动过缓,三碘甲状腺原氨酸治疗在甲状腺切除大鼠和甲状腺切除后交感神经切除大鼠中同样消除了这种心动过缓。作者认为,甲状腺激素对心脏嗜时性的直接作用是由于β -肾上腺素受体的早期增强,随后是心肌电生理特性的后期改变。
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The direct effect of the thyroid hormone on cardiac chronotropism.

To establish whether thyroid hormone modifies the heart rate directly or through an action on other neuroendocrine modulators, the authors have examined several animals models differing in the plasma levels of such compounds. Induction of the hypothyroid state in rats produced a slow onset of bradycardia, which may be removed by a prolonged triiodothyronine treatment. The involvement of TSH was excluded as, by comparing thyroidectomized, hypophysectomized and cold exposed rats, the heart rate was found to vary according to the thyroid levels and not to the TSH levels. Moreover growth hormone, corticotropin and gonadotropins do not influence the heart rate, as the bradycardia induced by hypophysectomy was fully removed by triiodothyronine treatment. The lack of influence by ACTH and GnH was confirmed by treatment of thyroidectomized rats with corticosteroids or testosterone, respectively. Finally, thyroid hormone did not act on the heart rate by changing the norepinephrine output at the sympathetic nerve endings in the heart. In fact, thyroidectomy produced a more intense bradycardia than sympathectomy, and such bradycardia was equally removed by triiodothyronine treatment in thyroidectomized rats and in thyroidectomized and then sympathectomized ones. The authors suggest that the direct effect of the thyroid hormone on cardiac chronotropism is due to an early enhancement of beta-adrenoceptors, followed by a late modification of the electrophysiological properties of the myocardium.

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