A volar skin excisional wound model for in situ evaluation of multiple-appendage regeneration and innervation

BACKGROUND: Promoting rapid wound healing with functional recovery of all skin appendages is the main goal of regenerative medicine. So far current methodologies, including the commonly used back excisional wound model (BEWM) and paw skin scald wound model, are focused on assessing the regeneration...

Descripción completa

Detalles Bibliográficos
Autores principales: Gao, Huanhuan, Liu, Yiqiong, Shi, Ziwei, Zhang, Hongliang, Wang, Mengyang, Chen, Huating, Li, Yan, Ji, Shaifei, Xiang, Jiangbing, Pi, Wei, Zhou, Laixian, Hong, Yiyue, Wu, Lu, Cai, Aizhen, Fu, Xiaobing, Sun, Xiaoyan
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Oxford University Press 2023
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10309083/
https://www.ncbi.nlm.nih.gov/pubmed/37397511
http://dx.doi.org/10.1093/burnst/tkad027
_version_ 1785066376645312512
author Gao, Huanhuan
Liu, Yiqiong
Shi, Ziwei
Zhang, Hongliang
Wang, Mengyang
Chen, Huating
Li, Yan
Ji, Shaifei
Xiang, Jiangbing
Pi, Wei
Zhou, Laixian
Hong, Yiyue
Wu, Lu
Cai, Aizhen
Fu, Xiaobing
Sun, Xiaoyan
author_facet Gao, Huanhuan
Liu, Yiqiong
Shi, Ziwei
Zhang, Hongliang
Wang, Mengyang
Chen, Huating
Li, Yan
Ji, Shaifei
Xiang, Jiangbing
Pi, Wei
Zhou, Laixian
Hong, Yiyue
Wu, Lu
Cai, Aizhen
Fu, Xiaobing
Sun, Xiaoyan
author_sort Gao, Huanhuan
collection PubMed
description BACKGROUND: Promoting rapid wound healing with functional recovery of all skin appendages is the main goal of regenerative medicine. So far current methodologies, including the commonly used back excisional wound model (BEWM) and paw skin scald wound model, are focused on assessing the regeneration of either hair follicles (HFs) or sweat glands (SwGs). How to achieve de novo appendage regeneration by synchronized evaluation of HFs, SwGs and sebaceous glands (SeGs) is still challenging. Here, we developed a volar skin excisional wound model (VEWM) that is suitable for examining cutaneous wound healing with multiple-appendage restoration, as well as innervation, providing a new research paradigm for the perfect regeneration of skin wounds. METHODS: Macroscopic observation, iodine–starch test, morphological staining and qRT-PCR analysis were used to detect the existence of HFs, SwGs, SeGs and distribution of nerve fibres in the volar skin. Wound healing process monitoring, HE/Masson staining, fractal analysis and behavioral response assessment were performed to verify that VEWM could mimic the pathological process and outcomes of human scar formation and sensory function impairment. RESULTS: HFs are limited to the inter-footpads. SwGs are densely distributed in the footpads, scattered in the IFPs. The volar skin is richly innervated. The wound area of the VEWM at 1, 3, 7 and 10 days after the operation is respectively 89.17% ± 2.52%, 71.72% ± 3.79%, 55.09 % ± 4.94% and 35.74% ± 4.05%, and the final scar area accounts for 47.80% ± 6.22% of the initial wound. While the wound area of BEWM at 1, 3, 7 and 10 days after the operation are respectively 61.94% ± 5.34%, 51.26% ± 4.89%, 12.63% ± 2.86% and 6.14% ± 2.84%, and the final scar area accounts for 4.33% ± 2.67% of the initial wound. Fractal analysis of the post-traumatic repair site for VEWM vs human was performed: lacunarity values, 0.040 ± 0.012 vs 0.038 ± 0.014; fractal dimension values, 1.870 ± 0.237 vs 1.903 ± 0.163. Sensory nerve function of normal skin vs post-traumatic repair site was assessed: mechanical threshold, 1.05 ± 0.52 vs 4.90 g ± 0.80; response rate to pinprick, 100% vs 71.67% ± 19.92%, and temperature threshold, 50.34°C ± 3.11°C vs 52.13°C ± 3.54°C. CONCLUSIONS: VEWM closely reflects the pathological features of human wound healing and can be applied for skin multiple-appendages regeneration and innervation evaluation.
