There are several indications that neuropeptides, especially the opiate receptor agonists, modulate the immune response by stimulating the formation of granulation tissue and enhancing the reepithelialization. We observed that the mu-opiate receptor ligand beta-endorphin stimulates the migration of cultured human foreskin keratinocytes. After 1 hour exposure to 1 microM beta-endorphin, the keratinocytes experienced an increase of cell diameter by cellular elongation and stimulation of migration. Dynorphin had a lesser effect under the same condition. The opiate receptor antagonist naltrexone significantly reduced the effect of beta-endorphin on keratinocyte migration. This migratory effect of mu-opiate receptor agonists in vitro indicates that the opioid peptides, released in wounds, could play a key role in the final reepithelialization and tissue regeneration in wound healing. This new knowledge will help us not only to understand the mechanism of wound healing but also to improve the therapeutic strategy in the healing of painful chronic wounds.
While the enormous clinical and psychosocial importance of pruritus in many areas of medicine and the detrimental effects of chronic 'itch' on the quality of life of an affected individual are widely appreciated, the complexity of this sensation is still often grossly underestimated. The current Controversies feature highlights this complexity by portraying pruritus as a truly interdisciplinary problem at the crossroads of neurophysiology, neuroimmunology, neuropharmacology, protease research, internal medicine, and dermatology, which is combated most successfully if one keeps the multilayered nature of 'itch' in mind and adopts a holistic treatment approach - beyond the customary, frequently frustrane monotherapy with histamine receptor antagonists. In view of the often unsatisfactory, unidimensional, and altogether rather crude standard instruments for pruritus management that we still tend to use in clinical practice today, an interdisciplinary team of pruritus experts here critically examines recent progress in pruritus research that future itch management must take into consideration. Focusing on new insights into the neuroimmunological, neuroendocrine, and neurophysiological bases of pruritus, and discussing available neuropharmacological tools, specific research avenues are highlighted, whose pursuit promises to lead to novel, and hopefully more effective, forms of pruritus management.
Die Bedeutung lokal applizierter Kortikosteroid-Präparate bei Hautkrankheiten ist unbestritten. Dabei gilt es aber, möglichst risikoarme Anwendungsstrategien einzusetzen und wichtige Kontraindikationen zu beachten. Die differenzierte Verordnung verschieden stark wirkender Präparate ermöglicht heute eine weitgehend individualisierte Therapie.
Wound healing is a complex process involving several cell types (keratinocytes, fibroblasts, endothelial cells, etc.) as well as many growth factors (PDGF, TGF-betas, FGFs, VEGF, etc.). It can be challenging when wounds are deep or very large (third degree burn, ulceration after cutaneous tumor resection) or in presence of peripheral vascular disease, metabolic disturbances or peripheral neuropathy (chronic vascular or diabetic wounds). In order to promote skin regeneration, numerous bioactive dressings combining cells, matrices and growth factors are available on the market. This article provides a general overview of the various product categories and presents their main indications. The principal axes of the biomedical research in this area are also discussed.
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