48 Clinical Trials for Various Conditions
This study will sample and analyze volatile organic compounds (VOCs) from participants considered to be at risk for developing rejection following lung transplant by using infrared spectroscopy.
The purpose of this research study is to gain understanding of the basic responses of the lungs to inflammation and specifically if there may be a better way to detect graft inflammation using non-invasive methods as well as to determine the effectiveness of immunosuppressive treatment regimens in preventing acute rejection in lung transplant recipients.
The goal of this clinical trial is to evaluate which biopsy collection method helps to better diagnose rejection and relevant pathologic findings in lung transplant recipients. The main questions it aims to answer are: Does the 1.1 mm cryoprobe or the biopsy forceps provide better quality samples of lung tissue for detecting rejection in transplant recipients? How much tissue is adequate for lung transplant 1.1 mm cryobiopsy samples as compared to biopsy forceps? Which samples received by the pathologist did they find they were most confident to exclude rejection, based on their satisfaction with the samples? Which collection method has the least amount of procedural time? Researchers will compare lung tissue samples obtained using a 1.1mm cryoprobe and a biopsy forceps during the lung transplant. Participants will: Be randomly assigned to receive either the cryoprobe or biopsy forceps collection method at the time of biopsy. Assessed for any adverse events following the biopsy for up to 30 days after transplant.
This double-blind, randomized, placebo-controlled, multinational, multicenter, parallel-group, Phase 3, 2-arm, study will investigate the efficacy and safety of belumosudil compared with placebo, both administered on top of azithromycin and standard-of-care regimen of immunosuppression in male or female participants at least 1 year after bilateral lung transplant, who are at least 18 years of age and who have evidence of progressive CLAD despite azithromycin therapy. Study details include: The study duration will be up to 31 weeks for participants not entering the open-label extension (OLE) period and up to 57 weeks for participants entering the OLE period but not the long-term OLE. The treatment duration will be up to 26 weeks for participants not entering the OLE period and up to 52 weeks for participants entering the OLE period but not the long-term OLE. The number of visits will be up to 10 visits for participants not entering the OLE period and up to 16 visits for participants entering the OLE period but not the long-term OLE. For participants who enter the long-term OLE, treatment and study participation will continue with visits every 12 weeks per protocol specifications.
The LAMBDA 002 registry study is an observational, longitudinal, multi-center study observing patients undergoing lung transplant.
This study will use Magnetic Resonance Imaging (MRI) to study the lungs of 90 volunteers using the inhaled contrast agent, hyperpolarized xenon-129. Once inhaled, this gas can provide information to imagers regarding lung functionality across specific regions of the lungs by assessing the replacement of air during the normal breathing cycle, how much oxygen is in the airspaces, and if the natural spongy tissue structure has been compromised by lung disease. Of the 90 subjects, 70 will be patients who received lung transplantation from the Penn/Temple Lung Transplant Teams and are receiving follow up treatment at HUP or TUH, 10 will be healthy control subjects who participated favorably in our HP 129Xe imaging protocol, and 10 will be patients who have been diagnosed with chronic obstructive pulmonary disease (COPD)-preferentially recruited from the Temple University COPDGene cohort, who have never undergone a lung transplant. 20 of the lung transplant recipient subjects will be patients who have received a recent clinical diagnosis of chronic lung allograft dysfunction (CLAD) prior to enrollment in our study, while the other 50 will have recently undergone their initial transplant surgery at the time of enrollment.
Lung transplant is a viable treatment strategy for many with end-stage lung diseases. Despite advances in both the surgical and medical management, lung transplant recipients experience episodes of allograft insult and injury that lead to dysfunction and ultimately contribute to graft failure. The primary noninvasive tool for monitoring the lung allograft, pulmonary function testing, is neither sensitive nor specific for lung allograft injury which makes the management of lung transplant recipients particularly challenging. A decline in pulmonary function tests prompts invasive procedures such as bronchoscopy with transbronchial lung biopsy to diagnose the cause of allograft injury, although this, too, is not 100% sensitive, and oftentimes patients are treated empirically for rejection when no other etiology for lung function decline is identified. Empiric treatment prompted by extrapulmonary drivers of decline in lung function may result in inappropriate exposure to risks of augmented immunosuppression. The purpose of this study is to determine to what extent monitoring of donor-derived cell free DNA in lung transplant recipients can be used as a marker of lung injury and stability.
This is a pilot randomized controlled trial examining the feasibility of conducting a large scale randomized controlled trial of belatacept-based immunosuppression in lung transplantation. This pilot study will enroll 40 lung transplant recipients and randomize them to belatacept-based immunosuppression or standard of care. The primary endpoint of the study is the development of donor-specific HLA antibodies after transplantation. All study participants will be followed for a minimum of 12 months after transplantation.
