Di Bello V, Santini F, Di Cori A, Pucci A, Palagi C, Delle Donne M G, Giannetti M, Talini E, Nardi C, Pedrizzetti G, Fierabracci P, Vitti P, Pinchera A, Balbarini A
Cardiac and Thoracic Department, University of Pisa, Pisa, Italy.
Int J Obes (Lond). 2006 Jun;30(6):948-56. doi: 10.1038/sj.ijo.0803206.
The aim of this study was to evaluate the relationship between insulin resistance and preclinical abnormalities of the left ventricular structure and function detected in severe obesity by Color Doppler Myocardial Imaging (CDMI). Forty-eight consecutive severely obese patients (Group O) (11 males, 37 females, mean age 32.8+/-7 years) were enrolled. Forty-eight sex- and age-matched non-obese healthy subjects were also recruited as controls (Group C). All subjects underwent conventional 2D-Color Doppler echocardiography and CDMI. The homeostasis model assessment insulin resistance index (HOMA-IR) was used to assess insulin resistance results. Obese subjects had a greater left ventricular mass index (by height) (58.8+/-14 g/m(2.7)) than controls (37+/-8 g/m(2.7)) (P<0.0001), owing to compensation response to volume overload caused by a greater cardiac output (P<0.02). Preload reserve was increased in obese subjects, as demonstrated by a significant increase in left atrial dimension (P<0.0001). Obese patients had a slightly reduced LV diastolic function (transmitral E/A ratio: Group O, 1.1+/-0.8 vs Group C, 1.5 +/-0.5; P<0.002). Cardiac deformation assessed by regional myocardial systolic strain and strain rate (SR) values was significantly lower (abnormal) in obese patients than in controls, both at the septum and lateral wall level. These strain and SR abnormalities were significantly related to body mass index. In addition, the early phase of diastolic function, evaluated using SR, was compromised in obese patients (P<0.001). The HOMA-IR values in obese patients were significantly higher (3.09+/-1.6) than those determined in the control group (0.92+/-0.5) (P<0.0001). The HOMA-IR values, in the obese group, were significantly related to systolic strain and SR values sampled at the septum level (P<0.0001).
In conclusion, this study has demonstrated that obese patients pointed out systolic structural and functional abnormalities at a preclinical stage, in particular through strain and SR analysis; on the other hand, those altered CDMI parameters well distinguish obese subjects as compared with the control group. Furthermore, another main finding of the study was that myocardial deformation (systolic strain) could have a correlation with insulin resistance level.
本研究旨在通过彩色多普勒心肌成像(CDMI)评估严重肥胖患者胰岛素抵抗与左心室结构和功能的临床前异常之间的关系。连续纳入48例严重肥胖患者(O组)(11例男性,37例女性,平均年龄32.8±7岁)。还招募了48例年龄和性别匹配的非肥胖健康受试者作为对照组(C组)。所有受试者均接受常规二维彩色多普勒超声心动图和CDMI检查。采用稳态模型评估胰岛素抵抗指数(HOMA-IR)评估胰岛素抵抗结果。肥胖受试者的左心室质量指数(按身高计算)(58.8±14 g/m².⁷)高于对照组(37±8 g/m².⁷)(P<0.0001),这是由于对心输出量增加引起的容量超负荷的代偿反应所致(P<0.02)。肥胖受试者的前负荷储备增加,左心房内径显著增加证明了这一点(P<0.0001)。肥胖患者的左心室舒张功能略有降低(二尖瓣E/A比值:O组为1.1±0.8,C组为1.5±0.5;P<0.002)。通过区域心肌收缩期应变和应变率(SR)值评估的心脏变形在肥胖患者中显著低于对照组(异常),在室间隔和侧壁水平均如此。这些应变和SR异常与体重指数显著相关。此外,使用SR评估的舒张功能早期阶段在肥胖患者中受损(P<0.001)。肥胖患者的HOMA-IR值显著高于对照组(3.09±1.6)(0.92±0.5)(P<0.0001)。肥胖组的HOMA-IR值与室间隔水平采集的收缩期应变和SR值显著相关(P<0.0001)。
总之,本研究表明肥胖患者在临床前阶段存在收缩期结构和功能异常,特别是通过应变和SR分析;另一方面,与对照组相比,那些改变的CDMI参数能很好地区分肥胖受试者。此外,该研究的另一个主要发现是心肌变形(收缩期应变)可能与胰岛素抵抗水平相关。
