Inferring ultraviolet anatomical exposure patterns while distinguishing the relative contribution of radiation components

Exposure to solar ultraviolet (UV) radiation is the main causative factor for skin cancer. UV exposure depends on environmental and individual factors, but individual exposure data remain scarce. UV irradiance is monitored via different techniques including ground measurements and satellite observations. However it is difficult to translate such observations into human UV exposure or dose because of confounding factors (shape of the exposed surface, shading, behavior, etc.) A collaboration between public health institutions, a meteorological office and an institute specialized in computing techniques developed a model predicting the dose and distribution of UV exposure on the basis of ground irradiation and morphological data. Standard 3D computer graphics techniques were adapted to develop this tool, which estimates solar exposure of a virtual manikin depicted as a triangle mesh surface. The amount of solar energy received by various body locations is computed for direct, diffuse and reflected radiation separately. The radiation components are deduced from corresponding measurements of UV irradiance, and the related UV dose received by each triangle of the virtual manikin is computed accounting for shading by other body parts and eventual protection measures. The model was verified with dosimetric measurements (n=54) in field conditions using a foam manikin as surrogate for an exposed individual. Dosimetric results were compared to the model predictions. The model predicted exposure to solar UV adequately. The symmetric mean absolute percentage error was 13%. Half of the predictions were within 17% range of the measurements. This model allows assessing outdoor occupational and recreational UV exposures, without necessitating time-consuming individual dosimetry, with numerous potential uses in skin cancer prevention and research. Using this tool, we investigated solar UV exposure patterns with respect to the relative contribution of the direct, diffuse and reflected radiation. We assessed exposure doses for various body parts and exposure scenarios of a standing individual (static and dynamic postures). As input, the model used erythemally-weighted ground irradiance data measured in 2009 at Payerne, Switzerland. A year-round daily exposure (8 am to 5 pm) without protection was assumed. For most anatomical sites, mean daily doses were high (typically 6.2-14.6 SED) and exceeded recommended exposure values. Direct exposure was important during specific periods (e.g. midday during summer), but contributed moderately to the annual dose, ranging from 15 to 24% for vertical and horizontal body parts, respectively. Diffuse irradiation explained about 80% of the cumulative annual exposure dose. Acute diffuse exposures were also obtained for cloudy summer days. The importance of diffuse UV radiation should not be underestimated when advocating preventive measures. Messages focused on avoiding acute direct exposures may be of limited efficiency to prevent skin cancers associated with chronic exposure (e.g., squamous cell carcinomas).

Anatomical exposure patterns of skin to sunlight: relative contributions of direct, diffuse and reflected ultraviolet radiation

Summary Background  The dose-response between ultraviolet (UV) exposure patterns and skin cancer occurrence is not fully understood. Sun-protection messages often focus on acute exposure, implicitly assuming that direct UV radiation is the key contributor to the overall UV exposure. However, little is known about the relative contribution of the direct, diffuse and reflected radiation components. Objective  To investigate solar UV exposure patterns at different body sites with respect to the relative contribution of the direct, diffuse and reflected radiation. Methods  A three-dimensional numerical model was used to assess exposure doses for various body parts and exposure scenarios of a standing individual (static and dynamic postures). The model was fed with erythemally weighted ground irradiance data for the year 2009 in Payerne, Switzerland. A year-round daily exposure (08:00-17:00 h) without protection was assumed. Results  For most anatomical sites, mean daily doses were high (typically 6·2-14·6 standard erythemal doses) and exceeded the recommended exposure values. Direct exposure was important during specific periods (e.g. midday during summer), but contributed moderately to the annual dose, ranging from 15% to 24% for vertical and horizontal body parts, respectively. Diffuse irradiation explained about 80% of the cumulative annual exposure dose. Acute diffuse exposures were also observed during cloudy summer days. Conclusions  The importance of diffuse UV radiation should not be underestimated when advocating preventive measures. Messages focused on avoiding acute direct exposures may be of limited efficiency to prevent skin cancers associated with chronic exposure.

Anatomical UV Exposure in French Outdoor Workers.

