Load-dependent mechanisms contribute to increased aortic stiffness among women with a history of preeclampsia: relation with cardiovagal baroreflex sensitivity.

IF 4.1 2区医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS

American journal of physiology. Heart and circulatory physiology Pub Date : 2024-12-01 Epub Date: 2024-10-18 DOI:10.1152/ajpheart.00556.2024

Kristen G Davis, Matthew K Armstrong, Virginia R Nuckols, Meaghan N Smith, Ryan Pewowaruk, Colin J Gimblet, Donna A Santillan, Mark K Santillan, Gary L Pierce

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引用次数: 0

Abstract

Preeclampsia, a hypertensive disorder of pregnancy, results in increased lifetime cardiovascular disease (CVD) risk. Total aortic stiffness, a robust risk factor for CVD, is composed of load-dependent (blood pressure load on arterial wall) and structural (intrinsic changes in arterial wall) mechanisms. Total aortic stiffness is also associated with reduced cardiovagal baroreflex sensitivity (BRS). We sought to determine 1) whether elevated total aortic stiffness among women with a history of preeclampsia (hxPE) is attributed to load-dependent or structural stiffness, and 2) whether either mechanism is associated with lower BRS. Total aortic stiffness (carotid-femoral pulse wave velocity) and spontaneous cardiovagal BRS (sequence technique) were measured among women 1-5 yr postpartum (n = 115; age 34 ± 4 yr; hxPE n = 51; controls n = 64). Structural aortic stiffness was calculated from participant-specific exponential models by standardizing aortic stiffness to a "reference" blood pressure. Load-dependent stiffness was calculated as total minus structural stiffness. Total [+0.8 m/s, 95% confidence interval (CI) (-0.99, -0.23), P = 0.002] and load-dependent [+0.4 m/s, 95% CI (-0.56, -0.22), P < 0.001], but not structural [95% CI (-0.52, 0.08), P = 0.16] aortic stiffness were higher among women with a hxPE compared with controls. Women with a hxPE had lower BRS (P = 0.042) that was negatively associated with total [B = -3.24 ms/mmHg, 95% CI (-6.35, -0.13), P = 0.042] and load-dependent [B = -5.91 ms/mmHg, 95% CI (-11.31, -0.51), P = 0.033] aortic stiffness. Load-dependent, not structural, aortic stiffness mechanisms contribute to higher total aortic stiffness among women with a hxPE and are associated with lower cardiovagal BRS. Postpartum monitoring for high BP is critical to reduce increased CVD risk after preeclampsia.NEW & NOTEWORTHY The novel finding is that load-dependent stiffness, not structural stiffness, is the primary mechanism of aortic stiffness, and is associated with reduced baroreflex sensitivity in women with a history of preeclampsia. These findings may help tailor high blood pressure prevention and management strategies in this population to prevent structural aortic stiffening, altered baroreflex control, and increased lifetime cardiovascular disease (CVD) risk.

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有先兆子痫病史的妇女主动脉僵硬度增加的负荷依赖机制：与心迷走神经巴oreflex敏感性的关系。

导言：子痫前期是一种妊娠期高血压疾病，会导致终生心血管疾病（CVD）风险增加。主动脉总僵硬度是心血管疾病的一个重要风险因素，由负荷依赖性（血压对动脉壁的负荷）和结构性（动脉壁的内在变化）机制组成。主动脉总僵硬度还与心迷走气压反射敏感性（BRS）降低有关。我们试图确定：1）有子痫前期病史（hxPE）的妇女的主动脉总僵硬度升高是由于负荷依赖性僵硬还是结构性僵硬；2）这两种机制是否都与较低的 BRS 有关。方法：对产后1-5年的妇女（n=115；年龄34 ±4岁；hxPE n=51；对照组 n=64）进行了主动脉总僵硬度（颈动脉-股动脉脉搏波速度）和自发心迷走神经BRS（序列技术）测量。结构性主动脉僵硬度由参与者特定的指数模型计算得出，将主动脉僵硬度标准化为 "参考 "血压。负荷相关僵硬度按总僵硬度减去结构僵硬度计算。结果如下总僵硬度（+0.8 米/秒，95% CI (-0.99, -0.23)，P=0.002）和负荷依赖性僵硬度（+0.4 米/秒，95% CI (-0.56, -0.22)，PC=0.002）：负荷依赖性主动脉僵化机制（而非结构性主动脉僵化机制）导致患有 hxPE 的女性主动脉总僵化度升高，并与较低的心迷走神经 BRS 有关。产后血压监测对于降低子痫前期增加的心血管疾病风险至关重要。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

American journal of physiology. Heart and circulatory physiology 医学-生理学

CiteScore

9.60

自引率

10.40%

发文量

202

审稿时长

2-4 weeks

期刊介绍： The American Journal of Physiology-Heart and Circulatory Physiology publishes original investigations, reviews and perspectives on the physiology of the heart, vasculature, and lymphatics. These articles include experimental and theoretical studies of cardiovascular function at all levels of organization ranging from the intact and integrative animal and organ function to the cellular, subcellular, and molecular levels. The journal embraces new descriptions of these functions and their control systems, as well as their basis in biochemistry, biophysics, genetics, and cell biology. Preference is given to research that provides significant new mechanistic physiological insights that determine the performance of the normal and abnormal heart and circulation.