[Solar ultraviolet radiation risk in outdoor workers: a specific project of Tuscany Region (Italy)]. / Rischio da radiazione solare ultravioletta nei lavoratori outdoor: piano mirato della Regione Toscana.

OBJECTIVE: The aims of Tuscany Regional project were: to study the sun protection attitude of outdoor workers; to measure solar ultraviolet (UV) exposure in work environment; to describe the frequency of photoaging, precancerous lesions, and skin cancers in outdoor workers; to collect information on solar ultraviolet radiation exposure from incident cases of Non-Melanoma Skin Cancer (NMSC) recruited from Tuscany Cancer Registry. DESIGN: Outdoor workers completed a questionnaire devoted to collect information on sun protection attitudes during a typical summer working week. Environmental and personal measurements were carried out. Expert dermatologists examined outdoor workers to assess the frequency of photoaging, precancerous lesions, and skin cancer. A structured questionnaire was mailed to incident cases of NMSC. Information were collected on personal habits and working history, focusing on solar ultraviolet radiation exposure. SETTING AND PARTICIPANTS: Agriculture, construction, quarrying and fishing activities were considered: 292 employees responded to questions about the type of clothing used in the morning and in the afternoon,while working outdoors; 637 outdoor workers underwent skin examination. We contacted 743 cases of NMSC occurred in 2004; 498 subjects accepted to participate in this study. RESULTS: The clothing worn by surveyed subjects was often inadequate compared to the high level of exposure to UV. The skin examination of 637 outdoor workers highlighted 2 melanomas, 7 epitheliomas and 35 actinic keratoses. Among the 498 cases of NMSC, 135 (27%) were diagnosed in outdoor workers. Most represented economic activity sectors were: agriculture, construction, transport, sports. CONCLUSION: The characterization of outside workers revealed unsatisfactory sun protection behaviours. Moreover, previously undetected skin cancers were diagnosed. The study on MNSC confirms the complexity of studying the exposure to UV radiation. The Tuscany Regional project provided useful information on the risk of solar ultraviolet radiation in outdoor workers. Prevention programs are needed.

Biochemical and biological aspects of protein thiolation in cells and plasma.

Protein thiolation is elicited by oxidation by different mechanisms and is involved in a variety of biological processes. Thiols, protein SH (PSH) and non-protein SH groups (NPSH, namely GSH), are in competition in all biological environments in the regulation of oxidant homeostasis because oxidants thiolate proteins, whereas GSH dethiolates them (e.g., GSSG + PSH --> GSSP + GSH). Although poorly investigated, the elimination of disulfides from thiolated proteins to regenerate critical PSH is important. These aspects are poorly known in cells, where glutaredoxin and peroxiredoxin operate as enzymes or potential chaperones to accelerate dethiolation. On the contrary, studies with plasma or albumin have highlighted the importance of protein conformation in dethiolation processes and have clarified the reason why homocysteine (thiol with potential toxicity) is preferentially bound to albumin as protein-thiol mixed disulfide with respect to other NPSH. Here we provide an overview of protein thiolation/dethiolation processes, with an emphasis on recent developments and future perspectives in this field.

Skin bank organization.

Skin allografts were first used at the end of the last century by Girdner [Girdner JH. Skin grafting with graft taken from the dead subject. Med Rec (NY) 1881;20:119-20]; however, routine storage of human tissue developed only in the 1930s to 1940s [Webster JP. Refrigerated skin grafts. Ann Surg 1944;120:431-49] when reliable preservation methods became available. The first proper skin bank was the US Navy Skin Bank, set up in 1949 [McCauley RL. The skin Bank. In: Herndon DN, editor. Total burn care. 1st ed. Philadelphia: Saunders; 1996. p. 159-63]. Several skin banks were subsequently established in the United States and Europe, and in most cases they were organized as multitissue banks. Nowadays, it is estimated that 30 to 50 tissue banks are active in the United States, working according to the American Association of Tissue Banking (AATB) standards (AATB. Standards for tissue banking; 1984) and federal regulations (Real E S and regulations. Fed Regist. 1993).