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通过压力反射分析运动时血压反应的变化。

Analysis of alteration of blood pressure response to exercise through baroreflex.

作者信息

Manabe Hiromi, Fukuma Nagaharu, Tuchida Takaya, Kato Yuko, Mabuchi Kosuke, Takano Teruo

机构信息

Department of Functional Pathophysiology for Human Organs, Graduate School of Medicine, Nippon Medical School, 1-1-5 Sendagi, Bunkyo-ku, Tokyo 113-8603, Japan.

出版信息

J Nippon Med Sch. 2007 Apr;74(2):123-30. doi: 10.1272/jnms.74.123.

DOI:10.1272/jnms.74.123
PMID:17507789
Abstract

BACKGROUND

The baroreflex has been reported to play an important role in hemodynamic regulation during exercise. Therefore, impairment of baroreflex function can induce an abnormal response of systolic blood pressure (SBP) to exercise, including exercise-induced hypertension. To clarify whether baroreflex function alters SBP response, we examined the relationship of baroreflex sensitivity (BRS) with SBP response to exercise.

METHODS

In 22 subjects without cardiac dysfunction, BRS (ms/mmHg) was measured by the phenylephrine method, and a treadmill exercise test was administered according to Bruce's protocol.

RESULTS

  1. The chronotropic response to exercise was higher in the normal BRS group than in the reduced BRS group (p<0.01). The SBP at the initial phase of exercise (1 min after the start of exercise) showed a smaller increase in the normal BRS group than in the reduced BRS group (p<0.01). During the initial phase of exercise, BRS had negative correlation with the SBP increment from rest (r=-0.408, p<0.05). During submaximal exercise (6 min after the start of exercise), a positive correlation between BRS and SBP response (r=0.422, p<0.05) was shown. 2) Subjects were divided into 2 groups: 12 subjects with normal BRS (> or =5 ms/mmHg) and 10 subjects with reduced BRS (<5 ms/mmHg). During the initial exercise phase, the negative correlation between BRS and SBP response was stronger in the normal BRS group (r=-0.398) than in the reduced BRS group (r= -0.126). During submaximal exercise, BRS had a positive correlation with BP response to exercise in subjects with normal BRS (r=0.462).

CONCLUSION

Preserved baroreflex function is thought to be related to the pressor response to submaximal exercise, although the baroreflex is thought to be associated with the stabilization of blood pressure change during the initial exercise phase. These findings suggest that exercise-induced hypertension develops through the baroreflex mechanism.

摘要

背景

据报道,压力反射在运动期间的血流动力学调节中起重要作用。因此,压力反射功能受损可诱发收缩压(SBP)对运动的异常反应,包括运动性高血压。为了阐明压力反射功能是否会改变SBP反应,我们研究了压力反射敏感性(BRS)与SBP运动反应之间的关系。

方法

在22名无心脏功能障碍的受试者中,采用去氧肾上腺素法测量BRS(毫秒/毫米汞柱),并根据布鲁斯方案进行跑步机运动试验。

结果

1)正常BRS组的运动性变时反应高于降低BRS组(p<0.01)。运动初始阶段(运动开始后1分钟)的SBP在正常BRS组中的升高幅度小于降低BRS组(p<0.01)。在运动初始阶段,BRS与静息时SBP的增量呈负相关(r=-0.408,p<0.05)。在次极量运动期间(运动开始后6分钟),BRS与SBP反应呈正相关(r=0.422,p<0.05)。2)受试者分为两组:12名BRS正常(≥5毫秒/毫米汞柱)的受试者和10名BRS降低(<5毫秒/毫米汞柱)的受试者。在运动初始阶段,正常BRS组中BRS与SBP反应之间的负相关性(r=-0.398)强于降低BRS组(r=-0.126)。在次极量运动期间,正常BRS受试者中BRS与运动时血压反应呈正相关(r=0.462)。

结论

尽管压力反射被认为与运动初始阶段血压变化的稳定有关,但保留的压力反射功能被认为与次极量运动时的升压反应有关。这些发现表明运动性高血压是通过压力反射机制发展而来的。

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