人体视神经乳头血流对眼灌注压急性变化的自动调节。

Autoregulation of human optic nerve head blood flow in response to acute changes in ocular perfusion pressure.

作者信息

Riva C E, Hero M, Titze P, Petrig B

机构信息

Institut de Recherche en Ophthalmologie, Sion, Switzerland.

出版信息

Graefes Arch Clin Exp Ophthalmol. 1997 Oct;235(10):618-26. doi: 10.1007/BF00946937.

DOI:10.1007/BF00946937

PMID:9349945

Abstract

BACKGROUND

Studies in animals have demonstrated that optic nerve head (ONH) blood flow (F(onh)) is autoregulated, but there is a lack of evidence for such a process in humans. Therefore, we investigated the relationship between F(onh) and mean ocular perfusion pressure (PPm) in normal volunteers when PPm is decreased through elevation of the intraocular pressure (IOP).

METHODS

Laser Doppler flowmetry (LDF) was used to measure relative mean velocity (Velohn), volume (Volonh) and F(onh) of blood at sites of the ONH away from visible vessels, while PPm was decreased in two ways: (1) rapidly, by IOP increments of 15 s duration, and (2) slowly, by IOP increments of 2 min duration, both by scleral suction cup in one eye of each of nine subjects.

RESULTS

A rapid and large decrease of PPm of more than 100% induced a decrease of more than 80% in F(onh). With the slower decrease in PPm, F(onh) remained constant down to a PPm of approximately 22 mm Hg (IOP = 40 mm Hg) and then decreased, predominantly due to a decrease in Velohn. Immediately after removal of the suction cup, F(onh) increased transiently by 44% above baseline.

CONCLUSIONS

This study demonstrates efficient blood flow autoregulation in the OHN, which is probably brought about by an increase in vascular capacitance. The magnitude of the reactive hyperaemia agrees with the compensatory decrease in ONH vascular resistance during IOP elevation. The time scale of the autoregulatory process and the dependence of the hyperaemia upon duration of IOP elevation suggest a metabolic mechanism of autoregulation.

摘要

背景

动物研究表明，视神经乳头（ONH）血流（F(onh)）存在自身调节，但缺乏人类中该过程的证据。因此，我们研究了正常志愿者在通过升高眼压（IOP）降低平均眼灌注压（PPm）时，F(onh)与PPm之间的关系。

方法

使用激光多普勒血流仪（LDF）测量远离可见血管的ONH部位的相对平均速度（Velohn）、体积（Volonh）和F(onh)，同时通过两种方式降低PPm：（1）快速降低，通过持续15秒的IOP增量；（2）缓慢降低，通过持续2分钟的IOP增量，两种方式均通过对9名受试者每只眼睛使用巩膜吸盘进行。

结果

PPm快速且大幅下降超过100%会导致F(onh)下降超过80%。随着PPm缓慢下降，F(onh)在PPm降至约22 mmHg（IOP = 40 mmHg）之前保持恒定，然后下降，主要是由于Velohn下降。移除吸盘后，F(onh)立即比基线水平短暂增加44%。

结论

本研究表明OHN存在有效的血流自身调节，这可能是由血管容量增加引起的。反应性充血的程度与IOP升高期间ONH血管阻力的代偿性降低一致。自身调节过程的时间尺度以及充血对IOP升高持续时间的依赖性提示了一种自身调节的代谢机制。

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人体视神经乳头血流对眼灌注压急性变化的自动调节。

Autoregulation of human optic nerve head blood flow in response to acute changes in ocular perfusion pressure.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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