BACKGROUND: Solar ultraviolet has been recognized as the main causative factor for skin cancer and is currently classified as a carcinogenic agent by International Agency for Research on Cancer. METHOD: Results from a previous phone survey conducted in 2012 in France were used to assess exposure conditions to sun among outdoor workers. Satellite data were used in combination with an exposure model to assess anatomical exposure. RESULT: The yearly median exposure of the outdoor worker population is 77  kJ/m2 to 116  kJ/m2. Road workers, building workers, and gardeners are the more exposed. About 70% of the yearly dose estimate is due to the cumulative summer and spring exposures. CONCLUSIONS: This study highlights the role of individual factors in anatomical exposure and ranks the most exposed body parts and outdoor occupations. Prevention messages should put emphasis on spring exposure, which is an important contributor to the yearly dose.

Towards standardization of UV eye protection: what can be learned from photodermatology?

While knowledge about standardization of skin protection against ultraviolet radiation (UVR) has progressed over the past few decades, there is no uniform and generally accepted standardized measurement for UV eye protection. The literature provides solid evidence that UV can induce considerable damage to structures of the eye. As well as damaging the eyelids and periorbital skin, chronic UV exposure may also affect the conjunctiva and lens. Clinically, this damage can manifest as skin cancer and premature skin ageing as well as the development of pterygia and premature cortical cataracts. Modern eye protection, used daily, offers the opportunity to prevent these adverse sequelae of lifelong UV exposure. A standardized, reliable and comprehensive label for consumers and professionals is currently lacking. In this review we (i) summarize the existing literature about UV radiation-induced damage to the eye and surrounding skin; (ii) review the recent technological advances in UV protection by means of lenses; (iii) review the definition of the Eye-Sun Protection Factor (E-SPF®), which describes the intrinsic UV protection properties of lenses and lens coating materials based on their capacity to absorb or reflect UV radiation; and (iv) propose a strategy for establishing the biological relevance of the E-SPF.

Sox10 promotes the formation and maintenance of giant congenital naevi and melanoma.

Giant congenital naevi are pigmented childhood lesions that frequently lead to melanoma, the most aggressive skin cancer. The mechanisms underlying this malignancy are largely unknown, and there are no effective therapies. Here we describe a mouse model for giant congenital naevi and show that naevi and melanoma prominently express Sox10, a transcription factor crucial for the formation of melanocytes from the neural crest. Strikingly, Sox10 haploinsufficiency counteracts Nras(Q61K)-driven congenital naevus and melanoma formation without affecting the physiological functions of neural crest derivatives in the skin. Moreover, Sox10 is also crucial for the maintenance of neoplastic cells in vivo. In human patients, virtually all congenital naevi and melanomas are SOX10 positive. Furthermore, SOX10 silencing in human melanoma cells suppresses neural crest stem cell properties, counteracts proliferation and cell survival, and completely abolishes in vivo tumour formation. Thus, SOX10 represents a promising target for the treatment of congenital naevi and melanoma in human patients.

Estimating the incidence of cancers in Switzerland: 1983-1987.

Estimates have recently been made of the incidence of cancers in the countries of the European Community. Similar estimates are given for Switzerland, based on data from the six Swiss cantonal cancer registries, all of which have been operating for at least 12 years. These registries cover Basel, Geneva, Neuchatel, St Gall and Appenzell, Vaud and Zurich, which account for about 50% of the Swiss population as a whole. Two different methods were used to extrapolate from the incidences observed in the regions covered by cancer registration to the entire country. The first method is based solely on the distribution of populations according to the country's main linguistic groups, whereas the second relies on mortality data. Estimates obtained by the second approach are presented and their reliability is discussed. Comparison of the age incidence curve with that of Denmark tends to confirm the validity of the estimations. Estimated standardised rates (world population) for all sites except nonmelanomatous skin cancer are 294.3 for males and 214.2 for females. Comparisons with other European countries show that in males, lung cancer is relatively less common in Switzerland, whereas in females, breast cancer is relatively more frequent.

Inferring ultraviolet anatomical exposure patterns while distinguishing the relative contribution of radiation components

