Development and aging of human spinal cord circuitries

Svend Sparre Geertsen; Maria Willerslev-Olsen; Jakob Lorentzen; Jens Bo Nielsen

doi:10.1152/jn.00103.2017

Development and aging of human spinal cord circuitries

Svend Sparre Geertsen, Maria Willerslev-Olsen, Jakob Lorentzen, Jens Bo Nielsen

9 Citations (Scopus)

Abstract

The neural motor circuitries in the spinal cord receive information from our senses and the rest of the nervous system and translate it into purposeful movements, which allow us to interact with the rest of the world. In this review, we discuss how these circuitries are established during early development and the extent to which they are shaped according to the demands of the body that they control and the environment with which the body has to interact. We also discuss how aging processes and physiological changes in our body are reflected in adaptations of activity in the spinal cord motor circuitries. The complex, multifaceted connectivity of the spinal cord motor circuitries allows them to generate vastly different movements and to adapt their activity to meet new challenges imposed by bodily changes or a changing environment. There are thus plenty of possibilities for adaptive changes in the spinal motor circuitries both early and late in life.

Original language	English
Journal	Journal of Neurophysiology
Volume	118
Issue number	2
Pages (from-to)	1133-1140
Number of pages	8
ISSN	0022-3077
DOIs	https://doi.org/10.1152/jn.00103.2017
Publication status	Published - 4 Aug 2017

Keywords

Faculty of Science
Spinal cord
Reflexes
Aging
Motor control
Development

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10.1152/jn.00103.2017

https://www.physiology.org/doi/pdf/10.1152/jn.00103.2017

Cite this

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title = "Development and aging of human spinal cord circuitries",

abstract = "The neural motor circuitries in the spinal cord receive information from our senses and the rest of the nervous system and translate it into purposeful movements, which allow us to interact with the rest of the world. In this review, we discuss how these circuitries are established during early development and the extent to which they are shaped according to the demands of the body that they control and the environment with which the body has to interact. We also discuss how aging processes and physiological changes in our body are reflected in adaptations of activity in the spinal cord motor circuitries. The complex, multifaceted connectivity of the spinal cord motor circuitries allows them to generate vastly different movements and to adapt their activity to meet new challenges imposed by bodily changes or a changing environment. There are thus plenty of possibilities for adaptive changes in the spinal motor circuitries both early and late in life.",

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AU - Geertsen, Svend Sparre

AU - Willerslev-Olsen, Maria

AU - Lorentzen, Jakob

AU - Nielsen, Jens Bo

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PY - 2017/8/4

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N2 - The neural motor circuitries in the spinal cord receive information from our senses and the rest of the nervous system and translate it into purposeful movements, which allow us to interact with the rest of the world. In this review, we discuss how these circuitries are established during early development and the extent to which they are shaped according to the demands of the body that they control and the environment with which the body has to interact. We also discuss how aging processes and physiological changes in our body are reflected in adaptations of activity in the spinal cord motor circuitries. The complex, multifaceted connectivity of the spinal cord motor circuitries allows them to generate vastly different movements and to adapt their activity to meet new challenges imposed by bodily changes or a changing environment. There are thus plenty of possibilities for adaptive changes in the spinal motor circuitries both early and late in life.

AB - The neural motor circuitries in the spinal cord receive information from our senses and the rest of the nervous system and translate it into purposeful movements, which allow us to interact with the rest of the world. In this review, we discuss how these circuitries are established during early development and the extent to which they are shaped according to the demands of the body that they control and the environment with which the body has to interact. We also discuss how aging processes and physiological changes in our body are reflected in adaptations of activity in the spinal cord motor circuitries. The complex, multifaceted connectivity of the spinal cord motor circuitries allows them to generate vastly different movements and to adapt their activity to meet new challenges imposed by bodily changes or a changing environment. There are thus plenty of possibilities for adaptive changes in the spinal motor circuitries both early and late in life.

KW - Faculty of Science

KW - Spinal cord

KW - Reflexes

KW - Aging

KW - Motor control

KW - Development

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Development and aging of human spinal cord circuitries

Abstract

Keywords

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