91 Clinical Trials for Various Conditions
This clinical trial studies whether a biomarker platform, the Virtual Nodule Clinic, can be used for the management of lung (pulmonary) nodules that are not clearly non-cancerous (benign) or clearly cancerous (malignant) (indeterminate pulmonary nodules \[IPNs\]). The management of IPNs is based on estimating the likelihood that the observed nodule is malignant. Many things, such as age, smoking history, and current symptoms, are considered when making a prediction of the likelihood of malignancy. Radiographic imaging characteristics are also considered. Lung nodule management for IPNs can result in unnecessary invasive procedures for nodules that are ultimately determined to be benign, or potential delays in treatment when results of tests cannot be determined or are falsely negative. The Virtual Nodule Clinic is an artificial intelligence (AI) based imaging software within the electronic health record which makes certain that identified pulmonary nodules are screened by clinicians with expertise in nodule management. The Virtual Nodule Clinic also features an AI based radiomic prediction score which designates the likelihood that a pulmonary nodule is malignant. This may improve the ability to manage IPNs and lower unnecessary invasive procedures or treatment delays. Using the Virtual Nodule Clinic may work better for the management of IPNs.
Lung Neoplasm
chest x-rays will be analyzed by AI software for a secondary read of lung nodules. Chest x-rays will either be sent to the AI tool to be read or to radiologists to read. If the image is sent to the AI tool, the AI software will generate a report on if it detects a lung nodule or not. The image will then be sent to a radiologist to determine if there is agreement or disagreement with the AI tool.
Lung Nodule
The goal of this observational study is to learn how a physician uses the results of the Percepta® Nasal Swab test to manage people with a newly identified pulmonary nodule. The main questions it aims to answer are: * Does the use of the Percepta Nasal swab test reduce the number of invasive procedures in people with a low-risk result and whose nodule is benign? * Does the use of the Percepta Nasal swab test decrease the time to treatment in people with a high-risk result and whose nodule is cancer? Participants will be randomly assigned to either a group where the test result is provided to the physician (test arm) or to a group where the test result is not provided (control arm). Researchers will compare management of participants in the two groups.
Pulmonary Nodule, Solitary, Lung Cancer
This is a prospective, multicenter observational study aim at estimating the potential clinical utility of the CBM and at establishing the SOPs and protocols for a future randomized control trial.
Pulmonary Nodule
This is a pragmatic clinical trial that will study the effect of a radiomics-based computer-aided diagnosis (CAD) tool on clinicians' management of pulmonary nodules (PNs) compared to usual care. Adults aged 35-89 years with 8-30mm PNs evaluated at Penn Medicine PN clinics will undergo 1:1 randomization to one of two groups, defined by the PN malignancy risk stratification strategy used by evaluating clinicians: 1) usual care or 2) usual care + use of a radiomics-based CAD tool.
Lung Cancer, Pulmonary Nodule, Solitary
The study team hypothesizes that incidentally discovered pulmonary nodules are often under captured and/or not surveilled in accordance with published guidelines in the Montefiore Health System, which cares for a large proportion of Black and Hispanic patients. Incidental Pulmonary Nodules (IPNs) require a pragmatic approach to follow-up and management, especially in racially disparate populations who have greater potential for lung cancer morbidity and mortality.
Lung; Node
The primary objective of this pilot observational study is to evaluate the accrual and retention rate of a study population from a centralized lung cancer screening program to support MRI and blood-based biomarker research for lung cancer screening.
