Add to ORKGThe molecular mechanisms underlying skeletal muscle maintenance involve interplay between multiple signaling pathways. Under normal physiological conditions, a network of intercon-nected signals serves to control and coordinate hypertrophic and atrophic messages, culminating in a delicate balance between muscle protein synthesis and proteolysis. Loss of skeletal muscle mass, termed ‘‘atrophy’’, is a diagnostic feature of cachexia seen in settings of cancer, heart disease, chronic obstructive pulmonary disease, kidney disease, and burns. Cachexia increases the likelihood of death from these already serious diseases. Recent studies have further defined the pathways leading to gain and loss of skeletal muscle as well as the signaling events th...
PURPOSE OF REVIEW: Many situations cause muscle atrophy. When severe, muscle atrophy is associated w...
Purpose: The mechanisms underlying muscle wasting in patients with cancer remain poorly understood, ...
Loss of skeletal muscle mass occurs during aging (sarcopenia), dis-ease (cachexia), or inactivity (a...
The molecular mechanisms underlying skeletal muscle maintenance involve interplay between multiple s...
# The Author(s) 2012. This article is published with open access at Springerlink.com Abstract Recent...
The interplay between multiple signaling pathways regulates the maintenance of skeletal muscle. Unde...
Copyright © 2015 Domiziana Costamagna et al.This is an open access article distributed under the Cre...
Maintenance of skeletal muscle mass is mainly achieved by a homeostatic balance between muscle regen...
Mobility is an intrinsic feature of the animal kingdom that stimulates evolutionary processes and de...
PURPOSE OF REVIEW: The purpose of this study is to discuss the involvement of bone and morphogen...
Purpose of review: To describe the most relevant recent observations concerning the molecular mechan...
Abstract With regular practice, resistance exercise can lead to gains in skeletal muscle mass by mea...
PURPOSE OF REVIEW: The beta-adrenergic signaling pathway represents a novel therapeutic target for s...
PURPOSE OF REVIEW: To review the efficacy of dietary protein supplementation in attenuating muscle a...
PURPOSE OF REVIEW: The review is focused on the unexpected role of myogenic regulatory factor 4 (MR...
PURPOSE OF REVIEW: Many situations cause muscle atrophy. When severe, muscle atrophy is associated w...
Purpose: The mechanisms underlying muscle wasting in patients with cancer remain poorly understood, ...
Loss of skeletal muscle mass occurs during aging (sarcopenia), dis-ease (cachexia), or inactivity (a...
The molecular mechanisms underlying skeletal muscle maintenance involve interplay between multiple s...
# The Author(s) 2012. This article is published with open access at Springerlink.com Abstract Recent...
The interplay between multiple signaling pathways regulates the maintenance of skeletal muscle. Unde...
Copyright © 2015 Domiziana Costamagna et al.This is an open access article distributed under the Cre...
Maintenance of skeletal muscle mass is mainly achieved by a homeostatic balance between muscle regen...
Mobility is an intrinsic feature of the animal kingdom that stimulates evolutionary processes and de...
PURPOSE OF REVIEW: The purpose of this study is to discuss the involvement of bone and morphogen...
Purpose of review: To describe the most relevant recent observations concerning the molecular mechan...
Abstract With regular practice, resistance exercise can lead to gains in skeletal muscle mass by mea...
PURPOSE OF REVIEW: The beta-adrenergic signaling pathway represents a novel therapeutic target for s...
PURPOSE OF REVIEW: To review the efficacy of dietary protein supplementation in attenuating muscle a...
PURPOSE OF REVIEW: The review is focused on the unexpected role of myogenic regulatory factor 4 (MR...
PURPOSE OF REVIEW: Many situations cause muscle atrophy. When severe, muscle atrophy is associated w...
Purpose: The mechanisms underlying muscle wasting in patients with cancer remain poorly understood, ...
Loss of skeletal muscle mass occurs during aging (sarcopenia), dis-ease (cachexia), or inactivity (a...