연구동향 분석

Cellular mechanism of eccentric-induced muscle injury and its relationship with sarcomere heterogeneity

Seung Jun Choi 2014년

논문상세정보
인용/피인용
' Cellular mechanism of eccentric-induced muscle injury and its relationship with sarcomere heterogeneity' 의 주제별 논문영향력
논문영향력 선정 방법
논문영향력 요약
주제
  • 외과
  • cross-bridge
  • eccentriccontraction
  • excitation-contractioncoupling
  • sarcomereheterogeneity
동일주제 총논문수 논문피인용 총횟수 주제별 논문영향력의 평균
63 0

0.0%

' Cellular mechanism of eccentric-induced muscle injury and its relationship with sarcomere heterogeneity' 의 참고문헌

  • Uncoupling of in vivo torque production from EMG in mouse muscles injured by eccentric contractions
    Warren G J Physiol 515 (Pt2) : 609 ~ 619 [1999]
  • The variation in isometric tension with sarcomere length in vertebrate muscle fibres
    Gordon AM J Physiol 184 : 170 ~ 192 [1966]
  • The physiological role of titin in striated muscle
    Horowits R Rev Physiol Biochem Pharmacol 138 : 57 ~ 96 [1999]
  • The effects of stretch parameters on eccentric exercise-induced damage to toad skeletal muscle
    Talbot JA J Muscle Res Cell Motil 19 : 237 ~ 245 [1998]
  • The effects of repeated active stretches on tension generation and myoplasmic calcium in frog single muscle fibres
    Morgan DL J Physiol 497 (Pt 3) : 665 ~ 674 [1996]
  • Stretch-activated channels in stretch-induced muscle damage. Role in muscular dystrophy
    Yeung EW Clin Exp Pharmacol Physiol 31 : 551 ~ 556 [2004]
  • Skeletal muscle calcium-activated neutral protease (calpain) with exercise
    Belcastro AN J Appl Physiol 74 : 1381 ~ 1386 [1993]
  • Serum creatine kinase level is a poor predictor of muscle function after injury
    Friden J Scand J Med Sci Sports 11 : 126 ~ 127 [2001]
  • Sarcomere strain and heterogeneity correlate with injury to frog skeletal muscle fiber bundles
    Patel TJ J Appl Physiol 97 : 1803 ~ 1813 [2004]
  • Rises in whole muscle passive tension of mammalian muscle after eccentric contractions at different lengths
    Whitehead N J Appl Physiol 95 : 1224 ~ 1234 [2003]
  • Quantitative analysis of sarcomere non-uniformities in active muscle following a stretch
    Talbot JA J Muscle Res Cell Motil 17 : 261 ~ 268 [1996]
  • Popping sarcomere hypothesis explains stretch-induced muscle damage
    Morgan DL Clin Exp Pharmacol Physiol 31 : 541 ~ 545 [2004]
  • Passive force enhancement in single myofibrils
    Joumaa V Pflugers Archiv European Journal of Physiology 455 : 367 ~ 371 [2007]
  • Membrane leakage and increased content of Na+-K+ pumps and Ca2+ in human muscle after a 100-km run
    Overgaard K J Appl Physiol 92 : 1891 ~ 1898 [2002]
  • Mechanisms of muscle injury gleaned from animal models
    Lieber RL Am J Phys Med Rehabil 81 : S70 ~ S79 [2002]
  • Mechanisms of exercise-induced muscle fibre injury
    Armstrong RB Sports Med 12 : 184 ~ 207 [1991]
  • Mechanisms of Ca2+ release from sarcoplasmic reticulum of skeletal muscle
    Martonosi AN Physiol Rev 64 : 1240 ~ 1320 [1984]
  • Intracellular calcium and force in single mouse muscle fibres following repeated contractions with stretch
    Balnave CD J Physiol 488 : 25 ~ 36 [1995]
  • Human hamstring muscles adapt to eccentric exercise by changing optimum length
    Brockett CL Med Sci Sports Exerc 33 : 783 ~ 790 [2001]
  • Excitation failure in eccentric contraction-induced injury of mouse soleus muscle
    Warren GL J Physiol 468 : 487 ~ 499 [1993]
  • Ergographic studies in muscular fatigue and soreness
    Hough T J Boston Soc Med Sci 5 : 81 ~ 92 [1900]
  • Eccentric muscle damage: Mechanisms of early reduction of force
    Allen DG Acta Physiol Scand 171 : 311 ~ 319 [2001]
  • E-C coupling failure in mouse EDL muscle after in vivo eccentric contractions
    Ingalls CP J Appl Physiol 85 : 58 ~ 67 [1998]
  • Dihydropyridine and ryanodine receptor binding after eccentric contractions in mouse skeletal muscle
    Ingalls C J Appl Physiol 96 : 1619 ~ 1625 [2004]
  • Development of t-tubular vacuoles in eccentrically damaged mouse muscle fibres
    Yeung EW J Physiol 540 : 581 ~ 592 [2002]
  • Damage to skeletal muscle from eccentric exercise
    Proske U Exerc Sport Sci Rev 33 : 98 ~ 104 [2005]
  • Characterization of inflammatory responses to eccentric exercise in humans
    Peake J Exerc Immunol Rev 11 : 64 ~ 85 [2005]
  • Changes in the mechanical properties of human and amphibian muscle after eccentric exercise
    Jones C Eur J Appl Physiol Occup Physiol 76 : 21 ~ 31 [1997]
  • Changes in passive tension of muscle in humans and animals after eccentric exercise
    Whitehead N J Physiol 533 : 593 ~ 604 [2001]
  • Cellular and molecular regulation of muscle regeneration
    Charge SB Physiol Rev 84 : 209 ~ 238 [2004]
  • Calcium-dependent molecular spring elements in the giant protein titin
    Labeit D Proc Natl Acad Sci U S A 100 : 13716 ~ 13721 [2003]
  • Calcium release from the sarcoplasmic reticulum
    Endo M Physiol Rev 57 : 71 ~ 108 [1977]
  • Activation and inactivation of excitation-contraction coupling in rat soleus muscle
    Dulhunty AF J Physiol 439 : 605 ~ 626 [1991]