Dual-Channel Stretchable, Self-Tuning, Liquid Metal Coils and Their Fabrication Techniques.

TitleDual-Channel Stretchable, Self-Tuning, Liquid Metal Coils and Their Fabrication Techniques.
Publication TypeJournal Article
Year of Publication2023
AuthorsMotovilova E, Ching T, Vincent J, Shin J, Tan ETsoon, Taracila V, Robb F, Hashimoto M, Sneag DB, Winkler SAngela
JournalSensors (Basel)
Volume23
Issue17
Date Published2023 Sep 01
ISSN1424-8220
KeywordsCommerce, Engineering, Humans, Knee Joint, Metals, Movement
Abstract

Flexible and stretchable radiofrequency coils for magnetic resonance imaging represent an emerging and rapidly growing field. The main advantage of such coil designs is their conformal nature, enabling a closer anatomical fit, patient comfort, and freedom of movement. Previously, we demonstrated a proof-of-concept single element stretchable coil design with a self-tuning smart geometry. In this work, we evaluate the feasibility of scaling this coil concept to a multi-element coil array and the associated engineering and manufacturing challenges. To this goal, we study a dual-channel coil array using full-wave simulations, bench testing, in vitro, and in vivo imaging in a 3 T scanner. We use three fabrication techniques to manufacture dual-channel receive coil arrays: (1) single-layer casting, (2) double-layer casting, and (3) direct-ink-writing. All fabricated arrays perform equally well on the bench and produce similar sensitivity maps. The direct-ink-writing method is found to be the most advantageous fabrication technique for fabrication speed, accuracy, repeatability, and total coil array thickness (0.6 mm). Bench tests show excellent frequency stability of 128 ± 0.6 MHz (0% to 30% stretch). Compared to a commercial knee coil array, the stretchable coil array is more conformal to anatomy and provides 50% improved signal-to-noise ratio in the region of interest.

DOI10.3390/s23177588
Alternate JournalSensors (Basel)
PubMed ID37688046
PubMed Central IDPMC10490642
Grant ListR00 EB024341 / EB / NIBIB NIH HHS / United States
R01 EB031820 / EB / NIBIB NIH HHS / United States
Related Institute: 
MRI Research Institute (MRIRI)

Weill Cornell Medicine
Department of Radiology
525 East 68th Street New York, NY 10065