Cellular sheddases are induced by Merkel cell polyomavirus small tumour antigen to mediate cell dissociation and invasiveness

Nwogu, N., Boyne, James R., Dobson, S.J., Poterlowicz, Krzysztof, Blair, G.E., Macdonald, A., Mankouri, J., Whitehouse, A.

10 August 2018

Yes / Merkel cell carcinoma (MCC) is an aggressive skin cancer with a high propensity for recurrence and metastasis. Merkel cell polyomavirus (MCPyV) is recognised as the causative factor in the majority of MCC cases. The MCPyV small tumour antigen (ST) is considered to be the main viral transforming factor, however potential mechanisms linking ST expression to the highly metastatic nature of MCC are yet to be fully elucidated. Metastasis is a complex process, with several discrete steps required for the formation of secondary tumour sites. One essential trait that underpins the ability of cancer cells to metastasise is how they interact with adjoining tumour cells and the surrounding extracellular matrix. Here we demonstrate that MCPyV ST expression disrupts the integrity of cell-cell junctions, thereby enhancing cell dissociation and implicate the cellular sheddases, A disintegrin and metalloproteinase (ADAM) 10 and 17 proteins in this process. Inhibition of ADAM 10 and 17 activity reduced MCPyV ST-induced cell dissociation and motility, attributing their function as critical to the MCPyV-induced metastatic processes. Consistent with these data, we confirm that ADAM 10 and 17 are upregulated in MCPyV-positive primary MCC tumours. These novel findings implicate cellular sheddases as key host cell factors contributing to virus-mediated cellular transformation and metastasis. Notably, ADAM protein expression may be a novel biomarker of MCC prognosis and given the current interest in cellular sheddase inhibitors for cancer therapeutics, it highlights ADAM 10 and 17 activity as a novel opportunity for targeted interventions for disseminated MCC. / In parts by the Medical Research Council (95505126) to AW, Royal Society (UF100419) to JM and Biotechnology and Biological Sciences Research Council (BB/R000352/1) to GEB and AW.

Merkel cell carcinoma (MCC)

Skin cancer

Merkel cell polyomavirus (MCPyV)

Cellular sheddases

Cancer therapeutics

Invasiveness

Cell dissociation

Skin cancer diagnosis using infrared microspectroscopy imaging as a molecular pathology tool / Diagnóstico de câncer de pele usando imagens de microespectroscopia no infravermelho como ferramenta de patologia molecular