Lung Cancer
The overall goal is to evaluate the role of a Virtual Navigation (VN) system (the Virtual Navigator) in the bronchoscopic evaluation and tissue sampling of lung cancer and other chest lesions at the Penn State Hershey Medical Center (HMC). The Virtual Navigator is a software package that runs on a mobile Windows-based computer. The computer takes in up to four clinical image/video sources, ordered by the clinician for clinical purposes: 1) 3D CT (computed tomography) imaging scan; 2) 3D PET (positron emission tomography) imaging scan (optional); 3) Bronchoscopic video of the airway tree interior; 4) Ultrasound video of scanned anatomy outside the airways, as provided by an endobronchial ultrasound (EBUS) probe (optional). During a live guided procedure, the Virtual Navigator presents images that assist with navigating the bronchoscope to predesignated chest lesions. Lung cancer patients that present a suspicious peripheral tumor on their chest CT scan are often prescribed to undergo a diagnosis-and-staging bronchoscopy, whereby the bronchoscopist examines both the suspect tumor and any identified central-chest lymph nodes. For the clinical study, we consider bronchoscopy performance for two cohorts: 1) a cohort of consented patients who undergo image-guided bronchoscopy via the Virtual Navigator; and 2) a historical controls cohort consisting of patients who underwent bronchoscopy recently at our medical center (state-of-the-art bronchoscopy practice). The study's general hypothesis is that an image-guided bronchoscopy system (the Virtual Navigator) that integrates 3D imaging, bronchoscopy, and EBUS images enables more complete evaluation and sampling of chest lesions than current state-of-the-art clinical techniques. More specifically, for peripheral-tumor diagnosis, the sub-hypothesis is that the VN system increases diagnostic biopsy yield as compared to state-of-the-art bronchoscopy practice; for central-chest nodal staging, the sub-hypothesis is that the VN system enables the sampling of more lymph nodes than state-of-the-art bronchoscopy practice.
Lung Cancer
The overall objective of this study is to evaluate procedure characteristics of pulmonary nodule biopsies using the integrated version of Cios Spin and the Ion Endoluminal System.
Lung Cancer
This clinical trial compares the addition of needle-based confocal laser endomicroscopy (nCLE) and fluorescein to endobronchial ultrasound-guided transbronchial needle aspiration (EBUS TBNA) with EBUS TBNA alone for the diagnosis of lung cancer in patients with peripheral pulmonary nodules. EBUS TBNA is a diagnostic procedure that can be used to sample lung tissue. nCLE is a novel high-resolution imaging technique that uses a laser light to create real-time microscopic images of tissues. It can be integrated into needles allowing real-time cancer detection during endoscopy. Fluorescein is an imaging agent that can be used to visualize tissue. Using nCLE and fluorescein in combination with EBUS TBNA may be more effective in diagnosing lung cancer than using EBUS TBNA alone.
Lung Carcinoma
The goal of this study is to determine if cone beam computed tomography (CBCT) is a viable alternative imaging guidance modality for percutaneous transthoracic needle biopsy (PTNB) in a community hospital-based practice, and to determine the incidence of CBCT PTNB-associated pneumothorax compared to multidetector computed tomography (MDCT) guided PTNB biopsy. The standard of care in this facility is MDCT guided PTNB biopsy. The experimental arm of this study is CBCT-guided PTNB biopsy. This prospective study will identify patients planned for PTNB. Thereafter, data on lesion characteristics, imaging findings, and clinical history will be collected. Patients will be subsequently randomly assigned to undergo biopsy using either CBCT or MDCT guidance. This study will analyze the pneumothorax incidence between groups, and assess for associations between lesion size/location, pertinent imaging findings, and clinical risk factors.
Lung Diseases
This research study to determine the effectiveness of the AveCure Flexible Microwave Ablation Probe to destroy cancerous lung nodules up to 3 c m in size. This research study involves microwave ablation (MWA)
Stage I - II Primary Lung Cancer, Stage I Lung Cancer, Stage II Lung Cancer, Lung Cancer Stage I, Lung Cancer Stage II, Lung Cancer
Correlate performance of LungLB Test with outcome of a scheduled biopsy.
Solitary Pulmonary Nodule, Multiple Pulmonary Nodules
The purpose of this study is to determine if a liquid biopsy, a method of detecting cancer from a blood draw, combined with a PET/CT scan, a type of radiological scan, is better at determining whether a lung nodule is cancerous when compared to a PET/CT scan alone. A PET/CT scan is already used for diagnosis of lung nodules, but its efficacy is uncertain in nodules 6-20 mm in size. Therefore, the PET/CT will be evaluated for its diagnostic ability in lesions this size alone and in combination with a liquid biopsy. Secondarily, a machine learning model will be created to see if the combination of the PET/CT imaging data and the liquid biopsy data can predict the presence of cancer.
