View clinical trials related to Lung Transplant.
Filter by:Lung transplantation is a life-saving and life-prolonging therapy for patients with end-stage lung disease. However, the number of patients listed for lung transplantation exceeds the number of available donor lungs, leading to long wait times, deterioration in health and death of some listed patients. One way to address this issue is to reduce the number of donor lungs that are deemed unusable (declined) for transplantation. Often, donor lungs are declined for transplantation based on questionable function or inability to fully assess the organ in the donor. Due to this reason, up to 80% of potentially suitable lungs may be discarded. As a result, ex vivo lung perfusion (EVLP) was developed. EVLP is a technique that enables the donor lungs to function in near physiological conditions outside the body, allowing surgeons to evaluate the suitability of the donor lungs for transplantation. Using this technique, centers have reported the recovery of around 70% of donor lungs that would have otherwise been deemed unusable and discarded. The first generation Toronto EVLP technique started as a clinical trial in 2008 and became a part of the clinical standard of care at Toronto General Hospital in 2011. Since then, many clinical studies have shown that short- and long-term outcomes of recipients who received donor lungs assessed by the Toronto EVLP system were similar to those who received donor lungs deemed suitable to go straight to transplantation. In partnership with Traferox Technologies Inc., surgeons and research team members developed the second generation TorEx Lung Perfusion System, which addresses engineering design limitations of the original Toronto EVLP system. It optimizes the Toronto EVLP technique by combining all the necessary equipment required to perform the procedure, while placing their controls within a central location. The technique of perfusion and ventilation as well as the perfusate solution remain the same between the two EVLP systems. Prior to this study, the TorEx Lung Perfusion System has not been used in clinical human lung transplantation. The first purpose of this study is to look at the safety of using the TorEx Lung Perfusion System in 20 consented recipients. The second purpose to compare post-transplant outcomes between recipients who received donor lungs assessed by the TorEx Lung Perfusion System and a historical cohort of recipients who received donor lungs that were assessed by the first generation Toronto EVLP system.
Blood group A2 to blood group O kidney and liver transplants have been shown to be safe and successful, especially in recipients with low pre-operative anti-A antibody titers and with the use of peri-operative antibody-depleting therapies. Since blood group O lung transplant candidates tend to have longer wait times and a higher waitlist mortality compared to other blood groups, we propose to conduct a prospective study of lung transplantation from blood group A2 donors to eligible blood group O recipients in an effort to increase the available donor pool. The aim of this study is to determine both the feasibility and safety of this specific type of ABO-incompatible lung transplant, and the impact of this practice on reducing transplant wait times among blood group O lung transplant candidates. This would represent the first prospective study of ABO-incompatible lung transplants worldwide.
The purpose of this research study is to compare the technique of performing bilateral lung transplantation off-pump vs venoarterial ECMO (VA ECMO). The goal of the trial is to determine which technique has lower rates of primary graft dysfunction.
To examine the effectiveness of an individual health coaching intervention for lung transplant candidates. This intervention will include up to 12 health coaching sessions via phone call over a 12-16 week period. This will be compared to a usual care group the receives pre-transplant care and education alone.
The objective of this study is to determine the safety and efficacy of transplanting lungs from hepatitis B virus (HBV) nucleic acid test positive (NAT+) donors into HBV vaccinated HBV surface antibody positive (sAb+) lung transplant candidates, who will then be treated with Hepatitis B Immune Globulin (HBIG) and entecavir, tenofovir disoproxil, or tenofovir alafenamide.
