The Ohio State University, Columbus, Ohio 43210, USA.
JACC Cardiovasc Imaging. 2012 Jan;5(1):15-24. doi: 10.1016/j.jcmg.2011.07.010.
The purpose of this study was to evaluate the ability of a novel cardiac magnetic resonance (CMR) real-time phase contrast (RT-PC) flow measurement technique to reveal the discordant respirophasic changes in mitral and tricuspid valve in flow indicative of the abnormal hemodynamics seen in constrictive pericarditis (CP).
Definitive diagnosis of CP requires identification of constrictive hemodynamics with or without pericardial thickening. CMR to date has primarily provided morphological assessment of the pericardium.
Sixteen patients (age 57 ± 13 years) undergoing CMR to assess known or suspected CP and 10 controls underwent RT-PC that acquired simultaneous mitral valve and tricuspid valve inflow velocities over 10 s of unrestricted breathing. The diagnosis of CP was confirmed via clinical history, diagnostic imaging, cardiac catheterization, intraoperative findings, and histopathology.
Ten patients had CP, all with increased pericardial thickness (6.2 ± 1.0 mm). RT-PC imaging demonstrated discordant respirophasic changes in atrioventricular valve inflow velocities in all CP patients, with mean ± SD mitral valve and tricuspid valve inflow velocity variation of 46 ± 20% and 60 ± 15%, respectively, compared with 16 ± 8% and 24 ± 11% in patients without CP (p < 0.004 vs. patients with CP for both) and 17 ± 5% and 31 ± 13% in controls (p < 0.001 vs. patients with CP for both). There was no difference in atrioventricular valve inflow velocity variation between patients without CP compared with controls (p > 0.3 for both). Respiratory variation exceeding 25% across the mitral valve yielded a sensitivity of 100%, a specificity of 100%, and an area under the receiver-operating characteristic curve of 1.0 to detect CP physiology. Using a cutoff of 45%, variation of transtricuspid valve velocity had a sensitivity of 90%, a specificity of 88%, and an area under the receiver-operating characteristic curve of 0.98.
Accentuated and discordant respirophasic changes in mitral valve and tricuspid valve inflow velocities characteristic of CP can be identified noninvasively with RT-PC CMR. When incorporated into existing CMR protocols for imaging pericardial morphology, RT-PC CMR provides important hemodynamic evidence with which to make a definite diagnosis of CP.
本研究旨在评估一种新的心脏磁共振(CMR)实时相位对比(RT-PC)血流测量技术,以揭示二尖瓣和三尖瓣在指示缩窄性心包炎(CP)中所见异常血流动力学的呼吸相位变化不一致。
CP 的明确诊断需要识别缩窄性血流动力学,有无心包增厚。CMR 目前主要提供心包的形态评估。
16 名(年龄 57±13 岁)接受 CMR 评估已知或疑似 CP 的患者和 10 名对照者接受 RT-PC,该技术在 10 秒的自由呼吸过程中同时采集二尖瓣和三尖瓣流入速度。CP 的诊断通过临床病史、诊断成像、心导管检查、术中发现和组织病理学证实。
10 名患者患有 CP,均伴有心包增厚(6.2±1.0mm)。RT-PC 成像显示所有 CP 患者的房室瓣流入速度存在呼吸相位变化不一致,平均±SD 二尖瓣和三尖瓣流入速度变化分别为 46±20%和 60±15%,而 CP 患者无 CP 分别为 16±8%和 24±11%(p<0.004 与 CP 患者相比),对照组分别为 17±5%和 31±13%(p<0.001 与 CP 患者相比)。无 CP 患者与对照组相比,房室瓣流入速度变化无差异(均为 p>0.3)。二尖瓣跨瓣呼吸变化超过 25%,其灵敏度为 100%,特异性为 100%,受试者工作特征曲线下面积为 1.0,以检测 CP 生理学。使用 45%的截断值,三尖瓣速度的变化具有 90%的灵敏度、88%的特异性和 0.98 的受试者工作特征曲线下面积。
CP 特征性的二尖瓣和三尖瓣流入速度增强和不一致的呼吸相位变化可通过 RT-PC CMR 无创识别。当纳入现有的 CMR 心包形态成像协议时,RT-PC CMR 提供了重要的血流动力学证据,可明确诊断 CP。
