Peter Elsner scite author profile

SynopsisAs the proportion of the ageing population in industrialized countries continues to increase, the dermatological concerns of the aged grow in medical importance. Intrinsic structural changes occur as a natural consequence of ageing and are genetically determined. The rate of ageing is significantly different among different populations, as well as among different anatomical sites even within a single individual. The intrinsic rate of skin ageing in any individual can also be dramatically influenced by personal and environmental factors, particularly the amount of exposure to ultraviolet light. Photodamage, which considerably accelerates the visible ageing of skin, also greatly increases the risk of cutaneous neoplasms. As the population ages, dermatological focus must shift from ameliorating the cosmetic consequences of skin ageing to decreasing the genuine morbidity associated with problems of the ageing skin. A better understanding of both the intrinsic and extrinsic influences on the ageing of the skin, as well as distinguishing the retractable aspects of cutaneous ageing (primarily hormonal and lifestyle influences) from the irretractable (primarily intrinsic ageing), is crucial to this endeavour. Ré suméComme le pourcentage de la population vieillissante dans les pays industrialisés s'accroît, les préoccupations dermatologiques des personnes âgées augmentent en importance sur le plan médical. Les modifications structurelles intrinsè-ques sont une conséquence naturelle du vieillissement et sont génétiquement déterminées. La vitesse de vieillissement diffère significativement selon les différentes populations et selon les différ-ents sites anatomiques, même pour un seul individu. La vitesse intrinsèque du vieillissement de la peau pour un individu peut être aussi très influencée par les facteurs personnels et environnementaux, en particulier le taux d'exposition à la lumière ultra-violette. La photodégradation qui accélère considérablement le vieillissement visible de la peau augmente également beaucoup le risque de formation de néoplasme cutané. Au fur et à mesure que la population vieillit, il faut davantage se préoccuper de diminuer la morbidité réelle associée au vieillissement de la peau, plutôt que de palier à ses conséquences cosméti-ques. Il est donc crucial de s'efforcer à mieux comprendre les facteurs intrinsèques et extrinsè-ques qui agissent sur le vieillissement de la peau et aussi de faire la distinction entre les aspects réversibles du vieillissement cutané (facteurs essentiellement hormonaux et mode de vie) et les aspects irréversibles (principalement le vieillissement intrinsèque). The demographics of the U.S.A. are changing rapidly with respect to its elderly population; by 2030, one of every five Americans is expected to be over 65 [3]. It is predicted that life expectancy in the U.S.A. and other industrialized countries will continue to increase, hitting 100 years by about 2025 [4]. Women, with longer average life expectancies than men, can expect to spend more than one-third of th...

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Efficacy and safety of oral alitretinoin (9-cis retinoic acid) in patients with severe chronic hand eczema refractory to topical corticosteroids: results of a randomized, double-blind, placebo-controlled, multicentre trial

Ruzicka

et al. 2008

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Role of oxidative stress and the antioxidant network in cutaneous carcinogenesis

et al. 2004

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Melanoma and nonmelanoma skin cancers are among the most prevalent cancers in the human population. Solar ultraviolet radiation is considered a major etiological factor but the relationship between dose, timing, and nature of exposure to tumor development is still unclear. Free radicals are generated by normal physiologic processes, including aerobic metabolism and inflammatory response, but may inflict cellular damage when generation is increased and antioxidant defense mechanisms are overwhelmed. Important findings supporting the free radical hypothesis in skin carcinogenesis are: (1) Reactive oxygen species (ROS) are generated in UVA- and UVB-irradiated skin in excessive doses, (2) the natural cutaneous antioxidant defense is impaired upon UV-exposure, (3) free radicals are involved in all steps of carcinogenesis, (4) supplementation with antioxidants can inhibit skin carcinogenesis, and (5) conditions that increase ROS generation enhance photocarcinogenesis. These findings provide a promising rationale for the development of powerful new antioxidant strategies in the prevention and therapy of skin cancer.

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Photoaging is Associated with Protein Oxidation in Human Skin In Vivo

Sander

Chang

Salzmann

et al. 2002

Journal of Investigative Dermatology

371

290

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There is increasing evidence for the generation of reactive oxygen species in skin upon ultraviolet exposure, but little is known about their pathophysiologic relevance in human skin in vivo. We hypothesized that chronic and acute photodamage is mediated by depleted antioxidant enzyme expression and increased oxidative protein modifications. Biopsies from patients with histologically confirmed solar elastosis, from non-ultraviolet-exposed sites of age-matched controls, and from young subjects were analyzed. To evaluate the influence of acute ultraviolet exposures, buttock skin of 12 healthy subjects was irradiated repetitively on 10 d with a solar simulator and compared intraindividually to non-ultraviolet-treated contralateral sites. The antioxidant enzymes catalase, copper-zinc superoxide dismutase, and manganese superoxide dismutase were investigated by immunohistochemistry. Protein carbonyls were analyzed by immunohistochemical and immunoblotting techniques in human skin and in cell models. Whereas overall expression of antioxidant enzymes was very high in the epidermis, low baseline levels were found in the dermis. In photoaged skin, a significant depletion of antioxidant enzyme expression was observed within the stratum corneum and in the epidermis. Importantly, an accumulation of oxidatively modified proteins was found specifically within the upper dermis of photoaged skin. Upon acute ultraviolet exposure of healthy subjects, depleted catalase expression and increased protein oxidation were detected. Exposures of keratinocytes and fibroblasts to ultraviolet B, ultraviolet A, and H2O2 led to dose-dependent protein oxidation and thus confirmed in vivo results. In conclusion, the correlation between photodamage and protein oxidation was demonstrated for the first time, which hence may be a relevant pathophysiologic factor in photoaging.

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Peter Elsner

Intrinsic and extrinsic factors in skin ageing: a review

Efficacy and safety of oral alitretinoin (9-cis retinoic acid) in patients with severe chronic hand eczema refractory to topical corticosteroids: results of a randomized, double-blind, placebo-controlled, multicentre trial

Role of oxidative stress and the antioxidant network in cutaneous carcinogenesis

Photoaging is Associated with Protein Oxidation in Human Skin In Vivo

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