簡易檢索 / 詳目顯示

回結果列表
研究生: 里德荻
Chandee, Sirinad
論文名稱: 慢性踝關節不穩定者單腳跳下於倒置平台時的踝關節神經肌肉控制
Neuromuscular Control of Ankle Muscles in Chronic Ankle Instability Individuals during Single Leg Drop Landing on Inverted Platform
指導教授: 林呈鳳
Lin, Cheng-feng
學位類別: 碩士
Master
系所名稱: 醫學院 - 物理治療學系
Department of Physical Therapy
論文出版年: 2025
畢業學年度: 113
語文別: 英文
論文頁數: 97
外文關鍵詞: chronic ankle instability, neuromuscular control, extensor digitorum longus, kinematics, single-leg landing, perturbation
相關次數: 點閱:34下載:0
分享至:
查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報
    • Abstract I Acknowledge V Table of contents VII List of Table X List of Figures XI List of abbreviations XII CHAPTER 1 INTRODUCTION 1 1.1 Background 1 1.2 Purpose and hypothesis of this study 4 1.3 Definition 4 1.4 Theoretical Rationale 7 CHAPTER 2 LITERATURE REVIEW 9 2.1 Anatomy and function of ankle evertor muscle 9 2.2 Anatomy of ankle joint 10 2.3 Chronic ankle instability 12 2.4 Epidemiology of chronic ankle instability (CAI) 13 2.5 Pathomechanism of LAS and CAI 15 2.6 Role of Extensor digitorum longus (EDL) 16 2.7 Proprioception 17 2.8 Landing task and Neuromuscular control 19 2.9 Medial foot 20 CHAPTER 3 RESEARCH DESIGN AND METHODOLOGY 22 3.1 The setting 22 3.2 Research Design 22 3.3 Participants 22 3.4 Sample size 23 3.5 Instruments 23 3.5.1 Motion capture system 23 3.5.2 Force plate 24 3.5.2 Surface electromyography 24 3.5.3 Inertial Measurement Unit (IMU) 25 3.6 Procedure 26 3.6.1 Basic information 26 3.6.2 Anthropometry measurement 26 3.6.3 Active and passive ankle range of motion 27 3.6.4 Muscle strength 28 3.6.5 Joint Reposition Sense 28 3.6.6 Experimental protocol 29 3.7 Data Reduction 30 3.7.1 Root Mean Square (RMS) EMG of EDL, PL, and PB muscle 30 3.7.2 EDL, PL, and PB muscle latency 31 3.7.3 The maximum ankle inversion angle 31 3.7.4 The number of movement units of the medial foot 32 3.8 Statistical Analysis 33 CHAPTER 4 RERULTS 34 4.1 Participant's characteristics 34 4.2 Active and passive range of motion of ankle joint 36 4.3 Muscle strength of the dominant leg 36 4.4 Mean Absolute Error (MAE) of the ankle proprioception 38 4.5 EDL, PL, and PB Muscle activity 38 4.5.1 Muscle activity during pre-landing 38 4.5.2 Muscle activity during post-landing 40 4.5.3 Muscle activity at the initial contact 40 4.5.4 Muscle activity at the maximum ankle inversion angle 43 4.6 EDL, PL, and PB muscle latency 45 4.7 Maximum ankle inversion angle 47 4.8 The plantar flexion angle at the maximum ankle inversion 47 4.9 The number of movement unit of medial foot 47 CHAPTER 5 DISCUSSION 51 5.1 Participant characteristics 51 5.2 Proprioception 53 5.3 Muscle latency 55 5.4 Muscle activation during pre- and post-landing 57 5.5 Muscle activation at initial contact 59 5.6 Maximum ankle inversion angle 60 5.7 Movement unit of the medial foot 62 Limitation 64 Clinical implication 64 CHAPTER 6 CONCLUSIONS 66 Reference 67 APPENDIX 1 The Cumberland Ankle Instability Tool 78 APPENDIX 2 The collecting data form 79 APPENDIX 3 Human Ethic Approval 82

    1. Gribble, P.A., et al., Selection criteria for patients with chronic ankle instability in controlled research: a position statement of the International Ankle Consortium. J Athl Train, 2014. 49(1): p. 121-7.
