View clinical trials related to Lung Cancer.
Filter by:Lung cancer is a malignant tumor with the highest incidence and mortality rate of cancer patients worldwide. Traditional treatments for lung cancer include surgery, radiotherapy and chemotherapy, etc. Although the growth and spread of the tumor can be controlled to a certain extent, the cure rate for patients with progressive stage is still low and the prognosis is poor. Neoadjuvant therapy intends to use chemotherapy, immunotherapy, and targeted therapy to reduce the size and load of the tumor before surgery, to improve the surgical resection rate and therapeutic effect. 1. Primary research objective: to explore the therapeutic efficacy of patients with different characteristics under different neoadjuvant therapeutic regimens. 2. Secondary objectives To investigate the strengths and weaknesses of different neoadjuvant regimens in real-world clinical practice, and to investigate the long-term outcomes of patients treated with different regimens.
The goal of this clinical trail is to compare the effects of preoperative exercise training of different intensities on short-term cardiorespiratory function and postoperative outcomes in patients scheduled for lung resections.
The research study aims to create a program for lung cancer screening attendance
Single-POrt Robotic-assisted thoracic surgery versus single-port video-assisted Thoracic Surgery major pulmonary resection for patients with non-small cell lung cancer (SPORTS trial): a single-center, a single blinded, randomized controlled trial
For patients diagnosed with non-small cell lung cancer (NSCLC), lung resection surgery remains the gold standard for curative treatment. This scheduled operation is associated with significant morbidity, particularly in individuals with impaired cardio-respiratory function. Therefore, patient optimization is paramount. The process begins prior to surgery with preoperative rehabilitation, commonly referred to as "prehabilitation," serving as the foundation for various Enhanced Recovery After Surgery programs. The training methods employed in these programs bear similarity to rehabilitation programs designed for patients with chronic obstructive pulmonary disease (COPD). Postoperatively, patients undergoing thoracic surgery partake in daily physiotherapy sessions, aiming to optimize the postoperative period, minimize the respiratory impact of surgery, and reduce the length of hospital stay. However, this treatment is not currently standardized and primarily involves early mobilization, including walking, and respiratory physiotherapy. Our focus is on the intensity and methods of this postoperative rehabilitation. There is limited literature on effective early rehabilitation in the immediate postoperative period, and existing studies suggest no adverse events associated with postoperative training. Therefore, our objective is to assess whether combining endurance training with standard physiotherapy (walking and respiratory physiotherapy) enhances the functional capacity of individuals undergoing lung surgery.
This study is a single-center, single-arm, open-label, phase II clinical trial designed to evaluate the efficacy and safety of Paclitaxel Polymeric Micelles for Injection for the treatment of patients with advanced pancreatic adenocarcinoma, cholangiocarcinoma, lung cancer, gastric cancer, esophageal carcinoma, or breast cancer that are resistant to Taxanes. Subjects are given paclitaxel polymeric micelles for injection, three weeks constitutes one cycle of treatment. If subject does not develop disease progression , the subject continues treatment until disease progression (RECIST 1.1) or develops an intolerable toxicity, initiation of a new anti-cancer drug, withdrawal from the study, death, or loss of follow-up. This is a single-arm, small-sample clinical study with the primary efficacy goal of objective remission rate (ORR). The parameters of the trial were set: assuming a class I error of 0.025 unilaterally, power=90%, and a 15% improvement in ORR for objective remission rate, a total of 20 subjects would be required, and a total of 25 would be required for enrolment, taking into account a 20% shedding.
This is a behavioral trial study to pilot test a stress management intervention for people with cancer who are undergoing routine cancer scans. The study will involve two pilot testing phases. Initial feasibility will be determined in an Open Trial phase, to inform any needed revisions to the intervention and/or protocol prior to a Pilot Randomized Controlled Trial phase. The Open Trial phase is an unblinded, single-site, single-arm open trial (n=10). The Pilot randomized clinical trial (RCT) phase is an unblinded, single-site, feasibility pilot randomized controlled trial (n=50).
To assess the effect of web-based 360° Virtual Reality movies on fear and anxiety, The investigators would like to assess the patient-perceived level of fear and anxiety quantitatively, making use of several questionnaires.
The third generation of GPC3/mesothelin targeted CAR-γδT cells have been constructed and their anti-cancer function has been verified by multiple in vitro and in vivo studies. Clinical studies will be performed to test anti-cancer function of the CAR-γδT cells for immunotherapy of human cancer patients with GPC3 or Mesothelin expressions. In this phase I study, the safety, tolerance, and preliminary efficacy of the GPC3/Mesothelin-CAR-γδT cell immunotherapy on human cancers will firstly be evaluated.
In the past three years, as the key protein suggested to be involved in host cell entry of SARS-CoV-2, studies of ACE2 aroused people's attention again. Tracking the expression of ACE2 in vivo is crucial to further understanding of COVID-19, dynamically monitoring the effect of antiviral therapy and the development of related vaccines. It is also expected to further conduct in-depth research on the physiological effects of ACE2 and RAAS, and the mechanism of ACEI/ARB (32). With the development of both molecular imaging agents and related equipment, several ACE2-targeting PET imaging agents have been investigated based on different strategies while some of them were tested in clinical trials. The aim of this study was to intercept key ACE2-binding sites from coronavirus RBD and test their potential as ACE2-targeting PET agents.