Department of Cardiology, Division of Cardiothoracic and Respiratory Medicine, University Hospital of North Norway, Tromso, Norway.
Department of Clinical Medicine, UiT Arctic University of Norway, Tromso, Norway.
Echocardiography. 2023 Jul;40(7):623-633. doi: 10.1111/echo.15625. Epub 2023 May 22.
Left ventricular (LV) systolic and diastolic functions are important cardiovascular risk predictors in patients with hypertension. However, data on segmental, layer-specific strain, and diastolic strain rates in these patients are limited. The aim of this study was to investigate segmental two-dimensional strain rate imaging (SRI)-derived parameters to characterize LV systolic and diastolic function in hypertensive individuals compared with that in normotensive individuals.
The study sample comprised 1194 participants from the population-based Know Your Heart study in Arkhangelsk and Novosibirsk, Russia, and 1013 individuals from the Seventh Tromsø Study in Norway. The study population was divided into four subgroups: (A) healthy individuals with normal blood pressure (BP), (B) individuals on antihypertensive medication with normal BP, (C) individuals with systolic BP 140-159 mmHg and/or diastolic BP > 90 mm HG, and (D) individuals with systolic BP ≥160 mmHg. In addition to conventional echocardiographic parameters, global and segmental layer-specific strains and strain rates in early diastole and atrial contraction (SR E, SR A) were extracted. The strain and SR (S/SR) analysis included only segments without strain curve artifacts.
With increasing BP, the systolic and diastolic global and segmental S/SR gradually decreased. SR E, a marker of impaired relaxation, showed the most distinctive differences between the groups. In normotensive controls and the three hypertension groups, all segmental parameters displayed apico-basal gradients, with the lowest S/SR in the basal septal and highest in apical segments. Only SR A did not differ between the segmental groups but increased gradually with increasing BP. End-systolic strain showed incremental epi-towards endocardial gradients, irrespective of the study group.
Arterial hypertension reduces global and segmental systolic and diastolic left ventricular S/SR parameters. Impaired relaxation determined by SR E is the dominant factor of diastolic dysfunction, whereas end-diastolic compliance (by SR A) does not seem to be influenced by different degrees of hypertension. Segmental strain, SR E and SR A provide new insights into the LV cardio mechanics in hypertensive hearts.
左心室(LV)收缩和舒张功能是高血压患者重要的心血管风险预测指标。然而,关于这些患者节段性、层特异性应变和舒张应变率的数据有限。本研究旨在探讨二维应变率成像(SRI)衍生参数在高血压个体与正常血压个体中的LV 收缩和舒张功能。
研究样本包括来自俄罗斯阿尔汉格尔斯克和新西伯利亚的基于人群的“了解你的心脏”研究的 1194 名参与者和挪威特罗姆瑟第七研究的 1013 名参与者。研究人群分为四组:(A)血压正常的健康个体,(B)血压正常的服用抗高血压药物的个体,(C)收缩压 140-159mmHg 和/或舒张压>90mmHg 的个体,(D)收缩压≥160mmHg 的个体。除了常规超声心动图参数外,还提取了整体和节段层特异性应变和早期舒张期和心房收缩期应变率(SR E、SR A)。应变和 SR(S/SR)分析仅包括没有应变曲线伪影的节段。
随着血压的升高,整体和节段性 S/SR 的收缩和舒张逐渐降低。作为舒张功能障碍标志物的 SR E 显示出各组之间最显著的差异。在正常血压对照组和三种高血压组中,所有节段参数均显示心尖-基底梯度,基底间隔节段的 S/SR 最低,心尖段最高。仅 SR A 不随节段组而变化,但随血压逐渐增加。收缩末期应变表现出向心内膜递增的向心尖的趋势,与研究组无关。
高血压降低了整体和节段性 LV 收缩和舒张 S/SR 参数。由 SR E 确定的舒张功能障碍的主要因素是松弛受损,而舒张末期顺应性(由 SR A)似乎不受不同程度高血压的影响。节段性应变、SR E 和 SR A 为高血压心脏的 LV 心力学提供了新的见解。
Zotero 插件