scholarly article | Q13442814 |
P2093 | author name string | Beibei Luo | |
Yu Liu | |||
Linlin Zhao | |||
Zhigang Zeng | |||
Xiaoguang Liu | |||
Weihua Xiao | |||
Peijie Chen | |||
P2860 | cites work | Regulatory factors and cell populations involved in skeletal muscle regeneration | Q37709911 |
Improved muscle healing after contusion injury by the inhibitory effect of suramin on myostatin, a negative regulator of muscle growth | Q39947369 | ||
CC family chemokines directly regulate myoblast responses to skeletal muscle injury | Q39970558 | ||
Measurement of Cutaneous Inflammation: Estimation of Neutrophil Content with an Enzyme Marker | Q41552495 | ||
Skeletal muscle satellite cell cultures | Q41649799 | ||
Mouse model of muscle crush injury of the legs | Q41968967 | ||
Single-cell analysis of regulatory gene expression in quiescent and activated mouse skeletal muscle satellite cells | Q42448117 | ||
Expression and Splicing of the Insulin‐Like Growth Factor Gene in Rodent Muscle is Associated with Muscle Satellite (stem) Cell Activation following Local Tissue Damage | Q44401232 | ||
Overload training inhibits phagocytosis and ROS generation of peritoneal macrophages: role of IGF-1 and MGF. | Q47754257 | ||
Time course of chemokine expression and leukocyte infiltration after acute skeletal muscle injury in mice. | Q51151707 | ||
Ultrastructural events following acute muscle trauma. | Q51736461 | ||
Mice deficient in plasminogen activator inhibitor-1 have improved skeletal muscle regeneration. | Q52057508 | ||
MyoD protein accumulates in satellite cells and is neurally regulated in regenerating myotubes and skeletal muscle fibers. | Q52209716 | ||
A muscle contusion injury model. Biomechanics, physiology, and histology. | Q52510846 | ||
Urokinase-dependent plasminogen activation is required for efficient skeletal muscle regeneration in vivo | Q59876101 | ||
Development of approaches to improve the healing following muscle contusion | Q64381761 | ||
Proteolytic activation of hepatocyte growth factor in response to tissue injury | Q72303094 | ||
IGF-I restores satellite cell proliferative potential in immobilized old skeletal muscle | Q73010272 | ||
Severe quadriceps muscle contusions in athletes. A report of three cases | Q73139354 | ||
Myostatin regulation during skeletal muscle regeneration | Q74055966 | ||
HGF/SF is present in normal adult skeletal muscle and is capable of activating satellite cells | Q74213837 | ||
The use of an antifibrosis agent to improve muscle recovery after laceration | Q74281605 | ||
Treatment of muscle injuries by local administration of autologous conditioned serum: animal experiments using a muscle contusion model | Q80975864 | ||
Chemokine receptor CCR2 involvement in skeletal muscle regeneration | Q23913200 | ||
Mechanisms of skeletal muscle injury and repair revealed by gene expression studies in mouse models | Q23913201 | ||
Role of CC chemokines in skeletal muscle functional restoration after injury | Q23913202 | ||
Analysis of Relative Gene Expression Data Using Real-Time Quantitative PCR and the 2−ΔΔCT Method | Q25938999 | ||
Isolation of biologically active ribonucleic acid from sources enriched in ribonuclease | Q26778460 | ||
Cellular and molecular regulation of muscle regeneration | Q28238078 | ||
Increased muscle proteolysis after local trauma mainly reflects macrophage-associated lysosomal proteolysis | Q28564932 | ||
Effects of overtraining on skeletal muscle growth and gene expression | Q28582122 | ||
Chemokines: a new classification system and their role in immunity | Q29615663 | ||
Chemokines and leukocyte traffic | Q29618886 | ||
Inflammatory monocytes recruited after skeletal muscle injury switch into antiinflammatory macrophages to support myogenesis | Q29622851 | ||
Androgens regulate gene expression in avian skeletal muscles | Q30459451 | ||
A new look at the origin, function, and "stem-cell" status of muscle satellite cells | Q33828880 | ||
Regulatory interactions between muscle and the immune system during muscle regeneration | Q33841066 | ||
Temporal expression of regulatory and structural muscle proteins during myogenesis of satellite cells on isolated adult rat fibers | Q34025219 | ||
Myogenic satellite cells: physiology to molecular biology | Q34084128 | ||
Chemokine expression and control of muscle cell migration during myogenesis | Q34098431 | ||
Inhibition of myostatin in adult mice increases skeletal muscle mass and strength | Q34174098 | ||
Chemokines. | Q34310857 | ||
Chemokines in pathology and medicine | Q34328278 | ||
Macrophages recruited via CCR2 produce insulin‐like growth factor‐1 to repair acute skeletal muscle injury | Q34421842 | ||
Macrophages improve survival, proliferation and migration of engrafted myogenic precursor cells into MDX skeletal muscle | Q34441894 | ||
The MRC1/CD68 ratio is positively associated with adipose tissue lipogenesis and with muscle mitochondrial gene expression in humans | Q34947724 | ||
Stem cell activation in skeletal muscle regeneration. | Q35547307 | ||
Mechanisms of disuse muscle atrophy: role of oxidative stress | Q36001985 | ||
Inflammatory processes in muscle injury and repair | Q36001988 | ||
IL-10 triggers changes in macrophage phenotype that promote muscle growth and regeneration | Q36252477 | ||
Urokinase-type plasminogen activator increases hepatocyte growth factor activity required for skeletal muscle regeneration | Q37460349 | ||
Do inflammatory cells influence skeletal muscle hypertrophy? | Q37501870 | ||
Impact of ageing on muscle cell regeneration | Q37580320 | ||
P433 | issue | 1 | |
P304 | page(s) | 101-108 | |
P577 | publication date | 2016-01-21 | |
P1433 | published in | Journal of sport and health science | Q27725726 |
P1476 | title | Time-dependent gene expression analysis after mouse skeletal muscle contusion | |
P478 | volume | 5 |
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Q49884628 | Changes in inflammatory and oxidative stress factors and the protein synthesis pathway in injured skeletal muscle after contusion |
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