Transplant; Failure, Heart Clinical Trial
Official title:
A Randomized Controlled Trial Comparing Non-ischemic Hypothermic Cardioplegic Perfusion to Ischemic Cold Static Preservation of Donor Hearts in Adult Cardiac Transplantation
The overall aim of this proposal is to compare a new state-of-the-art ex-vivo organ preservation method with standard ischemic cold static storage of donor hearts in adult cardiac transplantation. Standard heart preservation before transplantation consists of cold ischemic storage of the heart. Clinical studies has shown that the morbidity and mortality risk increases with extension of the allograft ischemic time over four hours. For each additional hour the mortality risk increase with 25% the first year. This time constrained is costly and results in severe logistical problems, leading to loss of transplantable organs. Initially the study is prospective, single-institution, open-label, non-randomised trial comparing the NIHP method with the conventionally SCS in adult heart transplanted patients at Skane University Hospital, Lund, Sweden. Six patients will be transplanted using the non-ischemic hypothermic cardioplegic perfusion. These will be compared with contemporary control patients transplanted with standard ischemic cold static storage. The results will be analysed and reported. After the initially six patients have been completed, the study will become a single center, prospective, open, blinded endpoint, randomized, controlled clinical trial including 34 patients. The primary end-point is a composite of mortality, primary graft dysfunction (PGD), need for extra corporal support, or acute cellular rejection (ACR) within 30- days post-transplant. PGD and ACR will be accessed blinded.An improved preservation of the transplanted organ will reduce the major limitations for survival in the early post-transplant period such as non-specific graft failure and acute rejection. Furthermore, it will make it possible to increase the donor pool.
SURVEY OF THE FIELD Ischemia and reperfusion (I/R)-elicited tissue injury contributes to morbidity and mortality4. In organ transplantation, it is a major challenge. The imbalance in metabolic supply and demand within the ischemic organ results in tissue hypoxia and microvascular dysfunction4. The following reperfusion enhances the activation of innate and adaptive immune responses resulting in a cell death programs4,5. Furthermore, it has been report that miRNA expression profile for heart transplantation is associated with I/R injury. Standard heart preservation before transplantation consists of cold ischemic storage of the heart. Clinical studies have shown that the mortality risk increases sharply with extension of the allograft ischemic time over 4 hours. For each additional hour, the mortality risk increase with 25% the first year. Different myocardial cardioplegic preservation solutions and an ex-vivo perfusion machine have been developed. That technique includes use of whole blood from deceased donor and a normothermic beating heart consuming nutrients during the preservation. Despite some promising experimental results, no consistent differences in outcome have been found. Improved preservation of the endothelium of the coronary arteries is instrumental to achieve improved patient short and long term outcome. A damaged endothelium could result in cardiac allograft vasculopathy (CAV) and increases the risk of ACR. Therefore, prolonged time and improved storage of the donor heart would save lives. PURPOSE AND AIM The overall aim of this study is to compare a new state-of-the-art organ preservation technique, non-ischemic continous/intermittent hypothermic cardioplegic perfusion (NICHCP), on immediate and long term heart allograft function and rejection episodes, with standard ischemic cold static storage (ICSS) of donor hearts in adult cardiac transplantation. A new ex-vivo heart perfusion technique where the heart is perfused during explantation, using an independent portable heart-lung-machine, has been developed by Prof. Steen's research group3. Pre-clinical studies have shown that the new technology using NICHCP of donor hearts can be safely applied for 24 hours in pigs, however this new perfusion technique has never been used on man. The primary hypothesis is that the NICHCP is superior to ischemic cold static storage of donor hearts. The primary end-point is a composite of mortality, primary graft dysfunction, need for extra corporal mechanical support, or Acute Cellular Rejection (ACR) ≥ grade 2 within 30-days. RESEARCH QUESTION The study will investigate the superiority of the new methodology (NICHCP) in terms of improved immediate and prolonged organ function. More specifically, it is hypothesized that the weaning period of cardio-pulmonary bypass, will be shorter, the need for inotropic support reduced, and the major limitations for survival in the early post-transplant period such as non-specific graft failure, multiorgan failure, ACR, and infection will decrease. Furthermore, in the late post-transplant period, it is hypothesized that the development of CAV and immunosuppressive side effects, such as malignancy, will be reduced. WORK PLAN In the initial phase, it is excepted that 1 - 2 patients will be enrolled per