2017
DOI: 10.1121/1.4984287
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Low-intensity ultrasound activates vestibular otolith organs through acoustic radiation force

Abstract: The present study examined the efficacy of 5 MHz low-intensity focused ultrasound (LiFU) as a stimulus to remotely activate inner ear vestibular otolith organs. The otolith organs are the primary sensory apparati responsible for detecting orientation of the head relative to gravity and linear acceleration in three-dimensional space. These organs also respond to loud sounds and vibration of the temporal bone. The oyster toadfish, Opsanus tau, was used to facilitate unobstructed acoustic access to the otolith or… Show more

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Cited by 18 publications
(17 citation statements)
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“…We used a genetic approach to distinguish among these possibilities, leveraging mutants deficient in thermosensation or mechanosensation. To test for thermal effects, we compared ultrasound-evoked behaviors in wild-type and gcy-23(nj37)gcy-8(oy44)gcy-18(nj38) that lack a trio of receptor guanylate cyclases expressed exclusively in the AFD thermoreceptor neurons and are defective in thermotaxis (Garrity et al, 2010;Glauser and Goodman, 2016). Although these mutants have an intact AFD thermoreceptor neuron, they lack the ability to sense tiny (Ͻ0.05°C) thermal fluctuations in temperature (Ramot et al, 2008;Wasserman et al, 2011).…”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…We used a genetic approach to distinguish among these possibilities, leveraging mutants deficient in thermosensation or mechanosensation. To test for thermal effects, we compared ultrasound-evoked behaviors in wild-type and gcy-23(nj37)gcy-8(oy44)gcy-18(nj38) that lack a trio of receptor guanylate cyclases expressed exclusively in the AFD thermoreceptor neurons and are defective in thermotaxis (Garrity et al, 2010;Glauser and Goodman, 2016). Although these mutants have an intact AFD thermoreceptor neuron, they lack the ability to sense tiny (Ͻ0.05°C) thermal fluctuations in temperature (Ramot et al, 2008;Wasserman et al, 2011).…”
Section: Resultsmentioning
confidence: 99%
“…Low-intensity, focused ultrasound affects the function of excitable cells in the central (Fry et al, 1958;Meyers et al, 1959;Foster and Wiederhold, 1978;Gavrilov et al, 1996;Tufail et al, 2011;Yoo et al, 2011;Deffieux et al, 2013;King et al, 2013;Menz et al, 2013) and peripheral (Mihran et al, 1990;Tsui et al, 2005;Colucci et al, 2009) nervous systems, and the heart (Harvey, 1929;Buiochi et al, 2012). Because it propagates deep into tissue while retaining spatial focus, it has garnered considerable attention for its potential as a noninvasive tool for stimulation of the brain and the heart (Tufail et al, 2011;Lee et al, 2016).…”
Section: Introductionmentioning
confidence: 99%
“…The third and most probable form of mechanical energy is the acoustic radiation force (ARF). 24,52,54 The ARF is associated with momentum transfer from the ultrasound wave field to the medium; 10 the ARF exerts a steady pressure on a target throughout the time of ultrasound application. This steady pressure may stretch a cell membrane to an extent that affects conformation states of ion channels or other active molecules tied to the membrane.…”
Section: Mechanism Of Ultrasonic Neuromodulationmentioning
confidence: 99%
“…5A). The third and most probable form of mechanical energy underlying the effects in this study is the acoustic radiation force (Trahey et al, 2004;Sarvazyan et al, 2010;Iversen et al, 2017). Acoustic radiation forces result from differences in acoustic intensities at individual points in space.…”
Section: Discussionmentioning
confidence: 91%
“…Consistent with this idea, ultrasound stimulation has been shown to increase currents carried by two-pore domain (K2P) potassium channels and voltage-gated sodium channels expressed in Xenopus oocytes (Kubanek et al, 2016). This body of work has raised the question whether or not ultrasound affects nervous systems via thermal or non-thermal effects (Iversen et al, 2017) and, if non-thermal effects are dominant, how is ultrasound transduced into membrane strain (tension) and channel activation. To contribute additional insight into these questions, we developed a behavioral-genetic assay using C. elegans roundworms.…”
Section: Introductionmentioning
confidence: 93%