    2. Houston, M.N., B.L. Van Lunen, and M.C. Hoch, Health-related quality of life in individuals with chronic ankle instability. J Athl Train, 2014. 49(6): p. 758-63.
    3. Donovan, L., et al., Prevalence and Impact of Chronic Ankle Instability in Adolescent Athletes. Orthopaedic Journal of Sports Medicine, 2020. 8(2): p. 2325967119900962.
    4. Hallinan, J., et al., The peroneus longus muscle and tendon: a review of its anatomy and pathology. Skeletal Radiol, 2019. 48(9): p. 1329-1344.
    5. Hertel, J., Functional anatomy, pathomechanics, and pathophysiology of lateral ankle instability. Journal of athletic training, 2002. 37(4): p. 364.
    6. Freeman, M.A., M.R. Dean, and I.W. Hanham, The etiology and prevention of functional instability of the foot. J Bone Joint Surg Br, 1965. 47(4): p. 678-85.
    7. Sammarco, V.J., Complications of Lateral Ankle Ligament Reconstruction. Clinical Orthopaedics and Related Research®, 2001. 391: p. 123-132.
    8. Andersen, T.E., et al., Video Analysis of the Mechanisms for Ankle Injuries in Football. The American Journal of Sports Medicine, 2004. 32(1_suppl): p. 69-79.
    9. Bozkurt, M. and M.N. Doral, Anatomic factors and biomechanics in ankle instability. Foot and ankle clinics, 2006. 11(3): p. 451-463.
    10. Hertel, J. and R.O. Corbett, An updated model of chronic ankle instability. Journal of athletic training, 2019. 54(6): p. 572-588.
    11. Lezak, B. and M. Varacallo, Anatomy, Bony Pelvis and Lower Limb, Calf Peroneus Longus Muscle. 2019.
    12. Muscolino, J.E., The muscular system manual: the skeletal muscles of the human body. 2016: Elsevier Health Sciences.
    13. Simpson, J.D., et al., Neuromuscular control in individuals with chronic ankle instability: A comparison of unexpected and expected ankle inversion perturbations during a single leg drop-landing. Human Movement Science, 2019. 64: p. 133-141.
    14. Watabe, T., et al., Individuals with chronic ankle instability exhibit altered ankle kinematics and neuromuscular control compared to copers during inversion single-leg landing. Physical Therapy in Sport, 2021. 49: p. 77-82.
    15. Ahn, S.H., et al., Comparison of the Strength and Electromyography of the Evertor Muscles With and Without Toe Flexion in Patients With Chronic Ankle Instability. Foot & Ankle International, 2020. 41(4): p. 479-485.
    16. Hiller, C.E., et al., The Cumberland Ankle Instability Tool: A Report of Validity and Reliability Testing. Archives of Physical Medicine and Rehabilitation, 2006. 87(9): p. 1235-1241.
    17. Mills, K.R., The basics of electromyography. Journal of Neurology, Neurosurgery & Psychiatry, 2005. 76(suppl 2): p. ii32.
    18. Ty Hopkins, J., T. McLoda, and S. McCaw, Muscle activation following sudden ankle inversion during standing and walking. European journal of applied physiology, 2007. 99: p. 371-378.
    19. Hofsten, C., Structuring of Early Reaching Movements: A Longitudinal Study. Journal of motor behavior, 1992. 23: p. 280-92.
    20. Lerner, K.L., Newton's Law of Universal Gravitation. 2001.
    21. Simpson, J.D., et al., Individuals with chronic ankle instability exhibit dynamic postural stability deficits and altered unilateral landing biomechanics: A systematic review. Phys Ther Sport, 2019. 37: p. 210-219.
    22. Sagawa, Y., et al., Differences in lower extremity kinematics during single-leg lateral drop landing of healthy individuals, injured but asymptomatic patients, and patients with chronic ankle instability- a cross-sectional observational study. PLoS One, 2024. 19(3): p. e0297660.
    23. Kawahara, D., et al., Lower limb kinematics during single leg landing in three directions in individuals with chronic ankle instability. Physical Therapy in Sport, 2022. 57: p. 71-77.
