| 期刊論文1. | Kondo, H.、Nishino, K.、Itokawa, Y.(1994)。Hydroxyl radical generation in skeletal muscle atrophied by immobilization。FEBS Letters,349(2),169-172。 | 2. | Chen, T. C.(2003)。Effects of a second bout of maximal eccentric exercise on muscle damage and electromyographic activity。European Journal of Applied Physiology,89(2),115-121。 | 3. | Adirim, T. A.、Cheng, T. L.(2003)。Overview of injuries in the young athlete。Sports Medicine,33(1),75-81。 | 4. | 陳忠慶(19991200)。肌肉損傷引起的原因與修補作用。中華體育季刊,13(3)=51,89-95。 延伸查詢 | 5. | McHugh, M. P.(2003)。Recent advances in the understanding of the repeated bout effect: the protective effect against muscle damage from a single bout of eccentric exercise。Scandinavian Journal of Medicine & Science in Sports,13(2),88-97。 | 6. | Hyldahl, R. D.、Chen, T. C.、Nosaka, K.(2017)。Mechanisms and mediators of the skeletal muscle repeated bout effect。Exercise and Sport Sciences Reviews,45(1),24-33。 | 7. | Lau, W. Y.、Blazevich, A. J.、Newton, M. J.、Wu, S. S. X.、Nosaka, K.(2015)。Reduced muscle lengthening during eccentric contractions as a mechanism underpinning the repeated-bout effect。American Journal of Physiology-Regulatory, Integrative and Comparative Physiology,308(10),R879-R886。 | 8. | Jones, S. W.、Hill, R. J.、Krasney, P. A.、O'Conner, B.、Peirce, N.、Greenhaff, P. L.(2004)。Disuse atrophy and exercise rehabilitation in humans profoundly affects the expression of genes associated with the regulation of skeletal muscle mass。FASEB Journal,18(9),1025-1027。 | 9. | Tseng, K. W.、Tseng, W. C.、Lin, M. J.、Chen, H. L.、Nosaka, K.、Chen, T. C.(2016)。Protective effect by maximal isometric contractions against maximal eccentric exercise-induced muscle damage of the knee extensors。Research in Sports Medicine,24(3),228-241。 | 10. | Chen, T. C.、Huang, G. L.、Hsieh, C. C.、Tseng, K. W.、Tseng, W. C.、Chou, T. Y.、Nosaka, K.(2020)。Comparison among three different intensities of eccentric contractions of the elbow flexors resulting in the same strength loss at one day post-exercise for changes in indirect muscle damage markers。European Journal of Applied Physiology,120(1),267-279。 | 11. | Aitken, S.、Court-Brown, C. M.(2008)。The epidemiology of sports-related fractures of the hand。Injury,39(12),1377-1383。 | 12. | Burnier, M.、Barlow, J. D.、Sanchez-Sotelo, J.(2019)。Shoulder and elbow fractures in athletes。Current Reviews in Musculoskeletal Medicine,12(1),13-23。 | 13. | Campbell, M.、Varley-Campbell, J.、Fulford, J.、Taylor, B.、Mileva, K. N.、Bowtell, J. L.(2019)。Effect of immobilisation on neuromuscular function in vivo in humans: a systematic review。Sports Medicine,49(6),931-950。 | 14. | Christensen, B.、Dyrberg, E.、Aagaard, P.、Kjaer, M.、Langberg, H.(2008)。Short-term immobilization and recovery affect skeletal muscle but not collagen tissue turnover in humans。Journal of Applied Physiology,105(6),1845-1851。 | 15. | Hortobágyi, T.、Dempsey, L.、Fraser, D.、Zheng, D.、Hamilton, G.、Lambert, J.、Dohm, L.(2000)。Changes in muscle strength, muscle fibre size and myofibrillar gene expression after immobilization and retraining in humans。Journal of Physiology,524(1),293-304。 | 16. | Magnus, C. R.、Barss, T. S.、Lanovaz, J. L.、Farthing, J. P.(2010)。Effects of cross-education on the muscle after a period of unilateral limb immobilization using a shoulder sling and swathe。Journal of Applied Physiology,109(6),1887-1894。 | 17. | Pearce, A. J.、Hendy, A.、Bowen, W. A.、Kidgell, D. J.(2013)。Corticospinal adaptations and strength maintenance in the immobilized arm following 3 weeks unilateral strength training。Scandinavian Journal of Medicine and Science in Sports,23(6),740-748。 | 18. | Tseng, W. C.、Nosaka, K.、Tseng, K. W.、Chou, T. Y.、Chen, T. C.(2020)。Contralateral effects by unilateral eccentric versus concentric resistance training。