New perspectives on the development of muscle contractures following central motor lesions

Jessica Pingel; Else Marie Bartels; Jens Bo Nielsen

doi:10.1113/jp272767

New perspectives on the development of muscle contractures following central motor lesions

Jessica Pingel, Else Marie Bartels, Jens Bo Nielsen

28 Citationer (Scopus)

Abstract

Muscle contractures are common in patients with central motor lesions, but the mechanisms responsible for the development of contractures are still unclear. Increased or decreased neural activation, protracted placement of a joint with the muscle in a short position and muscle atrophy have been suggested to be involved, but none of these mechanisms are sufficient to explain the development of muscle contractures alone. Here we propose that changes in tissue homeostasis in the neuromuscular–tendon–connective tissue complex is at the heart of the development of contractures, and that an integrated physiological understanding of the interaction between neural, mechanical and metabolic factors, as well as genetic and epigenetic factors, is necessary in order to unravel the mechanisms that result in muscle contractures. We hope thereby to contribute to a reconsideration of how and why muscle contractures develop in a way which will open a window towards new insight in this area in the future. (Figure presented.).

Originalsprog	Engelsk
Tidsskrift	Journal of Physiology
Vol/bind	595
Udgave nummer	4
Sider (fra-til)	1027-1038
Antal sider	12
ISSN	0022-3751
DOI	https://doi.org/10.1113/jp272767
Status	Udgivet - 15 feb. 2017

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title = "New perspectives on the development of muscle contractures following central motor lesions",

abstract = "Muscle contractures are common in patients with central motor lesions, but the mechanisms responsible for the development of contractures are still unclear. Increased or decreased neural activation, protracted placement of a joint with the muscle in a short position and muscle atrophy have been suggested to be involved, but none of these mechanisms are sufficient to explain the development of muscle contractures alone. Here we propose that changes in tissue homeostasis in the neuromuscular–tendon–connective tissue complex is at the heart of the development of contractures, and that an integrated physiological understanding of the interaction between neural, mechanical and metabolic factors, as well as genetic and epigenetic factors, is necessary in order to unravel the mechanisms that result in muscle contractures. We hope thereby to contribute to a reconsideration of how and why muscle contractures develop in a way which will open a window towards new insight in this area in the future. (Figure presented.).",

keywords = "Faculty of Science, Muscle, Contracture, Central motor lesions",

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AU - Pingel, Jessica

AU - Bartels, Else Marie

AU - Nielsen, Jens Bo

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N2 - Muscle contractures are common in patients with central motor lesions, but the mechanisms responsible for the development of contractures are still unclear. Increased or decreased neural activation, protracted placement of a joint with the muscle in a short position and muscle atrophy have been suggested to be involved, but none of these mechanisms are sufficient to explain the development of muscle contractures alone. Here we propose that changes in tissue homeostasis in the neuromuscular–tendon–connective tissue complex is at the heart of the development of contractures, and that an integrated physiological understanding of the interaction between neural, mechanical and metabolic factors, as well as genetic and epigenetic factors, is necessary in order to unravel the mechanisms that result in muscle contractures. We hope thereby to contribute to a reconsideration of how and why muscle contractures develop in a way which will open a window towards new insight in this area in the future. (Figure presented.).

AB - Muscle contractures are common in patients with central motor lesions, but the mechanisms responsible for the development of contractures are still unclear. Increased or decreased neural activation, protracted placement of a joint with the muscle in a short position and muscle atrophy have been suggested to be involved, but none of these mechanisms are sufficient to explain the development of muscle contractures alone. Here we propose that changes in tissue homeostasis in the neuromuscular–tendon–connective tissue complex is at the heart of the development of contractures, and that an integrated physiological understanding of the interaction between neural, mechanical and metabolic factors, as well as genetic and epigenetic factors, is necessary in order to unravel the mechanisms that result in muscle contractures. We hope thereby to contribute to a reconsideration of how and why muscle contractures develop in a way which will open a window towards new insight in this area in the future. (Figure presented.).

KW - Faculty of Science

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KW - Contracture

KW - Central motor lesions

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New perspectives on the development of muscle contractures following central motor lesions

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