Lima, Cássio Aparecido

26 April 2019

Over the past decades, Fourier Transform Infrared (FTIR) microspectroscopy has emerged as a potential candidate to complement Histopathology in the study and diagnosis of tissue diseases. Contrary to the histological examination, which relies on the morphological tissue alterations assessed by visual inspection of stained samples, FTIR chemical imaging is a rapid and label-free tool that provide simultaneously information about histological structures as well as the localisation and magnitude of basic molecular units that compose tissue sections (proteins, nucleic acids, lipids, and carbohydrates). Despite the many proof-of-concept studies demonstrating the effectiveness of FTIR spectroscopy in detecting biological disorders with high levels of sensitivity and specificity, translation into clinical practice has been relatively slow due to the substantial cost of infrared transparent substrates required to collect the images. Thus, the main objective of this research is to evaluate the diagnostic potential of infrared chemical images collected from samples placed on conventional histology glass slides as alternative substrates for FTIR spectroscopy. Swiss mice were submitted to a well-established chemical carcinogenesis protocol, in which cancerous and non-cancerous cutaneous lesions were obtained by varying the exposure time of the animals to carcinogenenic factors. FTIR hyperspectral images were acquired in transmission mode over the mid-infrared region from tissue specimens placed on conventional infrared substrates (calcium fluoride - CaF2) and glass slides. In the first phase of our study, spectral datasets were segmented using k-means (KMCA) and Hierarchical Cluster Analysis (HCA) as clustering algorithms to reconstruct the hyperspectral images aiming to evaluate the ability of the false-color maps in reproducing the histological structures of tissue specimens. The images were segmented by each clustering technique using several different combinations varying parameters including the substrate used to place the samples (CaF2 or conventional glass) and the methods employed to preprocess the datasets. Fingerprint (1000-1800 cm-1) and high wavenumber (3100-4000 cm-1) regions from images collected on CaF2 were separately used as input for image reconstruction and only the high wavenumber range was employed in the case of samples placed on glass. All pseudocolor maps were compared to standard histopathology in order to evaluate the quality and consistency of images after segmentation. KMCA presented slightly superior ability in correctly assigning the pixels of morphochemical maps to the histological structures of the specimen, nevertheless, our findings indicate that the choice of the substrate, input data, preprocessing methods, and sample preparation have more influence in the final results than the clustering algorithm used to reconstruct the images. In the second phase of our study, Principal Component Analysis (PCA) was employed to compare datasets from healthy group to animals exposed to chemicals for 8, 16, and 48 weeks in order to evaluate the biochemical changes induced by chemical carcinogenesis. The performance of classification in each pairwise comparison was calculated using a binary classification test based on Linear Discriminant Analysis associated to PCA (PC-LDA). The method achieved satisfactory discrimination (over 80%) comparing healthy tissue to samples that were classified as papilloma (16 weeks) and invasive squamous cell carcinoma (48 weeks) regardless of the substrate used to place the samples. Statistical measurements obtained comparing healthy skin to animals exposed to carcinogenic factors for 8 weeks (free of malignancy based on the morphological and clinical evidence) ranged from 35-78%, indicating that the ability of PC-LDA in correctly classifying spectral data from cancerous and pre-cancerous lesions vary with the stage of the disease during the tumorigenesis process. Thus, as a proof-of-concept, we demonstrate the feasibility of FTIR spectroscopy in evaluating the biological events triggered by cancer using a label-free methodology that do not rely on expensive substrates and do not disrupt the pathologist workflow. This is a major step forward towards clinical application, since the method can be used to complement the diagnostic process of cancer as a non-subjective alternative that do not require laborious and time-consuming procedures nor expensive probes as biomarkers. / Nas últimas décadas, a microespectroscopia de absorção no infravermelho por transformada de Fourier (FTIR) tem surgido como potencial ferramenta para complementar a Histopatologia no estudo e diagnóstico de doenças teciduais. Ao contrário do exame histológico, que se baseia na inspeção visual de amostras coradas visando avaliar as alterações morfológicas que as doenças ocasionam no tecido, o imageamento químico obtido pela técnica de FTIR baseia-se nas características bioquímicas da amostra sem o uso de colorações. Apesar da vasta literatura comprovando a eficácia da espectroscopia FTIR em detectar alterações biológicas causadas por doenças com altos níveis de sensibilidade e especificidade, a implementação do método na prática clínica tem sido relativamente lenta devido ao alto custo dos substratos transparentes no infravermelho que são necessários para aquisição de dados. Diante disso, o objetivo principal do presente trabalho é avaliar a capacidade diagnóstica de imagens hiperespectrais coletadas de amostras em lâminas de vidro como substratos alternativos para a espectroscopia FTIR. Camundongos Swiss foram submetidos a um protocolo de carcinogênese química, no qual lesões cutâneas cancerosas e não-cancerosas foram obtidas variando-se o tempo de exposição dos animais aos fatores carcinogênicos. Imagens hiperespectrais FTIR foram adquiridas no modo de transmissão na região do infravermelho médio a partir de amostras de tecido depositadas em substratos transparentes no infravermelho (fluoreto de cálcio - CaF2) e vidro convencional. Na primeira fase de nosso estudo, os dados espectrais foram segmentados usando as técnicas estatísticas k-means (KMCA) e Análise Hierárquica de Clusters (HCA) como algoritmos de agrupamento para reconstruir as imagens hiperespectrais com o objetivo de avaliar a capacidade dos mapas de cores falsas em reproduzir as estruturas histológicas das amostras de tecido. As imagens foram segmentadas por cada técnica de agrupamento variando-se o substrato usado para colocar as amostras (CaF2 ou vidro convencional) assim como os métodos de tratamento utilizados para pré-processamento dos dados. As regiões de impressão digital (1000-1800 cm-1) e de altos números de onda (3100-4000 cm-1) das imagens coletadas em CaF2 foram usadas separadamente como dados de entrada para a reconstrução das imagens, enquanto apenas a faixa de altos números de onda foi utilizada no caso de amostras colocadas em vidro. Ao fim do processo de segmentação os mapas de cores falsas obtidos foram comparados com a Histopatologia padrão a fim de avaliar a qualidade e consistência das imagens. Os resultados obtidos pela técnica de KMCA foram ligeiramente superiores com relação a HCA na identificação de pixels dos mapas morfo-quimicos correspondentes às estruturas histológicas da amostra. No entanto, nossos achados indicam que a escolha do substrato, dados de entrada, métodos de pré-processamento e preparação de amostras têm mais influência nos resultados finais do que o algoritmo de agrupamento usado para reconstruir as imagens. Na segunda fase do nosso estudo, a Análise de Componentes Principais (PCA) foi empregada para comparar os dados do grupo saudável aos animais expostos aos produtos carcinogênicos por 8, 16 e 48 semanas a fim de avaliar as alterações bioquímicas induzidas pela carcinogênese química. O desempenho da classificação em cada comparação pareada foi calculado usando um teste de classificação binária baseado na Análise de Discriminante Linear associada à técnica de PCA (PC-LDA). O método obteve discriminação satisfatória (acima de 80%) comparando tecido saudável com as amostras que foram classificadas como papiloma (16 semanas) e carcinoma espinocelular invasivo (48 semanas) independentemente do substrato usado para colocar as amostras. A comparação de pele saudável com animais expostos aos fatores carcinogênicos por 8 semanas (livres de malignidade de acordo com as evidências clínicas e morfológicas) apresentou figuras de performance cujos valores variaram entre 35-78%, indicando que a habilidade da técnica de PC-LDA em classificar corretamente dados espectrais de lesões cancerosas e pré-cancerosas variam com o estádio da doença durante o processo de tumorigênese. Diante disso, como uma prova de conceito, demonstramos a viabilidade da espectroscopia FTIR na avaliação dos eventos biológicos desencadeados pelo câncer usando uma metodologia que não requer colorações e substratos caros, assim como não interrompe/altera o fluxo de trabalho atual do patologista. Este é um passo importante na implementação da tecnologia no ambiente clínico, uma vez que o método pode ser usado para complementar o processo de diagnóstico do câncer como uma alternativa não-subjetiva e que não requer procedimentos trabalhosos e demorados, nem sondas caras como biomarcadores.