format Online
Article
Text
id pubmed-10309083
institution National Center for Biotechnology Information
language English
publishDate 2023
publisher Oxford University Press
record_format MEDLINE/PubMed
spelling pubmed-103090832023-06-30 A volar skin excisional wound model for in situ evaluation of multiple-appendage regeneration and innervation Gao, Huanhuan Liu, Yiqiong Shi, Ziwei Zhang, Hongliang Wang, Mengyang Chen, Huating Li, Yan Ji, Shaifei Xiang, Jiangbing Pi, Wei Zhou, Laixian Hong, Yiyue Wu, Lu Cai, Aizhen Fu, Xiaobing Sun, Xiaoyan Burns Trauma Research Article BACKGROUND: Promoting rapid wound healing with functional recovery of all skin appendages is the main goal of regenerative medicine. So far current methodologies, including the commonly used back excisional wound model (BEWM) and paw skin scald wound model, are focused on assessing the regeneration of either hair follicles (HFs) or sweat glands (SwGs). How to achieve de novo appendage regeneration by synchronized evaluation of HFs, SwGs and sebaceous glands (SeGs) is still challenging. Here, we developed a volar skin excisional wound model (VEWM) that is suitable for examining cutaneous wound healing with multiple-appendage restoration, as well as innervation, providing a new research paradigm for the perfect regeneration of skin wounds. METHODS: Macroscopic observation, iodine–starch test, morphological staining and qRT-PCR analysis were used to detect the existence of HFs, SwGs, SeGs and distribution of nerve fibres in the volar skin. Wound healing process monitoring, HE/Masson staining, fractal analysis and behavioral response assessment were performed to verify that VEWM could mimic the pathological process and outcomes of human scar formation and sensory function impairment. RESULTS: HFs are limited to the inter-footpads. SwGs are densely distributed in the footpads, scattered in the IFPs. The volar skin is richly innervated. The wound area of the VEWM at 1, 3, 7 and 10 days after the operation is respectively 89.17% ± 2.52%, 71.72% ± 3.79%, 55.09 % ± 4.94% and 35.74% ± 4.05%, and the final scar area accounts for 47.80% ± 6.22% of the initial wound. While the wound area of BEWM at 1, 3, 7 and 10 days after the operation are respectively 61.94% ± 5.34%, 51.26% ± 4.89%, 12.63% ± 2.86% and 6.14% ± 2.84%, and the final scar area accounts for 4.33% ± 2.67% of the initial wound. Fractal analysis of the post-traumatic repair site for VEWM vs human was performed: lacunarity values, 0.040 ± 0.012 vs 0.038 ± 0.014; fractal dimension values, 1.870 ± 0.237 vs 1.903 ± 0.163. Sensory nerve function of normal skin vs post-traumatic repair site was assessed: mechanical threshold, 1.05 ± 0.52 vs 4.90 g ± 0.80; response rate to pinprick, 100% vs 71.67% ± 19.92%, and temperature threshold, 50.34°C ± 3.11°C vs 52.13°C ± 3.54°C. CONCLUSIONS: VEWM closely reflects the pathological features of human wound healing and can be applied for skin multiple-appendages regeneration and innervation evaluation. Oxford University Press 2023-06-29 /pmc/articles/PMC10309083/ /pubmed/37397511 http://dx.doi.org/10.1093/burnst/tkad027 Text en © The Author(s) 2023. Published by Oxford University Press. https://creativecommons.org/licenses/by/4.0/This is an Open Access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Article
Gao, Huanhuan
Liu, Yiqiong
Shi, Ziwei
Zhang, Hongliang
Wang, Mengyang
Chen, Huating
Li, Yan
Ji, Shaifei
Xiang, Jiangbing
Pi, Wei
Zhou, Laixian
Hong, Yiyue
Wu, Lu
Cai, Aizhen
Fu, Xiaobing
Sun, Xiaoyan
A volar skin excisional wound model for in situ evaluation of multiple-appendage regeneration and innervation
title A volar skin excisional wound model for in situ evaluation of multiple-appendage regeneration and innervation
title_full A volar skin excisional wound model for in situ evaluation of multiple-appendage regeneration and innervation
title_fullStr A volar skin excisional wound model for in situ evaluation of multiple-appendage regeneration and innervation
