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K.M. Emmer

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2 records found

Journal article (2022) - R.L. Coolen, K.M. Emmer, P.I. Spantidea, E. van Asselt, J.R. Scheepe, W.A. Serdijn, B.F.M. Blok
The first two objectives were to establish which stimulation parameters of kilohertz frequency alternating current (KHFAC) neuromodulation influence the effectiveness of pudendal nerve block and its safety. The third aim was to determine whether KHFAC neuromodulation of the pudendal nerve can relax the pelvic musculature, including the anal sphincter. Simulation experiments were conducted to establish which parameters can be adjusted to improve the effectiveness and safety of the nerve block. The outcome measures were block threshold (measure of effectiveness) and block threshold charge per phase (measure of safety). In vivo, the pudendal nerves in 11 male and 2 female anesthetized Sprague Dawley rats were stimulated in the range of 10 Hz to 40 kHz, and the effect on anal pressure was measured. The simulations showed that block threshold and block threshold charge per phase depend on waveform, interphase delay, electrode-to-axon distance, interpolar distance, and electrode array orientation. In vivo, the average anal pressure during unilateral KHFAC stimulation was significantly lower than the average peak anal pressure during low-frequency stimulation (p < 0.001). Stimulation with 20 kHz and 40 kHz (square wave, 10 V amplitude, 50% duty cycle, no interphase delay) induced the largest anal pressure decrease during both unilateral and bilateral stimulation. However, no statistically significant differences were detected between the different frequencies. This study showed that waveform, interphase delay and the alignment of the electrode along the nerve affect the effectiveness and safety of KHFAC stimulation. Additionally, we showed that KHFAC neuromodulation of the pudendal nerves with an electrode array effectively reduces anal pressure in rats. ...
Journal article (2021) - R.L. Coolen, K.M. Emmer, P.I. Spantidea, E. van Asselt, J.R. Scheepe, W.A. Serdijn, B.F.M. Blok
Hoogfrequente stimulatie met bifasische blokpulsen in de kHz-range induceert een tijdelijke zenuwgeleidingsblokkade. Toegepast op de nervus pudendus, kan het de bekkenmusculatuur ontspannen. Dit kan helpen bij het legen van de blaas en de darmen, hetgeen een nieuwe therapie biedt voor urineretentie en disfunctionele defecatie. Deze studie is uitgevoerd om: 1) te bepalen welke stimulatieparameters de effectiviteit en veiligheid van hoogfrequente stimulatie beïnvloeden en 2) om vast te stellen of hoogfrequente stimulatie van de nervus pudendus de bekkenmusculatuur kan ontspannen. ...