View clinical trials related to Radiation Therapy Complication.
Filter by:This study is a prospective observational study on outcomes of high precision hypo-fractionated radiotherapy in breast cancer with distant metastasis.
The investigators aim to use xenon-enhanced ventilation computed tomography (CT) to design personalized functional lung avoidance radiotherapy for lung cancer patients who are scheduled to receive lung radiation therapy. The investigators' goal is to optimally protect the lung function of the patients and reduce the incidence of radiation pneumonitis.
This study is an observational registry study evaluating the clinical outcomes of grid therapy. Subjects will be screened at outpatient clinic visit appointments and interested qualified subjects will be consented and offered participation in this study. Once consent has been obtained, baseline adverse event and QOL data will be collected and subjects will undergo grid therapy and follow-up at 2-4 weeks (for toxicity), and 3-6 months (for toxicities and radiographic control) then per clinical discretion up to 1 year. Patients will be evaluated according to the physician's standard practice and discretion. Patient data will be drawn from the patients' medical records and reported by means of a web-based electronic data collection (EDC) system. Patients will be considered "on study" until 60 months of observation has occurred, withdrawal of consent, lost to follow-up, or study closure. See below for the clinical visit flowchart for data collected at baseline and standard clinic visits.
Bladder cancer is often treated with cystectomy or radiation therapy. Following radiation therapy patients will often have severe side effects from the treatment. Studies have suggested that simultanously treatment with androgen deprivation therapy during radiation therapy may be able to proctect stemcells in the bladder, thus improving tissue recovering post-radiation, which would result in improved bladder compliance following the treatment and ultimately result in fewer side effects and overall improved patient quality of life.
A pilot-stage device feasibility study investigating a mask-free motion-monitoring patient immobilisation system for use during radiation therapy treatment of head and neck cancer (HNC). This mask-free system combines the standard radiation therapy (RT) head rest to help the patient remain still with a surface guidance detection system that uses sensors to detect and track patient movement. Patients who will have RT treatment for head and neck cancer involving an immobilisation mask will be asked to lie on the treatment couch for the normal treatment fraction time while the surface monitoring system is activated. We will then assess: i) The level of acceptance of the system by HNC patients currently being treated with RT using an immobilisation mask, and ii) The ability of the surface guidance system to monitor movement of the patients