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  1. Contraction-Induced Loss of Plasmalemmal Electrophysiological Function Is Dependent on the Dystrophin Glycoprotein Complex
  2. Voluntary and magnetically evoked muscle contraction protocol in males with Duchenne muscular dystrophy: Safety, feasibility, reliability, and validity
  3. Nanofiber-Based Delivery of Bioactive Lipids Promotes Pro-regenerative Inflammation and Enhances Muscle Fiber Growth After Volumetric Muscle Loss
  4. Tissue selective effects of bazedoxifene on the musculoskeletal system in female mice
  5. The Mental Health Well-Being of Grandparents Raising Grandchildren: A Systematic Review and Meta-Analysis
  6. Male mice with elevated C-type natriuretic peptide-dependent guanylyl cyclase-B activity have increased osteoblasts, bone mass and bone strength
  7. A retrospective analysis of associations between BMI and days spent on mechanical ventilation in a level 1 trauma facility
  8. Plasmalemma Function Is Rapidly Restored in Mdx Muscle after Eccentric Contractions
  9. Effects of treadmill running and limb immobilization on knee cartilage degeneration and locomotor joint kinematics in rats following knee meniscal transection
  10. Therapeutic Approaches for Volumetric Muscle Loss Injury: A Systematic Review and Meta-Analysis
  11. Downhill Running Impairs Activation and Strength of the Elbow Flexors
  12. Caffeine Ingestion With or Without Low-Dose Carbohydrate Improves Exercise Tolerance in Sedentary Adults
  13. Acromion morphology and prevalence of rotator cuff tear: A systematic review and meta-analysis
  14. A moderate estradiol level enhances neutrophil number and activity in muscle after traumatic injury but strength recovery is accelerated
  15. Early rehabilitation for volumetric muscle loss injury augments endogenous regenerative aspects of muscle strength and oxidative capacity
  16. Skeletal Myoblast-Seeded Vascularized Tissue Scaffolds in the Treatment of a Large Volumetric Muscle Defect in the Rat Biceps Femoris Muscle
  17. Effect of NSAIDs on Recovery From Acute Skeletal Muscle Injury: A Systematic Review and Meta-analysis
  18. A Proximal Fibularis Brevis Muscle Is Associated with Longitudinal Split Tendons: A Cadaveric Study
  19. Increasing hip and knee flexion during a drop-jump task reduces tibiofemoral shear and compressive forces: implications for ACL injury prevention training
  20. Small Beneficial Effect of Caffeinated Energy Drink Ingestion on Strength
  21. Mitochondrial maintenance via autophagy contributes to functional skeletal muscle regeneration and remodeling
  22. Minimal Evidence for a Secondary Loss of Strength After an Acute Muscle Injury: A Systematic Review and Meta-Analysis
  23. Guidelines for Models of Skeletal Muscle Injury and Therapeutic Assessment
  24. Assessing Resting Metabolic Rate in Overweight and Obese Adolescents With a Portable Indirect Calorimeter
  25. Aging and the Muscle-Bone Relationship
  26. Effectiveness of constraint-induced movement therapy on upper-extremity function in children with cerebral palsy: a systematic review and meta-analysis of randomized controlled trials
  27. CCR2 Elimination in Mice Results in Larger and Stronger Tibial Bones but Bone Loss is not Attenuated Following Ovariectomy or Muscle Denervation
  28. Low Intensity, High Frequency Vibration Training to Improve Musculoskeletal Function in a Mouse Model of Duchenne Muscular Dystrophy
  29. Functional analysis of limb recovery following autograft treatment of volumetric muscle loss in the quadriceps femoris
  30. Acute failure of action potential conduction inmdxmuscle reveals new mechanism of contraction-induced force loss
  31. Attenuated Human Bone Morphogenetic Protein-2–Mediated Bone Regeneration in a Rat Model of Composite Bone and Muscle Injury
