Non-invasive treatment for coronary in-stent restenosis via wireless revascularization with nitinol active stent
This paper reports a novel shape memory alloy (SMA) nitinol type active stent for non-invasive restenosis treatment, which operates using a radiofrequency (RF) electro-thermo-mechanical actuation technique for wireless revascularization. The developed stent is equipped with a capacitive pressure sen...
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my.utm.955892022-05-31T13:04:29Z http://eprints.utm.my/id/eprint/95589/ Non-invasive treatment for coronary in-stent restenosis via wireless revascularization with nitinol active stent Ang, Yong Xian Md. Khudzari, Ahmad Zahran Mohamed Ali, Mohamed Sultan TK Electrical engineering. Electronics Nuclear engineering This paper reports a novel shape memory alloy (SMA) nitinol type active stent for non-invasive restenosis treatment, which operates using a radiofrequency (RF) electro-thermo-mechanical actuation technique for wireless revascularization. The developed stent is equipped with a capacitive pressure sensor for in-artery blood pressure measurement and can provide multiple expansion to restore the blood pressure flow. The device design, working principle, fabrication, and characterization of the nitinol active stent are reported in this work. The wireless monitoring feature is achieved via peak shifting in the reflection coefficient of the S11 parameter. The active stent with initial diameter and resonant frequency of 2 mm and 315 MHz, respectively, is expanded uniformly in stages up to 4.2 mm in diameter when excited with an RF power of ∼30 W for 320 s. The active stent is delivered and deployed ex vivo inside the left coronary artery of a cervine heart. The stented cervine heart before and after wireless actuation is inspected via penetration of X-rays. Endoscopic images reveal the expansion of the stent strut profile within the lumen of the stented artery. The active stent expands in stages up to 3.7 mm in diameter to scaffold the cervine coronary artery after excited with an RF power of 46.7 W. The achievable wireless revascularization capability eradicates the necessity of reintervention and repeat stenting procedure, whereas real-time wireless monitoring provides rapid indication of in-artery re-narrowing occurrence. IEEE Computer Society 2021-12-01 Article PeerReviewed Ang, Yong Xian and Md. Khudzari, Ahmad Zahran and Mohamed Ali, Mohamed Sultan (2021) Non-invasive treatment for coronary in-stent restenosis via wireless revascularization with nitinol active stent. IEEE Transactions on Biomedical Engineering, 68 (12). pp. 3681-3689. ISSN 0018-9294 http://dx.doi.org/10.1109/TBME.2021.3082172 DOI:10.1109/TBME.2021.3082172 |
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TK Electrical engineering. Electronics Nuclear engineering Ang, Yong Xian Md. Khudzari, Ahmad Zahran Mohamed Ali, Mohamed Sultan Non-invasive treatment for coronary in-stent restenosis via wireless revascularization with nitinol active stent |
| description |
This paper reports a novel shape memory alloy (SMA) nitinol type active stent for non-invasive restenosis treatment, which operates using a radiofrequency (RF) electro-thermo-mechanical actuation technique for wireless revascularization. The developed stent is equipped with a capacitive pressure sensor for in-artery blood pressure measurement and can provide multiple expansion to restore the blood pressure flow. The device design, working principle, fabrication, and characterization of the nitinol active stent are reported in this work. The wireless monitoring feature is achieved via peak shifting in the reflection coefficient of the S11 parameter. The active stent with initial diameter and resonant frequency of 2 mm and 315 MHz, respectively, is expanded uniformly in stages up to 4.2 mm in diameter when excited with an RF power of ∼30 W for 320 s. The active stent is delivered and deployed ex vivo inside the left coronary artery of a cervine heart. The stented cervine heart before and after wireless actuation is inspected via penetration of X-rays. Endoscopic images reveal the expansion of the stent strut profile within the lumen of the stented artery. The active stent expands in stages up to 3.7 mm in diameter to scaffold the cervine coronary artery after excited with an RF power of 46.7 W. The achievable wireless revascularization capability eradicates the necessity of reintervention and repeat stenting procedure, whereas real-time wireless monitoring provides rapid indication of in-artery re-narrowing occurrence. |
| format |
Article |
| author |
Ang, Yong Xian Md. Khudzari, Ahmad Zahran Mohamed Ali, Mohamed Sultan |
| author_facet |
Ang, Yong Xian Md. Khudzari, Ahmad Zahran Mohamed Ali, Mohamed Sultan |
| author_sort |
Ang, Yong Xian |
| title |
Non-invasive treatment for coronary in-stent restenosis via wireless revascularization with nitinol active stent |
| title_short |
Non-invasive treatment for coronary in-stent restenosis via wireless revascularization with nitinol active stent |
| title_full |
Non-invasive treatment for coronary in-stent restenosis via wireless revascularization with nitinol active stent |
| title_fullStr |
Non-invasive treatment for coronary in-stent restenosis via wireless revascularization with nitinol active stent |
| title_full_unstemmed |
Non-invasive treatment for coronary in-stent restenosis via wireless revascularization with nitinol active stent |
| title_sort |
non-invasive treatment for coronary in-stent restenosis via wireless revascularization with nitinol active stent |
| publisher |
IEEE Computer Society |
| publishDate |
2021 |
| url |
http://eprints.utm.my/id/eprint/95589/ http://dx.doi.org/10.1109/TBME.2021.3082172 |
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1735386822901497856 |