Potential therapy with MACITENTAN in the treatment of Chronic Lung Allograft Dysfunction (CLAD) after Lung Transplantation. Pilot Study, Double-blind, "ADD-ON Therapy" with MACITENTAN to "usual standard of care immunosuppressive therapies" after lung transplantation for established BOS Stages I or II versus a "matched control group" who receive "usual standard of care immunosuppressive therapies" alone, results in a decrease in the Primary Endpoint: "rate of decline" in "Forced Expiratory Volume-1 sec (FEV1) versus time" while Secondary Endpoints including: differences in Six minute walk distance (6MWD), BORG Score, corrected single-breath diffusing capacity (DCO corrected) at time intervals of 1, 3, 6 months on therapy. Specific biomarkers for BOS, including inflammatory chemokines, which are routinely collected in the context of post-transplant "surveillance" will be analyzed. Chemokines which our group has previously described in the pathogenesis of the continuum of "acute-to-chronic lung allograft rejection", have included both C-C (CCL2, CCL5) and CXC (CXCL9, CXCL10, CXCL11) chemokines as determined in bronchial-alveolar lavage (BAL).
Objective: To evaluate the potential impact of molecular phenotyping of transbronchial biopsies in lung transplant recipients with allograft dysfunction, and the potential for developing a safer endobronchial mucosal biopsy format.
The clinical trial is a Phase II open label, single-arm pilot study to evaluate the safety and efficacy of combination therapy with carfilzomib, plasma exchange and intravenous immunoglobulins for AMR after lung transplantation and elucidate important clinical and immunologic phenotypes and mechanisms associated with these outcomes.
To assess the safety and feasibility of mesenchymal stem cells therapy in patients with transplant related bronchiolitis obliteran syndrome (BOS)
This study will create a database of clinical and biological research for use in future studies, with information obtained from lung transplant recipients. The database will consist of genetic material and clinical outcomes to be used in future genotyping studies, that is, studies regarding the genetic makeup of individuals. Lung transplantation has become an important option for patients with advanced lung disease. More than 10,000 patients have received them to date, and about 1,200 transplant operations are performed worldwide each year. Although short-term survival has continued to improve, the 5-year survival rate is less than 50 percent. Most post transplant deaths are directly or directly caused by chronic lung rejection, a condition of scarring that worsens lung function. Patients evaluated for lung transplants at Duke University Medical Center may be eligible for this study. For developing the database, a small amount of blood, about 3 tablespoons, will be collected from patients. Blood collection for the research will be done at the same time as blood is drawn for necessary tests. The blood cells and DNA (which contains genetic material) will be isolated for analysis. Patients' DNA samples collected will be identified by a code, and all other identifying information will be removed. Patients may be asked to donate additional blood samples after their lung transplant if researchers would like to reexamine their blood. This study will not have a direct benefit for participants. However, during the study, if it is found that any patients have an inherited risk for a disease likely to cause early death if the disease is not treated, then the researchers will attempt to notify those patients. Overall, it is hoped that information gained during this study will help medical professionals to learn more about immune activation and to see how the reactivity of lung transplant patients changes over time. If specific genetic risks could be identified, it might lead to individualized treatments that work on the immune system. Short-term and long-term survival of lung transplant recipients may thus be improved.
This project aims to collect detailed clinical data, blood samples, and patient-reported outcomes from 2,600 lung transplant candidates, donors, and recipients at Lung Transplant Centers. The goal is to create a robust resource for various research objectives, including studying the impact of variations in donor and medical practices on clinical outcomes. The project also seeks to identify serum biomarkers associated with or predictive of specific post-transplant complications and conditions.
The objective of the trial is to assess efficacy and safety of add-on aerosolized liposomal cyclosporine A (L-CsA) to Standard of Care (SoC) therapy as compared to SoC therapy alone in the treatment of Bronchiolitis obliterans syndrome (BOS) in single lung transplant recipients.
The objective of the trial is to assess efficacy and safety of add-on aerosolized liposomal cyclosporine A (L-CsA) to Standard of Care (SoC) therapy as compared to SoC therapy alone in the treatment of Bronchiolitis obliterans syndrome (BOS) in double lung transplant recipients.
Despite advances in lung transplantation, the median survival remains only 55% at 5 years. The main limitation to long term survival is the development of chronic lung allograft dysfunction. In approximately 30% of cases, chronic lung allograft dysfunction has a restrictive phenotype (RCLAD) characterized by fibrosis with rapid progression to respiratory failure. Approximately 60% of patients with RCLAD die within one year, as currently there are no therapies available. RCLAD, like Idiopathic Pulmonary Fibrosis (IPF), is characterized by fibroblast proliferation, extracellular matrix deposition, and architectural distortion leading to progressive lung scarring and death. Given their similarities, there is keen interest in the international transplant community to investigate whether the anti-fibrotic drug pirfenidone can slow the progression of RCLAD as it does of IPF. Pirfenidone has been proved to be safe and effective in patients with IPF, and is approved by the Food and Drug Administration. This protocol will evaluate the safety and tolerability of pirfenidone in lung transplant recipients with RCLAD. Transplant recipients take carefully adjusted immunosuppressive medications for life to prevent rejection of the allograft. Current literature suggests the dose of tacrolimus, the main anti-rejection drug, may need to be adjusted when taken in combination with pirfenidone. The investigators will assess the side effects of pirfenidone in combination with the immunosuppressive regimen and determine the magnitude of the adjustment in tacrolimus dose. The results of this pilot study will provide the foundation for a multicenter randomized control trial to evaluate the efficacy of pirfenidone in slowing the progression of RCLAD.
