了解心内畸形患者主支气管受压的机制

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引用次数: 0

摘要

背景该研究重点关注主动脉肺间隙中主支气管的血管压迫,检查同一轴向平面内的潜在因素。方法客观分析主动脉肺间隙轴向平面内结构的形态和拓扑,包括胸骨、升主动脉、心脏、肺动脉、降主动脉和其他相关要素。系统地确定了与正常结构的偏差。手术过程包括移动和移除受压血管,然后将气道壁悬挂到硬质假体(外部支架)、椎骨或升主动脉上。结果计算机断层扫描显示了导致支气管狭窄的潜在因素,包括降主动脉前偏(20 例患者)、肺动脉扩张(6 例)、心脏肥大(12 例)、平胸(7 例)、漏斗胸(3 例)、动脉转换手术后升主动脉后偏(3 例)、主动脉弓低(3 例)和锁骨下动脉异常(2 例)。Kaplan-Meier 分析显示,手术后 1 年的存活率为 96%,5 年为 87%,8-15 年为 80%。外部支架术后十年随访计算机断层扫描显示,支架支气管的最窄直径为参考值的 94.4%。虽然在大多数情况下肺动脉和降主动脉会产生直接的压迫效应,但其他各种潜在机制也可能导致支气管受压。通过多学科方法识别并解决这些因素对于维持支气管通畅和预防并发症至关重要。
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Understanding the Mechanisms of Main Bronchial Compression in Patients with Intracardiac Anomalies

Background

The study focuses on vascular compression of the main bronchus in the aortopulmonary space, examining potential contributors within the same axial plane. Its goal is to uncover mechanisms of bronchial compression in patients with intracardiac anomalies and review surgical outcomes, aiming to enhance future results.

Methods

The morphology and topology of structures within the axial plane of the aortopulmonary space were objectively analyzed, including the sternum, ascending aorta, heart, pulmonary artery, descending aorta, and other relevant elements. Identified deviations from the normal configuration were systematically identified. Operative procedures included mobilizing and removing the compressing vessel, followed by suspending the airway wall to a rigid prosthesis (external stenting), vertebra, or ascending aorta.

Results

Computed tomography revealed potential factors contributing to bronchial stenosis, including anteriorly deviated descending aorta (20 patients), dilated pulmonary artery (6), cardiomegaly (12), flat chest (7), funnel chest (3), posteriorly deviated ascending aorta after arterial switch operation (3), low aortic arch (3), and aberrant subclavian artery (2). Kaplan-Meier analysis demonstrated operative survival rates of 96% at 1 year, 87% at 5 years, and 80% at 8-15 years. Ten-year follow-up computed tomography after external stenting procedure revealed the narrowest diameter of the stented bronchus as 94.4% of the reference.

Conclusions

Consistent long-term airway patency was observed post-surgery. While the pulmonary artery and descending aorta exert direct compressive effects in most cases, various other potential mechanisms may contribute to bronchial compression. Identifying and addressing these factors through a multidisciplinary approach is crucial for sustaining bronchial patency and preventing complications.

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