    24. Jones, O. Muscles in the Anterior Compartment of the Leg. January 4, 2024 [cited 2024 May 8,]; 35:[Available from: https://teachmeanatomy.info/lower-limb/muscles/leg/anterior-compartment/.
    25. Zatsiorsky, V.M., Kinetics of human motion. 2002: Human kinetics.
    26. Freeman, M.A., Instability of the foot after injuries to the lateral ligament of the ankle. J Bone Joint Surg Br, 1965. 47(4): p. 669-77.
    27. Aicale, R. and N. Maffulli, Rotational ankle instability: A current concept review. Journal of Orthopaedic Surgery, 2023. 31(2): p. 10225536231182347.
    28. Herzog, M.M., et al., Epidemiology of Ankle Sprains and Chronic Ankle Instability. J Athl Train, 2019. 54(6): p. 603-610.
    29. Lin, C.I., et al., The epidemiology of chronic ankle instability with perceived ankle instability- a systematic review. J Foot Ankle Res, 2021. 14(1): p. 41.
    30. Doherty, C., et al., The Incidence and Prevalence of Ankle Sprain Injury: A Systematic Review and Meta-Analysis of Prospective Epidemiological Studies. Sports Medicine, 2014. 44(1): p. 123-140.
    31. Fousekis, K., E. Tsepis, and G. Vagenas, Intrinsic Risk Factors of Noncontact Ankle Sprains in Soccer: A Prospective Study on 100 Professional Players. The American Journal of Sports Medicine, 2012. 40(8): p. 1842-1850.
    32. Woods, C., et al., The Football Association Medical Research Programme: an audit of injuries in professional football: an analysis of ankle sprains. Br J Sports Med, 2003. 37(3): p. 233-8.
    33. Zhang, C., et al., The Prevalence and Characteristics of Chronic Ankle Instability in Elite Athletes of Different Sports: A Cross-Sectional Study. J Clin Med, 2022. 11(24).
    34. Hershkovich, O., et al., A Large-Scale Study on Epidemiology and Risk Factors for Chronic Ankle Instability in Young Adults. The Journal of Foot and Ankle Surgery, 2015. 54(2): p. 183-187.
    35. Scarborough, J.B., The Gyroscope. 1958: Interscience Publ.
    36. Fuller, E.A., Center of pressure and its theoretical relationship to foot pathology. Journal of the American Podiatric Medical Association, 1999. 89(6): p. 278-291.
    37. Silvestri, E., A. Muda, and D. Orlandi, Ultrasound Anatomy of Lower Limb Muscles: A Practical Guide. 2015: Springer International Publishing.
    38. Kaya, D., B. Yosmaoglu, and M.N. Doral, Proprioception in orthopaedics, sports medicine and rehabilitation. 2018: Springer.
    39. Kröger, S. and B. Watkins, Muscle spindle function in healthy and diseased muscle. Skeletal Muscle, 2021. 11: p. 1-13.
    40. Moore, M., Golgi tendon organs: neuroscience update with relevance to stretching and proprioception in dancers. Journal of Dance Medicine & Science, 2007. 11(3): p. 85-92.
    41. Xue, X.a., et al., Chronic ankle instability is associated with proprioception deficits: A systematic review and meta-analysis. Journal of Sport and Health Science, 2021. 10(2): p. 182-191.
    42. Needle, A.R., A.S. Lepley, and D.R. Grooms, Central Nervous System Adaptation After Ligamentous Injury: a Summary of Theories, Evidence, and Clinical Interpretation. Sports Med, 2017. 47(7): p. 1271-1288.
    43. Santilli, V., et al., Peroneus Longus Muscle Activation Pattern during Gait Cycle in Athletes Affected by Functional Ankle Instability:A Surface Electromyographic Study. The American Journal of Sports Medicine, 2005. 33(8): p. 1183-1187.
    44. Doherty, C., et al., Single-leg drop landing motor control strategies following acute ankle sprain injury. Scand J Med Sci Sports, 2015. 25(4): p. 525-33.
    45. Feng, R., et al., Knee Movement Characteristics of Basketball Players in Landing Tasks Before Onset of Patellar Tendinopathy: A Prospective Study. Front Sports Act Living, 2022. 4: p. 847945.
