多模态成像技术在大鼠中揭示了持续性高血压中的神经血管耦联受损。

Multimodal imaging in rats reveals impaired neurovascular coupling in sustained hypertension.

机构信息

Institute of Pharmacology and Toxicology, University of Zurich, Zurich, Switzerland.

出版信息

Stroke. 2013 Jul;44(7):1957-64. doi: 10.1161/STROKEAHA.111.000185. Epub 2013 Jun 4.

DOI:10.1161/STROKEAHA.111.000185

PMID:23735955

Abstract

BACKGROUND AND PURPOSE

Arterial hypertension is an important risk factor for cerebrovascular diseases, such as transient ischemic attacks or stroke, and represents a major global health issue. The effects of hypertension on cerebral blood flow, particularly at the microvascular level, remain unknown.

METHODS

Using the spontaneously hypertensive rat (SHR) model, we examined cortical hemodynamic responses on whisker stimulation applying a multimodal imaging approach (multiwavelength spectroscopy, laser speckle imaging, and 2-photon microscopy). We assessed the effects of hypertension in 10-, 20-, and 40-week-old male SHRs and age-matched male Wistar Kyoto rats (CTRL) on hemodynamic responses, histology, and biochemical parameters. In 40-week-old animals, losartan or verapamil was administered for 10 weeks to test the reversibility of hypertension-induced impairments.

RESULTS

Increased arterial blood pressure was associated with a progressive impairment in functional hyperemia in 20- and 40-week-old SHRs; baseline capillary red blood cell velocity was increased in 40-week-old SHRs compared with age-matched CTRLs. Antihypertensive treatment reduced baseline capillary cerebral blood flow almost to CTRL values, whereas functional hyperemic signals did not improve after 10 weeks of drug therapy. Structural analyses of the microvascular network revealed no differences between normo- and hypertensive animals, whereas expression analyses of cerebral lysates showed signs of increased oxidative stress and signs of impaired endothelial homeostasis upon early hypertension.

CONCLUSIONS

Impaired neurovascular coupling in the SHR evolves upon sustained hypertension. Antihypertensive monotherapy using verapamil or losartan is not sufficient to abolish this functional impairment. These deficits in neurovascular coupling in response to sustained hypertension might contribute to accelerate progression of neurodegenerative diseases in chronic hypertension.

摘要

背景与目的

动脉高血压是脑血管疾病（如短暂性脑缺血发作或中风）的一个重要危险因素，也是一个主要的全球健康问题。高血压对脑血流的影响，特别是在微血管水平上的影响尚不清楚。

方法

我们使用自发性高血压大鼠（SHR）模型，通过多波长光谱、激光散斑成像和双光子显微镜等多模态成像方法，研究了触须刺激时皮质血流动力学反应。我们评估了高血压对 10 周、20 周和 40 周龄雄性 SHR 以及同龄雄性 Wistar Kyoto 大鼠（CTRL）的血流动力学反应、组织学和生化参数的影响。在 40 周龄动物中，给予氯沙坦或维拉帕米治疗 10 周，以测试高血压引起的损伤的可逆性。

结果

动脉血压升高与 20 周和 40 周龄 SHR 的功能性充血逐渐受损有关；与同龄 CTRL 相比，40 周龄 SHR 的毛细血管红细胞速度基线增加。抗高血压治疗使基线毛细血管脑血流几乎降至 CTRL 值，但在药物治疗 10 周后，功能性充血信号并未改善。微血管网络的结构分析显示，正常血压和高血压动物之间没有差异，而大脑裂解物的表达分析显示，早期高血压时存在氧化应激增加和内皮稳态受损的迹象。

结论

SHR 中的神经血管偶联受损随着持续的高血压而发展。使用维拉帕米或氯沙坦的抗高血压单一疗法不足以消除这种功能障碍。持续高血压引起的这种神经血管偶联缺陷可能会加速慢性高血压中神经退行性疾病的进展。

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多模态成像技术在大鼠中揭示了持续性高血压中的神经血管耦联受损。

Multimodal imaging in rats reveals impaired neurovascular coupling in sustained hypertension.

机构信息

出版信息

BACKGROUND AND PURPOSE

METHODS

RESULTS

CONCLUSIONS

背景与目的

方法

结果

结论

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