Medicine and Science in Sports and Exercise,52(2),474-483。 | 19. | Valdes, O.、Ramirez, C.、Perez, F.、Garcia‐Vicencio, S.、Nosaka, K.、Penailillo, L.(2021)。Contralateral effects of eccentric resistance training on immobilized arm。Scandinavian Journal of Medicine and Science in Sports,31(1),76-90。 | 20. | 康馨予、傅思凱、曾國維、陳銨漵、曾暐晉(20210900)。上臂固定休息對肌力、肌肉萎縮與本體感覺的影響。體育學報,54(3),215-224。 延伸查詢 | 21. | Appell, H. J.(1990)。Muscular atrophy following immobilisation: A review。Sports Medicine,10(1),42-58。 | 22. | Benedini-Elias, P. C. O.、Morgan, M. C.、Cornachione, A. S.、Martinez, E. Z.、Mattiello-Sverzut, A. C.(2014)。Post-immobilization eccentric training promotes greater hypertrophic and angiogenic responses than passive stretching in muscles of weanling rats。Acta Histochemica,116(3),503-513。 | 23. | Booth, F. W.、Gollnick, P. D.(1983)。Effects of disuse on the structure and function of skeletal muscle。Medicine and Science in Sports and Exercise,15(5),415-420。 | 24. | Cação-Benedini, L. O.、Ribeiro, P. G.、Gomes, A. R. S.、Ywazaki, J. L.、Monte-Raso, V. V.、Prado, C. M.、Mattiello-Sverzut, A. C.(2013)。Remobilization through stretching improves gait recovery in the rat。Acta Histochemica,115(5),460-469。 | 25. | Cornachione, A.、Cação-Benedini, L. O.、Shimano, M. M.、Volpon, J. B.、Martinez, E. Z.、Mattiello-Sverzut, A. C.(2008)。Morphological comparison of different protocols of skeletal muscle remobilization in rats after hindlimb suspension。Scandinavian Journal of Medicine and Science in Sports,18(4),453-461。 | 26. | Cornachione, A. S.、Cação-Benedini, L. O.、Martinez, E. Z.、Neder, L.、Mattiello-Sverzut, Ana Cláudia(2011)。Effects of eccentric and concentric training on capillarization and myosin heavy chain contents in rat skeletal muscles after hindlimb suspension。Acta Histochemica,113(3),277-282。 | 27. | Cornachione, A. S.、Cação-Benedini, L. O.、Chesca, D. L.、Martinez, E. Z.、Mattiello-Sverzut, A. C.(2014)。Effects of eccentric exercise in rehabilitation of phasic and tonic muscles after leg immobilization in rats。Acta Histochemica,116(8),1216-1224。 | 28. | Dupont Salter, A. C.、Richmond, F. J.、Loeb, G. E.(2003)。Effects of muscle immobilization at different lengths on tetrodotoxin-induced disuse atrophy。IEEE Transactions on Neural Systems and Rehabilitation Engineering,11(3),209-217。 | 29. | Giannelli, G.、De Marzo, A.、Marinosci, F.、Antonaci, S.(2005)。Matrix metalloproteinase imbalance in muscle disuse atrophy。Histology and Histopathology,20(1),99-106。 | 30. | Gossman, M. R.、Sahrmann, S. A.、Rose, S. J.(1982)。Review of length-associated changes in muscle. Experimental evidence and clinical implications。Physical Therapy,62(12),1799-1808。 | 31. | Ho, C. C.、Nosaka, K.、Tseng, K. W.、Tseng, W. C.、Lau, W. Y.、Bogdanis, G. C.、Chen, T. C.(2021)。Effect of preconditioning exercise on biceps brachii myotendinous junction displacement during elbow flexor eccentric exercise。Scandinavian Journal of Medicine and Science in Sports,31(4),813-825。 | 32. | Kawakami, Y.、Nakazawa, K.、Fujimoto, T.、Nozaki, D.、Miyashita, M.、Fukunaga, T.(1994)。Specific tension of elbow flexor and extensor muscles based on magnetic resonance imaging。European Journal of Applied Physiology and Occupational Physiology,68(2),139-147。 | 33. | McBride, A. P.、Brais, G.、Wood, T.、Ek, E. T.、Hoy, G.(2020)。Stress reactions and fractures around the elbow in athletes。Journal of Science and Medicine in Sport,24(5),425-429。 | 34. | Phillips, S. M.、McGlory, C.(2014)。CrossTalk proposal: The dominant mechanism causing disuse muscle atrophy is decreased protein synthesis。Journal of Physiology,592(24),5341-5343。 | 圖書1. | Perotto, A.、Delagi, E. F.(1994)。Anatomical guide for the electromyographer: The limbs and trunk。Charles C Thomas。 | |
| |