  32. RESPONSE
  33. Quercetin and Endurance Exercise Capacity
  34. Adaptive strength gains in dystrophic muscle exposed to repeated bouts of eccentric contraction
  35. Toll-like and adenosine receptor expression in injured skeletal muscle
  36. Bone is functionally impaired in dystrophic mice but less so than skeletal muscle
  37. Does Caffeine Added to Carbohydrate Provide Additional Ergogenic Benefit for Endurance?
  38. Acceleration Tolerance After Ingestion of a Commercial Energy Drink
  39. Estradiol's beneficial effect on murine muscle function is independent of muscle activity
  40. Mouse Plantar Flexor Muscle Size and Strength After Inactivity and Training
  41. Effect of Caffeine Ingestion on Muscular Strength and Endurance
  42. Addition Of Caffeine To Carbohydrate: Improved Ergogenic Effect For Endurance Exercise?
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  44. Estrogen Regulates Estrogen Receptors and Antioxidant Gene Expression in Mouse Skeletal Muscle
  45. Matrix metalloprotease-3 and tissue inhibitor of metalloprotease-1 mRNA and protein levels are altered in response to traumatic skeletal muscle injury
  46. Alterations in mRNA and protein levels of metalloproteinases-2, -9, and -14 and tissue inhibitor of metalloproteinase-2 responses to traumatic skeletal muscle injury
  47. Hormone Therapy and Skeletal Muscle Strength: A Meta-Analysis
  48. Comments on Point:Counterpoint: Estrogen and sex do/do not influence post-exercise indexes of muscle damage, inflammation, and repair
  49. Caffeine’s Beneficial Effect on Maximal Voluntary Strength and Activation in Uninjured but Not Injured Muscle
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  51. Voluntary run training but not estradiol deficiency alters the tibial bone-soleus muscle functional relationship in mice
  52. Mechanisms of skeletal muscle injury and repair revealed by gene expression studies in mouse models
  53. Hydration during Exercise in Warm, Humid Conditions: Effect of a Caffeinated Sports Drink
  54. Caffeinated Sports Drink: Ergogenic Effects and Possible Mechanisms
  55. Estradiol replacement reverses ovariectomy-induced muscle contractile and myosin dysfunction in mature female mice
  56. The Future of Health Care Decisions Related to the Prevention and Treatment of Obesity
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  58. Estradiol Replacement or Wheel Running Reverses Skeletal Muscle Contractile Dysfunction in Mature Ovariectomized Mice
  59. Removal of ovarian hormones from mature mice detrimentally affects muscle contractile function and myosin structural distribution
  60. Macrophages and skeletal muscle regeneration: a clodronate-containing liposome depletion study
  61. CK-MM autoantibodies: Prevalence, immune complexes, and effect on CK clearance
  62. Recovery from Run Training: Efficacy of a Carbohydrate-Protein Beverage?
  63. Soleus and EDL muscle contractility across the lifespan of female C57BL/6 mice
  64. Fluid Replacement In The Heat
  65. Chemokine receptor CCR2 involvement in skeletal muscle regeneration
  66. Functional recovery of the plantarflexor muscle group after hindlimb unloading in the rat
  67. Dihydropyridine and ryanodine receptor binding after eccentric contractions in mouse skeletal muscle
  68. Temporal patterns of plantar pressures and lower-leg muscle activity during walking: effect of speed
  69. Muscle activity and aging affect myosin structural distribution and force generation in rat fibers
  70. Variable-frequency-train stimulation of skeletal muscle after spinal cord injury
  71. Role of CC chemokines in skeletal muscle functional restoration after injury
  72. Importance of satellite cells in the strength recovery after eccentric contraction-induced muscle injury
  73. IMPORTANCE OF SATELLITE CELLS IN RECOVERY FROM ECCENTRIC CONTRACTION-INDUCED INJURY
  74. VELOCITY-DEPENDENT RECOVERY OF STRENGTH AFTER TRAUMATIC MUSCLE INJURY
  75. Inflammatory Mediators and Skeletal Muscle Injury: A DNA Microarray Analysis
  76. Variable frequency trains enhance torque independent of stimulation amplitude
  77. Physiological role of tumor necrosis factor a in traumatic muscle injury
  78. ATTENUATION OF FORCE LOSS IN ???MIXED??? AND ???SLOW??? HUMAN SKELETAL MUSCLE USING VARIABLE FREQUENCY TRAIN STIMULATION
  79. DOES MYOSIN STRUCTURE AND FUNCTION CHANGE WITH INCREASED OR DECREASED MUSCLE ACTIVITY?
  80. VARIABLE FREQUENCY TRAIN ELECTRICAL STIMULATION OF THE QUADRICEPS FEMORIS IN COMPLETE SPINAL CORD INJURED INDIVIDUALS
