Development of a Wound Epithelialization Healing Model: Reducing the Impact of Contraction Healing on the Wound Surface-Reference-Cited by-同舟云学术

Development of a Wound Epithelialization Healing Model: Reducing the Impact of Contraction Healing on the Wound Surface

Published:2024-04-15 Issue:4 Volume:45 Page:1016-1025
ISSN:1559-047X
Container-title:Journal of Burn Care & Research
language:en
Short-container-title:

Author:

Chang Fei¹²,Yan Lei³,Zha Yuanyuan⁴,Hong Xudong⁵,Zhu Kaisi⁴,Fei Yanghonghong⁵^ORCID,Si Tingting⁵,Ding Yinjia⁵,Chen Aifen⁵,Zhang Xudong⁵,Chen Zhengli⁴,Li Huatao³,Jin Jian⁶⁷^ORCID

Affiliation:

1. Department of Burns, Zhangjiagang Hospital affiliated to Soochow University , Zhangjiagang, Jiangsu Province 215600 , China

2. Department of Burns, The First People’s Hospital of Zhangjiagang City , Zhangjiagang, Jiangsu Province 215600 , China

3. Department of Burns, The 72nd Group Military Hospital of PLA , Huzhou, Zhejiang Province 313100 , China

4. Department of Burns, The First Affiliated Hospital of Second Military Medical University , Shanghai 200433 , China

5. Department of Burns and Plastic, 903rd Hospital of PLA , Hangzhou, Zhejiang Province 310000 , China

6. State Key Laboratory of Molecular Engineering of Polymers, Department of Macromolecular Science, Fudan University , Shanghai , China

7. Shanghai Depeac Biotechnology Co., Ltd , Shanghai 200444 , China

Abstract

Abstract Animal experiments are important in trauma-related studies because they simulate in vivo effects. Rodents are a good choice for preparing trauma models; however, contractile healing in rodents results in a healing pattern that differs considerably from that in humans. Therefore, this study developed a new rodent model that avoids contractile healing of the skin around the wound using an anticontraction ring, and the skin in the wound’s center remains intact and acts as a source for epithelialized diffusion healing. Cell proliferation, migration, revascularization, and collagen secretion did not differ between the novel and conventional full-skin defect trauma models. However, the healing rate at various stages significantly differed between the 2 groups owing to differences in the healing patterns. And without effective treatment, the experimental group cannot heal. The stabilities of the novel and conventional methods were good regardless of operator or batch. In summary, this new animal trauma model provides a stable experimental environment similar to that in humans, which may promote trauma-related research.

Funder

Science and Technology Action Innovation Plan of Shanghai

Young Innovative Talents Project of Zhejiang Health Science and Technology Plan

Medical and Health Science and Technology Project of Hangzhou

Special Policy for Shanghai University Science and Technology Park - Science and Technology Innovation Special Fund

Epidemic-related projects of Special Policy for Science and Technology Park Around Shanghai University

Special Fund for Promoting High Quality Development in Shanghai—Key Fields of Industrial Strategy Technology Research - Biomedical Special Topic

Hangzhou Science and Technology Development Plan

Military Medical Science and Technology Youth Cultivation Program

Publisher

Oxford University Press (OUP)

Link