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Anatomical Science International

Erschienen in:

02.08.2016 | Review Article

Exercise-induced hypoalgesia: potential mechanisms in animal models of neuropathic pain

verfasst von: Katsuya Kami, Fumihiro Tajima, Emiko Senba

Erschienen in: Anatomical Science International | Ausgabe 1/2017

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Abstract

Physical exercise, such as forced treadmill running and swimming, can sufficiently improve mechanical allodynia and heat hyperalgesia in animal models of neuropathic pain (NPP), including partial sciatic nerve ligation, chronic constriction injury, and spinal nerve ligation models. Thus, physical exercise has been established as a low-cost, safe, and effective way to manage NPP conditions, but the exact mechanisms underlying such exercise-induced hypoalgesia (EIH) are not fully understood. A growing body of evidence has identified several factors that work at different levels of the nervous system as playing important roles in producing EIH in animal models of NPP. The objective of this review is to provide an overview of key players associated with EIH, and then to discuss our current understanding of the mechanisms underlying EIH. Relevant studies have demonstrated that physical exercise can dramatically alter the levels of inflammatory cytokines, neurotrophins, neurotransmitters, endogenous opioids, and histone acetylation at various sites in the nervous system, such as injured peripheral nerves, dorsal root ganglia, and spinal dorsal horn in animal models of NPP, thereby contributing to the production of EIH. These results suggest that EIH is produced through multiple cellular and molecular events in the pain pathway.

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Titel: Exercise-induced hypoalgesia: potential mechanisms in animal models of neuropathic pain
verfasst von: Katsuya Kami
Fumihiro Tajima
Emiko Senba
Publikationsdatum: 02.08.2016
Verlag: Springer Japan
Erschienen in: Anatomical Science International / Ausgabe 1/2017
Print ISSN: 1447-6959
Elektronische ISSN: 1447-073X
DOI: https://doi.org/10.1007/s12565-016-0360-z

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Exercise-induced hypoalgesia: potential mechanisms in animal models of neuropathic pain

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