Exposure to solar ultraviolet (UV) radiation is the main causative factor for skin cancer. UV exposure depends on environmental and individual factors, but individual exposure data remain scarce. While ground UV irradiance is monitored via different techniques, it is difficult to translate such observations into human UV exposure or dose because of confounding factors. A multi-disciplinary collaboration developed a model predicting the dose and distribution of UV exposure on the basis of ground irradiation and morphological data. Standard 3D computer graphics techniques were adapted to develop a simulation tool that estimates solar exposure of a virtual manikin depicted as a triangle mesh surface. The amount of solar energy received by various body locations is computed for direct, diffuse and reflected radiation separately. Dosimetric measurements obtained in field conditions were used to assess the model performance. The model predicted exposure to solar UV adequately with a symmetric mean absolute percentage error of 13% and half of the predictions within 17% range of the measurements. Using this tool, solar UV exposure patterns were investigated with respect to the relative contribution of the direct, diffuse and reflected radiation. Exposure doses for various body parts and exposure scenarios of a standing individual were assessed using erythemally-weighted UV ground irradiance data measured in 2009 at Payerne, Switzerland as input. For most anatomical sites, mean daily doses were high (typically 6.2-14.6 Standard Erythemal Dose, SED) and exceeded recommended exposure values. Direct exposure was important during specific periods (e. g. midday during summer), but contributed moderately to the annual dose, ranging from 15 to 24% for vertical and horizontal body parts, respectively. Diffuse irradiation explained about 80% of the cumulative annual exposure dose.

Prevalence and determinants of AK in Euromelanoma screenees

Actinic keratosis (AK) is the most common skin lesion with malignant potential, and one of the main reasons for consulting a dermatologist. Found predominantly on sun-exposed body sites in fairskinned, older and male subjects, AK is among the strongest predictors of skin cancer, and a precursor of SCC. However, estimates of prevalence and study of determinants of AK are relatively scarce and generally based on small, hospital-based series. Clinical suspicion of AK is a reliable predictor of diagnosis. The presence of AK is documented by dermatologists during the Euromelanoma screening examinations so that the Euromelanoma database probably constitutes the largest series of AK cases worldwide. This study aimed at (1) describing the prevalence and risk pattern of AK among Euromelanoma screenees during the 2009-2013 time period, and (2) identifying determinants of AK by means of multivariate analysis. In particular, the contribution of host characteristics, sun exposure and sunrelated behaviour to the risk of AK was explored. Results will be discussed in the light of this large, self-selected, Pan-European series.

Direct detection of a BRAF mutation in total RNA from melanoma cells using cantilever arrays.

Malignant melanoma, the deadliest form of skin cancer, is characterized by a predominant mutation in the BRAF gene. Drugs that target tumours carrying this mutation have recently entered the clinic. Accordingly, patients are routinely screened for mutations in this gene to determine whether they can benefit from this type of treatment. The current gold standard for mutation screening uses real-time polymerase chain reaction and sequencing methods. Here we show that an assay based on microcantilever arrays can detect the mutation nanomechanically without amplification in total RNA samples isolated from melanoma cells. The assay is based on a BRAF-specific oligonucleotide probe. We detected mutant BRAF at a concentration of 500 pM in a 50-fold excess of the wild-type sequence. The method was able to distinguish melanoma cells carrying the mutation from wild-type cells using as little as 20 ng µl(-1) of RNA material, without prior PCR amplification and use of labels.

Updated Swiss guidelines for the treatment and follow-up of cutaneous melanoma.

Melanoma is the most common lethal cutaneous neoplasm. In order to harmonize treatment and follow-up of melanoma patients, guidelines for the management of melanoma in Switzerland have been inaugurated in 2001. These have been approved by all Swiss medical societies involved in the care of melanoma patients. New data necessitated changes concerning the safety margins (reduction to maximally 2 cm) and modifications of the recommendations of follow-up.

Melanoma cell expression of Fas(Apo-1/CD95) ligand: implications for tumor immune escape.

Malignant melanoma accounts for most of the increasing mortality from skin cancer. Melanoma cells were found to express Fas (also called Apo-1 or CD95) ligand (FasL). In metastatic lesions, Fas-expressing T cell infiltrates were proximal to FasL+ tumor cells. In vitro, apoptosis of Fas-sensitive target cells occurred upon incubation with melanoma tumor cells; and in vivo, injection of FasL+ mouse melanoma cells in mice led to rapid tumor formation. In contrast, tumorigenesis was delayed in Fas-deficient lpr mutant mice in which immune effector cells cannot be killed by FasL. Thus, FasL may contribute to the immune privilege of tumors.

ARE PPARS NOVEL THERAPEUTIC TARGETS TO IMPROVE MELANOMA TREATMENT ?