Lung Cancer, Solitary Pulmonary Nodule, Multiple Pulmonary Nodules
Veye Lung Nodules (Aidence B.V., Amsterdam, the Netherlands) is a medical software device that is intended to assist radiologists with pulmonary nodule management on CT chest scans. This clinical trial aims to assess the clinical performance of Veye Lung nodules via a standalone performance evaluation and a reader study.
Lung; Node
The purpose of this study is to determine if the cone beam computed tomography (CBCT)-guided navigation bronchoscopy is better in diagnosing lung nodules compared to navigation bronchoscopy alone.
Peripheral Pulmonary Nodules, Lung; Node, Cone Beam Computed Tomography, Guided Navigation Bronchoscopy
This is an open label study lung nodules that are either cancer or non-cancer and who are eligible for surgical resection. Patients will undergo their surgery with the help of the Lung Resection Marker Locator Kit which will assist the surgeon in both the location and resection of the lung nodule under real-time guidance.
Lung Diseases
The purpose of this study is to evaluate the effectiveness of a smoking cessation outreach intervention (TeaM OUT) on increasing use of smoking cessation resources in Veterans. The hypotheses are 1) patients included in the TeaM OUT group will have higher accession of cessation services, such as counseling and medication therapies, compared to patients in enhanced usual care and 2) more patients in the TeaM OUT group will have quit smoking at one year after the intervention. Veterans with a recently diagnosed lung nodule who currently smoke will receive the TeaM OUT intervention or Enhanced Usual Care. The TeaM OUT intervention has 2 parts: 1) a letter that a) describes the nodule and the importance of cessation related to the pulmonary nodule (i.e. teachable moment) and b) notification that a Proactive IVR Quit Line will initiate contact and 2) call(s) from the Proactive IVR Quit Line which a) offers smoking cessation resources and b) helps connect the patient to those resources. The enhanced usual care group will receive a letter that provides information about how to contact the IVR Quit Line. The IVR system will track referrals to cessation services. Additional information about smoking status and use of cessation resources will be collected from the electronic health record and surveys. .
Solitary Pulmonary Nodule, Multiple Pulmonary Nodules, Tobacco Use
Needle based confocal laser endomicroscopy (nCLE) employs a small fiber which can be passed through a biopsy needle to enable real time microscopic imaging of cells. With resolution of 3.5 microns it is possible to identify key features consistent with malignancy and pulmonary fibrosis. (Wijmans, et al., 2019). The effectiveness of nCLE with intravenous fluorescein has been demonstrated in central lung cancers using esophageal ultrasound guided needle placement (Wijmans, et al., 2019). In this study, the proposed nCLE lung cancer criteria had high accuracy for lung cancer detection and were consistently recognized by multiple raters. Probe based confocal microscopy (pCLE) has also been used in conjunction with a radial probe EBUS in evaluating solitary pulmonary nodules with a diagnostic accuracy of 79.2%. (Hassan, et al., 2017) Needle based confocal laser endomicroscopy (nCLE) has not previously been used in conjunction with robotic navigational bronchoscopy.
Diagnosis of Peripheral Lung Nodules
The primary objectives of this study are to assess the sensitivity and specificity of SGM-101 in detecting non-small cell lung carcinomas during surgery when excited by an near-infrared light source utilizing intraoperative imaging.
Lung Cancer, Lung Nodule, Non Small Cell Lung Cancer
This study will evaluate which procedure is the best for patients referred for biopsy of a lung nodule (growth in the lung) meeting the size and location requirements of the protocol. Two different procedures are available for lung nodule biopsy: 1. a computed tomography guided biopsy ("CT-guided biopsy") which consists of sampling the nodule from the "outside-in", through the chest wall with CT guidance, and 2. navigation bronchoscopy, which is a procedure using technology designed to guide a catheter through the natural airway route (wind-pipe and bronchi) to access the nodule.
