View clinical trials related to Thymoma.
Filter by:This is a multicentre non-randomized phase II study of proton beam radiotherapy in patients with thymic epithelial tumours (i.e. thymoma and thymic carcinoma) in the post-operative setting or in inoperable patients with localized disease. Patients not willing or for any reason unsuitable to undergo proton treatment will be asked to participate in a follow-up assessment after the regular photon treatment in the same manner as the included patients. Primary endpoints are:Toxicity (e.g. cardiac and pulmonary toxicity) and Local control at 5 year Secondary endpoints: PFS, Overall survival, Quality of life, measured by EORTC QLQ 30 + LC 13 and relapse pattern
The primary objective of the study : to compare the Recurrence-Free survival (RFS) between arms. RFS is defined as time from randomisation to the first recurrence (either local-regional or distant) or death of any cause.
This is an investigational, single arm study.
Background: Thymoma and thymic carcinoma are diseases of the thymus. Platinum-based chemotherapy is the standard treatment for these diseases. But in many cases, the disease returns after treatment. Researchers want to see if a new drug can help. Objective: To see if bintrafusp alfa (M7824) is an effective treatment for thymoma and thymic carcinoma. Eligibility: People age 18 and older who have thymoma or thymic cancer and their disease returned or progressed after treatment with at least one platinum-containing chemotherapy treatment plan. Design: Participants will be screened under a separate protocol. Their medical, medicine, and treatment history will be reviewed. They will have a tumor biopsy if they do not have a sample. Participants will get the study drug once every 2 weeks as an intravenous infusion. For this, a small plastic tube is put into an arm vein. During the study, participants will undergo the following: Medicine review Physical exam Review of their symptoms and their ability to perform their normal activities Blood and urine tests Thigh muscle scan (using MRI) Tumor assessment (using MRI or CT) Heart and lung function tests Thyroid gland test Skin assessment. Participants may have tumor biopsies. Some of their blood and biopsy samples will be used for gene testing. Participants may take the study drug until their disease worsens or they cannot tolerate treatment. Participants will have follow-up visits 2 and 6 weeks after stopping treatment. Then they will have long-term follow-up visits every 3 months. These may include imaging scans. Visits may be done by phone, with scans (if needed) done at their doctor s office.
The purpose of this study is to understand how genetics play a role in thymoma. Intratumoral heterogeneity is among the greatest challenges in precision cancer therapy. However, developments in high-throughput single-cell RNA sequencing (scRNA-seq) may now provide the statistical power to dissect the diverse cellular populations of tumors. This study aims to find out how it affects genetic and protein expression in patients with malignant thymoma, compared to Benign thymoma, at a single-cell level using a flow cytometry and RNA-sequencing protocol.
Other than optimizing medical management of cardiac risk factors, and reducing radiotherapy (RT) dose to the heart, there currently exist no interventions to mitigate or reverse the adverse cardiac effects of RT. Aerobic exercise has been demonstrated to improve patient quality of life, cardiac outcomes, and cardiorespiratory fitness in patients with cancer receiving cardiotoxic systemic therapies, but the effects of aerobic exercise on patients at high risk for radiation induced heart disease (RIHD) is unknown. In addition, home-based cardiac rehabilitation has not been tested in patients with thoracic cancers.
Extended thymectomy is the main treatment for thymoma and other anterior mediastinal diseases. Video-assisted thoracic surgery(VATS) plays an important role in the surgery of extended thymectomy. Now, VATS thymectomy through intercostal approach has been the commonly used minimally invasive surgical procedure for thymus surgery and is applied worldwide. But the intercostal approach may cause residue of thymus tissue and chronic pain. In 2013, doctor Marcin Zielin´ski form Poland reported a new technique of minimally invasive extended thymectomy performed through the VATS approach with double elevation of the sternum. And their early results proved this technique is probably the least invasive and the most complete technique of VATS thymectomy with excellent cosmetic results. Until now, doctor Jiang Fan form Shanghai Pulmonary Hospital has performed 50 cases extended thymectomy through the subxiphoid approach with double elevation of the sternum by VATS. This study is designed to compare the curative effect between this new method and traditional intercostal VATS.
This is a multicenter, open-label, Phase 1 study of orally administered VMD-928 in adult subjects with advanced solid tumors or lymphoma that have progressed or are non responsive to available therapies and for which no standard or available curative therapy exists
The aim of the study is to determine the efficacy of selinexor in adults with TETs determined by overall response rate (RECIST 1.1) in two parallel cohorts of patients with advanced thymomas or thymic carcinomas. The study is an international, multicenter, open label phase II trial using Simons two stage design. The study population is adults with histologically confirmed, advanced, inoperable TETs who are progressing after treatment with least one platinum containing chemotherapy regimen. This study is comprised of 2 similar phase II tirals, one running in EU (25 patients) and one running in US (25 patients). There are two study arms: Arm A: Thymoma - Stage 1: 15 patients - Stage 2: 10 patients Arm B: Thymic carcinoma - Stage 1: 15 patients - Stage 2: 10 patients
Study to investigate response to sunitinib in patients with thymic epithelial tumours who had progressive disease after at least one previous regimen of platinum-based chemotherapy.