Polyethylene‐glycol chitosan hydrogel accelerates traumatic wound healing in diabetic mice

García, Angel Eduardo Bárcenas; Merino, Miriam Veronica Flores; Tolosa, Ibeth Mayerly Gaitan; Muñoz, Daniela Rodríguez; López, Miguel Angel Camacho; Pantoja, Rigoberto Oros

doi:10.1096/fasebj.2020.34.s1.04577

Cited by 1 publication

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“…Along 21 day, both groups that treated with MB-PEG hydrogel and MB-PEG + laser recorded highest percent of wound healing rate and the wounds have a distinct appearance from a macroscopical and histological perspective. The impact of PEG-based chitosan (hg-PEGDA-Q) was also thoroughly examined by [ 27 ] who suggested that hydrogel scaffolding networks could be a therapeutic substitute to quicken the healing process in mice under both normal and diabetic settings. Also, according to [ 28 ], the polyethylene glycol/triethoxysilane-modified polyurethane (PUESi) dressing improved wound healing in rats by generating micronegative pressure through its high absorption capacity with deformation, in addition to being made using an easy-to-use and effective technique.…”

Section: Discussionmentioning

confidence: 99%

Photodynamic therapy mediated by methylene blue-loaded PEG accelerates skin mouse wound healing: an immune response

Hamed,

Al Balah,

Refaat

et al. 2024

Lasers Med Sci

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Purpose Conventional approaches for enhancing wound healing may not always yield satisfactory results. Instead, we test the effectiveness of a newly developed photodynamic therapy (PDT) that uses methylene blue (MB) loaded with polyethylene glycol (PEG) (MB-PEG) hydrogel to accelerate wound healing process in mice. Methods A dorsal skin incision with 6 mm punch which topically subjected to MB-PEG hydrogel and a low-level laser light of red light to assess the regeneration process of wounded skin. A total of 63 adult male CD1 mice divided into normal group (no treatment) and other wound groups received different treatments of laser (650 ± 5 nm and power intensity of 180 mW/cm2), MB-PEG, or PDT (MB-PEG followed by laser). The wound healing parameters were investigated by histological examination of the skin and measuring of proinflammatory cytokines at the early stage (48 h) and a late one on day 21. Results: at 48 h, the score of tissue granulation, inflammation, and angiogenesis process were markedly improved in wounded groups that received MB + PEG combined with laser compared to the group treated with laser alone. On day 21, a significant improvement of the inflammation was detected in the group treated with MB + PEG plus laser compared to the other groups. At 48 h, the upregulated serum levels of tumor necrosis factor (TNF)-α and interleukin (IL)-1β in the wound group were significantly (P < 0.001) reduced in the group treated with MB + PEG combined with laser. Conclusion MB-PEG based hydrogel improves and accelerates wound closure in the context of laser compared to either single treatment.

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Section: Discussionmentioning

confidence: 99%