View clinical trials related to Lung Transplant Rejection.
Filter by:The purpose of this investigation is to determine the association of the fraction of donor-derived cell-free DNA in plasma and lung fluid samples with acute rejection as proven by biopsy in lung transplant recipients.
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.
Chronic lung allograft dysfunction (CLAD) is the leading cause of long-term mortality after lung transplantation. Several risk factors for CLAD have been identified, but the exact pathophysiology and triggering molecular factors remain largely unknown. Moreover, in clinical practice, no integration of the different risk factors is achieved. CLAD is therefore diagnosed most often late with the persistent decline in respiratory function, revealing a profound and irreversible alteration of the pulmonary graft. Several blood biomarkers that can predict the occurrence of CLAD more than 6 months before clinical diagnosis have been identified and validated. From these preliminary results, a composite score is being developed from independent samples from the COLT (COhort in Lung Transplantation) cohort. The main objective of this project is to validate this robust and predictive composite score (biological and clinical) of CLAD.
Antibody mediated rejection (AMR) post transplant contributes to poor long term outcomes after lung transplantation. Additionally, high antibodies detected pre transplant in candidates limit donor availability for lung transplant. This proposal would include belatacept in a multi-therapy regimen. Open label study with two patient cohorts for safety and efficacy of belatacept in a multi-modal protocol. The two patient cohorts are an AMR post-transplant cohort and pre-transplant desensitization cohort. A total of 10 patients will be enrolled.The primary objection is drug tolerability and secondary objectives are antibody measurements and allograft function.
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.
The purpose of this study is to evaluate the clinical significance of community-acquired respiratory virus (CARV) infection in patients with lung transplantation;Explore the lung microbiome dynamics within one year after lung transplantation;Find the relationship between lung microbiome and chronic lung allograft dysfunction(CLAD).
Background/Rationale Acute rejection (AR) is common in the first year after lung transplantation. AR has usually been reversible with treatment, but it can trigger chronic rejection that is the leading causes of late morbidity and mortality. Extracorporeal photopheresis (ECP) has emerged as a promising treatment for chronic rejection. The investigators postulate that the immunoregulatory property of ECP could promote graft tolerance immediately after lung transplantation. Objectives The aim of this trial is to evaluate the safety and efficacy of ECP as induction therapy for prevention of AR in recipients affected with cystic fibrosis in the first year after lung transplantation. The extracellular vesicles in the cell-to-cell communication and immunomodulation will be also investigated. Preliminary results (personal) A preliminary study, conducted in Vienna, demonstrated that 9 patients treated with ECP as induction therapy had 0% of chronic rejection versus 50% in the control group. The Institution hosting the current project is among largest lung transplantation centers in Italy with high rate of cystic fibrosis recipients. The Institution has experience in ECP and a dedicated instrument was specifically bought for the project. Internal collaborators have strong expertise in biological aspects including the extracellular vesicle compartment.
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.
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.