title_full_unstemmed A volar skin excisional wound model for in situ evaluation of multiple-appendage regeneration and innervation
title_short A volar skin excisional wound model for in situ evaluation of multiple-appendage regeneration and innervation
title_sort volar skin excisional wound model for in situ evaluation of multiple-appendage regeneration and innervation
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10309083/
https://www.ncbi.nlm.nih.gov/pubmed/37397511
http://dx.doi.org/10.1093/burnst/tkad027
work_keys_str_mv AT gaohuanhuan avolarskinexcisionalwoundmodelforinsituevaluationofmultipleappendageregenerationandinnervation
AT liuyiqiong avolarskinexcisionalwoundmodelforinsituevaluationofmultipleappendageregenerationandinnervation
AT shiziwei avolarskinexcisionalwoundmodelforinsituevaluationofmultipleappendageregenerationandinnervation
AT zhanghongliang avolarskinexcisionalwoundmodelforinsituevaluationofmultipleappendageregenerationandinnervation
AT wangmengyang avolarskinexcisionalwoundmodelforinsituevaluationofmultipleappendageregenerationandinnervation
AT chenhuating avolarskinexcisionalwoundmodelforinsituevaluationofmultipleappendageregenerationandinnervation
AT liyan avolarskinexcisionalwoundmodelforinsituevaluationofmultipleappendageregenerationandinnervation
AT jishaifei avolarskinexcisionalwoundmodelforinsituevaluationofmultipleappendageregenerationandinnervation
AT xiangjiangbing avolarskinexcisionalwoundmodelforinsituevaluationofmultipleappendageregenerationandinnervation
AT piwei avolarskinexcisionalwoundmodelforinsituevaluationofmultipleappendageregenerationandinnervation
AT zhoulaixian avolarskinexcisionalwoundmodelforinsituevaluationofmultipleappendageregenerationandinnervation
AT hongyiyue avolarskinexcisionalwoundmodelforinsituevaluationofmultipleappendageregenerationandinnervation
AT wulu avolarskinexcisionalwoundmodelforinsituevaluationofmultipleappendageregenerationandinnervation
AT caiaizhen avolarskinexcisionalwoundmodelforinsituevaluationofmultipleappendageregenerationandinnervation
AT fuxiaobing avolarskinexcisionalwoundmodelforinsituevaluationofmultipleappendageregenerationandinnervation
AT sunxiaoyan avolarskinexcisionalwoundmodelforinsituevaluationofmultipleappendageregenerationandinnervation
AT gaohuanhuan volarskinexcisionalwoundmodelforinsituevaluationofmultipleappendageregenerationandinnervation
AT liuyiqiong volarskinexcisionalwoundmodelforinsituevaluationofmultipleappendageregenerationandinnervation
AT shiziwei volarskinexcisionalwoundmodelforinsituevaluationofmultipleappendageregenerationandinnervation
AT zhanghongliang volarskinexcisionalwoundmodelforinsituevaluationofmultipleappendageregenerationandinnervation
AT wangmengyang volarskinexcisionalwoundmodelforinsituevaluationofmultipleappendageregenerationandinnervation
AT chenhuating volarskinexcisionalwoundmodelforinsituevaluationofmultipleappendageregenerationandinnervation
AT liyan volarskinexcisionalwoundmodelforinsituevaluationofmultipleappendageregenerationandinnervation
AT jishaifei volarskinexcisionalwoundmodelforinsituevaluationofmultipleappendageregenerationandinnervation
AT xiangjiangbing volarskinexcisionalwoundmodelforinsituevaluationofmultipleappendageregenerationandinnervation
AT piwei volarskinexcisionalwoundmodelforinsituevaluationofmultipleappendageregenerationandinnervation
AT zhoulaixian volarskinexcisionalwoundmodelforinsituevaluationofmultipleappendageregenerationandinnervation
AT hongyiyue volarskinexcisionalwoundmodelforinsituevaluationofmultipleappendageregenerationandinnervation
AT wulu volarskinexcisionalwoundmodelforinsituevaluationofmultipleappendageregenerationandinnervation
AT caiaizhen volarskinexcisionalwoundmodelforinsituevaluationofmultipleappendageregenerationandinnervation
AT fuxiaobing volarskinexcisionalwoundmodelforinsituevaluationofmultipleappendageregenerationandinnervation
AT sunxiaoyan volarskinexcisionalwoundmodelforinsituevaluationofmultipleappendageregenerationandinnervation

Ejemplares similares