DocumentCode
1097730
Title
Prototype Fabrication and Preliminary In Vitro Testing of a Shape Memory Endovascular Thrombectomy Device
Author
Small, Ward ; Wilson, Thomas S. ; Buckley, Patrick R. ; Benett, William J. ; Loge, Jeffrey M. ; Hartman, Jonathan ; Maitland, Duncan J.
Author_Institution
Lawrence Livermore Nat. Lab., Livermore
Volume
54
Issue
9
fYear
2007
Firstpage
1657
Lastpage
1666
Abstract
An electromechanical microactuator comprised of shape memory polymer (SMP) and shape memory nickel-titanium alloy (nitinol) was developed and used in an endovascular thrombectomy device prototype. The microactuator maintains a straight rod shape until an applied current induces electro-resistive (Joule) heating, causing the microactuator to transform into a corkscrew shape. The straight-to-corkscrew transformation geometry was chosen to permit endovascular delivery through (straight form) and retrieval of (corkscrew form) a stroke-causing thrombus (blood clot) in the brain. Thermal imaging of the microactuator during actuation in air indicated that the steady-state temperature rise caused by Joule heating varied quadratically with applied current and that actuation occurred near the glass transition temperature of the SMP (86degC). To demonstrate clinical application, the device was used to retrieve a blood clot in a water-filled silicone neurovascular model. Numerical modeling of the heat transfer to the surrounding blood and associated thermal effects on the adjacent artery potentially encountered during clinical use suggested that any thermal damage would likely be confined to localized areas where the microactuator was touching the artery wall. This shape memory mechanical thrombectomy device is a promising tool for treating ischemic stroke without the need for infusion of clot-dissolving drugs.
Keywords
biomedical electronics; biomedical engineering; biomedical materials; biothermics; microactuators; nickel alloys; patient treatment; shape memory effects; titanium alloys; Joule heating; artery wall; blood clot; electro-resistive heating; electromechanical microactuator; heat transfer; in vitro testing; ischemic stroke; mechanical thrombectomy device; nitinol; shape memory endovascular thrombectomy device; shape memory nickel-titanium alloy; shape memory polymer; silicone neurovascular model; stroke causing thrombus; temperature 86 C; thermal damage; thermal effect; Arteries; Coagulation; Fabrication; Heating; In vitro; Microactuators; Polymers; Prototypes; Shape memory alloys; Temperature; Nitinol; shape memory alloy; shape memory polymer (SMP); stroke; thrombectomy; Blood Vessel Prosthesis; Computer-Aided Design; Equipment Design; Equipment Failure Analysis; Pilot Projects; Thrombectomy;
fLanguage
English
Journal_Title
Biomedical Engineering, IEEE Transactions on
Publisher
ieee
ISSN
0018-9294
Type
jour
DOI
10.1109/TBME.2007.892921
Filename
4291672
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