被动热应激对动脉僵硬度的影响。
Effect of passive heat stress on arterial stiffness.
机构信息
Institute for Exercise and Environmental Medicine, Texas Health Presbyterian Hospital Dallas, 7232 Greenville Avenue, Dallas, TX 75231, USA.
出版信息
Exp Physiol. 2011 Sep;96(9):919-26. doi: 10.1113/expphysiol.2011.057091. Epub 2011 Jun 17.
Arterial compliance, the inverse of arterial stiffness, is a prognostic indicator of arterial health. Central and peripheral arterial compliance decrease with acute cold stress and may increase postexercise when exercise-induced elevations in core temperature are likely still to be present. Increased blood flow through the conduit arteries associated with elevated core temperature increases shear stress, which in turn releases nitric oxide and other endothelium-derived factors. These changes, in conjunction with supportive in vitro data, suggest that elevated core temperature may indirectly increase central and peripheral arterial compliance (i.e. decrease arterial stiffness). The purpose of this study was to test the hypothesis that increased core temperature decreases central and peripheral arterial stiffness, as measured with pulse wave velocity (PWV). Using Doppler ultrasound, carotid-femoral (central) and carotid-radial (peripheral) arterial PWVs were measured from eight subjects (age 37 ± 11 years; mass 68.8 ± 11.1 kg; height 171 ± 3 cm) before and during passive heat-stress-induced increases in core temperature of 0.47 ± 0.05, 1.03 ± 0.12 and 1.52 ± 0.07°C (i.e. baseline, 0.5, 1.0 and 1.5°C, respectively). Changes in PWV were evaluated with one-way repeated-measures ANOVA. When analysed as group means, neither central (677 ± 161, 617 ± 72, 659 ± 74 and 766 ± 207 cm s(-1); P = 0.12) nor peripheral PWV (855 ± 192, 772 ± 95, 759 ± 49 and 858 ± 247 cm s(-1); P = 0.56) changed as core temperature increased from baseline to 0.5, 1.0 and 1.5°C, respectively. However, individual changes in central (average r = -0.89, P < 0.05) and peripheral PWV (average r = -0.93, P < 0.05) with heat stress were significantly correlated with normothermic baseline PWV. In conclusion, these data suggest that the magnitude by which heat stress reduced PWV was predicated upon normothermic PWV, with the individuals having the highest normothermic PWV being most responsive to the heat-stress-induced reductions in PWV.
动脉顺应性是动脉健康的预后指标,是动脉弹性的倒数。急性冷应激会降低中心动脉和外周动脉顺应性,运动后核心体温升高时可能会增加。与核心体温升高相关的导血管血流量增加会增加剪切力,从而释放一氧化氮和其他内皮衍生因子。这些变化,以及支持体外数据的变化,表明升高的核心体温可能会间接增加中心动脉和外周动脉顺应性(即降低动脉僵硬度)。本研究的目的是检验以下假设,即通过脉搏波速度(PWV)测量,升高的核心体温会降低中心动脉和外周动脉僵硬度。使用多普勒超声,从 8 名受试者(年龄 37 ± 11 岁;体重 68.8 ± 11.1kg;身高 171 ± 3cm)测量颈动脉-股动脉(中心)和颈动脉-桡动脉(外周)动脉 PWV,在被动热应激引起的核心体温升高 0.47 ± 0.05、1.03 ± 0.12 和 1.52 ± 0.07°C 时(即基础、0.5°C、1.0°C 和 1.5°C)。使用单向重复测量方差分析评估 PWV 的变化。当作为组平均值进行分析时,中心动脉(677 ± 161、617 ± 72、659 ± 74 和 766 ± 207cm/s;P = 0.12)和外周动脉 PWV(855 ± 192、772 ± 95、759 ± 49 和 858 ± 247cm/s;P = 0.56)均未随着核心体温从基础值升高到 0.5°C、1.0°C 和 1.5°C 而发生变化。然而,热应激时中心动脉(平均 r = -0.89,P < 0.05)和外周动脉 PWV(平均 r = -0.93,P < 0.05)的个体变化与正常体温时的 PWV 显著相关。总之,这些数据表明,热应激降低 PWV 的幅度取决于正常体温时的 PWV,正常体温时 PWV 较高的个体对热应激引起的 PWV 降低反应最敏感。
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