Dunlay Shannon M, Allison Thomas G, Pereira Naveen L
Division of Cardiovascular Diseases in the Department of Internal Medicine, Mayo Clinic, Rochester, Minnesota; Division of Health Care Policy and Research in the Department of Health Sciences Research, Mayo Clinic, Rochester, Minnesota.
Division of Cardiovascular Diseases in the Department of Internal Medicine, Mayo Clinic, Rochester, Minnesota.
J Card Fail. 2014 Aug;20(8):548-54. doi: 10.1016/j.cardfail.2014.05.008. Epub 2014 Jun 2.
Reduced exercise tolerance from impaired cardiac output is an important criterion for left ventricular assist device (LVAD) implantation. However, little is known about how exercise capacity changes after LVAD and how changes compare with patients undergoing heart transplantation.
We compared changes in cardiopulmonary exercise testing performed pre- and postoperatively in patients who underwent HeartMate II LVAD implantation (n = 25) and heart transplantation (n = 74) at the Mayo Clinic in Rochester, Minnesota, between 2007 and 2012. Preoperatively, patients undergoing LVAD and transplant had markedly reduced exercise time (mean 5.1 minutes [45% predicted] and 5.0 minutes [44% predicted], respectively), low peak oxygen consumption (VO2; mean 11.5 mL · kg · min [43% predicted] and 11.9 mL · kg · min [38% predicted]), and abnormal ventilatory gas exchange (ratio of minute ventilation to carbon dioxide production [VE/VCO2] nadir 39.4 and 37.4). After LVAD and transplant, there were similar improvements in exercise time (mean Δ +1.2 vs. 1.7 minutes, respectively, P = .27) and VE/VCO2 nadir (mean Δ -3.7 vs. -4.2, P = .74). However, peak VO2 increased posttransplant but did not change post-LVAD (mean Δ +5.4 vs. +0.9 mL · kg · min, respectively, P < .001). Most patients (72%) had a peak VO2 < 14 mL · kg · min post-LVAD.
Although improvements in exercise capacity and gas exchange are seen after LVAD and heart transplant, peak VO2 doesn't improve post-LVAD and remains markedly abnormal in most patients.
心输出量受损导致运动耐力下降是植入左心室辅助装置(LVAD)的一项重要标准。然而,对于LVAD植入后运动能力如何变化以及与心脏移植患者相比变化情况如何,人们了解甚少。
我们比较了2007年至2012年期间在明尼苏达州罗切斯特市梅奥诊所接受HeartMate II LVAD植入术的患者(n = 25)和心脏移植患者(n = 74)术前和术后心肺运动试验的变化。术前,接受LVAD和移植的患者运动时间显著缩短(分别平均为5.1分钟[预测值的45%]和5.0分钟[预测值的44%]),峰值耗氧量(VO2)较低(分别平均为11.5 mL·kg·min[预测值的43%]和11.9 mL·kg·min[预测值的38%]),通气气体交换异常(分钟通气量与二氧化碳产生量之比[VE/VCO2]最低点分别为39.4和37.4)。LVAD植入和移植后,运动时间(分别平均增加1.2分钟和1.7分钟,P = 0.27)和VE/VCO2最低点(分别平均降低3.7和4.2,P = 0.74)有相似改善。然而,移植后峰值VO2增加,而LVAD植入后未改变(分别平均增加5.4 mL·kg·min和0.9 mL·kg·min,P < 0.001)。大多数患者(72%)LVAD植入后峰值VO2 < 14 mL·kg·min。
虽然LVAD植入和心脏移植后运动能力和气体交换有所改善,但LVAD植入后峰值VO2未改善,且大多数患者仍明显异常。
