Motor unit recruitment when neuromuscular electrical stimulation is applied over a nerve trunk compared with a muscle belly: quadriceps femoris.

@article{Bergquist2012MotorUR,
  title={Motor unit recruitment when neuromuscular electrical stimulation is applied over a nerve trunk compared with a muscle belly: quadriceps femoris.},
  author={Austin J. Bergquist and Matheus Joner Wiest and David F. Collins},
  journal={Journal of applied physiology},
  year={2012},
  volume={113 1},
  pages={
          78-89
        }
}
Neuromuscular electrical stimulation (NMES) can be delivered over a nerve trunk or muscle belly and both can generate contractions through peripheral and central pathways. Generating contractions through peripheral pathways is associated with a nonphysiological motor unit recruitment order, which may limit the efficacy of NMES rehabilitation. Presently, we compared recruitment through peripheral and central pathways for contractions of the knee extensors evoked by NMES applied over the femoral… 
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84 Citations

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Citation Type

Effect of neuromuscular electrical stimulation intensity over the tibial nerve trunk on triceps surae muscle fatigue
TLDR
Whether the current intensity was increased or not, the adaptations after a NMES protocol yield to similar muscle fatigue adaptations as voluntary contractions likely through similar pathways matching a similar TTI.
Relation Between the Frequency of Short-Pulse Electrical Stimulation of Afferent Nerve Fibers and Evoked Muscle Force
TLDR
Investigation of the range of forces that can be evoked in FES and the degree to which the torque can be controlled found substantial evoked torques that could be controlled by stimulation frequency were achieved.
Effects of neuromuscular electrical stimulation on contralateral quadriceps function.
  • T. Cattagni, R. Lepers, N. Maffiuletti
  • Biology, Medicine
    Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology
  • 2018
Physiological recruitment of motor units by high-frequency electrical stimulation of afferent pathways.
TLDR
The use of low-current, high-frequency nerve stimulation to activate the muscle via the spinal motoneuron (MN) pool to achieve more natural activation patterns is investigated to suggest that the proposed stimulation strategy may allow generation of considerable levels of muscle activation by motor unit recruitment that resembles the physiological conditions.
Effect of tendon vibration during wide-pulse neuromuscular electrical stimulation (NMES) on the decline and recovery of muscle force
TLDR
Tendon vibration superimposed onto wide-pulse width NMES increased TTI only in 8 of 16 subjects, but reduced voluntary force loss (fatigue) ubiquitously, and negative responders to tendon vibration may derive greater benefit from wide- pulse widthNMES alone.
Effects of NMES pulse width and intensity on muscle mechanical output and oxygen extraction in able-bodied and paraplegic individuals.
TLDR
Long-low and short-high NMES recruited quadriceps femoris motor units that demonstrated similar contractile and fatigability properties, but long-low NMES conceivably resulted in the preferential recruitment of vastus lateralis muscle fibers as detected by NIRS.
Twitch potentiation induced by two different modalities of neuromuscular electrical stimulation: Implications for motor unit recruitment
TLDR
The results demonstrate that presumed differences in motor unit recruitment between WPHF and CONV do not seem to influence twitch potentiation results.
Interleaved neuromuscular electrical stimulation: Motor unit recruitment overlap
TLDR
Low intensity iNMES leads to low overlap and produces torque that is functionally relevant to evoke dorsiflexion during walking.
Central Contribution to Electrically Induced Fatigue depends on Stimulation Frequency
TLDR
The combination of high-stimulation frequencies and low-pulse amplitude induced the greatest neuromuscular fatigue.
Wide-pulse, high-frequency, low-intensity neuromuscular electrical stimulation has potential for targeted strengthening of an intrinsic foot muscle: a feasibility study
TLDR
An acute session of wide-pulse, high-frequency, low-intensity electrical stimulation delivered directly to abductor hallucis in healthy feet induces muscle fatigue via adaptations at the peripheral level of the neuromuscular system.
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References

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TLDR
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