    46. Lees, A., Methods of Impact Absorption When Landing from a Jump. Engineering in Medicine, 1981. 10(4): p. 207-211.
    47. Robbins, S. and E. Waked, Factors associated with ankle injuries. Preventive measures. Sports Med, 1998. 25(1): p. 63-72.
    48. Babu, D. and B. Bordoni, Anatomy, Bony Pelvis and Lower Limb: Medial Longitudinal Arch of the Foot. 2023: StatPearls Publishing, Treasure Island (FL).
    49. Fraser, J.J., M.A. Feger, and J. Hertel, Midfoot and forefoot involvement in lateral ankle sprains and chronic ankle instability. Part 1: anatomy and biomechanics. International journal of sports physical therapy, 2016. 11(6): p. 992.
    50. Sharma, S., M. Hashmi, and R. Chakraborty, StatPearls [Internet] StatPearls Publishing. Treasure Island (FL): Sep, 2021. 18.
    51. Blakeslee, T. and J. Morris, Cuboid syndrome and the significance of midtarsal joint stability. Journal of the American Podiatric Medical Association, 1987. 77(12): p. 638-642.
    52. Greene, D.A., P.N. Wiebe, and G.A. Naughton, Influence of Drop-Landing Exercises on Bone Geometry and Biomechanical Properties in Prepubertal Girls: A Randomized Controlled Study. Calcified Tissue International, 2009. 85(2): p. 94-103.
    53. McGuine, T.A., et al., Balance as a predictor of ankle injuries in high school basketball players. Clin J Sport Med, 2000. 10(4): p. 239-44.
    54. Rowe, P.L., et al., External Ankle Support and Ankle Biomechanics in Chronic Ankle Instability: Systematic Review and Meta-Analysis. J Athl Train, 2023. 58(7-8): p. 635-647.
    55. McCann, R.S., et al., Landing Kinematics and Isometric Hip Strength of Individuals With Chronic Ankle Instability. Foot Ankle Int, 2019. 40(8): p. 969-977.
    56. Prajapati, B., M. Dunne, and R. Armstrong, Sample size estimation and statistical power analyses. Optometry today, 2010. 16(7): p. 10-18.
    57. Skouras, A.Z., et al., Clinical Significance of the Static and Dynamic Q-angle. Cureus, 2022. 14(5): p. e24911.
    58. Levangie, P.K. and C.C. Norkin, Joint structure and function: a comprehensive analysis. 2011: FA Davis.
    59. Picard, M., David J. Magee, Orthopedic Physical Assessment, WB Saunders Company, Philadelphia (1997), 805 pp. $49.95. 1998, Elsevier.
    60. Terada, M. and P.A. Gribble, Jump Landing Biomechanics During a Laboratory Recorded Recurrent Ankle Sprain. Foot & Ankle International, 2015. 36(7): p. 842-848.
    61. Haverkamp, N. and A. Beauducel, Violation of the Sphericity Assumption and Its Effect on Type-I Error Rates in Repeated Measures ANOVA and Multi-Level Linear Models (MLM). Front Psychol, 2017. 8: p. 1841.
    62. Zamani Moghadam, H., et al., The Relation of Q Angle and Anthropometric Measures with Ankle Sprain; a Case-control study. Emerg (Tehran), 2017. 5(1): p. e9.
    63. Milgrom, C., et al., Risk factors for lateral ankle sprain: a prospective study among military recruits. Foot Ankle, 1991. 12(1): p. 26-30.
    64. Kleipool, R.P., et al., Difference in orientation of the talar articular facets between healthy ankle joints and ankle joints with chronic instability. Journal of Orthopaedic Research®, 2022. 40(3): p. 695-702.
    65. Tümer, N., et al., Typical shape differences in the subtalar joint bones between subjects with chronic ankle instability and controls. Journal of Orthopaedic Research®, 2019. 37(9): p. 1892-1902.
    66. Hunt, A.E. and R.M. Smith, Mechanics and control of the flat versus normal foot during the stance phase of walking. Clinical biomechanics, 2004. 19(4): p. 391-397.
    67. Richie, D.H., Jr., Functional instability of the ankle and the role of neuromuscular control: a comprehensive review. J Foot Ankle Surg, 2001. 40(4): p. 240-51.
