小鼠切创夹板模型，包括干细胞移植的应用。

The mouse excisional wound splinting model, including applications for stem cell transplantation.

机构信息

School of Life Sciences, Tsinghua University, Beijing, China.

出版信息

Nat Protoc. 2013 Feb;8(2):302-9. doi: 10.1038/nprot.2013.002. Epub 2013 Jan 17.

DOI:10.1038/nprot.2013.002

Abstract

The mouse excisional wound healing model has been used extensively to study wound healing and cutaneous regeneration. However, as mouse skin is mobile, contraction accounts for a large part of wound closure. In the mouse excisional wound splinting model, a splinting ring tightly adheres to the skin around the wound, preventing local skin contraction. The wound therefore heals through granulation and re-epithelialization, a process similar to that occurring in humans. The model, which takes 2-4 weeks to carry out, can be used to study the effects of stem cells on cutaneous repair or regeneration. In this protocol, we also describe how to implant stem cells onto the wound bed in Matrigel and/or into the surrounding tissue through injection. Serial wound tissue samples at different time points can be harvested to monitor the engraftment and the effects of stem cells in angiogenesis and wound healing.

摘要

小鼠切创愈合模型已广泛用于研究创伤愈合和皮肤再生。然而，由于小鼠皮肤是可移动的，收缩占伤口闭合的很大一部分。在小鼠切创夹板模型中，夹板环紧紧地贴附在伤口周围的皮肤上，防止局部皮肤收缩。因此，伤口通过肉芽组织和再上皮化愈合，这一过程类似于人类的情况。该模型需要 2-4 周的时间才能完成，可用于研究干细胞对皮肤修复或再生的影响。在本方案中，我们还描述了如何将干细胞植入 Matrigel 中的伤口床中和/或通过注射到周围组织中。可以在不同时间点采集连续的伤口组织样本，以监测干细胞在血管生成和伤口愈合中的植入和作用。

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小鼠切创夹板模型，包括干细胞移植的应用。

The mouse excisional wound splinting model, including applications for stem cell transplantation.

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