Cerebral autoregulation.

O B Paulson, S Strandgaard, L Edvinsson
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Abstract

Autoregulation of blood flow denotes the intrinsic ability of an organ or a vascular bed to maintain a constant perfusion in the face of blood pressure changes. Alternatively, autoregulation can be defined in terms of vascular resistance changes or simply arteriolar caliber changes as blood pressure or perfusion pressure varies. While known in almost any vascular bed, autoregulation and its disturbance by disease has attracted particular attention in the cerebrovascular field. The basic mechanism of autoregulation of cerebral blood flow (CBF) is controversial. Most likely, the autoregulatory vessel caliber changes are mediated by an interplay between myogenic and metabolic mechanisms. Influence of perivascular nerves and most recently the vascular endothelium has also been the subject of intense investigation. CBF autoregulation typically operates between mean blood pressures of the order of 60 and 150 mm Hg. These limits are not entirely fixed but can be modulated by sympathetic nervous activity, the vascular renin-angiotensin system, and any factor (notably changes in arterial carbon dioxide tension) that decreases or increases CBF. Disease states of the brain may impair or abolish CBF autoregulation. Thus, autoregulation is lost in severe head injury or acute ischemic stroke, leaving surviving brain tissue unprotected against the potentially harmful effect of blood pressure changes. Likewise, autoregulation may be lost in the surroundings of a space-occupying brain lesion, be it a tumor or a hematoma. In many such disease states, autoregulation may be regained by hyperventilatory hypocapnia. Autoregulation may also be impaired in neonatal brain asphyxia and infections of the central nervous system, but appears to be intact in spreading depression and migraine, despite impairment of chemical and metabolic control of CBF. In chronic hypertension, the limits of autoregulation are shifted toward high blood pressure. Acute hypertensive encephalopathy, on the other hand, is thought to be due to autoregulatory failure at very high pressure. In long-term diabetes mellitus there may be chronic impairment of CBF autoregulation, probably due to diabetic microangiopathy.

脑自动调整。
血流的自动调节是指器官或血管床在面对血压变化时保持恒定灌注的内在能力。或者,可以根据血管阻力的变化或简单的动脉直径随血压或灌注压的变化来定义自调节。虽然在几乎所有血管床中都存在,但自调节及其疾病干扰在脑血管领域引起了特别的关注。脑血流自动调节(CBF)的基本机制存在争议。最有可能的是,自我调节的血管口径变化是由肌生成和代谢机制之间的相互作用介导的。血管周围神经和最近的血管内皮的影响也一直是深入研究的主题。CBF的自动调节通常在平均血压60 - 150mmhg之间进行。这些限制并不完全固定,但可以通过交感神经活动、血管肾素-血管紧张素系统和任何降低或增加CBF的因素(特别是动脉二氧化碳张力的变化)来调节。大脑的疾病状态可能损害或取消CBF的自我调节。因此,在严重的头部损伤或急性缺血性中风中,自我调节功能丧失,使存活的脑组织无法抵御血压变化的潜在有害影响。同样,在占位性脑损伤周围,无论是肿瘤还是血肿,也可能失去自我调节。在许多这样的疾病状态中,自我调节可通过高通气性低碳酸血症恢复。在新生儿脑窒息和中枢神经系统感染中,自身调节也可能受损,但在扩散性抑郁症和偏头痛中,尽管CBF的化学和代谢控制受损,自身调节似乎完好无损。在慢性高血压中,自我调节的极限向高血压转移。急性高血压性脑病,另一方面,被认为是由于在非常高的压力下的自我调节失败。长期糖尿病患者可能存在慢性脑血流自我调节障碍,这可能是由于糖尿病微血管病变所致。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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