2021
DOI: 10.1101/2021.09.29.462482
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Augmented Transcutaneous Stimulation Using an Injectable Electrode

Abstract: Minimally invasive neuromodulation technologies seek to marry the neural selectivity of implantable devices with the low-cost and non-invasive nature of transcutaneous electrical stimulation (TES). The Injectrode® is a needle-delivered electrode that is injected onto neural structures under image guidance. Power is then transcutaneously delivered to the Injectrode using surface electrodes. The Injectrode serves as a low-impedance conduit to guide current to the deep on-target nerve, reducing activation thresho… Show more

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Cited by 2 publications
(22 citation statements)
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“…In this study, we characterized cuff electrodes, longitudinal intrafascicular electrodes (LIFE), an intrafascicular electrode used in pre-clinical studies (Yoshida and Stein, 1999;Nicolai et al, 2020), and microneurography microelectrodes, a clinical microelectrode used routinely in humans (Macefield, 2021), in their ability to measure neural activity in the peripheral nervous system. The cervical vagus, a major autonomic nerve innervating organs in the thorax and abdomen as well as muscles in the throat, and the great auricular nerve (GAN), a sensory nerve innervating the ear and periauricular region, were used as model nerves due to their relevance in existing peripheral neuromodulation therapies -invasive vagus nerve stimulators for epilepsy and depression (Johnson and Wilson, 2018) and non-invasive aVNS (Verma et al, 2021a), respectively.…”
Section: Methodsmentioning
confidence: 99%
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“…In this study, we characterized cuff electrodes, longitudinal intrafascicular electrodes (LIFE), an intrafascicular electrode used in pre-clinical studies (Yoshida and Stein, 1999;Nicolai et al, 2020), and microneurography microelectrodes, a clinical microelectrode used routinely in humans (Macefield, 2021), in their ability to measure neural activity in the peripheral nervous system. The cervical vagus, a major autonomic nerve innervating organs in the thorax and abdomen as well as muscles in the throat, and the great auricular nerve (GAN), a sensory nerve innervating the ear and periauricular region, were used as model nerves due to their relevance in existing peripheral neuromodulation therapies -invasive vagus nerve stimulators for epilepsy and depression (Johnson and Wilson, 2018) and non-invasive aVNS (Verma et al, 2021a), respectively.…”
Section: Methodsmentioning
confidence: 99%
“…Neuromodulation therapies can lack specificity of target engagement (Heusser et al, 2016;De Ferrari et al, 2017). In these therapies, the ability to directly measure neural activation around the stimulation site and understand fiber types activated could be critical to understand mechanism of action and enable electrode contact position adjustments to enable a more efficacious therapy (Verma et al, 2021a). Such measurements of local neural target engagement could be done either acutely in the doctor's office during placement and titration of the therapy or chronically implanted with the therapy device.…”
Section: Measuring Ecaps During Invasive Stimulationmentioning
confidence: 99%
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