Division of Cardiovascular Medicine, Department of Medicine, University of Wisconsin School of Medicine and Public Health, Madison, Wisconsin, USA; William S. Middleton Memorial Veterans Hospital, Madison, Wisconsin, USA.
Division of Cardiovascular Medicine, Department of Medicine, University of Wisconsin School of Medicine and Public Health, Madison, Wisconsin, USA.
Ultrasound Med Biol. 2022 Nov;48(11):2249-2257. doi: 10.1016/j.ultrasmedbio.2022.06.014. Epub 2022 Aug 18.
Arterial stiffness, echolucency and texture features are altered with hypertension and associated with increased cardiovascular disease risk. The relationship between these markers and structural and load-dependent artery wall changes in hypertension are poorly understood. The Multi-ethnic Study of Atherosclerosis (MESA) is a longitudinal study of 6814 adults from six communities across the United States designed to study subclinical cardiovascular disease. From B-mode imaging of the right common carotid artery at the baseline MESA examination, we calculated carotid artery Young's elastic modulus (YEM, n = 5894) and carotid artery gray-scale texture features (n = 1403). The standard YEM calculation represented total arterial stiffness. Structural stiffness was calculated by adjusting YEM to a standard blood pressure of 120/80 mm Hg with participant-specific models. Load-dependent stiffness was the difference between total and structural stiffness. We found that load-dependent YEM was elevated in hypertensive individuals compared with normotensive individuals (35.7 ± 105.5 vs. -62.0 ± 112.4 kPa, p < 0.001) but that structural YEM was similar (425.3 ± 274.8 vs. 428.4 ± 293.0 kPa, p = 0.60). Gray-scale measures of heterogeneity in carotid artery wall texture (gray-level difference statistic contrast) had small but statistically signification correlations with carotid artery stiffness mechanisms. This association was positive for structural YEM (0.107, p < 0.001), while for load-dependent YEM, the association was negative (-0.064, p = 0.02). In conclusion, increased arterial stiffness in hypertension was owing solely to the non-linear mechanics of having higher blood pressure, not structural changes in the artery wall, and high load-dependent stiffness was associated with a more homogenous carotid artery wall texture. This is potentially related to arterial remodeling associated with subclinical atherosclerosis and future cardiovascular disease development. These results also indicate that gray-scale texture features from ultrasound imaging had a small but statistically significant association with load-dependent arterial stiffness and that gray-scale texture features may be partially load dependent.
动脉僵硬、回声不匀和纹理特征会随着高血压而改变,并与心血管疾病风险增加相关。这些标志物与高血压患者动脉壁结构和负荷相关变化之间的关系尚不清楚。多民族动脉粥样硬化研究(MESA)是一项在美国六个社区进行的、针对亚临床心血管疾病的、共纳入 6814 名成年人的纵向研究。在基线 MESA 检查的右侧颈总动脉 B 型超声成像中,我们计算了颈动脉杨氏弹性模量(YEM,n=5894)和颈动脉灰度纹理特征(n=1403)。标准 YEM 计算代表总动脉僵硬。通过使用参与者特定的模型将 YEM 调整为标准血压 120/80mmHg,计算出结构僵硬。负荷相关僵硬是总僵硬和结构僵硬之间的差异。我们发现,与血压正常者相比,高血压患者的负荷相关 YEM 升高(35.7±105.5 vs. -62.0±112.4kPa,p<0.001),但结构 YEM 相似(425.3±274.8 vs. 428.4±293.0kPa,p=0.60)。颈动脉壁纹理灰度异质性的灰度差统计对比度的灰度测量值与颈动脉僵硬机制有较小但具有统计学意义的相关性。这种相关性对结构 YEM 呈阳性(0.107,p<0.001),而对于负荷相关 YEM,这种相关性为阴性(-0.064,p=0.02)。总之,高血压患者动脉僵硬的增加完全是由于血压升高的非线性力学,而不是动脉壁的结构变化,而高负荷相关僵硬与更均匀的颈动脉壁纹理相关。这可能与亚临床动脉粥样硬化和未来心血管疾病发展相关的动脉重塑有关。这些结果还表明,来自超声成像的灰度纹理特征与负荷相关动脉僵硬有较小但具有统计学意义的关联,并且灰度纹理特征可能部分依赖于负荷。