View clinical trials related to Radiodermatitis.
Filter by:Radiation dermatitis is experienced by almost all patients (up to 95%) receiving radiation therapy for cancer. Radiation dermatitis can be a serious condition because, in addition to its direct physical complications and the resulting impact on overall quality of life, it can also be a dose-limiting toxicity requiring changes to the prescribed course of radiation therapy. The most common strategy employed in an attempt to prevent or minimize radiation dermatitis involves moisturization of the irradiated area, use of a mild soap to keep the area clean, and minimizing exposure to potential mechanical irritants, such as scratching and rough clothing. However, this strategy has been shown to lack clinically significant efficacy. Consequently, there is a clinical need for new treatments that are effective in protecting against radiotherapy-induced oxidative stress and the subsequent development of radiation dermatitis. Based on data from previous studies in animals and humans, Reata believes that omaveloxolone (RTA 408) Lotion may effectively prevent and mitigate radiation dermatitis in oncology patients undergoing radiation therapy. This randomized, double-blind, vehicle-controlled, parallel-group trial will study the efficacy, tolerability and safety of two concentrations of omaveloxolone (RTA 408) Lotion (3% and 0.5%) versus vehicle in patients with breast cancer for whom radiation therapy is recommended.
Breast neoplasm is the second most common type in the world. Radiation therapy is a key component in the treatment of breast cancer. Acute skin reaction is one of the most common side effects of radiation therapy. Several studies were performed for prophylaxis of this adverse event, however, until this moment there is no consensus for clinical practice . Second meta-analysis , the ideal candidate for the radiodermatitis prevention would be an agent capable of repairing damage to DNA or agents that promote cell proliferation . The low power laser promotes tissue repair ( reduces inflammatory phase and induces collagen synthesis ) . Its use in the treatment of adverse events of cancer treatment is well established in two situations : in the prophylaxis and treatment of mucositis and in the treatment of lymphedema . The purpose of this study is to use the low power laser in patients with breast cancer undergoing radiotherapy treatment to evaluate the effects of Laser InGaAIP 660Nm in preventing radiodermatitis.
Low Level Laser Therapy (LLLT) is a form of phototherapy which involves the application of light to injuries and lesions to promote tissue regeneration. It is a noninvasive treatment modality based on the photochemical effect of light on tissues, which modulates various metabolic processes. LLLT has been used for a wide range of conditions, in particular in dermatology, to promote wound healing, reduce inflammation and oedema, and relieve pain. In this study, we intend to assess the efficacy of LLLT to manage radiotherapy-induced skin reactions (or radiation dermatitis), a very common and distressing side effect of cancer treatment.
The aim of this study is to evaluate the impact of adding bolus in adjuvant radiotherapy after mastectomy, in relation to the time of treatment interruption and acute effects. This study evaluates whether there is an increase in treatment time with the addition of the bolus, which can overshadow the benefit of increased dose to the skin and subcutaneous tissue. The patients will continue to be followed for oncologic outcomes, focusing on chest wall local control.
The objective of this study is to evaluate the safety and efficacy of ST266 in treating radiation burns of the skin in patients undergoing treatments for breast cancer and to compare ST266 treated burns with those treated with saline placebo controls.
The standard treatment for early-stage breast cancer is breast-conserving surgery followed by adjuvant radiation therapy to the whole breast. This approach leads to low recurrence rates with a good cosmesis and provides an effective alternative to mastectomy. However, in most women receiving radiotherapy radiation dermatitis occur to some degree. Radiation dermatitis generally manifests within a few weeks after the start of radiation therapy. Its onset varies depending on the radiation dose intensity and the normal tissue sensitivity of individuals. As the cumulative dose of radiation increases the transient erythema occurring during the first weeks of radiotherapy may evolve into the more persistent erythema and to dry or even moist desquamation that reflects the damage to the basal cell layer and the sweat and sebaceous glands. There is currently no evidence that prophylactic treatments, beyond keeping the irradiated area clean and dry, are effective in reducing the incidence or severity of radiation dermatitis (Bolderston et al. 2006). However, together with other enzymes of the peroxidase pathway, SOD scavenges the superoxide, hydroxyl, and other oxygenated free radicals (Klug et al. 1972; Tainer at al. 1983). In physiological conditions, the production of free radicals (Monte & Sacerdote 1994) and the action of antiradicals' enzymes is balanced. Following tissue injuries, either pathological or caused by agents such as radiation therapy, an excess production of free radicals is observed (Petkau 1986; Lorette & Machet 2001). Furthermore, basal SOD is increased in breast cancer patients before radiation therapy as compared to controls (Seth et al. 2003), and decreases after radiotherapy (Ray at al. 2000). Hence, liposomal rhSOD applied during radiotherapy could be used to prevent the effects of free radicals and thus might protect the patient's skin from radiation-induced skin reactions. TREATMENT PLAN All patients receive APN201 and placebo at the same time. The irradiated region is divided vertically into two symmetric areas (left and right). One area is treated with APN201, the other area is treated with placebo in a double-blind fashion. Study treatment (APN201 and placebo) starts on the day of initiation of radiation therapy and continues until the end of radiation therapy to the whole breast (25 or 28 daily fractions to a total dose of 50.0 Gy or 50.4 Gy, respectively) (see schedule of assessments, section 5.1). Study treatment is stopped if radiation dermatitis of ≥ grade 2 occurs in one or both treated areas for ≥ 3 days AND a difference in the severity of radiation dermatitis of ≥ 1 grade is seen between the two treated areas. From that point in time the patient only receives the treatment that appeared to be beneficial and this treatment is applied to the whole irradiated region until completion of the 25th, respectively 28th, fraction. Treatment stops earlier in case of progressive disease or unacceptable toxicity or intolerability.