Cutaneous melanoma is an aggressive malignant tumor of melanocytes, the pigment- producing cells of the epidermis, with a high incidence in developed countries. Despite some major clinical breakthroughs in the last few years, efficient therapies for metastatic melanoma, which portends a very bad prognosis, are still lacking. Among the potential therapeutic targets that have been attracting at-tention in melanoma are the peroxisome proliferator-activated receptors (PPARs). These members - a, ß and 7 - of the nuclear hormone receptor family, which are ligand-gated transcription factors endowed with a multitude of functions besides metabolism homeostasis, have displayed promising antitumor properties in a wide range of cancer cells, including melanoma. However, our knowledge of PPARs' functions in this skin cancer is far from complete, making the usefulness of any of the a, ß or 7 isotype as a therapeutic target uncertain. In this work, we showed that all three PPAR isotypes are expressed in normal melanocytes, in most melanoma cell lines and in primary and metastatic melanomas, and that PPAR/3 and 7 display transcriptional activity in normal melanocytes and melanoma cells. We also showed that the PPAR7 agonist rosiglitazone had anti-melanoma properties largely independent of PPAR7 expression, which was widely varying across the different cell lines and melanoma biopsies we evaluated and was not correlated with cell line stage. Consistent with the general view of PPAR7 as a tumor suppressor gene, we found that, in human samples, PPAR7 was less expressed in melanoma than in normal skin. Transcriptornic profiling of metastatic melanoma cells in which PPAR7 was pharmacologically modulated revealed an association with epithelial-to-mesenchymal transition, though the functional relevance of this finding remains to be determined. Collectively, our results suggests that PPAR7 activity in melanoma is highly complex and that a straightforward picture of PPAR7's role in this skin cancer is difficult to draw. In this study, we also provided compelling evidence that thioredoxin interacting protein (TXNIP) is, in melanoma, a bona fide PPAR7 target gene, the expression of which is repressed by PPAR7 activation. Although TXNIP is mostly known as an inhibitor of the major antioxidant thioredoxin, it has demonstrated a range of biological functions and is generally considered as a tumor suppressor gene. Consistently, we found that TXNIP expression is associated with growth arrest of melanoma cells in vitro and that forced expression of TXNIP strongly impairs cell proliferation. Interestingly, we also discovered that TXNIP favors melanoma cell migration while it diminishes their adhesion. Finally, we provided several lines of evidence that TXNIP may regulate these processes at the transcriptional level as well as by direct protein-protein interactions in the plasma membrane. Altogether, our findings suggest that the PPAR7 target TXNIP may be a double-edged sword in melanoma, hindering tumor growth but promoting invasion and dissemination. Experiments to evaluate the net biological outcome of TXNIP modulation in vivo are ongoing. -- Le mélanome cutané est une tumeur maligne agressive des mélanocytes, cellules de l'épiderme qui produisent la mélanine. Ce cancer présente un taux d'incidence élevé dans les pays développés et est grevé d'un pronostic très sombre une fois qu'il a disséminé. Malgré les importants progrès réalisés ces dernières années, aucune thérapie lie s'est encore montrée véritablement efficace contre le mélanome métastatique. Parmi les cibles thérapeutiques potentielles, nombre de groupes de recherche se sont penchés sur les peroxisome proliferator-activated receptors (PPARs). Ces récepteurs - a, ß et 7 - font partie de la famille des récepteurs nucléaires aux hormones, des facteurs de transcription activés par des ligands et dotés d'une multitude de fonctions en sus de la régulation du métabolisme. Ces protéines ont démontré des propriétés anti-tumorales prometteuses dans une large gamme de cellules cancéreuses, y compris le mélanome. Cependant, nous connaissons encore très mal les fonctions des PPARs dans ce cancer de la peau, rendant l'utilité thérapeutique de l'un des isotypes a, ß ou 7 incertaine. Dans ce travail, nous avons montré que les trois isotypes sont exprimés dans les mélanocytes normaux, dans la plupart des lignées de mélanome ainsi que dans des mélanomes primaires et métastatiques; nous avons aussi montré que PPAR/3 et 7 sont actifs sur le plan transcriptionnel dans les mélanocytes normaux et les cellules de mélanome. La rosiglitazone, un agoniste de PPAR7, a démontré des propriétés anti-mélanome essentiellement indépendantes de l'expression de PPAR7, qui semble très variable dans les lignées et les biopsies que nous avons évaluées; de plus, l'expression de PPAR7 n'est pas corrélée avec le stade de la lignée. En accord avec la vision communément admise de PPAR7 comme étant un gène suppresseur de tumeur, nous avons observé dans des échantillons humains que PPAR7 est moins exprimé dans les mélanomes que dans la peau normale. Une étude transcrip- tomique de cellules de mélanome métastatique a révélé que la modulation phar-macologique de PPAR7 est associée avec la transition épithélio-mésenchymateuse, même si la pertinence fonctionnelle de cette trouvaille reste à déterminer. Collec-tivement, ces résultats suggèrent que l'activité de PPAR/y dans le mélanome est hautement complexe et qu'une image claire du rôle de PPAR7 dans ce cancer est difficile à dessiner. Dans cette étude, nous avons également fourni de solides preuves que la thiore-doxin interacting protein (TXNIP) est, dans le mélanome, un gène cible bona fide de PPAR7 dont l'expression est réprimée par l'activation de PPAR7. Bien que TXNIP soit surtout connu comme un inhibiteur de la thiorédoxine -un anti-oxydant majeur - cette protéine a démontré une large gamme de fonctions biologiques et est généralement considérée comme un gène suppresseur de tumeur. En accord avec cette conception, nous avons trouvé que l'expression de TXNIP est associée avec l'arrêt de croissance des cellules de mélanome in vitro et que l'expression forcée de TXNIP freine considérablement la prolifération cellulaire. Nous avons aussi découvert que TXNIP favorise la migration des cellules de mélanome alors qu'elle diminue leur adhésion. Enfin, nous avons obtenu plusieurs preuves que TXNIP pourrait réguler ces processus tant au niveau transcriptionnel que par des interactions protéine-protéine au sein de la membrane plasmique. En conclusion, nos résultats suggèrent que la cible de PPAR7 TXNIP pourrait être une épée à double tranchant dans le mélanome, freinant la croissance tumorale mais favorisant l'invasion et la dissémination. Des expériences permettant d'évaluer l'effet biologique net de la modulation de TXNIP in vivo sont en cours.

