房间隔曲率的实时磁共振评估可准确追踪小儿肺动脉高压的急性血流动力学变化。
Real-time magnetic resonance assessment of septal curvature accurately tracks acute hemodynamic changes in pediatric pulmonary hypertension.
作者信息
Pandya Bejal, Quail Michael A, Steeden Jennifer A, McKee Andrea, Odille Freddy, Taylor Andrew M, Schulze-Neick Ingram, Derrick Graham, Moledina Shahin, Muthurangu Vivek
机构信息
From the Centre for Cardiovascular Imaging, UCL Institute of Cardiovascular Science, London, United Kingdom (B.P., M.A.Q., J.A.S., A.M.T., V.M.); Cardiorespiratory Division, Great Ormond Street Hospital for Children, London, United Kingdom (I.S.-N., G.D., S.M.); Adult Congenital Heart Disease Department, The Heart Hospital, University College London Hospitals, London, United Kingdom (B.P.); Pediatric Respiratory Medicine, The Royal Brompton Hospital, London, United Kingdom (A.M.); INSERM, U947, Nancy, France (F.O.); and IADI, Universite de Lorraine, Nancy, France (F.O.).
出版信息
Circ Cardiovasc Imaging. 2014 Jul;7(4):706-13. doi: 10.1161/CIRCIMAGING.113.001156. Epub 2014 Apr 25.
BACKGROUND
This study assesses the relationship between septal curvature and mean pulmonary artery pressure and indexed pulmonary vascular resistance in children with pulmonary hypertension. We hypothesized that septal curvature could be used to estimate right ventricular afterload and track acute changes in pulmonary hemodynamics.
METHODS AND RESULTS
Fifty patients with a median age of 6.7 years (range, 0.45-16.5 years) underwent combined cardiac catheterization and cardiovascular magnetic resonance. The majority had idiopathic pulmonary arterial hypertension (n=30); the remaining patients had pulmonary hypertension associated with repaired congenital heart disease (n=17) or lung disease (n=3). Mean pulmonary artery pressure and pulmonary vascular resistance were acquired at baseline and during vasodilation. Septal curvature was measured using real-time cardiovascular magnetic resonance. There was a strong correlation between mean pulmonary artery pressure and SCmin at baseline and during vasodilator testing (r=-0.81 and -0.85, respectively; P<0.01). A strong linear relationship also existed between pulmonary vascular resistance and minimum septal curvature indexed to cardiac output both at baseline and during vasodilator testing (r=-0.88 and -0.87, respectively; P<0.01). Change in septal curvature metrics moderately correlated with absolute change in mean pulmonary artery pressure and pulmonary vascular resistance, respectively (r=0.58 and -0.74; P<0.01). Septal curvature metrics were able to identify vasoresponders with a sensitivity of 83% (95% confidence interval, 0.36-0.99) and a specificity of 91% (95% confidence interval, 0.77-0.97), using the Sitbon criteria. Idiopathic pulmonary arterial hypertension subgroup analysis revealed 3 responders with ΔSCmin values of 0.523, 0.551, and 0.568. If the middle value of 0.551 is taken as a cutoff, the approximate sensitivity would be 67% and the specificity would be 93%.
CONCLUSIONS
Septal curvature metrics are able to estimate right ventricular afterload and track acute changes in pulmonary hemodynamics during vasodilator testing. This suggests that septal curvature could be used for continuing assessment of load in pulmonary hypertension.
背景
本研究评估了肺动脉高压患儿的鼻中隔曲率与平均肺动脉压及肺血管阻力指数之间的关系。我们假设鼻中隔曲率可用于估计右心室后负荷并追踪肺血流动力学的急性变化。
方法与结果
50例中位年龄为6.7岁(范围0.45 - 16.5岁)的患者接受了心脏导管检查和心血管磁共振检查。大多数患者患有特发性肺动脉高压(n = 30);其余患者患有与先天性心脏病修复术后相关的肺动脉高压(n = 17)或肺部疾病相关的肺动脉高压(n = 3)。在基线和血管扩张期间获取平均肺动脉压和肺血管阻力。使用实时心血管磁共振测量鼻中隔曲率。在基线和血管扩张剂测试期间,平均肺动脉压与最小鼻中隔曲率(SCmin)之间存在强相关性(分别为r = -0.81和 -0.85;P < 0.01)。在基线和血管扩张剂测试期间,肺血管阻力与以心输出量为指数的最小鼻中隔曲率之间也存在强线性关系(分别为r = -0.88和 -0.87;P < 0.01)。鼻中隔曲率指标的变化分别与平均肺动脉压和肺血管阻力的绝对变化中度相关(r = 0.58和 -0.74;P < 0.01)。使用西博标准,鼻中隔曲率指标能够识别血管反应者,敏感性为83%(95%置信区间,0.36 - 0.99),特异性为91%(95%置信区间,0.77 - 0.97)。特发性肺动脉高压亚组分析显示3例反应者,其ΔSCmin值分别为0.523、0.551和0.568。如果将中间值0.551作为截断值,近似敏感性约为67%,特异性约为93%。
结论
鼻中隔曲率指标能够估计右心室后负荷并追踪血管扩张剂测试期间肺血流动力学的急性变化。这表明鼻中隔曲率可用于持续评估肺动脉高压中的负荷。
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