In people living with diabetes, impaired wound healing is a major concern as the formation of ulcerated wounds can drastically reduce both the effectiveness of the healing process and the quality of life of the patient. The healing of dermal wounds in particular involves a patient's fibroblasts building up a strong extracellular matrix of mostly collagen I and collagen III fibers, which the cells of diabetic patients struggle to do. Extracellular matrix stiffness, and growth substrate stiffness in general, have already been shown to have a significant effect on the growth and development of already existent cells, and in diabetic dermal fibroblasts, morphological and physiological characteristics associated with the healing process appear to be altered from their healthy state. In this study we utilized a PDMS surface with a stiffness comparable to a wound environment (16 kPa) and a softer surface (0.2 kPa) to study the effects on diabetic and normal fibroblasts. We found diabetic fibroblast morphology became more fibroblast like when placed on the softer surfaces. This was demonstrated by a 15.6% decrease in the aspect ratio and a 16.4% increase in the circularity. The presence of the stress fibers was decreased by 19.4% in diabetic fibroblasts when placed on a softer surface. The proliferation rate of the diabetic fibroblasts was unaffected by the change in stiffness, but the metabolic activity greatly decreased (76%) on the softer surface. The results suggest that the softer surface may have a therapeutic effect on diabetic fibroblast metabolic activity. Further studies could focus on investigating this relationship and utilize it in tunable biomaterials to facilitate and accelerate the healing process for diabetic wounds.
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