View clinical trials related to Thoracic Neoplasms.
Filter by:DCE-CT of thoracic tumors as an early biomarker for treatment monitoring in comparison with morphologic criteria. 1. Rationale of the clinical investigation For the evaluation of response to anti-tumoral therapy in thoracic tumors, merely morphologic information is often not sufficient for early response evaluation as dimensions of the oncologic lesions are not changing during the first weeks of treatment. To be able to measure functional changes, dynamic contrast-enhanced CT (DCE-CT) seems promising as a biomarker for early therapy monitoring. Having an early biomarker for treatment monitoring will allow to increase patients' prognosis if a non-responder is earlier detected, will optimize the use of expensive treatments, is expected to shorten hospitalization and shorten absence at work, and to decrease side-effects of (adjuvant) medication. 2. Objective of the study 2.1.Primary objectives The primary objective is to investigate the potential of functional imaging (i.e. DCE-CT), as analyzed by the Hyperfusion analytic software, as an early biomarker for the evaluation of therapy response in primary thoracic malignancy. 2.2.Secondary objectives There are two secondary objectives: 1. To define internal system parameters and perfusion parameter thresholds that maximize the accuracy of the outcomes and to define the correct category (PD, SD, PR, CR); and 2. To compare the predicted categorization to the assessed RECIST1.1 categorization. 3. Endpoints 3.1.Primary Endpoint The primary endpoint is to directly compare the biomarker of the HF analysis software at week 3 (+- 1 week) and week 8 (+- 3 weeks) with the eventually reported Progression-Free Survival (PFS) intervals and Overall Survival (OS) in this study. PFS intervals are determined by the clinician and are based on RECIST1.1 and additional clinical and biochemical progression markers. The focus will be on evaluating the accuracy of the prediction as well as how early the prediction was correct. 3.2.Secondary Endpoints There are two secondary endpoints corresponding to the two secondary objectives. 1. The internal parameters for the HF biomarker, e.g. magnitude of the Ktrans decrease, and the change in volume of unhealthy tissue, need to be determined to define the classification (PD, SD, PR and CR) by the HF analysis software. These parameters are optimized to optimally predict the classification according to PFS and OS. This will be done by splitting the data into a train and test set to ensure generalization. 2. The classification of the HF analysis software will be compared to the purely morphological classification by RECIST1.1 to identify correlation. Furthermore, some cases will be investigated where the HF analysis performs noticeably better or worse than RECIST1.1 in predicting PFS and OS. Finally, the difference in time to the first correct prediction is compared between HF and RECIST1.1. 4.Study Design This prospective study is part of the clinical β-phase. We aim to test pre-release versions of the Hyperfusion.ai software under real-world working conditions in a hospital (clinical) setting. It is important to note, though, that the results of the software analysis will not be used by interpreting physicians to alter clinical judgement during the course of the clinical trial. A prospective study including 100 inoperable patients in UZ Gent suffering from primary thoracic malignancy (≥15mm diameter) will be conducted. For this study, in total 3 CT scan examinations of the thorax will be performed (a venous CT examination of the thorax in combination with a DCE-CT scan of the tumoral region). All patients will be recruited from the pulmonology department. Oncologic patients are clinically referred with certain intervals for a clinically indicated CT scan (being part of standard care). In the study, two clinical CT examinations that are performed standard of care (baseline CT examination and CT examination at week 8 (+- 3 weeks) after start of systemic therapy) will be executed by also adding a DCE-image of the lung adenocarcinoma to this examination. This DCE-image is performed during the waiting time before the venous/morphologic phase. Consequently, from a clinical point-of-view, the time to scan remains exactly the same. With regard to the contrast agent, an identical amount is injected as is the case in standard of care, but the contrast bolus is split in two parts - see also addendum with DCE protocol. In this study there is one additional CT-examination (DCE-scan of the thoracic malignancy in combination with venous CT scan of the thorax) at week 3 (± 1 week).
This is an external control, observational, retrospective study designed to compare clinical outcomes for pralsetinib compared with best available therapy for patients with RET-fusion positive advanced NSCLC.
This study will evaluate the efficacy and safety of alectinib in participants with Anaplastic Lymphoma Kinase (ALK)-positive locally advanced or metastatic solid tumors other than lung cancer.
Patient-reported outcome measures (PROMs) is an umbrella term that refers to any report on a health status measure that is reported directly by the patient, without the influence of clinicians or anyone else. PROMs have been shown to more closely reflect a patient's daily health status when compared to physician-reported measures. However, research is needed to evaluate if patient symptom reporting during definitive-intent radiotherapy allows earlier and improved detection of treatment toxicity. The IMPROVE pilot study will describe the proportion of patients with cancer with changes in physician-perception of treatment-related toxicity that result from routine physician review of PROMs reported during definitive radiotherapy.
Emotional skills are the ability to use emotions cleverly in daily life. Good emotional skills are associated with better mental and physical health in healthy and clinical populations. However, to our knowledge, cancer patients have never benefited from an intervention aiming at increasing their emotional skills. Our goal was thus to design and test such an intervention. A prospective, multi-center, randomized controlled trial (RCT) will be conducted in esogastric and lung cancer patients after antineoplastic treatments. Forty-three patients are expected in each arm. The primary outcome is the change in emotional skills assessed using a patient-reported validated questionnaire between the start and two weeks after the end of the intervention and at 2-month follow-up. The experimental arm will have to follow three individual sessions on emotional skills (i.e. identification, understanding, expression and regulation of emotions) while the control arm will have to follow three sessions of relaxation. In each arm, the first session can be held face to face or over the phone and the last two sessions will be held over the phone. Patients have exercises to practice in between sessions.It is hypothesised that the experimental group will experience a greater increase in emotional skills than the control group.
Mediastinal neurogenic tumors are relatively rare in children. Surgical resection is essential. Minimal invasive surgery is more and more used in pediatric population, but his evaluation for resection of thoracic neurogenic tumors is little studied. Thoracotomy has specific long terms post operative complications. When compared to thoracotomy, thoracoscopy shows less operative blood loss, shorter duration of chest tube ans length of stay. Recently, the indications of thoracoscopic approach have been assessed according to the presence or absence of image-defined risk factors (IDRF) at diagnosis and after preoperative chemotherapy in a monocentric retrospective study. The investigators aimed to conduct a multicentric retrospective study to assess the role of thoracoscopy in neurogenic thoracic tumours according to the presence or absence of IDRF at diagnosis, the surgical complications and outcome.
The aim of this study was to investigate the safety and efficacy of Sintilimab (IBI308) in patients with resectable NSCLC, and to provide new treatment options for neoadjuvant therapy in patients with stage II-IIIA NSCLC
A centralized unit for integrated management of care pathway in Oncology has been created. This unit settles the patients' appointments (biopsy, intravenous device, chemotherapy, imaging, oncologist...). The aim of this study is to assess the delay between the first appointment with the oncologist and the beginning of the antitumoral treatment, and therefore evaluate the efficacy of the care pathway unit. The second aim is to assess the satisfaction of patients and health care teams.
Participants will receive an MRI with a custom-built MRI coil for each participant. The purpose is to find out whether this custom-built MRI coil can help doctors see the different parts of the spine as well as or better than they can with standard CT myelograms.
This is an international, randomized, open-label, Phase 3 study designed to evaluate whether the potent and selective RET inhibitor, pralsetinib, improves outcomes when compared to a platinum chemotherapy-based regimen chosen by the Investigator from a list of standard of care treatments, as measured primarily by progression free survival (PFS), for participants with RET fusion-positive metastatic NSCLC who have not previously received systemic anticancer therapy for metastatic disease.