Clinical usefulness of FDG-PET/CT scan imaging in the management of posttransplant lymphoproliferative disease.

BACKGROUND: Posttransplant lymphoproliferative disease (PTLD) is, aside skin cancer, the most common malignancy occurring after solid organ transplant in adults. Fluorodeoxyglucose (FDG) positron emission tomography (PET) has proved useful in the management of lymphomas. METHODS: We report our experience with the use of FDG-PET inline with computed tomography (CT) scanning in the management of four transplant recipients with histologically confirmed PTLD, including three monomorphic PTLDs and one polymorphic PTLD. RESULTS: FDG-PET/CT scan at diagnosis showed increased FDG uptake in all examined PTLD lesions, and the disease was upstaged on the basis of FDG-PET/CT scan results over conventional CT scanning in one patient. At the end of treatment, PET/CT scans no longer demonstrated FDG uptake in the original PTLD lesions in all patients. Complete remission of disease persisted for at least 1 year after diagnosis in all. CONCLUSIONS: Our results strongly support that FDG-PET scanning is highly specific for diagnosis and follow-up of PTLD. The clinical relevance of including FDG-PET/CT scanning in the management of PTLD should be evaluated in a larger prospective cohort study.

Carcinome de Merket: (r)évolution [Merkel cell carcinoma: (r)evolution].

Merkel Cell Carcinoma (CCM) is an aggressive cutaneous tumor of the elderly, which has become the second cause of mortality linked to skin cancer. This has led clinicians and scientists to devote more time to the study of this rare tumor, announcing to a revolution in our understanding, diagnosis and therapy of this cancer. We present here these recent advances, which illustrate the exponential growth of knowledge in the medical field, drawing comparisons with more frequent cancers such as melanoma and squamous cell carcinoma.

Multifocal epithelial tumors and field cancerization from loss of mesenchymal CSL signaling.

It is currently unclear whether tissue changes surrounding multifocal epithelial tumors are a cause or consequence of cancer. Here, we provide evidence that loss of mesenchymal Notch/CSL signaling causes tissue alterations, including stromal atrophy and inflammation, which precede and are potent triggers for epithelial tumors. Mice carrying a mesenchymal-specific deletion of CSL/RBP-Jκ, a key Notch effector, exhibit spontaneous multifocal keratinocyte tumors that develop after dermal atrophy and inflammation. CSL-deficient dermal fibroblasts promote increased tumor cell proliferation through upregulation of c-Jun and c-Fos expression and consequently higher levels of diffusible growth factors, inflammatory cytokines, and matrix-remodeling enzymes. In human skin samples, stromal fields adjacent to multifocal premalignant actinic keratosis lesions exhibit decreased Notch/CSL signaling and associated molecular changes. Importantly, these changes in gene expression are also induced by UVA, a known environmental cause of cutaneous field cancerization and skin cancer.