Researchers, including those from Imperial College London in the UK, used computer modelling techniques - normally employed to simulate how unsteady air pockets flow over a plane - to model how unsteady currents in blood flows in the veins of patients undergoing dialysis.
When the kidneys stop working properly, dialysis can be used to remove waste products and excess fluid from the blood by diverting it to a machine to be cleaned.
To connect this machine to the patient a special junction must be formed between an artery and a vein in the patient's wrist or upper arm. This junction is called an arterio-venous fistulae (AVF).
The AI then went ahead and optimised the shape of an AVF so that the unsteadiness in the blood flow could be suppressed.
More From This Section
The prototype device developed to hold the AVF in the optimal shape has so far undergone preliminary tests in pigs, which have been successful, researchers said.
"We routinely use computer simulations to study air flow over aeroplanes. These same techniques, can now be used to optimise medical devices, including AVF," said Peter Vincent, from Imperial College London.
However, dysfunction and failure in the AVF is a real problem for these patients, leading to a large number of hospital admissions and extra operations, they said.
"This technology offers great promise for these patients. By improving outcomes from AVF surgery, it could potentially reduce the need for repeated operations, which could and lead to better quality dialysis," said Richard Corbett from Hammersmith Hospital in the UK.
"This technology offers great promise for these patients. By improving outcomes from AVF surgery, it could potentially reduce the need for repeated operations, which could and lead to better quality dialysis," Hammersmith said.