    68. Saki, F., et al., Anatomical risk factors of lateral ankle sprain in adolescent athletes: A prospective cohort study. Physical Therapy in Sport, 2021. 48: p. 26-34.
    69. Tsai, L.C., et al., Comparison of different structural foot types for measures of standing postural control. J Orthop Sports Phys Ther, 2006. 36(12): p. 942-53.
    70. Cote, K.P., et al., Effects of Pronated and Supinated Foot Postures on Static and Dynamic Postural Stability. J Athl Train, 2005. 40(1): p. 41-46.
    71. Thompson, C., et al., Factors Contributing to Chronic Ankle Instability: A Systematic Review and Meta-Analysis of Systematic Reviews. Sports Med, 2018. 48(1): p. 189-205.
    72. Donnelly, L., et al., Eversion Strength and Surface Electromyography Measures With and Without Chronic Ankle Instability Measured in 2 Positions. Foot Ankle Int, 2017. 38(7): p. 769-778.
    73. Khalaj, N., et al., Is chronic ankle instability associated with impaired muscle strength? Ankle, knee and hip muscle strength in individuals with chronic ankle instability: a systematic review with meta-analysis. British Journal of Sports Medicine, 2020. 54(14): p. 839-847.
    74. Peng, D., et al., Correlations of strength, proprioception, and dynamic balance to the Cumberland Ankle Instability Tool Score among patients with chronic ankle instability: a cross-sectional study. BMC Musculoskelet Disord, 2024. 25(1): p. 970.
    75. Konradsen, L. and P. Magnusson, Increased inversion angle replication error in functional ankle instability. Knee Surgery, Sports Traumatology, Arthroscopy, 2000. 8(4): p. 246-251.
    76. Nakasa, T., et al., The deficit of joint position sense in the chronic unstable ankle as measured by inversion angle replication error. Archives of Orthopaedic and Trauma Surgery, 2008. 128(5): p. 445-449.
    77. Jerosch, J. and M. Prymka, Proprioception and joint stability. Knee Surg Sports Traumatol Arthrosc, 1996. 4(3): p. 171-9.
    78. You, S.H., K.P. Granata, and L.K. Bunker, Effects of circumferential ankle pressure on ankle proprioception, stiffness, and postural stability: a preliminary investigation. J Orthop Sports Phys Ther, 2004. 34(8): p. 449-60.
    79. Sefton, J.M., et al., Six weeks of balance training improves sensorimotor function in individuals with chronic ankle instability. J Orthop Sports Phys Ther, 2011. 41(2): p. 81-9.
    80. Kim, C.-Y., J.-D. Choi, and H.-D. Kim, No correlation between joint position sense and force sense for measuring ankle proprioception in subjects with healthy and functional ankle instability. Clinical Biomechanics, 2014. 29(9): p. 977-983.
    81. Kim, C.Y. and J.D. Choi, Comparison between ankle proprioception measurements and postural sway test for evaluating ankle instability in subjects with functional ankle instability. Journal of Back and Musculoskeletal Rehabilitation, 2016. 29(1): p. 97-107.
    82. You, S.H., K.P. Granata, and L.K. Bunker, Effects of Circumferential Ankle Pressure on Ankle Proprioception, Stiffness, and Postural Stability: A Preliminary Investigation. Journal of Orthopaedic & Sports Physical Therapy, 2004. 34(8): p. 449-460.
    83. Needle, A.R., A.S. Lepley, and D.R. Grooms, Central Nervous System Adaptation After Ligamentous Injury: a Summary of Theories, Evidence, and Clinical Interpretation. Sports Medicine, 2017. 47(7): p. 1271-1288.
    84. Kim, H.-J., J.-H. Lee, and D.-H. Lee, Proprioception in Patients With Anterior Cruciate Ligament Tears: A Meta-analysis Comparing Injured and Uninjured Limbs. The American Journal of Sports Medicine, 2017. 45(12): p. 2916-2922.
    85. Lentell, G., et al., The contributions of proprioceptive deficits, muscle function, and anatomic laxity to functional instability of the ankle. J Orthop Sports Phys Ther, 1995. 21(4): p. 206-15.
    86. Hertel, J., Sensorimotor deficits with ankle sprains and chronic ankle instability. Clin Sports Med, 2008. 27(3): p. 353-70, vii.