  81. What Mechanisms Contribute to the Strength Loss That Occurs During and in the Recovery from Skeletal Muscle Injury?
  82. Temperature dependency of force loss and Ca2+homeostasis in mouse EDL muscle after eccentric contractions
  83. Excitation-Contraction Uncoupling: Major Role in Contraction-Induced Muscle Injury
  84. Altered Primary Myogenesis in NFATC3−/− Mice Leads to Decreased Muscle Size in the Adult
  85. Muscle activation and the slow component rise in oxygen uptake during cycling
  86. Decreased EMG median frequency during a second bout of eccentric contractions
  87. ALTERED CALCIUM HOMEOSTASIS IN MOUSE SOLEUS MUSCLES AFTER HINDLIMB SUSPENSION AND RELOADING
  88. DIHYDROPYRIDINE AND RYANODINE RECEPTOR BINDING AFTER ECCENTRIC CONTRACTIONS IN MOUSE SKELETAL MUSCLE
  89. DOES TREADMILL TRAINING SLOW THE RECOVERY OF ECCENTRIC CONTRACTION-INDUCED INJURY?
  90. Uncoupling ofin vivotorque production from EMG in mouse muscles injured by eccentric contractions
  91. Measurement Tools Used in the Study of Eccentric Contraction???Induced Injury
  92. TORQUE-EMG RELATIONSHIP IN MOUSE MUSCLE AFTER IN VIVO ECCENTRIC OR CONCENTRIC CONTRACTIONS
  93. EICOSANOID RELEASE BY MOUSE EDL MUSCLE AFTER 150 IN VIVO ECCENTRIC CONTRACTIONS 306
  94. EXCITATION CONTRACTION COUPLING FAILURE IN MOUSE EDL MUSCLE AFTER ECCENTRIC CONTRACTIONS IN VIVO 1549
  95. Decreased contraction economy in mouse EDL muscle injured by eccentric contractions
  96. Effects of concentric and eccentric training on muscle strength, cross-sectional area, and neural activation
  97. Effects of Treadmill Training on Plasma ACTH and Brain CRF Responses to Heterotypic Stress 648
  98. Estradiol effect on anterior crural muscles-tibial bone relationship and susceptibility to injury
  99. Treadmill exercise training and estradiol increase plasma ACTH and prolactin after novel footshock
  100. Differential effects of anesthetics on in vivo skeletal muscle contractile function in the mouse
  101. Redistribution of cell membrane probes following contraction-induced injury of mouse soleus muscle
  102. Redistribution of cell membrane probes following contraction-induced injury of mouse soleus muscle
  103. Muscle function and protein metabolism after initiation of eccentric contraction-induced injury
  104. PROTEIN METABOLISM IN MOUSE EDL MUSCLE 0-336 HOURS AFTER ECCENTRIC CONTRACTION-INDUCED INJURY
  105. ESTRADIOL EFFECT ON ANTERIOR CRURAL MUSCLES: TIBIAL BONE RELATIONSHIP AND SUSCEPTIBILITY TO INJURY.
  106. Eccentric contraction-induced injury in normal and hindlimb-suspended mouse soleus and EDL muscles
  107. 694 CELL MEMORANE DAMAGE IN EXERCISE-INDUCED MUSCLE FIBER INJURY
  108. 172 EFFECTS OF CONCENTRIC AND ECCENTRIC ISOKINETIC TRAINING ON MUSCLE STRENGTH, CROSS-SECTIONAL AREA AND NEURAL ACTIVATION
  109. 690 PROTEIN DEGRADATION IN MOUSE GOLEUS AND EDL MUSCLE FOLLOWING ECCENTRIC CONTRACTION-INDUCED INJURY
  110. Eccentric contraction-induced injury of mouse soleus muscle: effect of varying [Ca2+]o
  111. Excitation failure in eccentric contraction-induced injury of mouse soleus muscle.
  112. Mechanical factors in the initiation of eccentric contraction-induced injury in rat soleus muscle.
  113. 507 CHRONIC TREADMILL TRAINING MODERATES PLASMA ACTH RESPONSES TO HOMOTYPIC AND HETEROTYPIC STRESS
  114. Materials fatigue initiates eccentric contraction-induced injury in rat soleus muscle.
  115. EXERCISE-INDUCED MUSCLE INJURY
  116. Red blood cell pulmonary capillary transit time during exercise in athletes
  117. Mechanisms of Exercise-Induced Muscle Fibre Injury
  118. Criterion-Referenced Standards for Youth Health-Related Fitness Tests: A Tutorial
  119. Is the gender difference in peak $$\dot V_{O_2 }$$ greater for arm than leg exercise?
  120. Does lung function limit performance in a 24-hour ultramarathon?
  121. Modeling the effect of alterations in hemoglobin concentration on &OV0312;O2max