month. During the randomized part of the study It is expected to enroll 1 - 4 patients per month. With that pace, the study is completed within about 24 months. The patient short term follow-up is 30 days and long term follow up is 12 months. For short-term-analysis purpose the study is considered completed as the last patient of the study has passed 30-days post-surgery. The long-term study will continue to monitor the patients for 12 months. Adverse events will be recorded even if occurring after completion of the study and all patients will be followed throughout life according to standard clinical care. If this is successful, this will be introduced as standard among other national and international collaborators. The investigators estimate that this technique will be the golden standard within 5 years. STUDY DESIGN Initially the study is a prospective, single-institution, open-label, non-randomised trial. Here, six patients will be transplanted with the NICHCP method. These will be compared with contemporary control patients transplanted with standard ICSS. An interim assessment will be performed when these six patients has passed 180-days post-transplant. The results from this study will be analysed and published. A report will be sent to the Ethical review bord for an approval to continue with the second part of the study. After six patients have been transplanted with the NICHCP method and a new approval has been achieved from the local ethical board, the study will become a single center, prospective, open, blinded endpoint, randomized, controlled clinical trial. The continued study will comprise 17 patients in the test group and 17 control patients. The main outcomes will be reported on intention to treat basis. PGD and ACR assessment will be performed by a blinded access. Listed heart recipients (aged >18 years) at Skåne University Hospital will be screened. Patients who full-fill all inclusion and no exclusion criteria will be included after they signed the informed consent form. In the initial phase, it is excepted that 1-2 patients will be enrolled per month. During the randomized part of the study it is expected to enroll 1-4 patients per month. With that pace, the study is completed within 24 months. The patient short term follow-up is 30 days and long term follow up is 12 months. For short-term-analysis purpose the study is considered completed as the last patient of the study has passed 30-days post-surgery. The long-term study will continue to monitor the patients for 12 months. Adverse events will be recorded even if occurring after completion of the study and all patients will be followed throughout life according to standard clinical care. STATISTICAL ANALYS PLAN Descriptive statistics will be presented as means, standard deviations, medians and inter quartile ranges for the continuous variables and as counts and percent for categorical variables. An alpha level of 5% will be used for all analyses, unless otherwise stated. Demographics will be tabulated overall and by treatment group. The results from the laboratory analysis will be calculated based on continuous variables. All data analyses will be performed on data available. After three of the patients have been enrolled a safety assessment will be performed. An interim assessment of the initial six patients in the test group will be performed when all six patients has passed 30-days post-transplant or expired. A protocol deviation is any event where investigator or study personnel did not conduct the study per the protocol or applicable laws. All deviations will be reported to the Principal Investigator (regardless of cause or prior approval) and will be noted on the eCRF form. CLINICAL AND SCIENTIFIC IMPLICATIONS The use of an ex-vivo machine for the preservation of a donor heart requires more resources than the technology used today, such as special equipment, suitable transportation and bank blood to prime the perfusion module. Compared with cold static techniques for preservation, this will initially be costly. However, this must be weighed against the value of more donor hearts become available for transplant and cost savings in the form of shorter time to perform the surgery, reduced incidence of the primary graft dysfunction (PGD), less need for expensive mechanical cardiac support post-transplant, shortened hospitalization and longer-term risk reduction of chronic rejection. The costs of complications directly connected to the transplant is cost driven, especially if the recipient develops PGD requiring mechanical circulatory support with a prolonged ICU stay. Furthermore, in the future the transplantation can be scheduled to day-time surgery and complexed high risk cases can be done with the highest competence available without time limitation. An improved preservation of the transplanted organ will reduce the major limitations for survival in the early post-transplant period such as PGD. Furthermore, it will make it possible to increase the donor pool. Theoretically in the nordic countries, this would enable international organ sharing with Europe and the eastern United States. This expansion of the donor pool is one of the main potential benefits of this device. ;
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