Motor cortex excitability following repetitive electrical stimulation of the common peroneal nerve depends on the voluntary drive

The afferent volley generated by neuromuscular electrical stimulation (NMES) influences corticospinal (CS) excitability and frequent NMES sessions can strengthen CS pathways, resulting in long-term improvements in function. This afferent volley can be altered by manipulating NMES parameters. Presently, we manipulated one such parameter, pulse duration, during NMES over the common peroneal nerve and assessed the influence on H-reflexes and CS excitability. We hypothesized that compared with shorter pulse durations, longer pulses would (i) shift the H-reflex recruitment curve to the left, relative to the M-wave curve; and (ii) increase CS excitability more. Using 3 pulse durations (50, 200, 1000 μs), M-wave and H-reflex recruitment curves were collected and, in separate experiments, CS excitability was assessed by comparing motor evoked potentials elicited before and after 30 min of NMES. Despite finding a leftward shift in the H-reflex recruitment curve when using the 1000 μs pulse duration, consistent with a larger afferent volley for a given efferent volley, the increases in CS excitability were not influenced by pulse duration. Hence, although manipulating pulse duration can alter the relative recruitment of afferents and efferents in the common peroneal nerve, under the present experimental conditions it is ineffective for maximizing CS excitability for rehabilitation.

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Microcirculatory changes in venous leg ulcers using intermittent electrostimulation of common peroneal nerve

Journal of Wound Care ◽

10.12968/jowc.2021.30.2.151 ◽

2021 ◽

Vol 30 (2) ◽

pp. 151-155

Author(s):

Saroj K Das ◽

Luxmi Dhoonmoon ◽

Duncan Bain ◽

Swati Chhabra

Keyword(s):

Peroneal Nerve ◽

Common Peroneal Nerve ◽

Mechanistic Explanation ◽

Laser Speckle ◽

Leg Ulcers ◽

Contrast Imaging ◽

Venous Leg Ulcers ◽

The Common ◽

Neuromuscular Electrostimulation ◽

Stimulation Of

Objective: Activation of the venous muscle pumps of the leg by intermittent transdermal neuromuscular stimulation of the common peroneal nerve has been previously shown to augment venous and arterial flow in patients with leg ulcers. This study aims to establish if microcirculation in the wound bed and periwound area are augmented by the activation of a neuromuscular electrostimulation device (NMES) (Geko, Firstkind Ltd., UK). Method: In this self-controlled, observational study, laser speckle contrast imaging was used to map and quantify microcirculatory flow in the wound bed and periwound area of patients with venous leg ulcers (VLU). Values of flow and pulsatility in these locations were compared with the NMES device, both active and inactive. Results: A total of 16 patients took part in the study. Microvascular flux increased by 27% (p=0.014) in the wound bed, and by 34% (p=0.004) in the periwound area, when the NMES device was activated. Pulsatility increased by 170% (p<0.001) in the wound bed and 173% (p<0.001) in the periwound area when the device was activated. Conclusion: Intermittent electrostimulation of the common peroneal nerve substantially increased both microcirculatory flux and pulsatility in the wound bed and in the periwound area of the VLUs of patients in this study. This provides a plausible mechanistic explanation for its reported efficacy in healing VLUs.

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Functional electrical stimulation using microstimulators to correct foot drop: a case study

Canadian Journal of Physiology and Pharmacology ◽

10.1139/y04-078 ◽

2004 ◽

Vol 82 (8-9) ◽

pp. 784-792 ◽

Cited By ~ 27

Author(s):

D J Weber ◽

R B Stein ◽

K M Chan ◽

G E Loeb ◽

F J.R Richmond ◽

...

Keyword(s):

Electrical Stimulation ◽

Functional Electrical Stimulation ◽

Peroneal Nerve ◽

Walking Speed ◽

Common Peroneal Nerve ◽

Foot Drop ◽

Cost Index ◽

Cord Injury ◽

Stimulation Of

This paper presents a case study that tested the feasibility and efficacy of using injectable microstimulators (BIONs®) in a functional electrical stimulation (FES) device to correct foot drop. Compared with surface stimulation of the common peroneal nerve, stimulation with BIONs provides more selective activation of specific muscles. For example, stimulation of the tibialis anterior (TA) and extensor digitorum longus (EDL) muscles with BIONs produces ankle flexion without excessive inversion or eversion of the foot (i.e., balanced flexion). Efficacy was assessed using a 3-dimensional motion analysis of the ankle and foot trajectories during walking with and without stimulation. Without stimulation, the toe on the affected leg drags across the ground. BION stimulation of the TA muscle and deep peroneal nerve (which innervates TA and EDL) elevates the foot such that the toe clears the ground by 3 cm, which is equivalent to the toe clearance in the less affected leg. The physiological cost index (PCI) measured effort during walking. The PCI equals the change in heart rate (from rest to activity) divided by the walking speed; units are beats per metre. The PCI is high without stimulation (2.29 ± 0.37, mean ± SD) and greatly reduced with surface (1.29 ± 0.10) and BIONic stimulation (1.46 ± 0.24). Also, walking speed increased from 9.4 ± 0.4 m/min without stimulation to 19.6 ± 2.0 m/min with surface and 17.8 ± 0.7 m/min with BIONic stimulation. These results suggest that FES delivered by a BION is an alternative to surface stimulation and provides selective control of muscle activation.Key words: FES, BION, foot drop, stroke, spinal cord injury.

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Twenty-nine-year stimulation of the common peroneal nerve in a hemiplegic patient

2014 37th International Convention on Information and Communication Technology, Electronics and Microelectronics (MIPRO) ◽

10.1109/mipro.2014.6859560 ◽

2014 ◽

Author(s):

P. Peclin ◽

J. Krajnik ◽

R. Acimovic-Janezic ◽

U. Stanic ◽

J. Rozman

Keyword(s):

Peroneal Nerve ◽

Common Peroneal Nerve ◽

The Common ◽

Hemiplegic Patient ◽

Stimulation Of

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