câncer de pele

diagnóstico precoce

early diagnosis

FTIR microspectroscopy

HCA

HCA

image segmentation

KMCA

KMCA

microespectroscopia FTIR

PCA-LDA

PCA-LDA

RMieS-EMSC

RMieS-EMSC

segmentação de imagens

skin cancer

Apport potentiel de la spectroscopie Raman dans le traitement chirurgical des carcinomes cutanés (CBC) / Potential contribution of Raman spectroscopy in the surgical treatment of skin carcinomas (BCC)

Mainreck, Nathalie

24 January 2017

Le carcinome basocellulaire (CBC) est un cancer cutané très fréquent représentant un problème de santé publique majeur. Il métastase rarement mais peut devenir très invasif localement s’il n’est pas pris en charge rapidement. Actuellement, le diagnostic de certitude du CBC est obtenu par examen anatomopathologique de coupes fines ; ce qui présente pour inconvénient d’être invasif et de donner une réponse différée. De plus, la chirurgie du CBC ne bénéficie pas d’outil permettant de définir en temps réel la largeur optimale des marges de sécurité ; celles-ci devant être minimales pour éviter les séquelles esthétiques mais suffisantes pour empêcher toute récidive. L’objectif de ces travaux de thèse est d’évaluer l’apport potentiel de la spectroscopie Raman dans la prise en charge du CBC. Cette technologie applicable in vivo grâce au développement de sondes adaptées, permet une exploration tissulaire à un niveau moléculaire relativement rapide. Au total, 32 patients ont été inclus dans cette étude. A partir des spectres enregistrés in vivo, un modèle de discrimination CBC / peau saine a été développé, à partir duquel les marges d’excision latérales ont pu être évaluées. Les marges profondes ont également été étudiées après enregistrement de spectres sur les pièces fraichement excisées. Des marqueurs Raman de discrimination ont été identifiés aux différentes échelles in vivo, ex vivo et in vitro; ils constituent des bio-indicateurs potentiels pour orienter la prise de décision chirurgicale. Enfin, la contribution des fonds spectraux, habituellement écartés des analyses Raman, a été considérée et leur intérêt dans le cadre de ce projet a été discuté. / Basal cell carcinoma (BCC) is the most common skin cancer and a major problem for healthcare services worldwide. BCC rarely metastasizes but can become highly damaging for surrounding tissue in case of late diagnosis. Actually, the gold standard for BCC diagnosis relies on histopathological assessment of thin sections, but it is an invasive method which provides a delayed response. Moreover, it will be helpful during surgery of BCC to assess in real-time the optimal size of the security margins, which has to be small enough to minimize aesthetic sequelae but sufficient to avoid recurrence. The aim of this work is to evaluate the potential contribution of Raman spectroscopy in the management of BCC. This technology can be applied in vivo thanks to the development of appropriate probes and allows a relatively rapid tissue exploration at a molecular level. A total of 32 patients were included in this study. From in vivo recorded spectra, a model of discrimination BCC / healthy skin was implemented, from which the width of excision margins was evaluated. Deep margins were also studied after recording spectra on freshly excised pieces. Discriminant Raman markers were identified at different levels in vivo, ex vivo and in vitro; they are potential bio-indicators to help the surgeon to define ideal excision margins. In addition, the contribution of spectral backgrounds, usually removed from Raman analysis, was considered and their interest in this project was discussed

Spectroscopie Raman

Cancer cutané

Analyse in vivo

Applicabilité clinique

Marqueurs spectroscopiques

Raman spectroscopy

Skin cancer

In vivo analysis

Clinical applicability

Spectroscopic markers

610.72

Modelagem molecular (TD-DFT) aplicada à simulação de espectros UV para cinamatos com perfil de filtros solares / Molecular modeling (TD-DFT) employed to simulate UV spectra of cinnamates with sunscreen profile.

