View clinical trials related to Lung Cancer.
Filter by:With the popularization of CT screening, the detection rate of small lung nodules has greatly increased. Therefore, the clinical thoracoscopic lung nodule biopsy and sub-lobectomy for radical resection of lung cancer are greatly required. Accurate resection of lung nodule depends on precise localization of pulmonary nodules. However, preoperative CT-guided Hook-wire positioning under local anesthesia, which is the current primary localization method, requires high equipment and expense, and may cause physical and mental trauma to the patient. Augmented reality (AR) is an innovative technology that superimpose a virtual scene into the real environment by fusing images, videos, or computer-generated models with patients during surgical operations. It can visually display the anatomical structures of organs or lesions, which significantly improves surgical efficiency. This project intends to use AR technology to localize the solitary pulmonary nodule (SPN) before surgery, compared with CT-guided Hook-wire localization. Compared with the localization of SPNs under CT guidance, AR-assisted localization technology apparently is less time-consuming and can be performed immediately before surgery under general anesthesia, lessening pain, reduce costs of time and equipment, increase the success rate of sub-lobectomy, and improve the overall efficiency of surgical treatment of pulmonary nodules.
This study is a retrospective multi-center chart review of patients who underwent an attempted biopsy of one or more pulmonary lesion(s) with the Ion Endoluminal System with the aim of assessing the overall performance of the system.
The objective of this study is to construct a noninvasive approach using 68Ga-THP-APN09 PET/CT to detect the PD-L1 expression of tumor lesion in patients with lung cancer, melanoma and other solid tumor to identify patients benefiting from anti-PD-(L)1 treatment.
This study was comprised of 30 patients who were scheduled for a diagnostic bronchoscopy due to a suspicion of lung cancer in order to obtain tissue samples for a final diagnosis , four biopsies were taken by each of cryobiopsy and forceps biopsy , to evaluate and compare the diagnostic yield of endobronchial cryobiopsy and forceps biopsy in the diagnosis of lung cancer .
Data collection and assessment on patients with left-sided breast cancer or undergoing lung stereotactic body radiation therapy (SBRT) utilizing continuous positive airway pressure (CPAP) devices.
The purpose of this study is to understand the breadth of molecular characteristics present in participants cared for in a large integrated, community-based health care system. Using comprehensive genomic profiling and proteomics, the investigators seek to identify the underlying genomic drivers of premalignant or malignant conditions in participants across different stages of disease development and cancer types. Comprehensive molecular profiling will consist of somatic tumor testing (tissue and/or blood) using whole exome sequencing, whole transcriptome sequencing, proteomics, and selected instances of whole genome sequencing. In addition, the investigators seek to perform broad hereditary cancer testing in affected participant populations. Hereditary testing has implications in screening, prognosis, and therapeutics for affected participants, as well as broad implications for genetic counseling and cascade testing. In order to maximize the value of genomic information, participants consented to this protocol will have their electronic health records (both retrospectively and prospectively) abstracted, curated, annotated and linked to genomic information obtained though the testing performed. Given the long-term value of this data, participants will also be asked to voluntarily consent to have their samples stored in a biobank and have their de-identified information used for future research. Information collected across this participant population will aid in advancing the investigators' knowledge of cancer biology, to discover and validate biomarkers associated with clinical outcomes, and shared in collaborative projects in order to promote the study of cancer.
This feasibility pilot study is designed to learn whether patients and their care partners (e.g., family members) are willing and able to complete two study visits at Dartmouth College while receiving cancer care at Dartmouth-Hitchcock Medical Center.
This study will assess the effectiveness of a natural nutraceutical in treating the known side effects of chemotherapeutic agents in cancer patients.
Morbidity in the post-operative phase of pulmonary surgery is characterised by impairment due to pain, dyspnoea and loss of exercise tolerance. We demonstrated previously that rehabilitation after thoracotomy is limited due to pain. Since minimal invasive surgery is the new standard in lung cancer, resulting in a reduction of postoperative pain, we believe there are new possibilities for post-operative integrated multidisciplinary rehabilitation in lung cancer.
Lung cancer is a major public health problem and remains the leading cause of cancer mortality worldwide. Moreover, in France, it is the 3rd most common cancer in terms of incidence. Its prognosis remains poor despite the emergence of new therapies, notably the Epithelial Growth Factor Receptor (EGFR) specific tyrosine kinase inhibitors which can be used in patients with adenocarcinoma presenting an activating mutation of EGFR. In addition, a number of questions remain regarding the use of these molecules, including the possibility of combining them with other therapies such as chemotherapy or radiotherapy. In addition, the duration of treatment with tyrosine kinase inhibitors is a matter of debate, mainly in localised forms (ADAURA trial). For this reason, we have proposed tests using TKIs on an in vitro platform based on organoid formation from tumour biopsies of NSCLC patients. This model will allow to test different molecules, in particular osimertinib which is a third generation tyrosine kinase inhibitor. In this way, it will be possible to evaluate in vitro responder patients within a timeframe compatible with the timeframe proposed by the INCA (4-6 weeks). For non-responders, it will also be possible to screen them in vitro and seek the ideal alternative therapy. This model therefore aims to develop personalised medicine in thoracic oncology and could be used as a decision aid during multidisciplinary consultation meetings.