Acellular matrices are used for various purposes and they have been studied extensively for their potential roles in regenerating tissues or organs. The acellular matrix generates physiological cues that mimic the native tissue microenvironment. Acellular dermal matrix (ADM) is a soft connective tissue graft generated by a decellularization process that preserves the intact extracellular skin matrix. Upon implantation, this structure serves as a scaffold for donor-side cells to facilitate subsequent incorporation and revascularization. In breast reconstruction, ADM is used mainly for lower pole coverage and the shaping of a new breast. It helps control the positioning of the implant in the inframammary fold, and prevents the formation of contractile pseudocapsule around the breast implant. In this study, we provide a comprehensive histological description of ADM used for human breast reconstruction over the course of several months following implementation. Using immunohistochemical methods (a panel of 12 antibodies) coupled with optical and transmission electron microscopy, we confirmed that the original acellular dermal matrix became recolonized by fibroblasts and myofibroblasts, and also by various other free cells of the connective tissue (lymphocytes, macrophages and multinucleated giant cells, granulocytes, mast cells) after implantation into the patient’s body. Within the implanted ADM, there was a relatively rapid ingrowth of blood vessels. Lymphatic vessels were only detected in one case 9 months after the implantation of the ADM. These results suggest that lymphangiogenesis is a longer process than angiogenesis.
Wound healing is a complex process that involves interaction of soluble mediators, extracellular matrix and infiltrating blood cells. Chronic and non-healing skin defects contribute significantly to morbidity and mortality of many patients. Recently, despite the current medical progress, the chronic and non-healing wounds still represent a serious medical problem. In many cases, conventional therapeutic approaches, such as dermal substitutes and growth factor therapy failed and do not produce the expected results, patients are exposed to a high risk of infection, sepsis or amputation. For that reason clinicians and researchers are forced to searching for alternative methods to induce healing process which may result into complete wound closure. Mesenchymal stem cells (MSCs) represent a unique tool of tissue engineering and regenerative medicine and a promising therapeutic strategy. Due to their unique biological properties, MSCs seem to be the perspective modality method for these patients. Many preclinical and clinical studies suggest the possibility of using these cells in tissue regeneration, healing acute and chronic wounds and scar remodelling. The objective of the present review is to summarize the current information and preclinical data about MSCs, their biological characteristics and mode of action during regenerative and healing processes, as well as their clinical application in chronic wounds treatment.
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