The Early Diagnosis of Pulmonary Nodule Based on Multi-dimension Messages
Pulmonary NoduleSolitary1 moreThe researchers are aimed to investigate the early diagnosis of pulmonary nodule based on DNA, RNA, protein, metabolites through analyzing the serum, plasma, urine, faeces, peripheral blood mononuclear cell (PBMC), exhaled breath condensate and clinical characteristics.
Benign/Malignant Pulmonary Nodule Classification Based on High-throughput Whole-genome Methylation...
Pulmonary NoduleSolitary1 moreLung cancer is the first cancer in China in terms of morbidity and mortality. The problem of early diagnosis/treatment has always been concerned. The popularization of chest CT (electronic computed tomography) screening makes it possible to detect lung cancer early. However, the diagnosis still needs pathological evidence. It is an ideal choice to obtain pathological evidence through bronchoscope and other minimally invasive means before surgical resection. However, the positive rate of tracheoscopy is still unsatisfactory, which is related to the difficulty of traditional pathological detection in detecting small specimens obtained by tracheoscopy. Liquid biopsy technology based on methylation detection has been used in early cancer screening, but its advantages have not been fully exploited due to the low content of ctDNA (circulating tumor DNA) in the current detection samples. Therefore, through prospective clinical research, the investigators plan to combine the methylation detection technology based on "Whole genome methylation sequencing(GM-seq)" with tracheoscopy, compare the traditional pathological methods with methylation detection on the bronchoscopic samples of lung nodule subjects suspected of early lung cancer, and take the postoperative pathology as the gold standard for judging benign and malignant, to confirm the feasibility and advantages of the new technology.
Virtual Bronchoscopic Navigation to Increase Diagnostic Yield in Patients With Pulmonary Nodules...
Pulmonary NodulesSolitaryBackground Transthoracic computed tomography (CT)-guided procedures are the current gold Standard for obtaining diagnostic biopsies of solitary pulmonary nodules (SPN) in the peripheral lung. Novel endobronchial techniques, such as electromagnetic navigation bronchoscopy (ENB) or Virtual bronchoscopic navigation (VBN) are considered safer to approach SPNs. The newest technique combines VBN with calculating the access to a SPN via a transparenchymal route. In contrast to the gold Standard transthoracic approach, also small lesions, and lesions which cannot be reached transthoracicaliy, located in the innertwo thirdsof the lung can be approached. Main research question To assess diagnostic yield of the novel Standard of care 'Virtual bronchoscopy navigation" procedure. Design (including population, confounders/outcomes) A single centre, prospective, observational study of patients undergoing the novel Standard of care Virtual bronchoscopy navigation procedure to assess a pulmonary nodule. Clinical data of at least 100 consecutive patients will be collected.
LungLB in Subjects Presenting With Indeterminate Pulmonary Nodules
Solitary Pulmonary NoduleMultiple Pulmonary NodulesCorrelate performance of LungLB Test with outcome of a scheduled biopsy.
Mobile Lung Nodule Observatory for Worldwide, Evidenced-based Research
Solitary Pulmonary NodulePatients with lung nodules may develop a variety of potentially severe symptoms. These symptoms may impact a patient's quality of life and lead to difficult treatment. Through this research program, the investigators want to understand the pathogenesis of the changes of these symptoms.
Virtual Management of Lung Nodules
Pulmonary NoduleSolitary2 moreThis is a study to determine how a virtual model for the management of lung nodules compares to a face-to-face clinic for patient satisfaction, quality of life and cost.
Augmented Reality-assisted Localization of Solitary Pulmonary Nodules for Precise Sublobar Lung...
SPNLung CancerWith 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.
Comparative Study of Nonintubated Uniport Thoracoscopic Surgery Using Thoracic Paravertebral Nerve...
Peripheral Solitary Pulmonary Nodule or TuberculomaThe aim of this study is to study the safety and effectiveness of the effects on the perioperative pain control comparing between the thoracic paravertebral nerve block using the camera guided and the intrathoracic intercostals nerve block for the management of nonintubated local regional analgesia in uniport thoracoscopic surgery for the undetermined solitary nodules patients.
A Clinical Study of Optimized CT-guided Pulmonary Nodule Microcoil Localization Technique
Pulmonary NoduleSolitaryIn the early stage of the study, the CT-guided micro-coil locating method for pulmonary small nodules was optimized. This study will use a single set of target values non-randomized controlled trials to evaluate the safety and effectiveness of the optimized pre-loaded micro-coil locating method in pulmonary small nodules.
Dynamic Evolution of Pulmonary Nodules and Influence Factors of Its Clinical Decision-making
Pulmonary NoduleSolitary2 moreThe researchers are aimed to investigate the dynamic evolution of indeterminate pulmonary nodules by a long-term follow-up of patients with different characteristics. Influence factors of clinical decision-making that might contribute to overtreatment or delayed treatment will also be studied.