View clinical trials related to Radiotherapy.
Filter by:Stereotactic radiation therapy is an important and common method of treating brain metastases in patients with malignant disease. Today, however, there are no methods available to determine the metastasis' radiation sensitivity in advance and treatment responses can only be seen by changing of the size of the metastasis on conventional X-ray examinations, computed tomography (CT) and magnetic resonance imaging (MRI). Changes in the size of the metastases is something that is often seen weeks / months after treatment is completed. At Lund University Hospital, a new imaging technique, diffusional variance decomposition (DIVIDE), has now been developed. With this technique, the scatter in isotropic and anisotropic diffusion can be measured for each measuring point, which provides significantly more information about the properties of the tissue compared to current methods.
The role of radiotherapy is well established in the management of early stage lung cancer or as part of a multidisciplinary approach of locally advanced lung cancer (1). Recent advances in Cyberknife© technology, which is a robotic system of stereotactic irradiation including localisation and real time lesion-tracking, has led to an increase in accuracy and potentially in efficiency of the irradiation of tumor field (2)(3). According to several studies, promising results in local control and survival rates have been achieved in patients suffering from primary lung cancer or peripheral lung metastasis treated with Cyberknife© (4)(5)(6)(7)(8). Fiducial markers are implanted in or near a tumor in a configuration defining a COM (center of mass) guiding the Cyberknife for tumor localization. Tumor movement is then synchronized to respiratory cycle motion during treatment which reduces toxicity of non target lung tissue irradiation. Change in marker positioning leads to COM alterations, thus limiting detection by the tracking system. Percutaneous (9)(10)(11) (12), endovascular (12)(13) fiducial implantation or by means of bronchoscopic devices (14)(15)(16)(17)(18) are three techniques that have been validated in previous studies as feasible and safe procedures, providing accurate tracking. Few studies are currently available in the litterature comparing these modalities (19)(20). The percutaneous implantation technique will not be considered for this study because this technique is associated with a high risk of pneumothorax (9). Both the endobronchial and endovascular technique have been described in the literature with equivalent success rate (87-90%) in intention to treat (21)(22). One of the endpoints of this study is to verify that these results are reproducible in our institution where both techniques are currently available and to investigate other secondary endpoints such as fiducial marker migration after placement, complications rates and procedure time.
Treated head and neck cancer patients are subject to tissue swelling and scarring, known as lymphedema and fibrosis (LEF). LEF in the head and neck cancer patient occurs in up to 90% of treated patients and is associated with inflammation cells. Aerobic exercise is known to mediate these same inflammatory cells in an anti-inflammatory manner due to chronic adaptation of the cells. The investigators are therefore proposing a prescription exercise study for head and neck cancer patients. This study's primary aim is feasibility and safety of the aerobic exercise prescription. Feasibility of gathering study participant inflammation markers, visible LEF, and patient LEF symptoms will be a secondary aim of the study. Patient will be asked to journal their experience for a qualitative analysis. The prescription aerobic exercise is that of high intensity interval exercise, since this form of exercise can achieve similar or better results to moderate exercise with less time and patient burden. Each exercise session will take place on a cycle ergometer, will be 5 minutes warm up, 5 minutes cool down, and 20 minutes of exercise (1 minute intervals alternated by 1 minute rests x 10 each).
Patients with recurrent or metastatic uterine cervical squamous carcinoma have very poor prognosis. For eligible patients, radiotherapy remains the choice, which has the most effective impact on the survival periods. On the hand, anti-angiogenic therapy has been proved to be promising treatment for recurrent or advanced cervical carcinomas. This study aims to discover the objective response of combination therapy with nimotuzumab (an anti-epidermal growth factor receptor [EGFR] IgG1 humanized monoclonal antibody) and radiotherapy in recurrent or metastatic uterine cervical squamous carcinoma in a single-arm, open, phase 2 clinical trial. The primary endpoint is the objective response rate evaluated by imaging methods. The second endpoints are the progression-free survival and overall survival. The treatment toxicity is regarded as one the second endpoint.
The aim of this randomized study is to investigate local tumor control, survival outcomes,and complications on patients of stage Ⅳ non small-cell lung cancer ,whom based on medication with concurrent primary radiotherapy omitting clinical tumor volume.
This prospective, single-arm study is conducted to investigate the safety and efficacy of Sintilimab combined with hypofractionated radiotherapy in patients with microsatellite instability-high (MSI-H)/ DNA mismatch repair-deficient (dMMR) non-metastatic rectal cancer.
Bone marrow is one of the organs at risk of complications during irradiation due to its radiosensitivity. Hematopoietic toxicity remains one of the main toxicities during irradiation of pelvic lymph node areas, especially when concomitant chemotherapy is used, volume of bone marrow irradiated is large and dose to the bone marrow is high. There is a lack of prospective studies and comparative trials to customize the constraints according to the presence or absence of chemotherapy and correlated to the patient's bone marrow potential. This multicentric and prospective study conducted by Strasbourg Europe Cancerology Institute aims to evaluate hematological toxicity (anemia, thrombocytopenia, leukopenia) in patients treated with pelvic irradiation for prostate, rectum, anal canal, endometrium, cervix cancer or vaginal cancer. One hundred patients will be included in the study, including patients treated with exclusive radiotherapy, radiochemotherapy, or radiohormonal therapy. The primary objective is to quantify the relationship between acute hematological toxicity and delivered doses and irradiated volumes in pelvic bone marrow for pelvic cancers. Hematological toxicity will be measured by weekly blood count during radiotherapy and at one month and three months after the end of radiotherapy. Secondary endpoints are the evaluation of viral, bacterial and fungal infections during and for three months following radiotherapy, as well as the evaluation of the impact of radiation-induced hematological toxicity on the administration of chemotherapy for the concerned patients. The aim of this study is to improve and optimize radiotherapy if a dose limit or volume constraint is imposed by the results of the study.
The purpose of this study is to determine whether any eventual skin damage caused by radiation therapy can be detected and monitored at a subclinical level via optical coherence tomography (OCT). Another key question is whether subclinical OCT detected skin damage correlates with acute and late clinical toxicity.
To evaluate the feasibility of Zeus Cloud TPS in the design of photon intensity modulated radiation therapy (IMRT) plan for tumors in various parts of the body.
This is a open-label, single-arm study to investigate the safety and efficacy of Total neoadjuvant chemotherapy with camrelizumab, an anti-PD-1 antibody drug following short course radiotherapy in patients with rectal cancer.