Kondiboyina, A.; Smolich, J.J.; Cheung, M.M.H.; Mynard, J.P. Novel Centroid Method for Robust Evaluation of Return Time of Reflected Waves in the Systemic Arterial Network. IEEE Transactions on Biomedical Engineering 2023, 70, 899–908, doi:10.1109/tbme.2022.3204773.
Kondiboyina, A.; Smolich, J.J.; Cheung, M.M.H.; Mynard, J.P. Novel Centroid Method for Robust Evaluation of Return Time of Reflected Waves in the Systemic Arterial Network. IEEE Transactions on Biomedical Engineering 2023, 70, 899–908, doi:10.1109/tbme.2022.3204773.
Kondiboyina, A.; Smolich, J.J.; Cheung, M.M.H.; Mynard, J.P. Novel Centroid Method for Robust Evaluation of Return Time of Reflected Waves in the Systemic Arterial Network. IEEE Transactions on Biomedical Engineering 2023, 70, 899–908, doi:10.1109/tbme.2022.3204773.
Kondiboyina, A.; Smolich, J.J.; Cheung, M.M.H.; Mynard, J.P. Novel Centroid Method for Robust Evaluation of Return Time of Reflected Waves in the Systemic Arterial Network. IEEE Transactions on Biomedical Engineering 2023, 70, 899–908, doi:10.1109/tbme.2022.3204773.
Abstract
Arterial ageing is thought to cause a diastolic-to-systolic shift in the return time (RT) of backward waves to central arteries. However, current methods of estimating RT—inflection point, zero crossing, and foot methods—depend on a single waveform feature and produce systolic RT throughout life. We propose a novel centroid method that accounts for the entire backward pressure waveform and develop a ground truth RT (GTRT), which can be used in computational models to test the accuracy of RT estimation methods. Linear wave tracking was implemented in a one-dimensional systemic arterial tree model and GTRT was calculated as the amplitude-weighted mean RT of backward waves at the ascending aorta. Using a virtual cohort of 1200 patients, the centroid RT was closest to GTRT compared to the zero crossing, inflection point, and foot methods; mean differences (limits of agreement) were -8 (-47,30), vs -42 (-136,52), -78 (-305,149), and -197 (-379,-15) ms, respectively. The sensitivity of the methods to changes in RT was also assessed in ten sheep. A balloon catheter in the descending thoracic aorta was used to generate a backward-running pulse that arrived at the ascending aorta at different times during diastole or systole, allowing the “bulk” RT of the backward-running wave ensemble to be manipulated. Only the centroid method was sensitive to both diastolic and systolic changes in RT. We conclude that the accuracy and robustness of the centroid method make it most suitable for evaluating the diastolic-to-systolic shift in RT of backward waves with ageing.
Copyright:
This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
