TY - JOUR
T1 - Experimental Protocol and Phantom Design and Development for Performance Characterization of Conventional Devices for Peripheral Vascular Interventions
AU - Alawneh, Yara
AU - Zhou, James J.
AU - Sewani, Alykhan
AU - Tahmasebi, Mohammadmahdi
AU - Roy, Trisha L.
AU - Kayssi, Ahmed
AU - Dueck, Andrew D.
AU - Wright, Graham A.
AU - Tavallaei, M. Ali
N1 - Publisher Copyright:
© 2023, The Author(s) under exclusive licence to Biomedical Engineering Society.
PY - 2023/7
Y1 - 2023/7
N2 - Conventional catheter-based interventions for treating peripheral artery disease suffer high failure and complication rates. The mechanical interactions with the anatomy constrain catheter controllability, while their length and flexibility limit their pushability. Also, the 2D X-ray fluoroscopy guiding these procedures fails to provide sufficient feedback about the device location relative to the anatomy. Our study aims to quantify the performance of conventional non-steerable (NS) and steerable (S) catheters in phantom and ex vivo experiments. In a 10 mm diameter, 30 cm long artery phantom model, with four operators, we evaluated the success rate and crossing time in accessing 1.25 mm target channels, the accessible workspace, and the force delivered through each catheter. For clinical relevance, we evaluated the success rate and crossing time in crossing ex vivo chronic total occlusions. For the S and NS catheters, respectively, users successfully accessed 69 and 31% of the targets, 68 and 45% of the cross-sectional area, and could deliver 14.2 and 10.2 g of mean force. Using a NS catheter, users crossed 0.0 and 9.5% of the fixed and fresh lesions, respectively. Overall, we quantified the limitations of conventional catheters (navigation, reachable workspace, and pushability) for peripheral interventions; this can serve as a basis for comparison with other devices.
AB - Conventional catheter-based interventions for treating peripheral artery disease suffer high failure and complication rates. The mechanical interactions with the anatomy constrain catheter controllability, while their length and flexibility limit their pushability. Also, the 2D X-ray fluoroscopy guiding these procedures fails to provide sufficient feedback about the device location relative to the anatomy. Our study aims to quantify the performance of conventional non-steerable (NS) and steerable (S) catheters in phantom and ex vivo experiments. In a 10 mm diameter, 30 cm long artery phantom model, with four operators, we evaluated the success rate and crossing time in accessing 1.25 mm target channels, the accessible workspace, and the force delivered through each catheter. For clinical relevance, we evaluated the success rate and crossing time in crossing ex vivo chronic total occlusions. For the S and NS catheters, respectively, users successfully accessed 69 and 31% of the targets, 68 and 45% of the cross-sectional area, and could deliver 14.2 and 10.2 g of mean force. Using a NS catheter, users crossed 0.0 and 9.5% of the fixed and fresh lesions, respectively. Overall, we quantified the limitations of conventional catheters (navigation, reachable workspace, and pushability) for peripheral interventions; this can serve as a basis for comparison with other devices.
KW - Angioplasty
KW - Catheter limitations
KW - Catheter manipulation
KW - Catheter navigation
KW - Chronic total occlusions
KW - Endovascular
KW - Guidewires
KW - Non-steerable catheter
KW - Peripheral vascular interventions
KW - Steerable catheter
KW - Humans
KW - Endovascular Procedures
KW - Peripheral Arterial Disease/therapy
KW - Equipment Design
KW - Catheters
KW - Arteries
KW - Phantoms, Imaging
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U2 - 10.1007/s10439-023-03160-x
DO - 10.1007/s10439-023-03160-x
M3 - Article
C2 - 36808383
AN - SCOPUS:85148336199
SN - 0090-6964
VL - 51
SP - 1547
EP - 1557
JO - Annals of Biomedical Engineering
JF - Annals of Biomedical Engineering
IS - 7
ER -