Wound repair and regeneration : official publication of the Wound Healing Society [and] the European Tissue Repair Society
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Keloids, which overgrow the boundaries of the original injury, represent aberrations in the fundamental process of wound healing that include over-abundant cell in-migration, cell proliferation, and inflammation, as well as increased extracellular matrix synthesis and defective remodeling. To understand the key events that result in the formation of these abnormal scars would open new avenues for better understanding of excessive repair, and might provide new therapeutic options. We examined epidermal growth factor receptor (EGFR)-induced cell motility in keloid fibroblasts, as this receptor initiates cell migration during normal wound repair. ⋯ Interestingly, while extracellular signal-regulated kinase/mitogen-activated protein kinase (ERK-MAPK) activation was relatively robust in keloid fibroblasts, the downstream triggering of the motility-associated calpain activity was blunted. This was reflected by high cell-substratum adhesiveness in the keloid fibroblasts. Thus, the blunted migratory response to EGF noted in keloid fibroblasts appears due to limited activation of two important biochemical switches for cell motility.
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Currently, the use of cultured epithelial autografts as an alternative to split-thickness skin autografts for coverage of full-thickness wounds is limited due to fragility of the sheet and variability in the outcome of healing. This could be circumvented by the transfer of proliferating keratinocytes, instead of differentiated sheets, to the wound bed and the "in vivo" regeneration of epidermis. The aim of this study was to achieve re-epithelialization on experimental full-thickness wounds in the pig using a porous, synthetic carrier seeded with proliferating keratinocytes. ⋯ At day 12 a stratified epidermis and wound closure were established and epithelial cysts were formed by differentiation of epithelial islands. Wounds treated with seeding densities as low as 50,000 cells/cm(2) showed wound closure within 12 days, whereas wounds treated with 10,000 cells/cm(2) or the nonseeded (acellular) carriers did not show complete re-epithelialization before day 17 after treatment. This study showed that porcine keratinocytes, transplanted "upside down" in experimental full-thickness wounds using a synthetic carrier, continued to proliferate and started to differentiate, enabling the formation of a new epidermis in a time frame of 12 days.
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Hypoalbuminemia is often claimed to impair wound healing, and therefore albumin has traditionally been administered to derive beneficial effects on general physiologic conditions including the nutritional state. However, the influence of albumin administration on systemic protein metabolism and wound healing is still unclear. Therefore, the objective of this study was to investigate the influence of albumin administration on protein metabolism and wound healing in burned rats. ⋯ The urinary 3-methyl-histidine/creatinine ratio significantly increased after burn in group III. We conclude that intravenous albumin administration enhanced incisional wound healing in burned rats. Increased protein synthesis with concurrent myolysis and protein breakdown by albumin addition (group III) was observed during wound healing.
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Hypertrophic scars resulting from severe burns are usually treated by continuous elastic compression. Although pressure therapy reaches success rates of 60-85% its mechanisms of action are still poorly understood. In this study, apoptosis induction and release of interleukin-1beta (IL-1beta) and tumor necrosis factor-alpha (TNF-alpha) were evaluated in normal (n = 3) and hypertrophic (=7) scars from burns after in vitro mechanical compression. ⋯ TNF-alpha basal release was significantly higher in hypertrophic scar (14.74 +/- 1.42 ng/g) compared to normal scar samples and TNF-alpha secretion was diminished (3.52 +/- 0.97 ng/g) after compression. In conclusion, in our in vitro model, mechanical compression resembling the clinical use of elastocompression was able to strongly increase apoptosis in the hypertrophic scar derma as observed during granulation tissue regression in normal wound healing. Moreover, the observed modulation of IL-1beta and TNF-alpha release by mechanical loading could play a key role in hypertrophy regression induced by elastocompression.
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The aim of the current study was to evaluate the influence of platelet-derived growth factor (PDGF) on skin microcirculation during normal and impaired wound healing. Secondary healing wounds were created on the ears of hairless mice and treated once with 3 microg of PDGF-BB immediately after wound creation. Intravital fluorescence microscopy was used to quantify reepithelialization, revascularization, vessel diameters, vascular permeability, and leukocyte-endothelium interactions up to 24 days after wound creation. ⋯ This study confirms the positive influence of PDGF on wound healing under pathophysiological conditions. The effects in this model seem to be primarily due to the mitogenic potency of PDGF on keratinocytes and endothelial cells. A significant effect on leukocyte activation during the inflammatory process was not observed.