Handbook of Neuroengineering 2021
DOI: 10.1007/978-981-15-2848-4_63-1
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Electrical Block of Peripheral Nerves

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Cited by 2 publications
(2 citation statements)
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“…Additionally, owing to the direct link between the electrical signal and the muscular strength, the muscular chains may also be stimulated by external electrical signals using active electrodes, thus forcing muscular contraction. Among a wide variety of applications, this may be used to determine the origin of fatigue as peripheral [29] or central [30]. In any case, correct electrode placement is critical for achieving satisfactory results [31].…”
Section: A Physical Fatiguementioning
confidence: 99%
“…Additionally, owing to the direct link between the electrical signal and the muscular strength, the muscular chains may also be stimulated by external electrical signals using active electrodes, thus forcing muscular contraction. Among a wide variety of applications, this may be used to determine the origin of fatigue as peripheral [29] or central [30]. In any case, correct electrode placement is critical for achieving satisfactory results [31].…”
Section: A Physical Fatiguementioning
confidence: 99%
“…One characteristic that might compromise the use of KHFAC in clinical setting is an initial nerve activation, before complete block occurs, called the "onset response. " Several methods are being developed to avoid/diminish the onset response, as for example the use of rampamplitudes (Vrabec et al, 2019); the combination of direct current and KHFAC (Eggers et al, 2021); optimization of KHFAC waveforms to produce closed-state Na + channel inactivation (Yi and Grill, 2020); as well as the use of higher KHFAC amplitudes and frequencies (Gerges et al, 2010). In agreement, we have been able to block CSN activity specifically at 40-50 kHz, 1-2 mA without causing an abnormal physiological onset response (Table 1; Sacramento et al, 2018).…”
Section: Introductionmentioning
confidence: 99%