Department of Medical Specialties I and II, Morpho-Functional Sciences I and Preventive Medicine and Interdisciplinary, "Grigore T. Popa" University of Medicine and Pharmacy, University Street No. 16, 700115 Iasi, Romania.
"St. Spiridon" Clinical Emergency Hospital, Independence Boulevard No. 1, 700111 Iasi, Romania.
Medicina (Kaunas). 2023 Feb 22;59(3):428. doi: 10.3390/medicina59030428.
Morbid obesity is accompanied by an increased cardiovascular (CV) risk, which justifies a multidisciplinary, integrative approach. Arterial stiffness has a well-defined additional role in refining individual CV risk. Given that echocardiography and carotid ultrasound are usual methods for CV risk characterization, we aimed to identify the imaging parameters with a predictive value for early-onset arterial stiffness. We conducted a study in which 50 patients (divided into two equal groups with morbid obesity and without obesity), age and gender matched, untreated for cardiovascular risk factors, were addressed to bariatric surgery or non-inflammatory benign pathology surgery. Before the surgical procedures, we evaluated demographics, anthropometric data and biochemical parameters including adipokines (chemerin, adiponectin). Arterial stiffness was evaluated using the Medexpert ArteriographTM TL2 device. Transthoracic echocardiography and carotid ultrasound were also performed. We also analyzed adipocyte size and vascular wall thickness in intraoperative biopsies. Left ventricle (LV) mass index ( = 0.2851), LV ejection fraction (LVEF) ( = 0.0073), epicardial adipose tissue thickness ( = 0.0001) as echocardiographic parameters and carotid intima-media thickness ( = 0.0033), relative wall thickness ( = 0.0295), wall to lumen thickness ratio ( = 0.0930) and carotid cross-sectional area ( = 0.0042) as ultrasound parameters were significant measures in our groups and were assessed in relation to adipocyte size, blood vessel wall thickness and adipokines serum levels. Statistical analysis revealed directly proportional relationships between LV mass index ( = 0.008), carotid systolic thickness of the media ( = 0.009), diastolic thickness of the media ( = 0.007), cross-sectional area ( = 0.001) and blood vessel wall thickness. Carotid relative wall thickness positively correlates with adipocyte size ( = 0.023). In patients with morbid obesity, chemerin and adiponectin/chemerin ratio positively correlates with carotid intima-media thickness ( = 0.050), systolic thickness of the media ( = 0.015) and diastolic thickness of the media ( = 0.001). The multiple linear regression models revealed the role of epicardial adipose tissue thickness and carotid cross-sectional area in predicting adipocyte size which in turn is an independent factor for arterial stiffness parameters such as pulse wave velocity, subendocardial viability ratio and aortic augmentation index. Our results suggest that epicardial adipose tissue thickness, carotid intima-media thickness, relative wall thickness and carotid cross-sectional area might be useful imaging parameters for early prediction of arterial stiffness in patients with morbid obesity.
病态肥胖伴随着心血管(CV)风险的增加,这证明了多学科、综合方法的合理性。动脉僵硬度在精细评估个体 CV 风险方面具有明确的附加作用。鉴于超声心动图和颈动脉超声是 CV 风险特征的常用方法,我们旨在确定具有早期动脉僵硬度预测价值的影像学参数。
我们进行了一项研究,其中 50 名患者(分为病态肥胖和非肥胖两组,年龄和性别匹配,未接受心血管危险因素治疗)接受了减重手术或非炎症良性病变手术。在手术前,我们评估了人口统计学、人体测量学数据和生化参数,包括脂肪因子(chemerin、脂联素)。使用 Medexpert ArteriographTM TL2 设备评估动脉僵硬度。还进行了经胸超声心动图和颈动脉超声检查。我们还分析了术中活检中的脂肪细胞大小和血管壁厚度。左心室(LV)质量指数( = 0.2851)、LV 射血分数(LVEF)( = 0.0073)、心外膜脂肪组织厚度( = 0.0001)作为超声心动图参数,颈动脉内膜中层厚度( = 0.0033)、相对壁厚度( = 0.0295)、壁腔比( = 0.0930)和颈动脉横截面积( = 0.0042)作为超声参数在我们的组中是重要的指标,并与脂肪细胞大小、血管壁厚度和脂肪因子血清水平相关联。统计分析显示,LV 质量指数( = 0.008)、颈动脉中层收缩期厚度( = 0.009)、中层舒张期厚度( = 0.007)、横截面积( = 0.001)和血管壁厚度之间存在直接比例关系。颈动脉相对壁厚度与脂肪细胞大小呈正相关( = 0.023)。在病态肥胖患者中,chemerin 和脂联素/chemerin 比值与颈动脉内膜中层厚度( = 0.050)、中层收缩期厚度( = 0.015)和中层舒张期厚度( = 0.001)呈正相关。多元线性回归模型显示心外膜脂肪组织厚度和颈动脉横截面积在预测脂肪细胞大小方面的作用,而脂肪细胞大小又是脉搏波速度、心内膜下存活比和主动脉增强指数等动脉僵硬度参数的独立因素。
我们的结果表明,心外膜脂肪组织厚度、颈动脉内膜中层厚度、相对壁厚度和颈动脉横截面积可能是预测病态肥胖患者动脉僵硬度的有用影像学参数。
