Lung Cancer Clinical Trials

Showing 741-760 of 2,032 trials

The Development and Study of a 3D-Printed Model for Surgical Planning of Lung Cancer with Realistic Subsegmental Boundaries and Complete Tissue Structures

NCT06507774

This project focuses on the development of a precision multi-organ surgical planning model aided by artificial intelligence (AI), computer-aided design (CAD), multi-material 3D printing, and multimodal 3D modeling. The integration of these advanced technologies aims to enhance the accuracy and efficiency of preoperative planning for complex surgical procedures involving multiple organs. By leveraging AI and CAD, the project seeks to create detailed, patient-specific 3D models that incorporate various imaging modalities. These models will be used to guide multi-material 3D printing, producing highly accurate replicas of anatomical structures. The ultimate goal is to improve surgical outcomes by providing surgeons with precise and comprehensive tools for planning and executing intricate surgeries.

Lung Cancer

Ke Zhang150 participantsStarted Jan 2023

Baoding, Hebei, China

RECRUITING

The Effects of Programmed Death-ligand 1 on Postoperative Pain for Lung Cancer Patients

NCT06503432

The concentration of plasma programmed death-ligand 1(PD-L1) for lung cancer patients before video-assisted thoracoscopic surgery is detected. According to the distribution of plasma concentration, patients are divided into high or low expression of PD-L1. Differences in acute and chronic postoperative pain are compared between two groups of patients. And effects of PD-L1 expresion on postoperative pain in lung cancer patients are explained.

Lung CancerPostoperative Pain

Peking University People's Hospital100 participantsStarted Jul 2024

Beijing, Beijing Municipality, China

WITHDRAWNPHASE1/PHASE2

Harnessing Allo-immunity to Enhance Immune Checkpoint Inhibitor Responses in Advanced NSCLC

NCT06064279

Veterans with advanced lung cancer may benefit from recent advances in technologies that is designed to change the activities of their own white blood cells and help kill tumors. However, many cancers can hide from white blood cells making white blood cells less effective in killing tumors. In this study the investigators plan to boost the activity of patients white blood cell by making tumor cells more visible to the white blood cells. This will be done by injecting antibodies and a new drug that together can make white blood cells inside tumors more active. The investigators plan to recruit sixteen people with advanced lung cancer to make sure that this treatment, which has not been done in any humans, is safe and well tolerated.

Stage IV NSCLC

VA Office of Research and DevelopmentStarted Jun 2024

Houston, Texas, United States

The Development and Study of a 3D-Printed Model for Surgical Planning of Lung Cancer with Realistic Subsegmental Boundaries and Complete Tissue Structures

The Effects of Programmed Death-ligand 1 on Postoperative Pain for Lung Cancer Patients

Harnessing Allo-immunity to Enhance Immune Checkpoint Inhibitor Responses in Advanced NSCLC

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