View clinical trials related to Skin Cancer.
Filter by:The goal of this observational study is to find out if Raman Spectroscopy, a type of imaging, can be used to determine the size of skin cancer tumors. The main question it aims to answer is: -Can Raman Spectroscopy help figure out how far a tumor spreads? This study will take measurements using laser light from an experimental, handheld probe by lightly touching the skin.
This study is an open-label Phase Ib (Part A) dose escalation followed by a blinded, randomized, multi cohort Phase 2a (Part B) comparison of combination vs. reference regimens. Currently study will only be enrolling the Phase 1b and the Phase 2a protocol requirements will be added to the study near completion of the Phase 1b
The purpose of this study is to determine whether high-intensity exercise and high-fiber diet are feasible and improve various health outcomes among participants with advanced melanoma receiving immunotherapy. The names of the groups in this research study are: - High-Intensity Exercise (EX) - High-fiber Diet (DT) - Combined High-Intensity Exercise and High-Fiber Diet (COMB) - Attention Control (AC)
The purpose of this study is to compare surgical site infection rates for patients treated with Mohs micrographic surgery after bilateral nasal swab with povidone iodine versus standard treatment including the use of a standardized oral antibiotic prophylaxis protocol.
This study aims to improve patient comfort by exploring the potential of lavender aromatherapy in reducing anxiety and unpleasant odor perception during Mohs Micrographic Surgery (MMS). Lavender has been widely studied for its sedative-like properties and calming effects, both in medical and dental settings. By investigating the impact of lavender aromatherapy on patient anxiety levels during MMS, we seek to provide evidence-based insights into non- pharmacological interventions that can enhance the overall comfort and experience of participants.
The proposed project is a pilot study about the impact of different health literacy interventions, focused on preventing skin cancer, on the adhesion to protection strategies against ultraviolet (UV) radiation, observed in high school students, that will be implemented on Foz do Lizandro beach in the municipality of Mafra, Portugal. As a science project with citizenship and respecting the ethic principles of equity, inclusion and diversity, the study will involve the contribution and participation of institutional and community partners in diverse stages of the research study: design, field implementation, data collection and dissemination of results, as well as financial investment for the acquisition and installation of interventions on the beach, and recruitment of the target population.
01.21 SiroSkin is a phase 3, double-blind, multi-centre, parallel-arm, randomised, placebo-controlled trial to evaluate the use of topical 1% sirolimus in the chemoprevention of skin cancer, versus placebo, applied every night for 6 months in solid organ transplant recipients.
The goal of this clinical trial is to assess the feasibility and safety of oral nicotinamide (NAM; a derivative of vitamin B3 [niacin]) and vitamin A in a high-risk population of kidney transplant recipients with a history of skin cancer to generate preliminary data for future cancer prevention clinical trials.
Introduction: Cancer is a serious disease with a high mortality rate in the world and in Turkey today. Skin cancer, which is among the most common types of cancer, is increasing every year in many countries in the world such as Australia, America, New Zealand, and in Turkey. The most dangerous type of skin cancer with a high mortality risk is melanoma. According to the Turkish Cancer Statistics, melanoma is among the ten most common cancer types among children aged 0-14 years. This situation constitutes a public health problem. Aim: This research was planned to determine the effect of education given to parents of secondary school students about skin cancer, Skin Self Examination (SSE) and Sun Protection Behaviors on their children's sun protection behaviors.
Medical imaging commonly involves the use of radiation, such as x-rays, that can give detailed images of internal structures of the body but can carry a small risk of tissue damage due to the radiation involved. As such, the number of x-rays and computed tomography (CT) scans that an individual can have has to be minimised. Methods have recently been developed that make use of electromagnetic radiation for imaging purposes at terahertz (THz) frequencies, the region of the spectrum between millimetre wavelengths and infrared. Terahertz spectroscopic imaging uses low power levels such that adverse effects on tissues are insignificant and is safe for in vivo imaging of humans [1]. The terahertz region is between the radio frequency region and the optical region generally associated with lasers. Both the IEEE RF safety standard and the ANSI Laser safety standard have limits into the terahertz region. The focus of this project is to investigate THz spectroscopic imaging as a new and powerful tool for analysing skin properties, termed "THz skinometry". The novelty in this project lies in tailoring the instrumentation and algorithms of THz scanning to accurately measure properties of human skin (e.g. hydration levels and skin thickness) in vivo. The customised non-contact and pressure-controlled contact THz probes developed will be able to do spectroscopic measurements of skin in vivo at the molecular level. This will be the first demonstration of in vivo THz imaging of skin globally and will facilitate quantitative characterisation of skin in a way that has hitherto not been possible and could lead to a step change in THz technology usage (similar to that currently used in airport security scanners).