Objective: Multipotential cells are mobilized into peripheral blood in response to trauma, in particular in severe burns. These cells migrate to the site of injury in response to chemotactic signals to modulate inflammation, repair damaged tissue and facilitate tissue regeneration. We evaluated the possibility of isolating and in vitro expand mesenchymal stromal cells (MSCs) from granulation tissue (GT) during debridement of a burn wound, as a persective strategy to improve skin regeneration. Methods: GT obtained from a 12-month-old burn patient was in vitro cultured. Expanded MCSs were characterized for morphology, immunophenotype, differentiation capacity and proliferative growth. Antifibrotic features were also evaluated. Results: It was possible to isolate and in vitro expand cells from GT with the morphology, phenotype, proliferative and differentiation capacity typical of MSC, these cells were defined as GT-MSC. GT-MSCs exhibited antifibrotic features by releasing soluble factors, this activity was superior to that observed in BM-MSC. Conclusions: Successful isolation and expansion of MSCs from GT is reported. Considering their functional characteristics, GT-MSCs could be considered a good candidate adjuvant therapy to improve burn wound healing, particularly in pediatrics.
Granulation tissue-derived mesenchymal stromal cells: a potential application for burn wound healing in pediatric patients
Pelizzo, Gloria;Croce, Stefania;De Silvestri, Annalisa;Calcaterra, Valeria
2018-01-01
Abstract
Objective: Multipotential cells are mobilized into peripheral blood in response to trauma, in particular in severe burns. These cells migrate to the site of injury in response to chemotactic signals to modulate inflammation, repair damaged tissue and facilitate tissue regeneration. We evaluated the possibility of isolating and in vitro expand mesenchymal stromal cells (MSCs) from granulation tissue (GT) during debridement of a burn wound, as a persective strategy to improve skin regeneration. Methods: GT obtained from a 12-month-old burn patient was in vitro cultured. Expanded MCSs were characterized for morphology, immunophenotype, differentiation capacity and proliferative growth. Antifibrotic features were also evaluated. Results: It was possible to isolate and in vitro expand cells from GT with the morphology, phenotype, proliferative and differentiation capacity typical of MSC, these cells were defined as GT-MSC. GT-MSCs exhibited antifibrotic features by releasing soluble factors, this activity was superior to that observed in BM-MSC. Conclusions: Successful isolation and expansion of MSCs from GT is reported. Considering their functional characteristics, GT-MSCs could be considered a good candidate adjuvant therapy to improve burn wound healing, particularly in pediatrics.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.