Avoiding warm ischemia time during vascular anastomosis of the renal allograft is important to prevent damage. The investigators are studying a cooling device that may control the temperature of the renal allograft during transplant surgery; attempting to keep temperatures at or below 5°C for at least 60 minutes. If found effective, this could eliminate warm ischemia and potentially prevent damage to transplanted kidneys.
Warm ischemia can damage a renal allograft in many different ways often leading to early failure of the kidney transplant and sometimes even death of the transplant recipient. For this reason every effort is made to keep the allograft cold during the removal and transportation, and protocols have been developed to ensure this. Although kidneys are kept below 5°C during transportation, they re-warm rapidly during the transplant surgery. On average, kidneys are exposed to 40 or more minutes of dangerously warm temperatures during transplant surgery. To avoid damage, it is important to reduce the amount of time it is exposed to warm temperatures. Currently, there are no devices or standardized protocols available to ensure a kidney stays cold during the transplant surgery. The Principal Investigator has developed Kidney Skinn, a device that may control the temperature of the renal allograft during transplant surgery; keeping allograft temperatures at or below 5°C for at least 60 minutes. If found effective, this could eliminate warm ischemia and potentially prevent damage to transplanted kidneys. The device may also potentially provide retraction and support for the kidney during the transplant operation, making the surgery easier to perform. Additionally, the device may be found to be easily removed once the transplant is complete. A previous study was conducted with the Kidney Skinn in animals; the next step is to investigate whether the device can perform in the human clinical setting. This study will be done in 2 steps. Part A: a series of consecutive consenting patients to determine device initial safety, and Part B: a single-centre randomized-controlled pilot study of kidney transplant recipients.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
DEVICE_FEASIBILITY
Masking
DOUBLE
Enrollment
45
renal cooling device designed to maintain renal hypothermia at or below 5ºC for 60 minutes.
Queen Elizabeth II Health Sciences Centre
Halifax, Nova Scotia, Canada
Part A: Device design is deemed suitable to move into the traditional feasibility stage (Part B of protocol)
The Kidney Skinn cooling device can be utilized during vascular anastomosis, and the ability of the device to maintain surface and core temperatures of transplant kidneys at \<5ºC for the duration of the vascular anastomosis.
Time frame: 6 months
Part B: To determine the feasibility of a trial using the Kidney Skinn cooling device to usual care to ameliorate warm ischemia time during kidney transplantation
Feasibility Outcomes will include the following: 1. Ability to randomize \>60% of eligible patients 2. \>75% of patients randomized to the Kidney Skinn arm use the device 3. 70% of patients randomized to the device (Kidney Skinn) achieve a renal allograft surface temperature of \<5C for the duration of the vascular anastomosis.
Time frame: 2 years
Proportion of patients who develop delayed graft function (need for dialysis in the first week after transplantation) compared with usual care
Delayed Graft function as defined by the need for dialysis in the first 7 post operative days
Time frame: 7 days
Difference in ischemia-reperfusion injury biomarker levels between the intervention and control groups
Urine and serum biomarkers for ischemia-reperfusion injury will be collected at specific key time points pre and post transplantation on all Part B trial participants. Specifically, urine and serum samples for unique markers of kidney injury (KIM-1 \& NGAL), inflammation (TNFR1, MCP-1) and fibrosis (suPAR, YKL 40).
Time frame: 7 days
Serum creatinine level at discharge from initial hospitalization for transplantation
Local laboratory serum creatinine drawn per standard of care on all renal transplant recipients on day of discharge
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Time frame: 5-7 days
Differences in achieved renal allograft surface temperature comparing the Kidney Skinn (intervention arm) versus usual care (control arm)
For each surgery, K-type 30 gauge thermocouples (each less than 0.25mm in external diameter) will be used in the renal allograft at a depth of 5 mm and 15 mm. This will be to measure surface (cortical) and core (medullary) temperatures, respectively.
Time frame: 60 minutes