    87. Lin, C.-W., et al., Effect of Integrated Training on Balance and Ankle Position Sense in Ballet Dancers. 2020.
    88. Kröger, S. and B. Watkins, Muscle spindle function in healthy and diseased muscle. Skeletal Muscle, 2021. 11(1): p. 3.
    89. Konradsen, L., M. Voigt, and C. Hojsgaard, Ankle inversion injuries: the role of the dynamic defense mechanism. The American journal of sports medicine, 1997. 25(1): p. 54-58.
    90. Konradsen, L., Sensori-motor control of the uninjured and injured human ankle. Journal of Electromyography and Kinesiology, 2002. 12(3): p. 199-203.
    91. Gutierrez, G.M., T.W. Kaminski, and A.T. Douex, Neuromuscular control and ankle instability. Pm r, 2009. 1(4): p. 359-65.
    92. Koldenhoven, R.M., et al., Surface electromyography and plantar pressure during walking in young adults with chronic ankle instability. Knee Surgery, Sports Traumatology, Arthroscopy, 2016. 24(4): p. 1060-1070.
    93. Fallat, L., D.J. Grimm, and J.A. Saracco, Sprained ankle syndrome: Prevalence and analysis of 639 acute injuries. The Journal of Foot and Ankle Surgery, 1998. 37(4): p. 280-285.
    94. Isabelle, M., Q.-b. Sylvie, and P. Chantal, Electromechanical assessment of ankle stability. European Journal of Applied Physiology, 2003. 88(6): p. 558-64.
    95. Delahunt, E., K. Monaghan, and B. Caulfield, Changes in lower limb kinematics, kinetics, and muscle activity in subjects with functional instability of the ankle joint during a single leg drop jump. J Orthop Res, 2006. 24(10): p. 1991-2000.
    96. Suda, E.Y., C.F. Amorim, and C. Sacco Ide, Influence of ankle functional instability on the ankle electromyography during landing after volleyball blocking. J Electromyogr Kinesiol, 2009. 19(2): p. e84-93.
    97. Li, Y., et al., Does chronic ankle instability influence lower extremity muscle activation of females during landing? Journal of Electromyography and Kinesiology, 2018. 38: p. 81-87.
    98. Moisan, G., et al., Lower Limb Biomechanics During Drop-Jump Landings on Challenging Surfaces in Individuals With Chronic Ankle Instability. J Athl Train, 2022. 57(11-12): p. 1039-1047.
    99. Olsen, M.T., et al., The Role of the Midfoot in Drop Landings. Med Sci Sports Exerc, 2019. 51(1): p. 114-122.
    100. Bolgla, L.A. and T.R. Malone, Plantar fasciitis and the windlass mechanism: a biomechanical link to clinical practice. J Athl Train, 2004. 39(1): p. 77-82.
    101. Lysdal, F.G., et al., What have we learnt from quantitative case reports of acute lateral ankle sprains injuries and episodes of 'giving-way' of the ankle joint, and what shall we further investigate? Sports Biomech, 2022. 21(4): p. 359-379.
    102. Medina McKeon, J.M. and M.C. Hoch, The Ankle-Joint Complex: A Kinesiologic Approach to Lateral Ankle Sprains. J Athl Train, 2019. 54(6): p. 589-602.
    103. Alt Murphy, M., et al., Kinematic Analysis Using 3D Motion Capture of Drinking Task in People With and Without Upper-extremity Impairments. J Vis Exp, 2018(133).
    104. Achermann, S., et al., Motor atypicalities in infancy are associated with general developmental level at 2 years, but not autistic symptoms. Autism, 2020. 24: p. 136236132091874.
    105. Garrick, J.G., The frequency of injury, mechanism of injury, and epidemiology of ankle sprains. Am J Sports Med, 1977. 5(6): p. 241-2.
    106. Van Boerum, D.H. and B.J. Sangeorzan, Biomechanics and pathophysiology of flat foot. Foot Ankle Clin, 2003. 8(3): p. 419-30.

    無法下載圖示 校內:2030-02-07公開
    校外:2030-02-07公開
    電子論文尚未授權公開,紙本請查館藏目錄
    QR CODE