View clinical trials related to Thoracic Neoplasms.
Filter by:This clinical trial evaluates earlier symptom management through remote electronic symptom monitoring (such as through an app on patient's phone), and accessibility of palliative care self-referral by patients with thoracic cancer and caregivers by proxy (legal representative). Thoracic cancer occurs in the chest and often causes symptoms for patients. Patients and/or their caregivers are often unable to attend in-person clinic visits for various reasons. The most frequently reported symptom by patients at initial palliative care consultations is pain, and caregivers' most common concerns are pain management for the patient, stress reduction, and fears about patient decline. Earlier palliative care referral can help control these symptoms before they worsen, providing a better quality of life for patients and caregivers. improve physical and emotional functioning for patients and caregivers in cancer care. This study may help researchers learn how an electronic symptom monitoring program may provide an earlier and more accessible way for patients with thoracic cancer to receive palliative care.
To estimate parameters related to clinical outcomes in a real-world seeting, including investigator reported PFS and OS.
Evaluation of clinical and dosimetric aspects, tolerance, and effectiveness of thoracic radiotherapy treatments in patients undergoing radiotherapy for primary or secondary neoplasms localized in the thoracic anatomical region.
The study aims to determine maximum tolerated dose (MTD) or recommended combination dose of the MTA-cooperative PRMT5 inhibitor AMG 193 administered in combination with other therapies in adult participants with metastatic or locally advanced methylthioadenosine phosphorylase (MTAP)-deleted thoracic tumors. The study also aims to determine the safety profile of AMG 193 administered in combination with other therapies in adult participants with metastatic or locally advanced MTAP-deleted thoracic tumors.
This prospective registry-based trial will include patients with pelvic or thoracic tumors with an indication for radiotherapy treated with oART or IGRT. For the primary endpoint and the secondary clinical endpoints, the trial will compare oART versus IGRT, for technical endpoints the trial will compare the real oART scenario with two virtual (hypothetical) control scenarios. Primary endpoint: - 10% reduction in the rate of acute radiotherapy related toxicity (≥ CTCAE II°, v5.0) using oART Secondary endpoints: - Clinical endpoints: Tumor control, late toxicities compared to conventional irradiated patients, quality of life and patient-reported outcomes - Technical endpoints: Target volume, target coverage, dose to organs at risk, anatomical variability score
This is an open-label, single arm Phase II study designed to evaluate the efficacy and safety of adebelizumab combined with carboplatin/Cisplatin plus (+) etoposide and concurrent radiotherapy in the first-line treatment of patients with extensive stage oligometastatic small cell lung cancer.
High-risk patients scheduled for thoracic cancer surgery are increasing and theoretically eligible to perioperative individualized goal-directed fluid therapy (GDFT). However, thoracic surgery is challenging for intraoperative stroke volume (SV) and/or cardiac output monitoring because it requires lateral positioning, one-lung ventilation, and open-chest condition. Pulse contour analysis and esophageal Doppler have been proposed with contrasting results, whereas dynamic indices have been shown useless for predicting fluid responsiveness in that specific setting. Besides, more invasive technologies like thermodilution are not routinely used at the bedside by careproviders. Chest bioreactance seems to be a feasible, safe, rustic, easy-to-use, and plug-and-play method to non-invasively and continuously monitor SV and cardiac output in thoracic cancer surgery patients, able to detect significant spontaneous and pharmacologically-induced changes over time. To know if chest bioreactance could be used to conduct perioperative GDFT and impact patients 'outcome remains however to be demonstrated. Indeed, the routine fluid management in patients undergoing thoracic cancer surgery could be responsible of hypovolemia/hypoperfusion and/or hypervolemia/congestion leading to postoperative complications and poor outcomes. The present national prospective multicenter randomized simple blind study aims to demonstrate that an individualized goal-directed fluid therapy (GDFT) driven by chest bioreactance improves outcomes within 30 days in thoracic cancer surgery patients when compared with a standard of care. As double blind is not possible, an adjudication committee, whose members will be unaware of the procedure assignments, will adjudicate all the clinical outcomes.
To explore the effect of a family-centered, eight-week, progressive sit-to-stand Tai Chi exercise on lung function and mental health in patients after thoracoscopic surgery_
The primary objective of this study is to evaluate the performance of the Ion Endoluminal System with real-world use for pulmonary lesion localization or biopsy.
In patients undergoing minimally invasive thoracoscopic surgery (video-assisted thoracoscopic surgery, or VATS), moderate to severe post-operative pain may often be experienced. The presence of pain negatively affects the perceived quality of care and can predispose to complications, as the development of chronic pain. In order to prevent post-operative pain, different multimodal pain treatment protocols are applied, consisting in combinations of local-regional anesthesiological techniques and intravenous medications. Regional anesthesia is considered essential to prevent pain in the immediate post-operative period. However, to date, there is no agreement regarding which is the most effective regional anesthesiological technique; therefore, the choice is usually based on the Anesthetist's preferences. The aim of this study is to compare three regional anesthesiological techniques (cryoanalgesia, epidural anesthesia, and erector spinae muscle plane block) routinely used during thoracoscopic lung surgery.