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Clinical Trial Summary

Kidney transplantation is the treatment of choice for end-stage kidney failure, but access to transplantation is limited by a severe shortage of donor organs. Although the use of kidneys from higher risk deceased donors has increased the availability of organs, these grafts are associated with a greater risk of delayed function, inferior performance, and shorter survival than standard criteria donor kidneys. The current standard of care for kidney graft preservation prior to transplantation is static cold storage. Preliminary results from large animal kidney transplantation studies and a human clinical trial suggest that normothermic machine perfusion of kidneys prior to transplantation may ameliorate the injury sustained by kidney grafts during cold static preservation, allow assessment of organ viability prior to transplantation, and reduce the risk of delayed graft function or non-function. Such a strategy may not only improve the performance of kidneys that are currently considered acceptable for transplantation, but may also facilitate the assessment and utilization of kidneys that are currently not considered for transplantation. This study will examine the feasibility and safety of normothermic ex vivo perfusion of human kidneys prior to transplantation. The study will evaluate kidney function after transplantation using standard clinical parameters. Study participants will be followed for 3 months following transplantation and their outcomes recorded. Feasibility will be measured using the ratio of actual:eligible kidney grafts preserved by normothermic ex vivo perfusion and will also take into account logistical issues with respect to implementation and ease of use of the ex vivo perfusion device. Safety will be assessed by rates of device failure resulting in organ discard, primary graft non-function, delayed graft function, graft failure, and recipient mortality.


Clinical Trial Description

Kidney transplantation is the treatment of choice for suitable patients with end-stage renal disease as it results in lower morbidity and mortality rates when compared to dialysis. Unfortunately, the number of patients referred for transplantation has grown more quickly than the number of suitable grafts from deceased donors. The use of higher risk organs has expanded the donor pool but at a great cost due to the higher probability that higher risk kidneys will never function (primary non-function, PNF), or will have delayed graft function (DGF). The current standard of care for kidney graft preservation prior to transplantation is static cold storage but higher-risk deceased donor kidneys are particularly vulnerable to the effects of cold storage. Preliminary results from large animal kidney transplantation studies and a human clinical trial suggest that normothermic machine perfusion of kidneys prior to transplantation may ameliorate the injury sustained by kidney grafts during cold static preservation, allow assessment of organ viability prior to transplantation, and reduce the risk of delayed graft function or non-function. Such a strategy may not only improve the performance of kidneys that are currently considered acceptable for transplantation, but may also facilitate the assessment and utilization of kidneys that are currently not considered for transplantation. This study will examine the feasibility and safety of normothermic ex vivo perfusion of human kidneys prior to transplantation. Kidneys will be retrieved in the standard fashion and stored cold during transit. Upon arrival at the study transplant centre, kidneys will begin perfusion with a normothermic near-physiologic, blood-based solution. Perfusion will last 1-10 hours. The study will evaluate kidney function after transplantation using standard clinical parameters. Study participants (n=25) will be followed for 3 months following transplantation and their outcomes recorded. Feasibility will be measured using the ratio of actual:eligible kidney grafts preserved by normothermic ex vivo perfusion and will also take into account logistical issues with respect to implementation and ease of use of the ex vivo perfusion device. Safety will be assessed by rates of device failure resulting in organ discard, primary graft non-function, delayed graft function, graft failure, and recipient mortality. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT03136848
Study type Interventional
Source University Health Network, Toronto
Contact
Status Completed
Phase N/A
Start date December 19, 2016
Completion date June 2020

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