Overview
Muscle and nerve stimulation refers to the use of electrical signals to activate muscles or the nerves that supply them, producing controlled contractions or modulating nerve activity. By delivering precisely timed electrical impulses, stimulation can be used in rehabilitation and therapy to maintain or rebuild muscle strength, increase range of motion, manage pain, and support recovery after injury or in neuromuscular disorders. It also serves as a research and diagnostic tool for studying how nerves transmit signals and how muscles respond, including the timing between neural activation and force production. These techniques rest on the close functional relationship between motor nerves and the skeletal muscles they control, where the properties of muscle tissue, such as its mechanical stiffness and the delay between electrical activation and contraction, shape how movement and force are generated. As a topic concerned with the function, mechanics, and recovery of Skeletal Muscle and its nerve supply, muscle and nerve stimulation falls within the scope of Skeletal Muscle research. The page gathers peer-reviewed, open-access research relevant to the neuromuscular system and the mechanical behavior of muscle.
Research published in this journal
9 peer-reviewed articles, ranked by relevance. Each links to its DOI.
Suboccipital Decompression for Occipital Neuralgia
Communicating Branch of the Mental Nerve and Facial Nerve
Electromagnetic Fields and Osteoarthritis 2025
Healthy Aging and Muscle Dysfunction: Will Melatonin Help?
Progress in Rehabilitation Treatments for Sepsis Patients in ICU
Evaluation of Vitamin D3 metabolite (25-OH Vit D3), Neurotransmitter (ACh), and the Expression of Proinflammatory Cytokines (IL-6 and TNF-α) in Tissue Homogenate after Administration of Biofield Energy Healing-based Novel Proprietary Test Formulation and Biofield Treatment per se to the Animals in Vitamin D3 Deficiency Diet (VDD)-induced Sprague Dawley Rats
Clinical Evaluation of Significance of 25(Oh)D Levels in Patients with Organophosphorus Poisoning
Vitamin D, Falls and Balance Capacity Impacts in Older Adults: Update
How this research is being cited
The 9 articles above have been cited 18 times in the scholarly literature. Citation data via OpenAlex and Crossref, updated Jun 2026.
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2025 · Experimental Physiology
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2025 · Human Physiology
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2025 · Human Physiology
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2025 · Experimental Physiology
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2025 · Plastic & Reconstructive Surgery
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2023 · Физиология человека
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2023 · Human Physiology
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2023 · Elsevier eBooks
A sample of recent works citing this journal's research on Muscle & Nerve, linking to each citing work.