Fabre Dominique, Singhal Sunil, De Montpreville Vincent, Decante Benoit, Mussot Sacha, Chataigner Olivier, Mercier Olaf, Kolb Frederic, Dartevelle Philippe G, Fadel Elie
Laboratoire de Chirurgie Experimentale, Hôpital Marie-Lannelongue, Le Plessis Robinson, France.
J Thorac Cardiovasc Surg. 2009 Jul;138(1):32-9. doi: 10.1016/j.jtcvs.2008.11.071.
Airway replacement after long-segment tracheal resection for benign and malignant disease remains a challenging problem because of the lack of a substitute conduit. Ideally, an airway substitute should be well vascularized, rigid, and autologous to avoid infections, airway stenosis, and the need for immunosuppression. We report the development of an autologous tracheal substitute for long-segment tracheal resection that satisfies these criteria and demonstrates excellent short-term functional results in a large-animal study.
Twelve adult pigs underwent long-segment (6 cm, 60% of total length) tracheal resection. Autologous costal cartilage strips measuring 6 cm x 2 mm were harvested from the chest wall and inserted at regular 0.5-cm intervals between dermal layers of a cervical skin flap. The neotrachea was then scaffolded by rotating the composite cartilage skin flap around a silicone stent measuring 6 cm in length and 1.4 cm in diameter. The neotrachea replaced the long segment of tracheal resection, and the donor flap site was closed with a double-Z plasty. Animals were killed at 1 week (group I, n = 4), 2 weeks (group II, n = 4), and 5 weeks (group III, n = 4). In group III the stent was removed 1 week before death. Viability of the neotrachea was monitored by means of daily flexible bronchoscopy and histologic examination at autopsy. Long-term morbidity and mortality were determined by monitoring weight gain, respiratory distress, and survival.
There was no mortality during the study period. Weight gain was appropriate in all animals. Daily bronchoscopy and postmortem histologic evaluation confirmed excellent viability of the neotrachea. There was no evidence of suture-line dehiscence. Five animals had distal granulomas that were removed by using rigid bronchoscopy. In group III 1 animal had tracheomalacia, which was successfully managed by means of insertion of a silicon stent.
Airway reconstruction with autologous cervical skin flaps scaffolded with costal cartilages is a novel approach to replace long segments of resected trachea. This preliminary study demonstrates excellent respiratory function and survival in large animals undergoing resection of more than 50% of their native trachea. Use of cervical skin flaps buttressed with costal cartilage is a promising solution for long-segment tracheal replacement.
由于缺乏替代管道,良性和恶性疾病行长段气管切除术后的气道重建仍然是一个具有挑战性的问题。理想情况下,气道替代物应具有良好的血管化、刚性且为自体组织,以避免感染、气道狭窄以及免疫抑制的需求。我们报告了一种用于长段气管切除的自体气管替代物的研发,该替代物满足这些标准,并在一项大型动物研究中显示出优异的短期功能结果。
12只成年猪接受了长段(6厘米,占总长度的60%)气管切除。从胸壁获取尺寸为6厘米×2毫米的自体肋软骨条,并以0.5厘米的间隔规则插入颈部皮瓣的真皮层之间。然后,通过将复合软骨皮瓣围绕一个长度为6厘米、直径为1.4厘米的硅胶支架旋转来构建新气管。新气管替代长段气管切除部分,供体皮瓣部位采用双Z成形术闭合。在1周(I组,n = 4)、2周(II组,n = 4)和5周(III组,n = 4)时处死动物。在III组中,在处死前1周取出支架。通过每日的可弯曲支气管镜检查和尸检时的组织学检查监测新气管的活力。通过监测体重增加、呼吸窘迫和生存情况来确定长期发病率和死亡率。
研究期间无死亡病例。所有动物体重增加正常。每日支气管镜检查和死后组织学评估证实新气管活力良好。没有缝线裂开的迹象。5只动物出现远端肉芽肿,通过硬支气管镜检查予以清除。在III组中,1只动物出现气管软化,通过插入硅胶支架成功处理。
用肋软骨构建的自体颈部皮瓣进行气道重建是一种替代长段切除气管的新方法。这项初步研究表明,在超过50%的天然气管被切除的大型动物中,呼吸功能和生存率良好。使用肋软骨支撑的颈部皮瓣是长段气管替代的一种有前景的解决方案。
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