[HTML][HTML] The unsuitability of implantable Doppler probes for the early detection of renal vascular complications–a porcine model for prevention of renal transplant loss

C Amdisen, B Jespersen, U Møldrup, AK Keller - PLoS One, 2017 - journals.plos.org
C Amdisen, B Jespersen, U Møldrup, AK Keller
PLoS One, 2017journals.plos.org
Background Vascular occlusion is a rare, but serious complication after kidney
transplantation often resulting in graft loss. We therefore aimed to develop an experimental
porcine model for stepwise reduction of the renal venous blood flow and to compare an
implantable Doppler probe and microdialysis for fast detection of vascular occlusion.
Methods In 20 pigs, implantable Doppler probes were placed on the renal artery and vein
and a microdialysis catheter was placed in the renal cortex. An arterial flowprobe served as …
Background
Vascular occlusion is a rare, but serious complication after kidney transplantation often resulting in graft loss. We therefore aimed to develop an experimental porcine model for stepwise reduction of the renal venous blood flow and to compare an implantable Doppler probe and microdialysis for fast detection of vascular occlusion.
Methods
In 20 pigs, implantable Doppler probes were placed on the renal artery and vein and a microdialysis catheter was placed in the renal cortex. An arterial flowprobe served as gold standard. Following two-hour baseline measurements, the pigs were randomised to stepwise venous occlusion, complete venous occlusion, complete arterial occlusion or controls.
Results
All parameters were stable through baseline measurements. Glutamate and lactate measured by microdialysis increased significantly (p = 0.02 and p = 0.03 respectively) 30 minutes after a 2/3 (66%) reduction in renal blood flow. The implantable Doppler probe was not able to detect flow changes until there was total venous occlusion. Microdialysis detected changes in local metabolism after both arterial and venous occlusion; the implantable Doppler probe could only detect vascular occlusions on the vessel it was placed.
Conclusions
We developed a new model for stepwise renal venous blood flow occlusion. Furthermore, the first comparison of the implantable Doppler probe and microdialysis for detection of renal vascular occlusions was made. The implantable Doppler probe could only detect flow changes after a complete occlusion, whereas microdialysis detected changes earlier, and could detect both arterial and venous occlusion. Based on these results, the implantable Doppler probe for early detection of vascular occlusions cannot be recommended.
PLOS