Garcia, Ricardo D\'Agostino

11 June 2014

O câncer de pele se apresenta como um sério problema de saúde pública mundial, sendo incidente nos cinco continentes. As ações relacionadas à prevenção dessa doença envolvem, entre outras coisas, a utilização de protetores solares e a educação em saúde. Em virtude do aumento do número de indivíduos com câncer de pele a cada ano, é de grande valor estudos de entendimento e desenvolvimento de filtros solares melhores e mais seguros. Os produtos utilizados com a finalidade de proteger a pele dos raios solares ultravioletas (UV) possuem em sua composição filtros solares, que podem ter ação física, refletindo e dissipando a radiação UV; ou ação química, absorvendo a radiação UV. Os filtros químicos podem apresentar absorção em UVB (290-320 nm), UVA (320-400 nm) ou em ambas as faixas, sendo considerados de amplo espectro. . Dentre as várias classes de compostos com perfil de filtro solar UVB, os cinamatos destacam-se por apresentarem boa eficácia e excelente custo-benefício. A aplicação de cálculos teóricos tornou-se indispensável no planejamento de fármacos e nos estudos de mecanismo de ação de moléculas bioativas, visto a diminuição de tempo e custos em pesquisa e desenvolvimento. O desenvolvimento de métodos quânticos robustos, como o TD-DFT, permitiu a simulação de propriedades experimentais in silico, tais como espectros de RMN e UV. Diante deste panorama, aplicamos tal método na simulação de espectros UV para os cinamatos com perfil de filtros solares. Realizou-se uma busca do melhor funcional para simulação dos espectros, na qual se determinou que os funcionais B3LYP e B3P86 apresentaram melhores resultados quando comparados ao espectro experimental do composto p-metoxicinamato de etilexila determinado em metanol. Foram simulados os espectros de UV para sete compostos derivados do ácido cinâmico, os quais apresentaram λ máximo próximo a 310 nm, como descrito na literatura. Observou-se que a energia média para que ocorra a principal transição eletrônica, de HOMO para LUMO, é de 3,95 eV. O método mostrou-se adequado para a determinação de espectros UV para a classe dos cinamatos e pode ser utilizado na busca de novos compostos dessa classe a serem empregados como filtros solares. / Skin cancer presents itself as a very serious world public health problem, being incident all over the five continents. Using sunscreen and receiving health education, among other factors, are related to prevent the disease. The number of people with skin cancer increases every year, therefore, studies for better knowledge and development for better and safer sunscreens are crucial. Products used with the intention to protect the skin from ultraviolet sunrays (UV) are partially composed by sunscreen, which may lead to two different reactions, a physical reaction, that reflects and ceases the UV radiation; or a chemical reaction, that absorbs the UV radiation. Chemical filters may present absorption in UVB (290-320 nm), UVA (320 400 nm) or in both, which is considered as broad spectrum. Among the various types of compound forms with sunscreen UVB profile, cinnamates stand out for presenting good efficiency and excellent cost-benefit. The application of theoretical calculations became essential for drug design and bioactive molecules action mechanism studies, considering time saving and costs in research and development. The development of robust quantum method, such as TD-DFT allowed the simulation of experimental properties in silico, like RMN and UV spectra. Given this overview, this method was applied to simulate UV spectra of cinnamates with sunscreen profile. A search was done to define the best functional to simulate all spectrum, where the functionals B3LYP and B3P86 showed the best results when compared to experimental spectra of the compound ethylhexyl methoxycinnamate determined in methanol. An UV spectrum simulation for seven compounds derived from cinnamic acid showed maximum wavelength around to 310 nm, as described in the literature. It was observed that the average energy for the main electronic transition, HOMO to LUMO, is 3,95 eV. The method proved to be adequate for the determination of UV spectra for cinnamate class and it can be used as a tool on the search for new compounds from this class to be used as sunscreen.

