Journal
ULTRASOUND IN MEDICINE AND BIOLOGY
Volume 47, Issue 7, Pages 1985-1991Publisher
ELSEVIER SCIENCE INC
DOI: 10.1016/j.ultrasmedbio.2021.02.028
Keywords
Flexoelectricity; Neuromodulation; Low-intensity low-frequency ultrasound; Sonication parameters; Computational model
Funding
- Engineering and Physical Sciences Research Council (EPSRC) Healthcare Technologies Challenge Award [EP/N020987/1]
- EPSRC [EP/N020987/1] Funding Source: UKRI
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Low-intensity, low-frequency ultrasound is a promising technique for non-invasive nerve modulation, but there is currently no consensus on optimal sonication parameters. Simulation results suggest the influence of sonication parameters under different conditions.
Low-intensity, low-frequency ultrasound (LILFU) has recently emerged as a promising technique to modulate non-invasively nerve activities at lower cost than other traditional and more-invasive neuromodulation methods. However, there is currently no consensus on the optimum sonication parameters to be used in LILFU applications, and most of the accepted ranges have arisen from trial-and-error approaches. Here we utilise a recently proposed micromechanics model of membrane flexoelectricity, a potential candidate for neuromodulation, and simulate action potentials/membrane polarisation triggered by acoustic pulses of different pulse frequencies, pulse magnitudes and duty cycles. Results reveal that, at constant duty cycles, increasing the transmit frequency increases the thresholds of both the pulse magnitude and the elastic energy rate density required to mechanically trigger an action potential, whereas at constant frequencies, increasing the duty cycle reduces both. The influence of transmit frequency is weakened at lower duty cycles. Our simulation results offer some guidance on the selections of sonication parameters used in LILFU for neurologic disorder treatments in the context of the flexoelectricity hypothesis. (C) 2021 World Federation for Ultrasound in Medicine & Biology. All rights reserved.
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