2020
DOI: 10.1085/jgp.202012672
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Spike frequency–dependent inhibition and excitation of neural activity by high-frequency ultrasound

Abstract: Ultrasound can modulate action potential firing in vivo and in vitro, but the mechanistic basis of this phenomenon is not well understood. To address this problem, we used patch-clamp recording to quantify the effects of focused, high-frequency (43 MHz) ultrasound on evoked action potential firing in CA1 pyramidal neurons in acute rodent hippocampal brain slices. We find that ultrasound can either inhibit or potentiate firing in a spike frequency–dependent manner: at low (near-threshold) input currents and low… Show more

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Cited by 32 publications
(26 citation statements)
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“…In Aplysia , heat-mediated (infrared) conduction block is greatly reduced by tetraethylammonium (TEA), a K V antagonist ( Ganguly et al, 2019a , b ). An additional primary or complementary source of [K + ] O may be via two-pore potassium channels, which are thermosensitive ( Schneider et al, 2014 ), and whose conductance increases on exposure to US ( Kubanek et al, 2016 ) by a reportedly thermal mechanism ( Prieto et al, 2020 ). Importantly, both classes of potassium channels are expressed ubiquitously by neurons, and a mechanism targeting these channels would circumvent the need to limit US-based neuromodulation therapies to classes of cells that express ion channels susceptible to US mechanical activation, including Piezo ( Prieto et al, 2018 ), TRP ( Yoo et al, 2020 ), and DEG/ENaC/ASIC ( Kubanek et al, 2018 ), or to introduce non-endogenous mechanosensitive ion channels in desired target tissue a la sonogenetics ( Ibsen et al, 2015 ).…”
Section: Discussionmentioning
confidence: 99%
“…In Aplysia , heat-mediated (infrared) conduction block is greatly reduced by tetraethylammonium (TEA), a K V antagonist ( Ganguly et al, 2019a , b ). An additional primary or complementary source of [K + ] O may be via two-pore potassium channels, which are thermosensitive ( Schneider et al, 2014 ), and whose conductance increases on exposure to US ( Kubanek et al, 2016 ) by a reportedly thermal mechanism ( Prieto et al, 2020 ). Importantly, both classes of potassium channels are expressed ubiquitously by neurons, and a mechanism targeting these channels would circumvent the need to limit US-based neuromodulation therapies to classes of cells that express ion channels susceptible to US mechanical activation, including Piezo ( Prieto et al, 2018 ), TRP ( Yoo et al, 2020 ), and DEG/ENaC/ASIC ( Kubanek et al, 2018 ), or to introduce non-endogenous mechanosensitive ion channels in desired target tissue a la sonogenetics ( Ibsen et al, 2015 ).…”
Section: Discussionmentioning
confidence: 99%
“…Limited by the transducer bandwidth, the highest ultrasound frequency applied was 40 MHz 39 . To achieve even greater spatial resolution, higher frequencies (e.g.…”
Section: Discussionmentioning
confidence: 99%
“…The dynamics of the sonicated region leading up to stimulation, especially neural oscillations, may exert a causal influence on the subsequent response to stimulation [38]. Indeed, there is in vitro evidence that the level of synaptic input exerts an influence on the neuronal response to ultrasound [39], and findings from functional magnetic resonance imaging (fMRI) suggest that neuromodulation outcome is dependent on whether the stimulated region is active [40]. To our knowledge, however, the influence of baseline neural oscillations on the subsequent neuronal response to ultrasonic neuromodulation has not yet been investigated.…”
Section: Introductionmentioning
confidence: 99%