Câncer de pele

Cinamatos

Cinnamates

Filtros solares

Modelagem molecular

Molecular modeling

Skin cancer

Sunscreens

Direito à saúde, meio ambiente de trabalho e transformação social

Terribile, Daniele Regina

16 April 2012

Submitted by Mariana Dornelles Vargas (marianadv) on 2015-05-14T17:38:54Z No. of bitstreams: 1 direito_saude.pdf: 794469 bytes, checksum: 5910af3d660f133e43cd494b02868178 (MD5) / Made available in DSpace on 2015-05-14T17:38:54Z (GMT). No. of bitstreams: 1 direito_saude.pdf: 794469 bytes, checksum: 5910af3d660f133e43cd494b02868178 (MD5) Previous issue date: 2012-04-16 / CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Nesse trabalho analisaremos o direito à saúde no meio ambiente de trabalho da construção civil, através da perspectiva do risco, prevenção e políticas públicas, com ênfase na atividade que expõe o trabalhador à radiação solar e que, por conseguinte, pode ser fator decisivo para o diagnóstico do câncer de pele. As peculiaridades que envolvem o trabalhador exposto à radiação solar são complexas e vão desde a falta de previsão legal do agente radiação solar como insalubre até a dificuldade em se caracterizar o nexo causal câncer de pele como doença ocupacional. A análise estará focada no risco advindo da exposição à radiação e nos seus efeitos legais. Nesse contexto de risco, a prevenção é essencial para concretizarmos o direito à saúde no local de trabalho, e essa extensão do direito à saúde é fruto de uma leitura constitucional, em especial a partir do art. 196 e do art. 7º, inciso XXII, que faz alusão à prevenção no meio ambiente de trabalho. Nesse contexto, as políticas públicas mostram-se como um instrumento garantidor da prevenção às doenças e da concretização do direito à saúde no ambiente de trabalho. Para esse estudo, utilizaremos a teoria dos sistemas sociais como referencial teórico. / In this work we analyze the right to health in the working environment of construction, from the perspective of risk, prevention and public policy, with emphasis on the activity that exposes the worker to solar radiation and therefore can be a decisive factor for diagnosis of skin cancer. The peculiarities involving workers exposed to solar radiation are complex and range from the lack of legal provision Agent solar radiation as unhealthy to the difficulty in characterizing the causation of skin cancer as an occupational disease. The analysis will focus on risk from radiation exposure and its legal effects. In this context of risk, prevention is essential to materialize the right to health in the workplace, and this extension of the right to health is the result of a constitutional reading, especially from the art. 196 and Art. 7, paragraph XXII, which alludes to the prevention in the work environment. In this context, public policies are shown as an instrument guaranteeing the prevention of diseases and the implementation of right to health in the workplace. For this study, we use the theory of social systems as a theoretical framework.

Direito à saúde

Meio ambiente de trabalho

Câncer de pele

Risco

Prevenção

Right to health

Work environment

Skin cancer

Risk

Prevention

Public policy

Implementação de algoritmos computacionais para interpretação de imagens dermatoscópicas para diagnóstico de tumores de pele / Implementation of computer algorithms to dermatoscopic image interpretation to skin tumors diagnosis

Talita Salles Coelho

03 March 2016

O câncer de pele é a neoplasia maligna mais incidente, no Brasil correspondendo a aproximadamente 29% de todos os tumores diagnosticados. O melanoma maligno é sua apresentação menos frequente, com cerca de 1% de todos os diagnósticos, porém com maior índice de mortalidade, comparado com outros tumores não melanomas. O fato de o melanoma ser considerado um tipo de câncer muito agressivo e não ser radiossensível, um diagnóstico precoce garante um alto índice de sobrevida ao paciente. O método mais utilizado para a análise de melanomas é a regra do ABCD, que consiste em extrair características de: assimetria, borda, coloração e diâmetro das lesões, a fim de diferenciá-las das demais lesões de pele. A dermatoscopia é uma técnica não invasiva, que permite fazer o reconhecimento das estruturas superficiais da pele com uma ampliação de até 400x, o que facilita a análise das lesões. A contribuição deste presente trabalho consiste na análise de lesões associada à técnica de processamento de imagem digital, com o objetivo de fornecer uma ferramenta de auxílio ao médico, dando um amparo no momento de se fornecer um diagnóstico ao paciente. O software desenvolvido neste trabalho utiliza imagens dermatoscópicas de lesões de pele associado à regra do ABCD, fornecendo por meio da análise destas características, um diagnóstico, se a lesão é melanoma ou não melanoma. / Skin cancer is the most frequent malignant tumor in Brazil representing approximately 29% of all diagnosed tumors. Malignant melanoma is the least common presentation, with about 1% of all diagnoses, but with higher mortality rate compared to other non-melanoma tumors. Early diagnosis ensures a high patient survival rate. The most used method for the analysis of these lesions is the ABCD rule, where features such as asymmetry, border, color and diameter of lesions are extracted. Dermatoscopy is a noninvasive technique that allows the recognition of skin structure with a magnification of up 400x. A good diagnosis is associated with the degree of subjectivity of the operator doctor. The contribution of this present work consists in the analysis of lesions associated with digital image processing technique, with the goal of provide a support tool to doctor, giving one support in time to give a diagnosis to the patient. The software developed here with dermatoscopic images of skin lesions associated with ABCD rule, giving a diagnosis, by the analysis of the lesion characteristics, indicating if the lesion is melanoma or no melanoma.

câncer de pele

inteligência artificial

melanoma

processamento de imagem digital

software de auxílio-diagnóstico

artificial intelligence

diagnostic aid software

digital image processing

melanoma

skin cancer

Implementação de algoritmos computacionais para interpretação de imagens dermatoscópicas para diagnóstico de tumores de pele / Implementation of computer algorithms to dermatoscopic image interpretation to skin tumors diagnosis

