Mechanisms regulating muscle mass during disuse atrophy and rehabilitation in humans. - Wikidata - wikimedia - TriplyDB

Mechanisms regulating muscle mass during disuse atrophy and rehabilitation in humans.

Mechanisms regulating muscle mass during disuse atrophy and rehabilitation in humans.

http://www.wikidata.org/entity/Q34146722

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Randomized control trial to evaluate the effects of acute testosterone administration in men on muscle mass, strength, and physical function following ACL reconstructive surgery: rationale, design, methods Exercise for cancer cachexia in adults Exercise for cancer cachexia in adults Muscle function in COPD: a complex interplay Noninvasive imaging of in vivo MuRF1 expression during muscle atrophy The role of mTOR signaling in the regulation of protein synthesis and muscle mass during immobilization in mice Effects of 2 weeks lower limb immobilization and two separate rehabilitation regimens on gastrocnemius muscle protein turnover signaling and normalization genes.Early changes in costameric and mitochondrial protein expression with unloading are muscle specific.Comparative functional genomics of adaptation to muscular disuse in hibernating mammals.eIF4EBP3L acts as a gatekeeper of TORC1 in activity-dependent muscle growth by specifically regulating Mef2ca translational initiation.Masseter muscle myofibrillar protein synthesis and degradation in an experimental critical illness myopathy model Mechanistic links between oxidative stress and disuse muscle atrophy.Proteomic profiling and its applications to muscle aging and sarcopenia.One size may not fit all: anti-aging therapies and sarcopenia The mTORC1 signaling repressors REDD1/2 are rapidly induced and activation of p70S6K1 by leucine is defective in skeletal muscle of an immobilized rat hindlimb.Proteomic profiling of skeletal muscle plasticity.Regulation of muscle protein synthesis and the effects of catabolic states.Emerging role for regulated in development and DNA damage 1 (REDD1) in the regulation of skeletal muscle metabolism.Disuse-induced muscle wasting.Growth hormone plus resistance exercise attenuate structural changes in rat myotendinous junctions resulting from chronic unloading.Skeletal muscle wasting with disuse atrophy is multi-dimensional: the response and interaction of myonuclei, satellite cells and signaling pathways.Electrical impedance alterations in the rat hind limb with unloading.Proteomic identification of biomarkers of skeletal muscle disorders.Proteomic profiling of the contractile apparatus from skeletal muscle.Possible synergism of physical exercise and ghrelin-agonists in patients with cachexia associated with chronic heart failure.MicroRNA in skeletal muscle development, growth, atrophy, and disease.Perioperative Testosterone Supplementation Increases Lean Mass in Healthy Men Undergoing Anterior Cruciate Ligament Reconstruction: A Randomized Controlled Trial.Two typical cases of pseudoankylosis of the jaw: same treatment, different outcome.Homer 2 antagonizes protein degradation in slow-twitch skeletal muscles.Expression changes in human skeletal muscle miRNAs following 10 days of bed rest in young healthy males.Developmental regulation of molecular signalling in fetal and neonatal diaphragm protein metabolism.Developmental transition of pectoralis muscle from atrophy in late-term duck embryos to hypertrophy in neonates.Evaluation of serum myostatin and sclerostin levels in chronic spinal cord injured patients.Towards human exploration of space: the THESEUS review series on muscle and bone research priorities.Unilateral strength training leads to muscle-specific sparing effects during opposite homologous limb immobilization.Differential expression of microRNAs and other small RNAs in muscle tissue of patients with ALS and healthy age-matched controls.Short-term muscle disuse lowers myofibrillar protein synthesis rates and induces anabolic resistance to protein ingestion.Muscle Atrophy Induced by Mechanical Unloading: Mechanisms and Potential Countermeasures.

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Mechanisms regulating muscle mass during disuse atrophy and rehabilitation in humans.

http://www.wikidata.org/entity/Q34146722

description

2010 nî lūn-bûn

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2010 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած

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2010 թվականի հոտեմբերին հրատարակված գիտական հոդված

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2010年の論文

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2010年論文

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2010年論文

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2010年論文

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2010年論文

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2010年論文

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2010年论文

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name

Mechanisms regulating muscle mass during disuse atrophy and rehabilitation in humans.

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Mechanisms regulating muscle mass during disuse atrophy and rehabilitation in humans.

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Mechanisms regulating muscle mass during disuse atrophy and rehabilitation in humans.

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Mechanisms regulating muscle mass during disuse atrophy and rehabilitation in humans.

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Mechanisms regulating muscle mass during disuse atrophy and rehabilitation in humans.

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Mechanisms regulating muscle mass during disuse atrophy and rehabilitation in humans.

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Mechanisms regulating muscle mass during disuse atrophy and rehabilitation in humans.

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Mechanisms regulating muscle mass during disuse atrophy and rehabilitation in humans.

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Mechanisms regulating muscle mass during disuse atrophy and rehabilitation in humans.

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JAPPLPHYSIOL.00962.2010

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Journal of Applied Physiology

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Mechanisms regulating muscle mass during disuse atrophy and rehabilitation in humans

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Andrew J Murton

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Kanagaraj Marimuthu

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P2860

A mutation in the myostatin gene increases muscle mass and enhances racing performance in heterozygote dogs

Association of interleukin-6 signalling with the muscle stem cell response following muscle-lengthening contractions in humans

Myostatin mutation associated with gross muscle hypertrophy in a child

Myostatin reduces Akt/TORC1/p70S6K signaling, inhibiting myoblast differentiation and myotube size

Exercise-induced increase in serum interleukin-6 in humans is related to muscle damage

Local NSAID infusion inhibits satellite cell proliferation in human skeletal muscle after eccentric exercise

The temporal responses of protein synthesis, gene expression and cell signalling in human quadriceps muscle and patellar tendon to disuse

Double muscling in cattle due to mutations in the myostatin gene

Akt/mTOR pathway is a crucial regulator of skeletal muscle hypertrophy and can prevent muscle atrophy in vivo

Myostatin, insulin-like growth factor-1, and leukemia inhibitory factor mRNAs are upregulated in chronic human disuse muscle atrophy.

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555-560

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10.1152/JAPPLPHYSIOL.00962.2010

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2

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Paul L. Greenhaff

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2010-10-28T00:00:00Z

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47621672

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