不良研究所

不良研究所 researchers lay foundation for next generation aortic grafts

A new study by researchers at 不良研究所 has measured the dynamic physical properties of the human aorta, laying the foundation for the development of grafts capable of mimicking the native behaviour of the human body鈥檚 largest artery.

Marco Amabili, a Canada Research Chair professor in 不良研究所鈥檚 Department of Mechanical Engineering and his team used their experimental design to establish how Dacron grafts, used as vascular prostheses to replace faulty aortas, measure up to real ones. The polyester grafts, they found, are extremely rigid and don鈥檛 expand when the heart pushes blood through them.

鈥淏ecause the grafts don鈥檛 expand at all, they induce several cardiovascular problems for patients,鈥 Amabili said. 鈥淚t鈥檚 the equivalent of implanting a sick aorta instead of a healthy one.鈥

The researchers used lasers to measure the dynamic displacement of human aortas 鈥 obtained from hearts harvested for transplants 鈥 attached to a model circulatory loop designed to mimic the pulsing flow of blood generated by heartbeats.

The results, recently published in the journal聽, showed that the expansion capacity of an aorta greatly varies with age - aortas of younger donors could expand to about 10 % of their circumference while those of older donors could only expand up to 2 %. The expansion has a slight delay with respect to the pulsating pressure, which makes the blood flow more uniform; this delay reduces with age.

鈥淭he dynamic behaviour of the human aorta was poorly understood. What we did know was obtained using invasive catheters to gather ultrasound measurements of the aorta鈥檚 motion in humans while having their blood pressure measured so the data was limited to resting states,鈥 said Amabili, who is also the study鈥檚 senior author. 鈥淥ur experiments were able to simulate the effects of blood pressure and flow on the aorta so as to understand how it reacts in both a resting state or during heavy exercise.鈥

The study will provide crucial information about the materials needed to design a new generation of aortic prostheses with similar biomechanical properties to that of human aortas.

鈥淭his research could greatly improve patients' quality of life, especially for those who have grafts implanted at a young age because they will undergo subsequent surgery throughout their lives to replace the grafts once they start to fail,鈥 explained Isabella Bozzo, a former master鈥檚 student in Amabili鈥檚 lab and co-author on the paper. 鈥淭hese surgeries are extremely invasive and the recovery is painful, so we want to develop grafts that will give them the best chance of success, by minimizing future surgery and reproducing the hemodynamics of healthy aortas.鈥

Expanding knowledge on the dynamics of the human aorta should also provide invaluable clues in understanding the development and progression of numerous vascular pathologies such as atherosclerotic plaque, aortic aneurysms and dissections.


About this study

鈥溾 by M. Amabili, P. Balasubramanian, I. Bozzo, I.D. Breslavsky, G. Ferrari, G. Franchini, F. Giovannniello and C. Pogue was published in聽Physical Review X.

This work received financial support from Natural Sciences and Engineering Research Council of Canada and the Canada Foundation for Innovation.


This article was originally published in 不良研究所 Newsroom.

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