Coelho, Talita Salles

03 March 2016

O câncer de pele é a neoplasia maligna mais incidente, no Brasil correspondendo a aproximadamente 29% de todos os tumores diagnosticados. O melanoma maligno é sua apresentação menos frequente, com cerca de 1% de todos os diagnósticos, porém com maior índice de mortalidade, comparado com outros tumores não melanomas. O fato de o melanoma ser considerado um tipo de câncer muito agressivo e não ser radiossensível, um diagnóstico precoce garante um alto índice de sobrevida ao paciente. O método mais utilizado para a análise de melanomas é a regra do ABCD, que consiste em extrair características de: assimetria, borda, coloração e diâmetro das lesões, a fim de diferenciá-las das demais lesões de pele. A dermatoscopia é uma técnica não invasiva, que permite fazer o reconhecimento das estruturas superficiais da pele com uma ampliação de até 400x, o que facilita a análise das lesões. A contribuição deste presente trabalho consiste na análise de lesões associada à técnica de processamento de imagem digital, com o objetivo de fornecer uma ferramenta de auxílio ao médico, dando um amparo no momento de se fornecer um diagnóstico ao paciente. O software desenvolvido neste trabalho utiliza imagens dermatoscópicas de lesões de pele associado à regra do ABCD, fornecendo por meio da análise destas características, um diagnóstico, se a lesão é melanoma ou não melanoma. / Skin cancer is the most frequent malignant tumor in Brazil representing approximately 29% of all diagnosed tumors. Malignant melanoma is the least common presentation, with about 1% of all diagnoses, but with higher mortality rate compared to other non-melanoma tumors. Early diagnosis ensures a high patient survival rate. The most used method for the analysis of these lesions is the ABCD rule, where features such as asymmetry, border, color and diameter of lesions are extracted. Dermatoscopy is a noninvasive technique that allows the recognition of skin structure with a magnification of up 400x. A good diagnosis is associated with the degree of subjectivity of the operator doctor. The contribution of this present work consists in the analysis of lesions associated with digital image processing technique, with the goal of provide a support tool to doctor, giving one support in time to give a diagnosis to the patient. The software developed here with dermatoscopic images of skin lesions associated with ABCD rule, giving a diagnosis, by the analysis of the lesion characteristics, indicating if the lesion is melanoma or no melanoma.

artificial intelligence

câncer de pele

diagnostic aid software

digital image processing

inteligência artificial

melanoma

melanoma

processamento de imagem digital

skin cancer

software de auxílio-diagnóstico

Nanopartículas lipídicas sólidas e vesículas cataniônicas contendo ftalocianina de cloro alumínio aplicadas nos processos fotodinâmicos / Solid lipid nanoparticles and catanionic vesicles loaded with aluminum phthalocyanine chloride to be applied in photodynamic process

