1. Virtual ABI: A computationally derived ABI index for noninvasive assessment of femoro-popliteal bypass surgery outcome
- Author
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Aleksandar Tomic, Arso M. Vukicevic, Dalibor Nikolic, Dragana S. Paunovic, Uros M. Miladinovic, Danko Milasinovic, Nenad Filipovic, and Dragan Sekulic
- Subjects
medicine.medical_specialty ,Arterial disease ,medicine.medical_treatment ,Population ,Hemodynamics ,Health Informatics ,010103 numerical & computational mathematics ,030204 cardiovascular system & hematology ,01 natural sciences ,03 medical and health sciences ,0302 clinical medicine ,Graft occlusion ,medicine ,Medical imaging ,Humans ,Ankle Brachial Index ,0101 mathematics ,education ,education.field_of_study ,business.industry ,Reproducibility of Results ,Computer Science Applications ,Femoral Artery ,Amputation ,Surgery outcome ,Radiology ,business ,Software ,Femoro popliteal bypass - Abstract
Background and objective Peripheral arterial disease of the lower limbs, which affects 12-14% of the population, is often treated by bypassing a blocked portion of the vessel. Due to the limited ability of clinicians to predict the outcome of a selected bypass strategy, the five-year graft occlusion ranges from 50% to 90%, with a 20% risk of amputation in the first 5 years after the surgery. The aim of this study was to develop a computational procedure that could enable surgeons to reduce negative effects by assessing patient-specific response to the available surgical strategies. Methods The Virtual ABI assumes patient-specific finite element modeling of patients’ hemodynamics from routinely acquired medical scans of lower limbs. The key contribution of this study is a novel approach for prescribing boundary conditions, which combines noninvasive preoperative measurements and results of numerical simulations. Results The validation performed on six follow-up cases indicated high reliability of the Virtual ABI, since the correlation with the experimentally measured values of ankle-brachial index was R² = 0.9485. Conclusion The initial validation showed that the proposed Virtual ABI is a noninvasive procedure that could assist clinicians to find an optimal strategy for treating a particular patient by varying bypass length, choosing adequate diameter, position and shape.
- Published
- 2021