View clinical trials related to Skin Pigmentation.
Filter by:The rationale of this study is to establish a robust method for assessing sun protection product efficacy in preventing erythema and tanning. Employing both artificial ultraviolet-A Irradiation and natural direct sunlight exposure, the investigation seeks to provide a reliable methodology, ensuring reproducibility and enabling a direct comparison between these methods. Meticulously determining optimal UV dosages, the study prioritizes inducing skin responses for evaluation while avoiding adverse effects like blistering. The localized validation of UV exposure techniques, tailored to the Indian population, contributes significantly to the field by addressing diverse skin types and environmental conditions. By incorporating both artificial and natural (direct sunlight) UV exposure methods, the study aspires to enhance the safety and effectiveness of future dermatological investigations, benefiting both the scientific community and the broader population.
The aim of this study is to assess the signal of melanin using Electron Paramagnetic resonance (EPR). Melanin is a paramagnetic pigment detectable by EPR. Recent advances in instrumentation allows the application of EPR in human beings. The characterization of melanin by EPR could be potentially interesting in the context of melanoma detection and characterization. While another clinical study is currently ongoing aiming at demonstrating the feasibility of the non-invasive detection of the EPR signal of melanin in melanoma patients, it is crucial to have a control group with healthy skin. The aim of the present study is to assess the influence of skin pigmentation of the EPR signal recorded. In the present clinical study, the EPR signal of melanin will be characterized in healthy skin with different phototypes (1-2, 3-4, 5-6) to assess the potential influence of skin pigmentation on the EPR signal.
The purpose of this study is to determine whether weekly dosing of oral vitamin D3 is effective in correcting low vitamin D levels in children and adolescents with inflammatory bowel disease (also known as Crohn's disease and ulcerative colitis).
The laser areas treated with biocellulose sheet from coconut juice containing anti-hyperpigmentation agent ("biocellulose mask", "Farhorm®") heal faster than vaseline ointment which is a standard treatment.