Portal de investigação
Spongy-like hydrogels prevascularization with the adipose tissue vascular fraction delays cutaneous wound healing by sustaining inflammatory cell influx
Data de publicação:
Data Ahead of Print:
Autores da FMUP
Participantes de fora da FMUP
- Moreira, HR
- Rodrigues, DB
- Freitas Ribeiro, S
- da Silva, LP
- Morais, ADS
- Jarnalo, M
- Reis, RL
- Pirraco, RP
- Marques, AP
Unidades de investigação
Abstract
In vitro prevascularization is one of the most explored approaches to foster engineered tissue vascularization. We previously demonstrated a benefit in tissue neovascularization by using integrin-specific biomaterials prevascularized by stromal vascular fraction (SVF) cells, which triggered vasculogenesis in the absence of extrinsic growth factors. SVF cells are also associated to biological processes important in cutaneous wound healing. Thus, we aimed to investigate whether in vitro construct prevascularization with SVF accelerates the healing cascade by fostering early vascularization vis-?-vis SVF seeding prior to implantation. Prevascularized constructs delayed re-epithelization of full-thickness mice wounds compared to both non-prevascularized and control (no SVF) groups. Our results suggest this delay is due to a persistent inflammation as indicated by a significantly lower M2(CD163+)/M1(CD86+) macrophage subtype ratio. Moreover, a slower transition from the inflammatory to the proliferative phase of the healing was confirmed by reduced extracellular matrix deposition and increased presence of thick collagen fibers from early time-points, suggesting the prevalence of fiber crosslinking in relation to neodeposition. Overall, while prevascularization potentiates inflammatory cell influx, which negatively impacts the cutaneous wound healing cascade, an effective wound healing was guaranteed in non-prevascularized SVF cell-containing spongy-like hydrogels confirming that the SVF can have enhanced efficacy. ? 2022 The Authors
Dados da publicação
- ISSN/ISSNe:
- 2590-0064, 2590-0064
- Tipo:
- Article
- Páginas:
- -
- Link para outro recurso:
- www.scopus.com
Materials Today Bio Elsevier BV
Citações Recebidas na Web of Science: 3
Citações Recebidas na Scopus: 3
Documentos
- Não há documentos
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Keywords
- Integrin-specific biomaterials; Stromal vascular fraction; Wound healing; Re-epithelization; Inflammation; Remodeling
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Citar a publicação
Moreira HR,Rodrigues DB,Freitas S,da LP,Morais A,Jarnalo M,Horta R,Reis RL,Pirraco RP,Marques AP. Spongy-like hydrogels prevascularization with the adipose tissue vascular fraction delays cutaneous wound healing by sustaining inflammatory cell influx. Mater. Today Bio. 2022. 17. 100496. IF:8,200. (1).
