Active clinical trials for "Radiation Pneumonitis"

Radiation pneumonitis is the main dose-limiting toxicity of thoracic radiotherapy, which can affect life quality, survival, and the tumor-controlling effects of patients receiving thoracic radiotherapy. The purpose of this study is to: Identify biomarkers including serum proteins, gene expression, genetic changes, and epigenetic modifications that determine radiation pneumonitis. Investigate the relationship between radiation pneumonitis and other toxicities induced by radiotherapy. Construct a predictive model for radiation pneumonitis. Evaluate survival and treatment outcome of patients with radiation pneumonitis.

Radiation pneumonitis is the most common complication and the major dose-limiting toxicity associated with radiotherapy, which can cause poor quality of life or life-threatening symptoms and might hinder the tumor-controlling effects of radiotherapy. Consequently, establishing reliable predictors for the occurrence of RP is of great significance such that the therapeutic effects of RT can be maximized while minimizing its adverse effects. The aim of this study is to figure out the biological prediction models of radiation pneumonitis.

The purpose of this non-interventional study is to collect data on the risk factors for acute radiation pneumonitis in patients with prior receipt of immune checkpoint inhibitors.

The purpose of this study is to to compare lung function data generated by applying High Fidelity Functional Lung Imaging (HFFLI) software to 4D CT, cone beam CT, and fluoroscopic images of the lungs breathing to determine whether different modalities of imaging provide similar data on lung movement and function. HFFLI may detect changes in lung function in patients undergoing External Beam Radiotherapy for cancer.

The purpose of this study is to evaluate the interest of breath holding for the prevention of radiation pneumonitis following conformal radiation therapy. Eligible patients will be randomly assigned in a 2-arm trial to free breathing or breath holding during conformal radiation. The primary objective of the study is to establish the efficacy of breath holding, compared to free breathing, in the prevention of early pulmonary toxicity following conformal radiation. Several departments of radiotherapy, many pneumology units and two basic and applied research laboratories take part in this multicentric study. The number of patients required to demonstrate a reduction in radiation pneumonitis from 45 % to 22.5 %, assuming an alpha risk of 5% in a two-sided test and 95% power, is 240 (120 per arm). With a planned accrual of 7 patients per month, it is estimated that the inclusion period should be approximately 3 years.

The purpose of this study is to determine if topical superoxide dismutase is an effective treatment of radiation related neck fibrosis, and to determine the quality of life impact from radiation related fibrosis in the head and neck cancer patients at Sanford Health.

Overall objective of the study is to compare the use of SPECT in radiotherapy treatment planning with standard CT-based radiotherapy for stage I-III non-small-cell lung cancer patients

This trial studies the side effects and how well nintedanib works compared to a placebo in treating against radiation-induced pneumonitis (inflammation of the lungs) in patients with non-small cell lung cancer that cannot be removed by surgery and are undergoing chemoradiation therapy. Nintedanib may help shrink or slow the growth of radiation-induced pneumonitis by blocking some of the enzymes needed for cells to grow and may prevent the growth of new blood vessels. It may also help reduce the recurrence of non-small cell lung cancer.

This project will test the effect of enalapril to mitigate the lung damage that can occur as a side effect of radiation therapy for lung cancer or other intrathoracic cancers. Thousands of Veterans develop lung cancer every year, and are treated by radiation therapy. Studies of lung radiation injury in laboratory animals show that with enalapril, investigators can significantly reduce the severity of radiation injury to the lung. Enalapril is FDA approved and in common use for treatment of hypertension, kidney disease, and heart failure. These studies will advance that work to human use. Successful mitigation of lung radiation damage will improve the quality of life in Veterans and non-Veterans who are treated for lung cancer by radiation, and may also improve cure rates of radiation therapy for lung cancer.

A quarter of a million women will develop breast cancer (BC) in this year alone. Many of these women will have side effects as a result of their breast cancer treatment. Radiation Fibrosis Syndrome (RFS) is a common complication from breast cancer treatment that progressively changes tissue and can cause decreased function, pain, and range of motion. The PhysioTouch is a hand held device that can be used to treat RFS and may improve the treatment of fibrotic tissue. This pilot randomized controlled trial aims to determine the efficacy of using the PhysioTouch in addition to current standard of care for treatment of BC-related RFS.