Lung Nodule
This study evaluates the how addition of the Nodify XL2 test result impacts the clinical management of newly identified solid lung nodules assessed as low to moderate risk of cancer.
Nodule Solitary Pulmonary, Non-small Cell Carcinoma
This phase II trial studies how well 18F-FSPG positron emission tomography (PET)/computed tomography (CT) work in diagnosing early lung cancer in patients with indeterminate lung nodules. PET imaging with an imaging agent called 18F-FDG is often used in combination with a PET/CT scanner to evaluate cancers. Giving 18F-FSPG before a PET/CT scan may work better in helping researchers diagnose early lung cancer in patients with lung nodules.
Cigarette Smoker, Current Smoker, Former Smoker, Multiple Pulmonary Nodules, Pulmonary Nodule
The investigators have developed an extremely low dose computed tomography (CT) protocol that on preliminary testing has an effective dose in the range of two chest radiographs. The investigators plan to test this exam in patients with known or suspected cancer undergoing clinically indicated chest CT.
Cancer, Metastasis to Lung
This phase II trial studies how well pembrolizumab works in preventing lung cancer patients with stage I-II non-small cell lung cancer or high-risk pulmonary nodules. Immunotherapy with monoclonal antibodies, such as pembrolizumab, may help the body's immune system attack the cancer, and may interfere with the ability of tumor cells to grow and spread.
Lung Non-Small Cell Carcinoma, Stage I Lung Cancer AJCC V8, Stage IA1 Lung Cancer AJCC V8, Stage IA2 Lung Cancer AJCC V8, Stage IA3 Lung Cancer AJCC V8, Stage IB Lung Cancer AJCC V8, Stage II Lung Cancer AJCC V8, Stage IIA Lung Cancer AJCC V8, Stage IIB Lung Cancer AJCC V8
The primary objective of this study is to obtain de-identified, clinically characterized, whole blood specimens for use in assessing new biomarkers for the detection of neoplasms of the lung. Subjects will be men and women, 35 years of age and older, with a CT confirmed nodule measuring 6-30 mm.
Lung Cancer (Diagnosis)
This is a multi-center, non-randomized, single-arm, prospective trial to evaluate a staged sampling methodology designed to maximize the diagnostic yield of lung biopsy in a single procedure setting.
Lung Cancer
This is a phase 2, multi-center, single dose, open-label, exploratory study in suspected lung cancer patients scheduled to undergo endoscopic or thoracic surgery per CT/positron emission tomography imaging based on standard of care. This study aims to assess the efficacy of OTL38 and Near Infrared Imaging (NIR) at identifying pulmonary nodules within the operating theater, and to assess the safety and tolerability of single intravenous doses of OTL38.
Lung Neoplasms, Lung Cancer
The primary end-point of the study is to determine the sensitivity of OTL in identifying lung nodules when excited by an imaging probe. Investigators intend to enroll 300 lung cancer patients in this study. The study is focusing on patients presenting with suspected malignancies of the lung and pleura who are considered to be good surgical candidates.
Neoplasms
This clinical trial compares fluorine F 18 L-glutamate derivative BAY94-9392 (18F-FSPG) positron emission tomography (PET)/computed tomography (CT) to the standard of care fluorodeoxyglucose F-18 (18F-FDG) PET/CT in imaging patients with newly diagnosed lung cancer or indeterminate pulmonary nodules. PET/CT uses a radioactive glutamate (one of the common building blocks of protein) called 18F-FSPG which may be able to recognize differences between tumor and healthy tissue. Since tumor cells are growing, they need to make protein, and other building blocks, for cell growth that are made from glutamate and other molecules. PET/CT using a radioactive glutamate may be a more effective method of diagnosing lung cancer than the standard PET/CT using a radioactive glucose (sugar), such as 18F-FDG.
Lung Carcinoma, Solitary Pulmonary Nodule, Cigarette Smoking Behavior