View clinical trials related to Lung Transplant Rejection.
Filter by:The goal of this clinical trial is to evaluate the therapeutic effect of extracorporeal photopheresis in subclinical antibody-mediated rejection after lung transplantation.The main questions it aims to answer are: 1. Does ECP therapy result in a significant reduction in MFI (Mean Fluorescence Intensity) from the baseline MFI in clinically stable patients with persistent (>6 months) dnDSAs (MFI>1000)? 2. What is the impact of ECP therapy on the following outcomes in these patients: ACR, clinical AMR, CLAD, infections, drop-out rate, survival, adverse events? Participants will be randomized into two groups. Each group will include 40 patients. The control group will be observed and no active treatment will be administered. The treatment group will receive extracorporeal photopheresis. First, a two-day treatment cycle will be performed once every second week for the first two months. Then, a two-day treatment cycle will be performed once a month for 6 months. Researchers will compare the two groups regarding: MFI value, development of ACR, clinical AMR, CLAD, infections, survival, adverse events, immunophenotyping, miRNA expression profiling, cytokine expression, gene expression signature of PBMCs and proteomic characterization.
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.
To evaluate the feasibility of hyperpolarized 129Xe MRI in lung transplant recipients and assess structural and functional pulmonary changes using hyperpolarized 129Xe MRI
The use of an ultrathin bronchoscope (UB) has recently been introduced in the diagnosis of peripheral lung lesions. The use of the UB can be supported by navigation systems such as fluoroscopy, ultrasound guidance, electromagnetic navigation, or other technologies, which have complementary potential. Further navigation techniques are still under study. The use of ultrathin instrumentation has already been shown to significantly reduce procedural times compared to traditional instrumentation. The purpose of the study is to prospectively evaluate the institutional experience of different third-level hospital centers with the use of a UB (MP190F; Olympus Medical Systems, Tokyo, Japan) for sampling peripheral lung lesions by means of transbronchial needle aspiration (TBNA) or transbronchial biopsy (TBB), performed after fluoroscopic navigation and simultaneous radial probe-endobronchial ultrasound (RP-EBUS) assessment. Design: multicentric, observational study.
This is an open label, multicenter, safety and PK study comparing safety, efficacy, and pharmacokinetic (PK) levels of Tacrolimus Inhalation Powder in lung transplant patients that require reduced tacrolimus blood levels due to kidney toxicity. Part A of the study will consist of a 12 week safety, efficacy, and PK study. Part B of the study will be an optional safety extension following successful completion of the 12 week safety, efficacy, and PK study. Patients would have the option to continue Tacrolimus Inhalation Powder for up to 1 year, with a possibility to extend to 2 years depending on the results from Part A.
Lung transplantation (LTx) is the only effective treatment for patients with end stage lung disease. Of the major organs transplanted, survival following LTx is the lowest with a mean of 5 years. Despite improvements, primary graft dysfunction (PGD) remains the leading cause of early mortality and contributes to the development of chronic lung allograft dysfunction (CLAD) that remains the leading cause of late mortality. Earlier detection of rejection after LTx is of substantial importance as it would improve the possibilities of treatment and could increase survival. The investigators have shown in previous work that exhaled breath particles (EBP) reflect the composition of respiratory tract lining fluid (RTLF). EBP and particle flow rate (PFR) can be used as non-invasive methods for early detection and monitoring of airway diseases such as acute respiratory distress syndrome (ARDS). It has also been shown that the particle flow prolife after lung transplantation differs between patients who develop PGD and those who do not and that the composition of EBP differs between patients with and without bronchiolitis obliterans syndrome (BOS), an obstructive form of CLAD. Samples of EBP and measurements of PFR will be collected from lung transplanted patients. Membranes with EBP will be saved for molecular analysis. The investigators aim to identify potential particle flow patterns and biomarkers for earlier detection of rejection after lung transplantation.
CLAD is defined as loss of lung function after other factors, particularly infections have been excluded. Readily accessible diagnostic procedures to detect acute cellular rejection at the earliest possible occasion is crucial for posttransplant survival. Serial lung function tests, laboratory testing and pulmonary imaging are only clinical indicators of chronic allograft dysfunction in lung transplant recipients. Since forceps biopsy to detect acute cellular rejection in lung transplant recipients has several shortcomings, the purpose of this study is to investigate a new biopsy technique using the transbronchial cryoprobe.
Chronic complications such as chronic lung allograft dysfunction (CLAD) remain the leading cause of death and the primary limitation to long-term survival for lung transplant recipients. CT is currently use for longitudinal assessment in the pediatric population with lung transplant. However, it uses radiation that has been related to increase cancer risk. MRI has played a limited role in the evaluation of lung pathologies. To overcome these limitations, the use of inhaled, hyperpolarized (HP) noble gases such as helium-3 (3He) and xenon-129 (129Xe) has come into play. Filling the air spaces within the lungs with either of these HP gases provides enough signal and contrast to obtain quality images on MRI. The primary objective of this study is to evaluate the diagnostic performance of hyperpolarized xenon MRI for the assessment of CLAD in pediatric patients with lung transplant.
Transplant results vary considerably from one organ to another. Lung transplantation has poorer long-term outcomes than other solid organ transplants, with a current median post-transplant survival of 6.0 years. Allograft rejection remains the leading cause of morbidity and mortality in all organ groups and is the leading cause of death, accounting for more than 40% of deaths beyond the first year after lung transplantation. Each dysfunctions impacts the fate of the graft and therefore the survival of the recipient. Their early and precise diagnosis is therefore a major issue. The identification of the pathophysiological mechanisms underlying these different subtypes of dysfunction (transcriptomics, polymorphism of target genes of the immune system or tissue repair, cell phenotyping) is an essential step. It can only be done on the basis of a collection of samples linked to a clinical database allowing to contextualize each sample.
To investigate safety of treatment with allogeneic adipose tissue-derived mesenchymal stromal cells (ASCs) in patients undergoing lung transplantation, to evaluate whether the treatment can reduce host immunological reaction towards the graft, and to reduce the ischemic reperfusion-injury after transplantation.