The purpose of the study is to determine whether curcumin, an ingredient of some foods, can prevent or reduce the severity of skin reactions (dermatitis) caused by radiation therapy. Dermatitis is a common side effect of radiation treatment, but few effective treatments have been developed for it. Curcumin is a natural compound found in both turmeric and curry powder. It has been used for centuries as a spice (curry), a food coloring and as a food preservative. Curcumin is non-toxic and has been found to enhance the functions of normal tissues..
The aim of this randomized trial is to compare the rate of radio-dermatitis grade 2+ (NCI-CTC V3.0) in patients receiving radiotherapy+Erbitux+placebo versus in patients receiving radiotherapy+Erbitux+OTD70DERM® for the treatment of head and neck carcinoma.
Ionizing radiation is a toxic agent and widely accepted form of treatment for various types of cancer. Despite advances in medical technology, radiation therapy still causes severe early and late skin effects. Radiation-induced dermatitis occurs in approximately 80% of patients. Important consequences of radiation-induced dermatitis include impairment of the quality of a patient's life due to pain and premature interruption of radiation treatment, which in turn, may be impair good local control of disease. The biological pathways responsible for acute radiation-induced dermatitis remain unclear. Currently, there is no standard treatment for the prevention of radiation-induced dermatitis with demonstrated effectiveness. The aim of this randomized, double-blind, placebo-controlled pilot study is to assess the effectiveness of curcumin for the prevention of acute radiation-induced dermatitis during postoperative radiotherapy for breast cancer. We hypothesize that curcumin, a natural phenolic compound found in both turmeric and curry powders, can prevent or alleviate radiation-induced skin reactions in breast cancer patients receiving radiotherapy.
The investigators plan to investigate the protective effects of topical sulforaphane-containing broccoli-sprout extracts (BSE) on radiation-induced dermatitis in women undergoing external-beam radiation therapy for breast cancer. Topical sulforaphane induces phase 2 enzymes that are protective against oxidants, electrophiles, and inflammation (Talalay and Fahey, 2001) - all of which are generated by both ultraviolet and ionizing radiation. Previous work from the investigators' group demonstrated that sulforaphane treatment protects against ultraviolet radiation-induced erythema of human skin (IRB protocol NA_00004897; Talalay et al. 2007). This investigation will extend the investigators' previous work by employing ionizing rather than ultraviolet radiation. The investigators propose a two part sequential protocol (Study A and Study B). Both studies will involve women with breast cancer who have undergone lumpectomy and are scheduled for adjuvant external beam radiation treatment. In study A, the investigators will validate their technique for measurement of skin erythema using a device called a chromometer; no active agent will be applied (up to 6 women). Study B will follow completion of Study A. Study B will involve the application of broccoli sprout extracts (BSE) or vehicle alone to determine if sulforaphane can reduce radiation-induced erythema (27 women). Four adjacent, 1.5-cm diameter areas-of-interest on the affected breast will be located by means of an adhesive vinyl template which can be accurately and repeatedly placed at the same position. Two of the four areas will be treated with BSE (active agent) and two with vehicle (inactive control). BSE will be applied on three days weekly throughout the 5-week period of whole breast radiation. Erythema will be noninvasively quantified by measuring the red-reflectance of the skin with a chromometer up to three times weekly throughout treatment. A total of 33 patients are to be enrolled. The investigators' objective is to determine and quantify the effect of topical BSE on radiation-induced skin erythema. This study will employ standard, clinically-accepted radiation doses and techniques that are safe and well tolerated. The safety and tolerability of both oral and topical broccoli sprout preparations is well established; no safety concerns have been noted. (Shapiro et al. 2006; Dinkova-Kostova et al. 2007).