Dermal derived matrix hydrogel loaded with curcumin improved wound healing in a diabetic rat model.

There is a need in clinical practice for new wound healing techniques to address full thickness skin injuries, particularly in individuals with diabetes. Herein we investigated whether dermal derived matrix hydrogel (DMH) loaded with curcumin (Cur) could promote healing in diabetic rats. Sixty diabetic rats were randomly assigned into the non-treated group, DMH group, Cur group, and DMH+Cur group. According to the phases of wound healing, sampling was done on days 7, 14, and 21 for further assessments. Our results indicated that the wound contraction rate, new epidermal length and thickness, number of fibroblasts and vascular length, collagen deposition, and strength properties of the healed wounds were meaningfully increased in the treatment groups than in the non-treated group, and these changes were more obvious in the DMH+Cur ones. In addition, the expression of VEGF and IL-10 genes were meaningfully upregulated in all treatment groups compared to the non-treated group and were greater in the DMH+Cur group. This is while the number of neutrophils and expression levels of TNF-α and IL-1ß genes decreased more significantly in the DMH+Cur group compared to the other groups. In conclusion, it was found that using both DMH and curcumin has a greater impact on diabetic wound healing.

Transplantation of bioengineered dermal derived matrix-scaffold in combination with hyperbaric oxygen therapy improves wound healing in diabetic rats.

Successful treatment of diabetic wounds requires multifactorial approaches. Herein we investigated the effects of a bioengineered three-dimensional dermal derived matrix-scaffold (DMS) in combination with hyperbaric oxygen (HBO) in repairing of wound model in diabetic rats. Thirty days after induction of diabetes, a circular wound was created and treatments were performed for 21 days. Animals were randomly allocated into the untreated group, DMS group, HBO group, and DMS+HBO group. On days 7, 14, and 21, tissue samples were obtained for stereological, molecular, and tensiometrical assessments. Our results showed that the wound closure rate, volume of new dermis and epidermis, numerical density fibroblasts and blood vessels, collagen density, and biomechanical characterize were significantly higher in the treatment groups than in the untreated group, and these changes were more obvious in the DMS+HBO ones. Moreover, the expression of TGF-ß, bFGF, miRNA-21, miRNA-146a, and VEGF genes were meaningfully upregulated in treatment groups compared to the untreated group and were greater in the DMS+HBO group. This is while expression of TNF-α and IL-1ß, as well as the numerical density of neutrophil and macrophage decreased more considerably in the DMS+HBO group than in the other groups. Overall, using both DMS engraftment and HBO treatment has more effects on diabetic wound healing.

Three-dimensional bioengineered dermal derived matrix scaffold in combination with adipose-derived stem cells accelerate diabetic wound healing.

Due to the multifactorial nature of diabetic wounds, the most effective treatments require combinatorial approach. Herein we investigated whether engraftment of a bioengineered three-dimensional dermal derived matrix scaffold (DDMS) in combination with adipose-derived stem cells (ADSs), could accelerate diabetic wound healing. Diabetic animals were randomly planned into the control group, DDMS group, ADS group, and DDMS+ADS group. On days 7, 14, and 21, tissue samples were obtained for stereological, molecular, and tensiometrical assessments. We found that the wound contraction rate, the total volumes of new epidermis and dermis, the numerical densities of fibroblasts and blood vessels, collagen density, and tensiometrical parameters were meaningfully greater in the treated groups than in the control group, and these changes were more obvious in the DDMS+ADS ones (p < 0.05). Moreover, the expression of TGF-ß, bFGF, and VEGF genes were considerably upregulated in treated groups compared to the control group and were greater in the DDMS+ADS group (p < 0.05). This is while expression of TNF-α and IL-1ß, as well as the numerical densities of neutrophils and macrophages decreased more considerably in the DDMS+ADS group than in the other groups (p < 0.05). Overall, it was found that using both DDMS engraftment and ADS transplantation has more impact on diabetic wound healing.