The NeuroMuscular System: From Earth to Space Life Science [electronic resource] : Neuromuscular Cell Signalling in Disuse and Exercise / by Dieter Blottner, Michele Salanova.

By:

Blottner, Dieter [author.]

Contributor(s):

Series: SpringerBriefs in Space Life SciencesPublisher: Cham : Springer International Publishing : Imprint: Springer, 2015Description: XIV, 92 p. 34 illus., 30 illus. in color. online resourceContent type:

text

Media type:

computer

Carrier type:

online resource

ISBN:

9783319122984

Subject(s):

Genre/Form:

Electronic books.

Additional physical formats: Printed edition:: No titleDDC classification:

612 23

LOC classification:

QP34-38

Online resources:

Click here to access online

Contents:

General Introduction -- Skeletal Muscle -- Neuromuscular System -- Physical Countermeasure in Space: Efforts in Vain?

In: Springer eBooksSummary: The book provides fundamental new insights in the structure and function of the healthy NeuroMuscular system. Recent findings suggest that the musculoskeletal system that supports movement control on Earth is controlled by unique principles of structural, biochemical and molecular characteristics. Mechanical loading by working against normal gravity helps to support principal structures in bone, muscle and associated subcellular scaffold components. Disuse or immobilization of the body in bed rest on Earth or in microgravity in Space result in considerable loss of bone, muscle and force with downregulation of neuromuscular activity resulting in impaired performance control. The goal is to develop exercise prescriptions to maintain postural control in normal life, aging and rehabilitation on Earth as well as for an adequate human performance management in Space.

Item type:

eBooks

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General Introduction -- Skeletal Muscle -- Neuromuscular System -- Physical Countermeasure in Space: Efforts in Vain?

The book provides fundamental new insights in the structure and function of the healthy NeuroMuscular system. Recent findings suggest that the musculoskeletal system that supports movement control on Earth is controlled by unique principles of structural, biochemical and molecular characteristics. Mechanical loading by working against normal gravity helps to support principal structures in bone, muscle and associated subcellular scaffold components. Disuse or immobilization of the body in bed rest on Earth or in microgravity in Space result in considerable loss of bone, muscle and force with downregulation of neuromuscular activity resulting in impaired performance control. The goal is to develop exercise prescriptions to maintain postural control in normal life, aging and rehabilitation on Earth as well as for an adequate human performance management in Space.