脂皮法在整形外科中的再生和重建:技术实验离体笔记。

Ziyad Alharbi, Sarah Qari, Maryam Bader, Sherif Khamis, Faris Almarzouqi, Michael Vogt, Christian Opländer
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引用次数: 1

摘要

脂肪源性干细胞(ASCs)与真皮支架的结合已被证明是一种具有很高潜力的软组织重建方法。在皮肤移植中添加真皮模板可以通过血管生成增加移植物的存活率,改善再生和愈合时间,并改善整体外观。然而,目前尚不清楚在这种结构中添加含纳米脂肪的ASCs是否能有效地促进多层生物再生移植物的产生,这种移植物将来可能在一次手术中用于软组织重建。最初,使用Coleman的技术采集微脂肪,然后使用Tonnard的技术严格分离。最后,离心、乳化和过滤,将过滤后的含纳米脂肪的ASCs播种到基质上,进行无菌离体细胞富集。播种后,加入reazurin基试剂,用双光子显微镜观察结构。在培养1 h内,检测到有活性的ASCs并附着在支架的顶层。这一体外实验为ASCs与胶原-弹性蛋白基质(即真皮支架)结合作为软组织再生的有效方法开辟了更多的维度和视野。所提出的含有纳米脂肪和真皮模板(Lipoderm)的多层结构可能在未来作为生物再生移植物用于单次手术中的伤口缺损重建和再生,也可以与皮肤移植物结合使用。这种方案可以通过创建多层软组织重建模板来优化皮肤移植结果,从而获得更理想的再生和美学效果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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The LipoDerm Method for Regeneration and Reconstruction in Plastic Surgery: A Technical Experimental Ex Vivo Note.

The combination of adipose-derived stem cells (ASCs) and dermal scaffolds has been shown to be an approach with high potential in soft tissue reconstruction. The addition of dermal templates to skin grafts can increase graft survival through angiogenesis, improve regeneration and healing time, and enhance the overall appearance. However, it remains unknown whether the addition of nanofat-containing ASCs to this construct could effectively facilitate the creation of a multi-layer biological regenerative graft, which could possibly be used for soft tissue reconstruction in the future in a single operation. Initially, microfat was harvested using Coleman's technique, then isolated through the strict protocol using Tonnard's technique. Finally, centrifugation, emulsification, and filtration were conducted to seed the filtered nanofat-containing ASCs onto Matriderm for sterile ex vivo cellular enrichment. After seeding, a resazurin-based reagent was added, and the construct was visualized using two-photon microscopy. Within 1 h of incubation, viable ASCs were detected and attached to the top layer of the scaffold. This experimental ex vivo note opens more dimensions and horizons towards the combination of ASCs and collagen-elastin matrices (i.e., dermal scaffolds) as an effective approach in soft tissue regeneration. The proposed multi-layered structure containing nanofat and dermal template (Lipoderm) may be used, in the future, as a biological regenerative graft for wound defect reconstruction and regeneration in a single operation and can also be combined with skin grafts. Such protocols may optimize the skin graft results by creating a multi-layer soft tissue reconstruction template, leading to more optimal regeneration and aesthetic outcomes.

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CiteScore
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审稿时长
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