View clinical trials related to Radiodermatitis.
Filter by:The purpose of this research is to evaluate the use of Mepitel Film® in preventing radiation epidermitis in patients receiving radiation treatment for breast cancer. Mepitel® Film is a thin, flexible, waterproof, and breathable film made of a soft silicone layer and polyurethane film. Mepitel ® film is not made with natural rubber latex (NRL). It is FDA approved for the management of superficial wounds, such as superficial burns. As a part of this research study, the Mepitel Film® will be placed prior to participant's first radiation treatment, and will be removed one week following the end of treatment. Throughout the study, information will be collected to analyze at the end of the research study to determine if the Mepitel Film® helps prevent skin breakdown. The subjects will be followed per standard of care and examined for skin redness, warmth or swelling as normally examined and cared for during standard radiation therapy. If radiation burns are noted, the subject will be treated normally and depending on the severity of the radiation burns, may be removed from the study treatment and treated through standard of care.
The goal of this randomized trial is to investigate whether the addition of a reminder app to standard care leads to a reduction of dermatitis and oral mucositis during radio(chemo)therapy for locally advanced squamous cell carcinoma of the head-and-neck (SCCHN). The primary endpoint is the rate of patients experiencing grade ≥2 radiation dermatitis at 60 Gy of radiotherapy. 80 patients are required per arm within the full analysis set. Taking into account that 5% of patients will not qualify for full analysis set, 168 patients should be randomized. If the addition of a reminder app to standard care will result in a significant reduction of radiation toxicity, it could become a helpful tool for these patients.
This is a randomized, open-label, single-institution trial designed to evaluate the effectiveness of a spray skin protector in preventing moist desquamation caused by radiotherapy treatment. This technology, spray skin protection, depending on the manufacturer, is primarily intended to prevent or reduce contact dermatitis. However, this study will be evaluated for use in preventing moist desquamation caused by ionizing radiation. The comparing agent will be a moisturizer, agreed upon at the local Institution of the study for use in the prevention of radiodermatitis. As secondary objectives: describe adverse events, diarrhea, pain and pruritus. The study will be conducted at the radiotherapy outpatient clinic of the Cancer Hospital I (HCI) of National Cancer Institute (INCA) in Brazil.
A prospective single blind controlled randomized trial to evaluate the superiority of photobiomodulation (PBM) using LED-therapy in reducing the prevalence of radiodermatitis in breast cancer compared to usual local care.
A significant proportion of patients treated with whole-breast or head and neck radiotherapy will experience skin toxicity, i.e. skin dermatitis, which may lead to erythema, dry desquamation and wet desquamation. It is hypothesized that quantitative thermal imaging can be used to measure radiation-induced skin toxicity.
This phase I trial studies the side effects of a silicone topical wound dressing (StrataXRT) and to see how well it works in preventing radiation dermatitis (skin burns and side effects caused by radiation) in pediatric patients undergoing radiation therapy. StrataXRT may help prevent or decrease severe skin rash, pain, itching, skin peeling, and dry skin in pediatric patients undergoing radiation therapy to the brain or spinal cord.
The main objective of the present study is to investigate the feasibility, safety and tolerability of CareMin650 in patients with 1) head & neck cancer at high risk of or suffering from oral mucositis and/or radiation dermatitis due to the administration of radiotherapy with or without chemotherapy with or without targeted therapy, 2) breast cancer at high risk of or suffering from radiation dermatitis due to the administration of radiotherapy.
The aim of the study is to evaluate the effect of Gelronate gel, NaHA based product (medical device for topical application) vs. Aloevera gel, in prevention or minimizing of radiation induced skin reaction in breast cancer patients
Radiodermatitis (RD), an inflammatory skin reaction, occurs in more than 90 percent of cancer patients treated with radiotherapy (RT). This is the result of the radiation causing damage to the epidermal basal skin stem cells. Based on the severity of the skin symptoms, acute RD can be categorized into four grades ranging from red and dry skin to moist desquamation, necrosis, and eventually ulceration. Acute RD can be distressing, negatively influencing the patients' quality of life (QOL). In cases of severe RD, RT might be interrupted, affecting the treatment outcome. Currently, there is no generally accepted treatment available for RD. As such, the standard skincare treatment is hospital dependent. Photobiomodulation therapy (PBMT) can offer a solution, since the therapeutic use of (infra)red light induces photochemical reactions in the target cells, stimulating repair and healing processes, and reducing pain and inflammation. Previous studies using PBMT to prevent RD showed promising results. However, these beneficial results need to be validated in a larger breast cancer patient population receiving an alternative RT regimen. The study hypothesizes that PBMT is a safe and effective strategy to prevent worsening of acute RD grade two or higher in breast cancer patients undergoing RT. The primary objective is to measure the degree of acute RD to detect changes during and after RT. Second, the patients' QOL and pain will be assessed. Finally, the third objective is to evaluate the safety of PBMT. The results of this project will support the implementation of PBMT into the standard RD skincare program.
In patients undergoing adjuvant radiotherapy for breast cancer, radiation-induced skin toxicities are a common occurrence and adversely impact patients' quality of life (QOL). In the last decade, there have been no significant advances in preventing or treating radiation-induced skin toxicities. Recently, a phase III randomized trial by Herst et al. (n=78) in New Zealand showed that the prophylactic use of Mepitel Film reduced skin reaction severity by 92% compared to skin treated only with aqueous cream. Mepitel film has not been widely adopted in North America. To validate the efficacy of the film and guide the development of a larger multi-centre phase II study, a pilot study testing the efficacy of the film is proposed. In the study, 30 patients will have the film applied on their breast for the duration of radiation treatment and their skin reactions will be assessed throughout the treatment and after the treatment. The investigators hypothesize that the severity and incidence rates of skin reactions for patients using Mepitel film will be lower when compared to real world data from our centre, and that cosmetic outcomes will be improved with the film.