主肺动脉面积限制动脉调转术后长期患者的运动能力。
Main pulmonary artery area limits exercise capacity in patients long-term after arterial switch operation.
机构信息
Department of Cardiology, Erasmus MC, Rotterdam, The Netherlands; Department of Cardiology, UMC Utrecht, Utrecht, The Netherlands.
Department of Cardiology, UMC Utrecht, Utrecht, The Netherlands; ICIN-Netherlands Heart Institute, Utrecht, The Netherlands.
出版信息
J Thorac Cardiovasc Surg. 2015 Oct;150(4):918-25. doi: 10.1016/j.jtcvs.2015.07.101. Epub 2015 Aug 6.
OBJECTIVES
Despite excellent survival in patients after the arterial switch operation, reintervention is frequently required and exercise capacity is decreased in a substantial number of patients. This study relates right-sided imaging features in patients long-term after the arterial switch operation to exercise capacity and ventilatory efficiency to investigate which lesions are functionally important.
METHODS
Patients operated in the UMC Utrecht, the Netherlands (1976-2001) and healthy controls underwent cardiac magnetic resonance imaging and cardiopulmonary exercise testing within 1 week. We measured main, left, and right pulmonary artery cross-sectional areas, pulmonary blood flow distribution, peak oxygen uptake, and minute ventilation relative to carbon dioxide elimination.
RESULTS
A total of 71 patients (median age, 20 [12-35] years, 73% were male) and 21 healthy controls (median age, 26 [21-35] years, 48% were male) were included. Main, left, and right pulmonary artery areas were decreased compared with controls (190 vs 269 mm(2)/m(2), 59 vs 157 mm(2)/m(2), 98 vs 139 mm(2)/m(2), respectively, all P < .001); however, pulmonary blood flow distribution was comparable (P = .722). Peak oxygen uptake and minute ventilation relative to carbon dioxide elimination were 88% ± 20% and 23.7 ± 3.8, respectively, with 42% and 1% of patients demonstrating abnormal results (≤ 84% and ≥ 34, respectively). The main pulmonary artery area significantly correlated with peak oxygen uptake (r = 0.401, P = .001) and pulmonary blood flow distribution with minute ventilation relative to carbon dioxide elimination (r = -0.329, P = .008). Subanalysis (<18, 18-25, >25 years) showed that the main pulmonary artery area was smaller in older age groups. In multivariable analysis, the main pulmonary artery area was independently associated with peak oxygen uptake (P = .032).
CONCLUSIONS
In adult patients after the arterial switch operation, narrowing of the main pulmonary artery is a common finding and is the main determinant of limitation in functional capacity, rather than pulmonary branch stenosis.
目的
尽管患者在接受大动脉调转手术后的生存率非常高,但仍有相当一部分患者需要再次介入治疗,并且运动能力下降。本研究旨在探讨大动脉调转手术后长期患者的右侧影像学特征与运动能力和通气效率之间的关系,以确定哪些病变具有重要的功能意义。
方法
1976 年至 2001 年在荷兰乌得勒支大学医学中心接受手术治疗的患者和健康对照者在 1 周内接受心脏磁共振成像和心肺运动测试。我们测量了主肺动脉、左肺动脉和右肺动脉的横截面积、肺血流量分布、峰值摄氧量和分钟通气量与二氧化碳清除量的比值。
结果
共纳入 71 例患者(中位年龄 20[12-35]岁,73%为男性)和 21 名健康对照者(中位年龄 26[21-35]岁,48%为男性)。与对照组相比,主肺动脉、左肺动脉和右肺动脉的横截面积均减小(190 比 269mm²/m²,59 比 157mm²/m²,98 比 139mm²/m²,均 P<0.001);然而,肺血流量分布相似(P=0.722)。峰值摄氧量和分钟通气量与二氧化碳清除量的比值分别为 88%±20%和 23.7±3.8,分别有 42%和 1%的患者结果异常(≤84%和≥34,分别)。主肺动脉的横截面积与峰值摄氧量显著相关(r=0.401,P=0.001),肺血流量分布与分钟通气量与二氧化碳清除量的比值显著相关(r=-0.329,P=0.008)。亚组分析(<18 岁、18-25 岁、>25 岁)显示,主肺动脉的横截面积在年龄较大的组中较小。多变量分析显示,主肺动脉的横截面积与峰值摄氧量独立相关(P=0.032)。
结论
大动脉调转手术后的成年患者中,主肺动脉狭窄是一种常见的发现,是运动能力受限的主要决定因素,而不是肺分支狭窄。
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