Abstract

Degloving soft tissue injuries (DSTIs) involve skin and tissue detachment from muscle or fascia. Surgical treatments exist, but they cannot prevent necrosis. Our aim was to investigate the effects of hyperbaric oxygen therapy (HOT) and adipocyte stem cell (ASC) treatment on tissue viability in degloving injuries in a murine model. 32 animals were submitted to a degloving flap surgery in the dorsal region and were allocated in four groups (n=8/group): Control: suture only; HOT: 2-hour daily therapy in 100% oxygen at 2.0 ATA for 7 days; ASC: injected with 1x106 stem cells; ASC+HOT: stem cells injection plus HOT therapy. We performed macroscopic measurements, blood flow, histology, and expression of inflammation genes. After 7days, HOT, ASC, and ASC+HOT groups had significantly more viable tissue compared to Control (97%, 90%, 81% vs. 6%). Viable area ratios were higher in HOT and ASC than Control. Blood flow in the injury's distal region was higher in HOT, ASC, and ASC+HOT compared to Control. Vascular density was higher in HOT and ASC+HOT than Control. Inflammatory cells decreased by 40% in HOT, 50% in ASC+HOT, and 75% in ASC. Gene Cd68 expression was lower in HOT than Control. Il10 expression was lower in HOT but higher in ASC and ASC+HOT than Control. This study suggests that the HOT can benefit the degloving injury flap model in the early phase of wound healing, and the association of ASC with HOT could benefit the wound healing in a later phase. This journal requires that authors assign a level of evidence to each submission to which evidence-based medicine rankings are applicable. This excludes review articles, book reviews, and manuscripts that concern basic science, animal studies, cadaver studies, and experimental studies. For a full description of these evidence-based medicine ratings, please refer to the Table of Contents or the online Instructions to Authors www.springer.com/00266 .

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