Goto, Patrícia Leme

15 March 2016

O trabalho apresentado foi realizado em duas etapas independentes e baseou-se no estudo de diferentes sistemas nanométricos para viabilizar a aplicação da ftalocianina de cloro alumínio (ClAlPc) na terapia fotodinâmica (TFD) para o tratamento do câncer de pele do tipo melanoma. O fármaco fotossensibilizante (FS) utilizado apresenta propriedades físico-químicas que lhe permitem exercer sua atividade fotodinâmica com excelência, sem a interferência do cromóforo endógeno melanina existente nas células melanocíticas. Para driblar sua elevada hidrofobicidade, ClAlPc foi encapsulada em sistemas nanométricos para administração em meio fisiológico. Inicialmente nanopartículas lipídicas sólidas (NLS) foram desenvolvidas por emulsificação direta, após um estudo de elaboração do diagrama de fases. O compritol foi o lipídio sólido escolhido para compor as NLS, com diferentes concentrações de ClAlPc. Todas as formulações desenvolvidas foram devidamente caracterizadas, com tamanho médio entre 100 e 200 nm, baixa polidispersão, potencial zeta adequadamente negativo (~|30| mV), drug loading de ClAlPc entre 76-94% (com pequena redução após 24 meses) e alta eficiência de encapsulação (E.E.). A morfologia arredondada das nanopartículas foi confirmada por microscopia eletrônica de transmissão e de força atômica. A estabilidade das NLS foi de 24 meses. A avaliação da cristalinidade do lipídio revelou a integração da ClAlPc à matriz lipídica da NLS, presença de estruturas polimórficas e grau de cristalinidade adequado, sem alterações após 24 meses. Nos estudos de difusão in vitro, observou-se que ftalocianina encapsulada nas NLS acumulam-se preferencialmente na epiderme e derme do que no estrato córneo, sem traços de permeação do ativo. Foi confirmado o caráter biocompatível das NLS sobre fibroblastos NIH-3T3. A ftalocianina encapsulada nas NLS não foi tóxica na linhagem de melanoma B16-F10 na ausência de luz, porém, apresentou excelente efeito fototóxico (0,75 ?g mL-1 de ClAlPc nanoencapsulada e irradiação entre 0,5 e 2,0 J cm-2), com redução da viabilidade celular de 87%. O segundo sistema de veiculação estudado foram as vesículas cataniônicas (VesCat), que se formam espontaneamente em água com o tensoativo TriCat 12. A obtenção das vesículas contendo ClAlPc envolve uma etapa adicional, para remoção de solvente orgânico, que foi aprimorada, reduzindo o tempo de produção em 55%. As VesCat/ClAlPc obtidas mantiveram suas propriedades físico-químicas e morfologia arredondada (confirmada por microscopia eletrônica de varredura), drug loading de 47% e alta E.E. Os resultados comprovaram que a aplicação desses dois sistemas nanométricos é altamente eficiente para aplicação da TFD no tratamento do câncer de pele do tipo melanoma ou outras doenças cutâneas, apresentando características favoráveis para avanços nos estudos de fase clínica e pré-clínica. / The present work was conducted in two independent steps, which were based on the study of different nanometric systems that make feasible the application of aluminum phthalocyanine chloride (ClAlPc) in the photodynamic therapy (PDT) to the melanoma skin cancer treatment. The photosensitizer (PS) used has physical-chemical properties that allow it to perform its photodynamic activity with excellence, without the interference of the melanin, an endogenous chromophore found in melanotic cells. In order to circumvent the high PS hydrophobicity, ClAlPc was encapsulated into nanosystems to administration in physiological environment. At first, solid lipid nanoparticles (SLN) were developed by direct emulsification process after drawing up phase diagram study. The solid lipid compritol was chosen to make the SLN, produced with different ClAlPc concentrations. The developed samples were properly characterized with mean size between 100-200 nm, low polydispersity, negative zeta potential (~|30| mV), ClAlPc drug loading around 76-94% (with slight decrease after 24 months) and high encapsulation efficiency (EE). The round shape of SLN was confirmed by transmission electron microscopy and atomic force microscopy. The nanoparticles were stable for at least 24 months. The evaluation of lipid crystallinity has proved the ClAlPc integration to SLN lipid matrix, the presence of polymorphic structures and a suitable crystalline degree, without large variations after 24 months. In the in vitro diffusion studies were observed that phthalocyanine conveyed in the nanoparticles accumulates preferably in the epidermis and dermis than in the stratum corneum, without any drug permeation traits. The NLS biocompatibility was confirmed on NIH-3T3 fibroblasts. ClAlPc-loaded NLS did not exhibit toxicity on B16-F10 melanoma cell line in the dark, but it was shown their outstanding phototoxicity effect (0.75 ?g mL-1 of encapsulated ClAlPc and irradiation between 0.5 and 2.0 J cm-2) with cell viability reduction of 87%. The second drug delivery system studied were the catanionic vesicles (VesCat) that are spontaneously obtained by mixing the self-assembly surfactant TriCat 12 in water. The production of ClAlPc-loaded vesicles comprises an additional step (to remove the organic solvent) that was optimized, saving 55% of the production time. The final VesCat/ClAlPc kept their physical-chemical properties and round shape (confirmed by scanning electron microscopy), drug loading of 47% and high EE. Hence, the results have proved the great efficiency of these two nanometric systems applied in the PDT to the treatment of melanoma skin cancer and other cutaneous disease, useful features for further progress towards preclinical and clinical trials.

aluminum phthalocyanine chloride

câncer de pele tipo melanoma

catanionic vesicles

ftalocianina de cloro alumínio

melanoma skin cancer

nanopartículas lipídicas sólidas

photodynamic therapy

solid lipid nanoparticles

terapia fotodinâmica

vesículas cataniônicas

Engaging Moms on Teen Indoor Tanning Through Social Media: Protocol of a Randomized Controlled Trial

Pagoto, Sherry L., Baker, Katie, Griffith, Julia, Oleski, Jessica L., Palumbo, Ashley, Walkosz, Barbara, Hillhouse, Joel J., Henry, Kimberly L., Buller, David

01 January 2016

Background: Indoor tanning elevates the risk for melanoma, which is now the most common cancer in US women aged 25-29. Public policies restricting access to indoor tanning by minors to reduce melanoma morbidity and mortality in teens are emerging. In the United States, the most common policy restricting indoor tanning in minors involves parents providing either written or in person consent for the minor to purchase a tanning visit. The effectiveness of this policy relies on parents being properly educated about the harms of indoor tanning to their children. Objective: This randomized controlled trial will test the efficacy of a Facebook-delivered health communication intervention targeting mothers of teenage girls. The intervention will use health communication and behavioral modification strategies to reduce mothers’ permissiveness regarding their teenage daughters’ use of indoor tanning relative to an attention-control condition with the ultimate goal of reducing indoor tanning in both daughters and mothers. Methods: The study is a 12-month randomized controlled trial comparing 2 conditions: an attention control Facebook private group where content will be relevant to teen health with 25% focused on prescription drug abuse, a topic unrelated to tanning; and the intervention condition will enter participants into a Facebook private group where 25% of the teen health content will be focused on indoor tanning. A cohort of 2000 mother-teen daughter dyads will be recruited to participate in this study. Only mothers will participate in the Facebook groups. Both mothers and daughters will complete measures at baseline, end of intervention (1-year) and 6 months post-intervention. Primary outcomes include mothers’ permissiveness regarding their teenage daughters’ use of indoor tanning, teenage daughters’ perception of their mothers’ permissiveness, and indoor tanning by both mothers and daughters. Results: The first dyad was enrolled on March 31, 2016, and we anticipate completing this study by October 2019. Conclusions: This trial will deliver social media content grounded in theory and will test it in a randomized design with state-of-the-art measures. This will contribute much needed insights on how to employ social media for health behavior change and disease prevention both for indoor tanning and other health risk behaviors and inform future social media efforts by public health and health care organizations. ClinicalTrial: Clinicaltrials.gov NCT02835807; https://clinicaltrials.gov/ct2/show/NCT02835807 (Archived by WebCite at http://www.webcitation.org/6mDMICcCE).

