采用体外模型的缝合技术和补片材料实现宫内脊柱裂修复的水密闭合。
Suture techniques and patch materials using an in-vitro model for watertight closure of in-utero spina bifida repair.
机构信息
Department of Obstetrics, Gynecology and Reproductive Sciences, McGovern Medical School - University Health Science Center at Houston, the Fetal Center and the Memorial Hermann Hospital, Houston, TX.
Pediatric Neurosurgery, Department of Pediatric Surgery, McGovern Medical School - University Health Science Center at Houston, the Fetal Center and the Memorial Hermann Hospital, Houston, TX; Department of Anesthesiology, McGovern Medical School - University Health Science Center at Houston, the Fetal Center and the Memorial Hermann Hospital, Houston, TX.
出版信息
J Pediatr Surg. 2020 Apr;55(4):726-731. doi: 10.1016/j.jpedsurg.2019.05.024. Epub 2019 Jun 19.
PURPOSE
Despite proven benefits of in-utero spina bifida (SB) repair, ≥30% of children at birth have Chiari II malformation or cerebrospinal fluid (CSF) leakage from the repair site. Our study's purpose was to determine CSF pressures in the myelomeningocele sac during mid-gestation in order to design an in-vitro model for evaluating different surgical methods used for watertight closure during in-utero SB repair.
METHODS
CSF pressures were measured during in-utero SB repair at mid-gestation. An in-vitro chicken thigh model, simulating fetal tissue, tested watertight closure when attached to the base of a water column. Primary closure methods were evaluated using defect sizes of 20 × 3 mm for minimal traction or 20 × 8 mm for moderate traction. Additionally, 3 common in-utero repair patches were compared using 15 × 15 mm defects.
RESULTS
Using 6-12.5 cm pre-determined CSF pressures, 165 in-vitro experiments were performed. Regardless of methodology we found that in 66 primary-based closures that minimal versus moderate wound edge traction provided better seals. The locking method was superior to the non-locking technique for watertight closure in 99 patch-based closures.
CONCLUSIONS
Minimal wound edge traction was best for primary closures, and locking sutures ideal for patch-based closures, however surgical techniques should be individualized to improve upon clinical outcomes.
目的
尽管已经证实了在子宫内修复脊柱裂(SB)的益处,但仍有≥30%的患儿在出生时存在 Chiari II 畸形或修复部位的脑脊液(CSF)漏。我们的研究目的是确定中孕期脊髓脊膜膨出囊中 CSF 的压力,以便设计一种体外模型,用于评估在子宫内 SB 修复期间用于水密闭合的不同手术方法。
方法
在中孕期进行子宫内 SB 修复时测量 CSF 压力。使用模拟胎儿组织的鸡大腿体外模型,当附着在水柱底部时,测试水密闭合。使用 20×3mm 的最小牵引力或 20×8mm 的中等牵引力评估原发性闭合方法。此外,使用 15×15mm 的缺陷比较了 3 种常见的宫内修复补片。
结果
使用 6-12.5cm 预先确定的 CSF 压力,进行了 165 次体外实验。无论采用何种方法,我们发现对于 66 个基于原发性的闭合,最小的伤口边缘牵引力优于中等的伤口边缘牵引力。对于基于补片的 99 个闭合,锁定方法比非锁定技术更适合水密闭合。
结论
最小的伤口边缘牵引力最适合原发性闭合,而锁定缝线最适合基于补片的闭合,但手术技术应个体化以改善临床结果。
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