Shim Hunbo, Yang Ji-Hyuk, Jun Tae-Gook
Department of Thoracic and Cardiovascular Surgery, Samsung Medical Center, Sungkyunkwan University School of Medicine, 81 Irwon-ro, Gangnam-gu, Seoul, 06351, South Korea.
J Cardiothorac Surg. 2017 Jul 6;12(1):54. doi: 10.1186/s13019-017-0617-1.
The small size of the pulmonary veins in infants increases the risk of pulmonary vein obstruction (PVO) after surgical repair of type IV total anomalous pulmonary venous connection (TAPVC). Here, we described the outcomes of our strategy, which delayed total correction after initial partial correction.
We reviewed the data of patients who underwent total correction for type IV TAPVC. In total, 11 out of 103 patients with TAPVC had type IV TAPVC with biventricular physiology. Of these 11 patients, we retrospectively reviewed the data of 7 patients who underwent two-stage correction. Major pulmonary venous confluent chambers, with the exception of the left superior pulmonary vein (LSPV), were initially anastomosed to the left atrium (LA), followed by anastomosis between the LSPV and the LA auricle.
The median weight, age, and LSPV size were 4.3 kg (range, 3.5-5.4 kg), 40 days (range, 20-103 days), and 4.5 mm (range, 3.0-5.4 mm), respectively, during the first operation and 12.2 kg (range, 8.5-31.5 kg), 1,165 days (range, 280-3,250 days), and 9.8 mm (range, 8.0-12.3 mm), respectively, during the second operation. The median Qp/Qs was 1.61 (range, 1.22-1.65) and the median cardiothoracic ratio was 0.52 (range, 0.49-0.57) at second operation. The median interval between the operations was 1,094 days (range, 196-3,226 days). The median follow-up period was 22 month (range, 7-59 month). No mortality or major morbidities occurred after either operation. The median V at the LSPV anastomosis site was 1.0 m/s (range, 0.8-1.3 m/s) on predischarge echocardiography. This patency was maintained at the last follow-up, showing an identical median V of 1.0 m/s (range, 0.8-1.3 m/s). All 7 patients who underwent two-stage correction were in good condition, without any clinical symptoms of PVO.
Our results suggest that leaving the isolated LSPV uncorrected during infancy and performing a second operation when the LSPV has grown adequately is a viable treatment option for patients with type IV TAPVC.
婴儿肺静脉细小,增加了IV型完全性肺静脉异位连接(TAPVC)手术修复后发生肺静脉梗阻(PVO)的风险。在此,我们描述了我们的策略的结果,即在初始部分矫正后延迟进行完全矫正。
我们回顾了接受IV型TAPVC完全矫正的患者的数据。在103例TAPVC患者中,共有11例具有双心室生理的IV型TAPVC。在这11例患者中,我们回顾性分析了7例接受两阶段矫正的患者的数据。除左上肺静脉(LSPV)外,主要肺静脉汇合腔最初与左心房(LA)吻合,随后进行LSPV与左心耳之间的吻合。
第一次手术时,体重、年龄和LSPV大小的中位数分别为4.3 kg(范围3.5 - 5.4 kg)、40天(范围20 - 103天)和4.5 mm(范围3.0 - 5.4 mm),第二次手术时分别为12.2 kg(范围8.5 - 31.5 kg)、1165天(范围280 - 3250天)和9.8 mm(范围8.0 - 12.3 mm)。第二次手术时Qp/Qs的中位数为1.61(范围1.22 - 1.65),心胸比率的中位数为0.52(范围0.49 - 0.57)。两次手术之间的间隔时间中位数为1094天(范围196 - 3226天)。中位随访期为22个月(范围7 - 59个月)。两次手术后均未发生死亡或重大并发症。出院前超声心动图显示LSPV吻合部位的V中位数为1.0 m/s(范围0.8 - 1.3 m/s)。在最后一次随访时保持了这种通畅,显示V中位数相同,为1.0 m/s(范围0.8 - 1.3 m/s)。所有7例接受两阶段矫正的患者情况良好,无任何PVO的临床症状。
我们的结果表明,对于IV型TAPVC患者,在婴儿期不矫正孤立的LSPV,而在LSPV充分生长后进行第二次手术是一种可行的治疗选择。