Neurochemical mechanism of muscular pain: Insight from the study on delayed onset muscle soreness.
Kazue MizumuraToru TaguchiPublished in: The journal of physiological sciences : JPS (2024)
We reviewed fundamental studies on muscular pain, encompassing the characteristics of primary afferent fibers and neurons, spinal and thalamic projections, several muscular pain models, and possible neurochemical mechanisms of muscle pain. Most parts of this review were based on data obtained from animal experiments, and some researches on humans were also introduced. We focused on delayed-onset muscle soreness (DOMS) induced by lengthening contractions (LC), suitable for studying myofascial pain syndromes. The muscular mechanical withdrawal threshold (MMWT) decreased 1-3 days after LC in rats. Changing the speed and range of stretching showed that muscle injury seldom occurred, except in extreme conditions, and that DOMS occurred in parameters without muscle damage. The B2 bradykinin receptor-nerve growth factor (NGF) route and COX-2-glial cell line-derived neurotrophic factor (GDNF) route were involved in the development of DOMS. The interactions between these routes occurred at two levels. A repeated-bout effect was observed in MMWT and NGF upregulation, and this study showed that adaptation possibly occurred before B2 bradykinin receptor activation. We have also briefly discussed the prevention and treatment of DOMS.
Keyphrases
- chronic pain
- growth factor
- neuropathic pain
- pain management
- skeletal muscle
- spinal cord
- cell proliferation
- spinal cord injury
- mass spectrometry
- oxidative stress
- machine learning
- poor prognosis
- climate change
- signaling pathway
- binding protein
- high resolution
- long non coding rna
- high intensity
- replacement therapy
- deep learning
- solid phase extraction