View clinical trials related to Lung Cancer.
Filter by:The purpose of this study is to find out whether treatment with the study drug durvalumab combined with a type of radiation therapy called stereotactic body radiation (SBRT) is a more effective treatment for early-stage non-small cell lung cancer (NSCLC) than SBRT alone.
The purpose of this Phase I, Multi-Center, Open-Label Study is to evaluate the safety, tolerability, Pharmacokinetics, Pharmacodynamics and anti-tumor activity of KF-0210 in participants with advanced solid tumors. The study will be conducted in two parts: phase Ia, and phase Ib.
This study is a multicenter, ambispective observational study that will collect data focusing on patients with lung cancers in Canada. The study will begin with ALK, EGFR, ROS1, ERBB2 (HER2), exon 20 EGFR mutation, MET and BRAF patients, with the goal of expanding into other rare molecular alterations within year 2
This is a phase Ib/II open label study. The escalation part will characterize the safety and tolerability of JDQ443 single agent and JDQ443 in combination with the other study treatments (TNO155 and tislelizumab) in advanced solid tumor patients. After the determination of the maximum tolerated dose / recommended dose for a particular treatment arm, dose expansion will assess the anti-tumor activity and further assess the safety, tolerability, and PK/PD of each regimen at the maximum tolerated dose / recommended dose or lower dose.
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.
RSC-101 is a Phase 1a/1b clinical trial of RSC-1255 in adult study participants with advanced solid tumor malignancies who are intolerant of existing therapies known to provide clinical benefit, have disease that has progressed after standard therapy, or have previously failed other therapies. The study has two phases. The purpose of Phase 1a (Dose Escalation) is to confirm the appropriate treatment dose and Phase 1b (Dose Expansion) is to characterize the safety and efficacy of RSC-1255.
The purpose of the study is to assess whether lung ultrasound is able to detect lung injury after lung resection surgery.
Mediastinal lymph node (LN) involvement (N2) in non-small cell lung cancer (NSCLC) concerns 15% of resectable tumors and is associated with a poor prognosis and an overall survival reaching 9 to 49%. Literature fails to provide any definitive consensus regarding the management of these patients, except for the platinum-based doublet chemotherapy. The N2 involvement remains a matter of debate because of its not yet well-classified heterogeneity. Regarding anatomy, the Mountain and Dresler's regional LN classification for lung cancer staging remains the reference. Different studies classified IIIA-N2 disease into 4 groups, in addition to the skip-N2 phenomenon: minimal-N2, N2 single station, N2 multiple stations, and bulky-N2. Other subgroups were recently proposed for the 8th edition of the TNM: N2a1 - single station skip, N2a2 - single station non-skip, N2b - multiple stations. The French National Cancer Institute (INCa) proposed guidelines, but in case of cN2 staging without mediastinal infiltration, guidelines remained imprecise ("resectability should be discussed for each case") and suggested surgery first, or induction chemotherapy, or concomitant chemoradiation. Thus, optimal management of cIIIA-N2 remains controversial but complete tumor resection can be related to long-term survival in some patients, including 10 years after surgery [1]. In this situation, the identification of markers that will help select IIIA-N2 patients who will benefit from surgical resection is mandatory.
Study aims to determine if functional lung avoidance based on perfusion single photon emission (SPECT)/CT scan, improves toxicity outcomes for patients with advanced lung cancer undergoing chemo-radiotherapy. Functional avoidance implies a dose plan that takes functional distribution in the lung into account, and avoids highly functional lung volumes sparing them from radiation.
To test the impact of a multilevel intervention on primary (provider-patient communication, intentions, and knowledge) and secondary (screening referrals and completion) outcomes.