抗利尿激素释放与颅内压升高有关，与血浆渗透压无关。

Antidiuretic hormone release associated with increased intracranial pressure independent of plasma osmolality.

机构信息

Saint James School of Medicine-Anguilla, The Valley, Anguilla, British West Indies.

出版信息

Brain Behav. 2018 Jun;8(6):e01005. doi: 10.1002/brb3.1005. Epub 2018 May 23.

DOI:10.1002/brb3.1005

PMID:29791061

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5991557/

Abstract

OBJECTIVE

Introduce and evaluate a new model which explains the release of brain antidiuretic hormone (ADH) independent of plasma osmolality.

METHODS

Systematic review and critical analysis of the professional literature.

RESULTS

Primary electronic database searches using key terms revealed 57,432 hits. Secondary searches with application of specific inclusion and exclusion criteria and manual inspection for completeness reduced the total number of studies to fourteen (N = 14). Twelve (N = 12) studies investigated human subjects in the hospital settings, and two (N = 2) studies investigated animals (rhesus monkeys and dog) under invasive experimental conditions. All fourteen studies included direct or indirect indicators of intracranial pressure (ICP), measurements of plasma ADH, and plasma osmolality or urine osmolality. Findings, in brief, reveal a stable and positive association between increased intracranial pressure (ICP) and increased ADH release, in patients with low or normal blood osmolality. Findings are reliable and reproducible across human and animal populations.

CONCLUSIONS

Findings support the proposed model, which explains increase secretion of brain ADH when plasma osmolality is low or within normal limits. Mechanical pressures exerted on hypothalamic nuclei, especially paraventricular and supra-optic nuclei, as a consequence of increased intracranial pressure, produce release of ADH, independent of plasma osmolality. The mechanical pressure model explains release of ADH previously unexplained by traditional plasma osmolality models. Findings have important clinical implications for the medical and surgical management of patients.

摘要

目的

介绍并评估一种新模型，该模型可独立于血浆渗透压解释脑抗利尿激素（ADH）的释放。

方法

对专业文献进行系统评价和批判性分析。

结果

使用关键词进行主要电子数据库搜索，共显示出 57432 个结果。通过应用特定的纳入和排除标准进行二次搜索，并手动检查完整性，将研究总数减少到 14 项（N=14）。其中 12 项（N=12）研究调查了医院环境中的人类受试者，2 项（N=2）研究在侵入性实验条件下调查了动物（恒河猴和狗）。这 14 项研究均包括直接或间接的颅内压（ICP）指标、血浆 ADH 测量值以及血浆渗透压或尿渗透压。研究结果简要揭示了在低血渗透压或正常范围内，颅内压升高与 ADH 释放增加之间存在稳定的正相关关系。这些发现是可靠的，在人类和动物群体中具有可重复性。

结论

研究结果支持所提出的模型，该模型解释了在血浆渗透压较低或处于正常范围内时脑 ADH 分泌增加的原因。由于颅内压升高，对下丘脑核（特别是室旁核和视上核）施加的机械压力会导致 ADH 的释放，而与血浆渗透压无关。机械压力模型解释了传统血浆渗透压模型无法解释的 ADH 释放。这些发现对患者的医疗和手术管理具有重要的临床意义。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c0aa/5991557/c7c438f72395/BRB3-8-e01005-g001.jpg

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抗利尿激素释放与颅内压升高有关，与血浆渗透压无关。

Antidiuretic hormone release associated with increased intracranial pressure independent of plasma osmolality.

机构信息

Saint James School of Medicine-Anguilla, The Valley, Anguilla, British West Indies.