The objective of this study is to detect Bronchiolitis Obliterans Syndrome (BOS) in an early stage using the outcome parameters generated by Functional Respiratory Imaging (FRI). Robust and automated segmentation algorithms will be developed for these parameters, focusing on quantitative computed tomography (CT) image analyses to provide the physician a more sensitive diagnostics tool. The evolution of BOS over time will be monitored using non-rigid image registration methods.
The purpose of this study is to determine whether shotgun sequencing technology, which can be used to detect donor DNA in recipient plasma, can be used as a rapid, accurate, non-invasive method to detect Acute Cellular Rejection (ACR) after heart transplantation. Currently, all heart transplant recipients undergo invasive heart biopsies to diagnose ACR. Thus, there is an ongoing need to monitor patients for the development of acute and chronic rejection, with the primary goal of non-invasive early detection and treatment to prevent organ damage.
The goal of this clinical trial is to learn about the safety and effectiveness of LAM-001 in patients who have developed bronchiolitis obliterans syndrome (BOS), a form of chronic rejection, after lung transplantation. The main questions it aims to answer are: * Is LAM-001 safe in these patients? * Is LAM-001 effective in slowing BOS progression? Participants will: * Be randomly assigned to inhale either LAM-001 or placebo (a look-alike substance that contains no active drug) daily for 48 weeks * Attend 10 study visits (mixture of in-person and telehealth) over the 48 week period * Undergo pulmonary function testing, bronchoscopy, lab testing, and physical examination * Submit weekly home spirometry monitoring Researchers will compare participants assigned to LAM-001 versus placebo to see if LAM-001 is safely tolerated and to assess the effectiveness of LAM-001 on slowing BOS progression.
The purpose of the study is to follow participants who enrolled in the Lung Transplant Outcomes Group. Clinical data, functional assessments, and surveys will be collected to determine long term graft function and functional status of lung transplant recipients.
The use of Allosure to identify and quantify circulating donor-derived cell-free DNA to quantitate allograft injury in the early post-transplant period and determine its relationship to allograft failure.
The purpose of the study is to continue to follow subjects who were enrolled in the CTOT-20 CLAD Phenotypes study. Subjects will provide clinical data and complete quality of life questionnaires that will be used to determine the clinical factors associated with the development of Chronic Lung Allograft Dysfunction (CLAD) after lung transplant.
ALAMO is a prospective, multi-center, perspective, registry of patients receiving LungCare™ (AlloSure®-Lung, AlloMap Lung, and HistoMap) for surveillance post-transplant. This study aims to evaluate the diagnostic performance characteristics of AlloSure Lung (dd-cfDNA) to detect a spectrum of rejection (ACR, AMR) and allograft infection (Bacterial, Viral, Fungal, Mycobacterial, Parasitic).
The purpose of this research is to discover the different patterns of cytokine production in patients who may develop Bronchiolitis Obliterans Syndrome-0p (BOS-0p) which means ongoing rejection. This is an early indicator of chronic rejection in lung transplant recipients. These cytokines can be detected in the bronchoalveolar (lung) and tissue samples of lung transplant recipients.
Antibody-mediated rejection after lung transplantation commonly results in allograft failure and death in spite of current therapeutic regimens. We are testing the safety and tolerability of the addition of a novel immunosuppressive medication to routine treatment for antibody-mediated rejection. Future studies will be needed to assess efficacy if this study demonstrates safety
This study is being done to study a safe and non-invasive way to diagnose lung rejection and infection.
Chronic allograft rejection of the transplanted lung (CLAD) is a major health issue in patients after lung transplant. This study is a registry-forming study with concurrent tissue banking from surveillance bronchoscopy in addition to extra tissue sampling of blood and urine. Patients will be characterized by usual clinical phenotyping and the latest imaging methods so that diseased condition underlying CLAD can be better understood.
This is a single-center pilot study to investigate the efficacy and safety of aerosolized liposomal cyclosporine A in the treatment of chronic rejection in lung transplant recipients with bronchiolitis obliterans syndrome (BOS). The primary objective is to evaluate the efficacy of liposomal cyclosporine A in the treatment of chronic rejection. Pulmonary function and changes in BOS grade are the primary end points.
Dynamic digital radiography (DDR) is a new advanced version of chest radiography that captures dynamic images at a rate of 15 frames per second. It is coupled with an analytical software that allows it to provide more advanced measures of lung motion, ventilation, and perfusion compared to traditional chest radiography. While implementation of DDR fixed machines are beginning elsewhere in the US, this trial involves the first applications of an FDA-approved portable DDR machine, for use at the bedside in the ICU. The goal of this clinical trial is to determine the feasibility and safety of portable DDR technology in the ICU, as well as to evaluate the improved clinical diagnostic value of the portable DDR system over current standards of care. Participants will receive one to three sets of DDR images, which will then be compared to their clinical gold standard exams (such as chest x-rays, CTs, or VQ scans) to assess and improve the precision and accuracy of measurements such as diaphragmatic motion, lung movement, and perfusion.