View clinical trials related to Lung Cancer.
Filter by:This is a multicenter, single arm, 3-cohort, open-label trial of high dose Vitamin C intravenous infusion in subjects with solid tumor malignancies who are eligible for resection (cohort A) or with extended RAS (e.g.KRAS or NRAS) or BRAF mutation metastatic cancer who have received prior systemic treatment (cohort B). Cohort C will involve patients with colorectal cancer having an extended RAS or BRAF mutation who are amenable for localregional therapy of hepatic metastases with Yttrium-90 radioembolization.
Construction of a large cohort of lung cancer patients to evaluate the Prognostic and Predictive Significance of the molecular biomarkers Epidermal growth factor receptor (EGFR), KRAS, Anaplastic lymphoma kinase (EML4-ALK), Programmed Death-Ligand 1 (PD-L1) protein and Microsatellite Instability (MSI) in lung cancer: A tissue microarray-based study of 500 cases.
This is a phase 1b/2 study to evaluate the safety, tolerability, and efficacy of ETBX-011 vaccine used in combination with ALT-803 in subjects with locally advanced or metastatic CEA-expressing cancers whose tumor has recurred after standard-of-care treatment.
Surgical treatment of lung cancer consists of two elements: anatomical lung resection (segmentectomy, lobectomy or pneumonectomy) followed by mediastinal lymph node dissection (MLND). Since over last 15 years the growing rate of resection is performed by minimal invasive approach - video-assisted thoracoscopic surgery (VATS). The study is focused on the clinical and technical aspects of MLND during VATS lobectomy. The extension of lymph nodes resection is strictly specified. The main benefit of MLND for the patient is precise histopathological staging, which allows choosing the best therapeutic option of adjuvant therapy. MLND is related with potential minor and major complications (bleeding, increased volume of chest tube drainage, prolonged chest tube duration and hospital stay, chylothorax, left recurrent laryngeal nerve injury, injury of the bronchus, injury of the esophagus). The majority of complications are caused by thermal injury resulting from the use of heat-generating monopolar electrocautery that is commonly used during lymph nodes dissection. In addition, thermal energy generation in case of monopolar electrocautery may lead to systemic inflammatory response and increased surgical injury. High-energy sealing devices like LigaSure™ allow for dissection, coagulation and cutting with the single instrument. Compared to mechanical ligation techniques (vessel loops, clips) or monopolar electrocautery, LigaSure™ technology has been shown to reduce: intraoperative blood loss (in colorectal, gynecologic and urologic surgery), surgery time (in colorectal, gynecologic and urologic surgery), length of hospital stay (in gynecologic and urologic surgery). Investigators hypothesize that application of LigaSure™ in VATS anatomical resection may lead to diminished complications rate, lower systemic inflammatory response and shorter length of stay compared to monopolar electrocautery.
Little is known about the safety of body radiation therapy (SBRT), especially the impact on pulmonary function, quality of life, and on functional changes within the lung itself. Radiation dose constraints and capturing functional changes on imaging are not well studied in this setting. The current study aims to evaluate the utility of advanced imaging to measure lung function prior to and after treatment and to assess the feasibility of using this data to adapt SBRT planning.
By utilizing fitness trackers, this study aims to demonstrate that a simple walking program improves patients' ability to tolerate curative concurrent chemoradiotherapy without treatment interruption.
Patients on this observation study must have planned treatment regimen with concurrent CRT followed by planned surgery, which is considered as standard of care for their disease. The total radiation dose will be 50.4 Gy in daily fraction of 1.8 Gy for esophageal cancer and 60 Gy in daily fraction of 2 Gy for non-small cell lung cancer. The concurrent chemo regimen will carboplatin-paclitaxel managed by the treating medical oncologist. Patients are planned to receive surgery at approximately 6 to 9 weeks (maximum 12 weeks post-CRT) after finishing CRT with surgical aspects determined by the treating surgical oncologist. Patients on this observation study will donate their blood samples within 4 weeks before initiating CRT, within 1 week before completing CRT, 1 month after CRT, and 1 month after surgery (or 3 months after CRT if surgery is not done for any reason). They are also requested to fill out questionnaires (EORTC QLQ-30, EORTC QLQ-OES18, and Pain Scale as attached) prior to CRT, weekly during CRT, 1 month after CRT, 1 month after surgery (or 3 months after CRT if surgery is not done for any reason), and 6 months after CRT. Any patients with incomplete treatment will have samples collected up to the point where they discontinue. The specimen collection, handling and processing will be done by Protocol Support Lab (PSL) at Fox Chase Cancer Center under the directions of the Director, R. Katherine Alpaugh, PhD, following the procedures outlined in PSL lab manual. The patients in this observation study will be asked to donate a tissue specimen after the definitive surgery for investigation.
This research study is evaluating a behavioral intervention designed to help people with advanced lung cancer manage dyspnea (i.e., breathlessness or shortness-of-breath).
This is a phase II single centre open label single arm pre-operative window of metformin treatment in stage I-IIIa Non small cell lung cancer. In which patients will be invited to participate by receiving Metformin treatment during 14 to 21 days at 850 mg BID until the day before surgery. They will be followed closely for any Adverse Events during treatment and 30 days after surgery. During treatment there will be no follow up tests except 1 fasting blood glucose at week 2 of treatment. Survival data will be prospectively gathered after study treatment has ended until death.
The purpose of the study is to determine the feasibility and preliminary efficacy of a combined therapeutic yoga and resistance exercise intervention for individuals with lung cancer and their caregivers. The investigators aim is to help reduce the fear of exercise by tailoring the program to meet the specific needs of the survivor with lung cancer. The investigators want to see whether individuals with lung cancer and their caregivers are interested in participating in this type of program, and if they are able to attend the intervention sessions and complete the program. The investigators also plan to study the preliminary effects of therapeutic yoga and resistance exercise on fitness outcomes for both individuals with lung cancer and their caregivers.