长期太空飞行后评估早期血管老化生物标志物的振荡方法

Q4 Medicine
Fabian Hoffmann , Stefan Möstl , Elena Luchitskaya , Irina Funtova , Jens Jordan , Roman Baevsky , Jens Tank
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引用次数: 6

摘要

目的:太空环境条件,特别是暴露于宇宙辐射,加上活动能力下降,葡萄糖代谢改变和血流动力学变化可能会促进心血管疾病,因此,我们使用一种新型的振荡血压装置评估了早期血管老化标志物和血流动力学。方法对8名宇航员(46.5±5.3岁,77.6±8.2 kg, 176±6.2 cm, 7男1女)进行了心率、外周血压、中心血压和仰卧位脉搏波速度的测量,并结合传递函数分析。我们在基线(飞行前65-90天)和在国际空间站执行6个月任务返回后的4天(R+4)和8天(R+8)获得了测量结果。结果与基线相比,心率在R+4时显著增加(58.6±6.4比70.3±5.2 bpm),而在R+8时无差异。中心收缩压从基线的112.5±13.5增加到R+4时的125.6±18.5和121.6±9.5 mmHg,但与基线相比无统计学意义(p = 0.243/0.295)。外周舒张压和收缩压以及中心舒张压测量也遵循这一趋势。脉搏波速度增加与基线(6.7±0.8 m / s) R + 4(7.2±0.8 m / s, p = 0.499),高架上R + 8(7.1±0.5 m / s, p = 0.614)。结论本研究的重要发现是,近地轨道6个月不会导致早期血管老化生物标志物的临床显著变化。然而,这些发现不能外推到深空遇到的情况。血管生物标志物的非侵入性检测可能在早期发现太空旅行中的血管风险方面具有实用价值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

An oscillometric approach in assessing early vascular ageing biomarkers following long-term space flights

An oscillometric approach in assessing early vascular ageing biomarkers following long-term space flights

Purpose

The environmental conditions in space, particularly exposure to cosmic radiation, coupled with decreased mobility, altered glucose metabolism, and hemodynamic changes may promote cardiovascular disease Therefore, we assessed early vascular aging markers and hemodynamics using a novel oscillometric blood pressure device.

Methodology

In eight cosmonauts (46.5 ​± ​5.3 ​yrs, 77.6 ​± ​8.2 ​kg, 176 ​± ​6.2 ​cm, 7 men/1woman), we determined heart rate, peripheral blood pressure, central blood pressure, and pulse wave velocity in the supine position using an oscillometric brachial device coupled with transfer function analysis. We obtained measurements at baseline (65–90 days before flight) and four days (R+4) and eight days (R+8) after return from six months mission onboard the International Space Station.

Results

Compared to baseline, heart rate increased significantly on R+4 (58.6 ​± ​6.4 vs. 70.3 ​± ​5.2 bpm) but did not differ on R+8. Central systolic blood pressure increased from 112.5 ​± ​13.5 on baseline to 125.6 ​± ​18.5 on R+4 and 121.6 ​± ​9.5 ​mmHg, albeit showing no statistical significance compared to baseline (p ​= ​0.243/0.295). Peripheral diastolic and systolic as well as central diastolic blood pressure measurements followed this trend. Pulse wave velocity increased non-significantly from baseline (6.7 ​± ​0.8 ​m/s) to R+4 (7.2 ​± ​0.8 ​m/s, p ​= ​0.499) and stayed elevated on R+8 (7.1 ​± ​0.5 ​m/s, p ​= ​0.614).

Conclusion

The important finding of our study is that six months in a near-earth orbit do not lead to clinically significant changes in early vascular ageing biomarkers. However, these findings cannot be extrapolated to the conditions encountered in deep space. Non-invasive testing of vascular biomarkers may have utility in detecting vascular risks during space travel at an early stage.

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来源期刊
International Journal of Cardiology: Hypertension
International Journal of Cardiology: Hypertension Medicine-Cardiology and Cardiovascular Medicine
CiteScore
0.40
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审稿时长
13 weeks
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