Your search keyword '"Patch electrode"' showing total 4 results

1. Investigating stimulation parameters for preferential small-fiber activation using exponentially rising electrical currents.

Author

Hugosdottir, Rosa, Mørch, Carsten Dahl, Andersen, Ole Kæseler, and Arendt-Nielsen, Lars

Abstract

Electrical stimulation is widely used in pain research and profiling, but current technologies lack selectivity toward small sensory fibers. Pin electrodes deliver high current density in upper skin layers, and it has been proposed that slowly rising exponential pulses can elevate large-fiber activation threshold and thereby increase preferential small-fiber activation. Optimal stimulation parameters for the combined pin electrode and exponential pulse stimulation have so far not been established, which is the aim of this study. Perception thresholds were compared between pin and patch electrodes using single 1- to 100-ms exponential and rectangular pulses. Stimulus-response functions were evaluated for both pulse shapes delivered as single pulses and pulse trains of 10 Hz using intensities from 0.1 to 20 times perception threshold. Perception thresholds (mA) decreased when duration was increased for both electrodes with rectangular pulses and the pin electrode with exponential pulses. For the patch electrode, perception thresholds for exponential pulses decreased for durations ≤10 ms but increased for durations ≥15 ms, indicating accommodation of large fibers. Stimulus-response curves for single pulses were similar for the two pulse shapes. For pulse trains, the slope of the curve was higher for rectangular pulses. Maximal large-fiber accommodation to exponential pulses was observed for 100-ms pulses, indicating that 100-ms exponential pulses should be applied for preferential small-fiber activation. Intensity of 10 times perception threshold was sufficient to cause maximal pain ratings. The developed methodology may open new opportunities for using electrical stimulation paradigms for small-fiber stimulation and diagnostics. [ABSTRACT FROM AUTHOR]

Published

2019

2. A Patch in the Pectoral Position Lowers Defibrillation Threshold.

Author

Karasik, Pamela, Solomon, Allen, Verdino, Ralph, Moore, Hans, Rodak, David, Hannan, Robert, and Fletcher, Ross

Subjects

DEFIBRILLATORS, ARRHYTHMIA, ELECTRIC countershock, MEDICAL equipment, ELECTRONICS in cardiology, DRUGS

Abstract

Implantable pacemaker cardioverter defibrillators are now available with biphasic waveforms, which have been shown to markedly improve defibrillation thresholds (DFTs). However, in a number of patients the DFT remains high. Also, DFT may increase after implantation, especially if antiarrhythmic drugs are added. We report on the use of a subcutaneous patch in the pectoral position in 15 patients receiving a transvenous defibrillator as a method of easily reducing the DFT. A 660-mm2 patch electrode was placed beneath the generator in a pocket created on the pectoral fascia. The energy required for defibrillation was lowered by 56% on average, and the system impedance was lowered by a mean of 25%. This maneuver allowed all patients to undergo a successful implant with adequate safety margin. [ABSTRACT FROM AUTHOR]

Published

1997

3. Preferential activation of small cutaneous fibers through small pin electrode also depends on the shape of a long duration electrical current.

Author

Hugosdottir, Rosa, Mørch, Carsten Dahl, Andersen, Ole Kæseler, Helgason, Thordur, and Arendt-Nielsen, Lars

Subjects

THRESHOLD (Perception), FIBERS, PAIN perception, ELECTRODES, NEURAL stimulation

Abstract

Background: Electrical stimulation is widely used in experimental pain research but it lacks selectivity towards small nociceptive fibers. When using standard surface patch electrodes and rectangular pulses, large fibers are activated at a lower threshold than small fibers. Pin electrodes have been designed for overcoming this problem by providing a higher current density in the upper epidermis where the small nociceptive fibers mainly terminate. At perception threshold level, pin electrode stimuli are rather selectively activating small nerve fibers and are perceived as painful, but for high current intensity, which is usually needed to evoke sufficient pain levels, large fibers are likely co-activated. Long duration current has been shown to elevate the threshold of large fibers by the mechanism of accommodation. However, it remains unclear whether the mechanism of accommodation in large fibers can be utilized to activate small fibers even more selectively by combining pin electrode stimulation with a long duration pulse.Results: In this study, perception thresholds were determined for a patch- and a pin electrode for different pulse shapes of long duration. The perception threshold ratio between the two different electrodes was calculated to estimate the ability of the pulse shapes to preferentially activate small fibers. The perception threshold ratios were compared between stimulation pulses of 5- and 50 ms durations and shapes of: exponential increase, linear increase, bounded exponential, and rectangular. Qualitative pain perception was evaluated for all pulse shapes delivered at 10 times perception threshold. The results showed a higher perception threshold ratio for long duration 50 ms pulses than for 5 ms pulses. The highest perception threshold ratio was found for the 50 ms, bounded exponential pulse shape. Results furthermore revealed different strength-duration relation between the bounded exponential- and rectangular pulse shapes. Pin electrode stimulation at high intensity was mainly described as "stabbing", "shooting", and "sharp".Conclusion: These results indicate that long duration pulses with a bounded exponential increase preferentially activate the small nociceptive fibers with a pin electrode and concurrently cause elevated threshold of large non-nociceptive fibers with patch electrodes. [ABSTRACT FROM AUTHOR]

Published

2019

4. Implantation of a Nonthoracotomy Defibrillator Using a Second Defibrillator Patch in the Abdominal Pocket.

Author

Verdino, Ralph J., Hannan, Robert L., Tracy, Cynthia M., and Solomon, Allen J.

Subjects

DEFIBRILLATORS, CONFERENCES & conventions, MEDICAL equipment, ABDOMINAL aorta, ABDOMINAL exercises, HYSTERECTOMY

Abstract

Successful implantable of a biphasic nonthoracotomy implantable cardioverter defibrillator may not be achieved with a convention system. We describe a successful device implantation using a pectoral and abdominal patch electrode system. [ABSTRACT FROM AUTHOR]

Published

1996