skin cancer

indoor tanning

melanoma

Facebook

social media

health communication

Community and Behavioral Health

Behavior and Behavior Mechanisms

Community Health and Preventive Medicine

Dermatology

Genetic Aberrations in Non-Melanoma Skin Cancer

Ashton, Kevin John, K.Ashton@griffith.edu.au

January 2002

Genetic changes are hallmarks of cancer development involving the activation and/or inactivation of oncogenes and tumour suppressor genes, respectively. In non-melanoma skin cancer (NMSC) development, the initiation of genetic mutations results from exposure to solar ultraviolet radiation. Non-melanoma skin cancers are comprised of basal cell carcinoma (BCC) and squamous cell carcinoma (SCC). Several related cutaneous lesions also exist, of which solar keratoses (SK) are widely accepted as a precursor dysplasia to SCC development. The study of recurrent genetic changes present within NMSC and SK should help reveal causative mutations in skin cancer development. Such analysis could also elucidate links in the genetic similarity of these dysplasia. The rapid screening of numerical changes in DNA sequence copy number throughout the entire genome has been made possible by the advent of comparative genomic hybridisation (CGH). This technique enables the identification of net gains and loss of genetic material within a tumour DNA sample. Chromosomal regions of recurrent gain or loss identify loci containing putative oncogenes and tumour suppressor genes, respectively with potential roles in NMSC tumourigenesis. Used in conjunction with tissue microdissection and universal degenerate PCR techniques this can enable the elucidation of aberrations in small histologically distinct regions of tumour. Such a technique can utilize archival material such as paraffin embedded tissue, which is the major source of neoplastic material available for cancer research. This study used the CGH technique to investigate aberrations in BCC, SCC and SK samples. The screening of copy number abnormalities (CNAs) in BCC revealed that although these tumours were close to diploid and generally genetically stable, they did contain several recurrent aberrations. The loss of genetic material at 9q was identified in a third of BCC tumours studied. This is characteristic of inactivation of the PTCH tumour suppressor gene, a known attribute in some sporadic BCC development. Validation of this loss was performed via loss of heterozygosity, demonstrating good concordance with the CGH data. In addition the over-representation of the 6p chromosome arm was revealed in 47% of biopsies. This novel CNA is also commonly observed in other cutaneous neoplasias, including Merkel cell carcinoma and malignant melanoma. This suggests a possible common mechanism in development and or promotion in these cutaneous dysplasias, the mechanisms of which have yet to be clearly defined. In contrast to BCC, numerical genetic aberrations in SCC and SK were much more frequent. Several regions of recurrent gain were commonly shared between both dysplasias including gain of 3q, 4p, 5p, 8q, 9q, 14q, 17p, 17q and 20q. Common chromosomal regions of loss included 3p, 8p, 9p, 11p, 13q and 17p. In addition loss of chromosome 18 was significantly observed in SCC in comparison to SK, a possible defining event in SK progression to SCC. The identification of shared genetic aberrations suggests a clonal and genetic relationship between the two lesions. This information further supports the notion for re-classification of SK to an SCC in situ or superficial SCC. Finally, the CNAs detected have been similarly observed in other squamous cell-derived tumours, for example cervical and head and neck SCC. This provides further evidence to common mechanisms involved in the initiation, development and progression of SCC neoplasia. This study has identified a number of recurrent chromosomal regions, some of which are novel in NMSC development. The further delineation of these loci should provide additional evidence of their significance and degree of involvement in NMSC tumourigenesis. The identification of the cancer-causing genes mapped to these loci will further demarcate the genetic mechanisms of BCC and SCC progression. An understanding of the events involved in skin cancer formation and progression should shed additional light on molecular targets for diagnostics, management and therapeutic treatment.

non-melanoma skin cancer

NMSC

basal cell carcinoma

BCC

squamous cell carcinoma

SCC

solar keratosis

SK

actinic keratosis

AK

comparative genomic hybridization

CGH

chromosomal abnormalities