Lung transplantation is the curative treatment for end-stage respiratory failure involving highly selected patients. In 2018, the International Transplant Registry counts 69200 lung transplants among 260 transplant centers. Between 2010 and June 2017, the 3-month survival rate of patients after lung transplantation is 90%. The causes of early death are primary graft failure, renal failure, infections, acute rejection (cellular or humoral), surgical complications. The median survival is 6.7 years and the median conditioned survival at 1 year is 8.9 years. Bronchiolitis obliterans is the leading cause of death after 1 year; it affects 10% more patients each year and peaks at 5 years at more than 50% of transplanted patients. These results encourage transplant professionals to continue their efforts to improve the prognosis of transplantation. Among these, the optimization of graft matching, taking into account the characteristics of the donor and the recipient, constitute a relevant avenue of study. Several donor characteristics seem to play a role in the prognosis of the transplant. Survival at 12 months is significantly worse when the donor's age is greater than 50 years. There does not appear to be a significant difference in donor cause of death. Recipients of a graft exposed to smoking ≥ 20 pack-years have a 3% and 1.5% decreased survival at 1 and 5 years postoperatively. Similarly, the 5-year survival of patients with conditional 1-year survival is poorer in case of other toxic exposures such as alcohol, cocaine, crack or marijuana. Analysis of international registry data also suggests a negative association between post-transplant survival and donor hypertension and diabetes. However, the biological mechanisms by which these factors affect survival remain unknown. Graft ischemia time is significantly associated with survival with a 5-year survival of 70% and 65% for grafts exposed to ischemia ≥ 4 hours or less. The cumulative effect of donor hypertension and ischemia time are appreciated by the fact that the best postoperative survival is observed in donors without hypertension and graft ischemia time ≥ 4 hours. Graft size is also associated with post-transplant prognosis, in front of a significant decrease in survival for patients with emphysema, chronic obstructive pulmonary disease, alpha-1 antitrypsin deficiency, transplanted with a smaller graft size. This result is not found in patients transplanted for pulmonary fibrosis. One study has also suggested the negative role of a gender mismatch between donor and recipient on post-transplant survival, but there is currently no clear explanation for this result. The presence of antibodies to the recipient's HLA system [DSA (donor-specific antibodies)] in pre-transplant is a risk factor for hyperacute rejection and chronic graft dysfunction. Thus, the choice of matching between the donor and the recipient appears complex in view of the number of criteria to be taken into account which impact the duration of post-transplant survival in the short and medium term. The objective of the project is to develop a decision support tool, using artificial intelligence algorithms, to assist the thoracic surgeon in identifying the patient, among those registered on the team's waiting list, who could benefit most from a bi-pulmonary graft offered by the Biomedicine Agency.
The XVIVO Registry is to collect standard of care clinical data from "all-comers" who are transplanted with an EVLP lung treated with the XVIVO Perfusion System™ in order to assess the long-term performance of the device, and monitor device-related serious adverse events. In addition, 4 and 5-year UNOS registry data of the 126 subjects who received an EVLP transplant under the NOVEL and NOVEL Extension studies are provided as part of the long-term safety and quality of life data. In addition, 4 and 5-year UNOS registry data of the 126 subjects who received an EVLP transplant under the NOVEL and NOVEL Extension studies are provided as part of the long-term safety and quality of life data.
This will be a prospective, randomized clinical trial, comparing the sternal alignment between the fixation with rigid plate X steel wires. Patients over 18 years of age, belonging to the lung transplant line in the State of São Paulo, who will undergo bilateral lung transplantation will be studied.
This is an interventional, open-label, single center, pilot study with historical controls to test the efficacy of letermovir (LET) for the prevention of CMV infection and disease in adult lung transplant recipients (LTRs) with idiopathic pulmonary fibrosis (IPF).
Lung diseases are one of the most common causes of emergency room visits. There are very few tools that are able to predict which patients will have a worsening or increasing severity of their condition. There are also limited ways to check the health of patients with respiratory conditions at home and during the time between medical appointments. The ADAMM-RSMTM device records heart rate, breathing rate, temperature, cough and activity while wearing it. This study will test participants willingness to wear the device and perform ongoing monitoring to assess the possibility to predict the onset and increases in severity of their lung conditions.