前十字韌帶重建術後在上下樓梯時之神經肌肉控制與關節間協調度變化研究

Ka-Hou Ho; 何家豪

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/64247

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	徐瑋勵
dc.contributor.author	Ka-Hou Ho	en
dc.contributor.author	何家豪	zh_TW
dc.date.accessioned	2021-06-16T17:36:46Z	-
dc.date.available	2017-09-19
dc.date.copyright	2012-09-19
dc.date.issued	2012
dc.date.submitted	2012-08-15
dc.identifier.citation	1. Angoules AG, Mavrogenis AF, Dimitriou R, et al. Knee proprioception following ACL reconstruction; a prospective trial comparing hamstrings with bone-patellar tendon-bone autograft. Knee. Mar 2011;18(2):76-82. 2. Asano H, Muneta T, Ikeda H, Yagishita K, Kurihara Y, Sekiya I. Arthroscopic evaluation of the articular cartilage after anterior cruciate ligament reconstruction: a short-term prospective study of 105 patients. Arthroscopy. May 2004;20(5):474-481. 3. Beynnon BD, Johnson RJ, Abate JA, Fleming BC, Nichols CE. Treatment of anterior cruciate ligament injuries, part I. Am J Sports Med. Oct 2005;33(10):1579-1602. 4. Bollen S. Epidemiology of knee injuries: diagnosis and triage. Br J Sports Med. Jun 2000;34(3):227-228. 5. Briggs KK, Lysholm J, Tegner Y, Rodkey WG, Kocher MS, Steadman JR. The reliability, validity, and responsiveness of the Lysholm score and Tegner activity scale for anterior cruciate ligament injuries of the knee: 25 years later. Am J Sports Med. May 2009;37(5):890-897. 6. Bryant AL, Kelly J, Hohmann E. Neuromuscular adaptations and correlates of knee functionality following ACL reconstruction. J Orthop Res. Jan 2008;26(1):126-135. 7. Burgess-Limerick R, Abernethy B, Neal RJ. Relative phase quantifies interjoint coordination. J Biomech. Jan 1993;26(1):91-94. 8. Chen CH, Chuang TY, Wang KC, Chen WJ, Shih CH. Arthroscopic anterior cruciate ligament reconstruction with quadriceps tendon autograft: clinical outcome in 4-7 years. Knee Surg Sports Traumatol Arthrosc. Nov 2006;14(11):1077-1085. 9. Chiu SL, Lu TW, Chou LS. Altered inter-joint coordination during walking in patients with total hip arthroplasty. Gait Posture. Oct 2010;32(4):656-660. 10. D'Lima DD, Patil S, Steklov N, Chien S, Colwell CW, Jr. In vivo knee moments and shear after total knee arthroplasty. J Biomech. 2007;40 Suppl 1:S11-17. 11. Farley CT, Morgenroth DC. Leg stiffness primarily depends on ankle stiffness during human hopping. J Biomech. Mar 1999;32(3):267-273. 12. Felson DT, Gross KD, Nevitt MC, et al. The effects of impaired joint position sense on the development and progression of pain and structural damage in knee osteoarthritis. Arthritis Rheum. Aug 15 2009;61(8):1070-1076. 13. Fremerey RW, Lobenhoffer P, Zeichen J, Skutek M, Bosch U, Tscherne H. Proprioception after rehabilitation and reconstruction in knees with deficiency of the anterior cruciate ligament: a prospective, longitudinal study. J Bone Joint Surg Br. Aug 2000;82(6):801-806. 14. Gao B, Cordova ML, Nigel Zheng N. Three-dimensional joint kinematics of ACL-deficient and ACL-reconstructed knees during stair ascent and descent. Hum Mov Sci. Jul 26 2011. 15. Gianotti SM, Marshall SW, Hume PA, Bunt L. Incidence of anterior cruciate ligament injury and other knee ligament injuries: a national population-based study. J Sci Med Sport. Nov 2009;12(6):622-627. 16. Haddad JM, van Emmerik RE, Whittlesey SN, Hamill J. Adaptations in interlimb and intralimb coordination to asymmetrical loading in human walking. Gait Posture. Jun 2006;23(4):429-434. 17. Holm I, Oiestad BE, Risberg MA, Aune AK. No difference in knee function or prevalence of osteoarthritis after reconstruction of the anterior cruciate ligament with 4-strand hamstring autograft versus patellar tendon-bone autograft: a randomized study with 10-year follow-up. Am J Sports Med. Mar 2010;38(3):448-454. 18. Holsgaard-Larsen A, Caserotti P, Puggaard L, Aagaard P. Stair-ascent performance in elderly women: effect of explosive strength training. J Aging Phys Act. Apr 2011;19(2):117-136. 19. Hooper DM, Morrissey MC, Drechsler WI, Clark NC, Coutts FJ, McAuliffe TB. Gait analysis 6 and 12 months after anterior cruciate ligament reconstruction surgery. Clin Orthop Relat Res. Oct 2002(403):168-178. 20. Hsu MJ, Wei SH, Yu YH, Chang YJ. Leg stiffness and electromyography of knee extensors/flexors: comparison between older and younger adults during stair descent. J Rehabil Res Dev. 2007;44(3):429-435. 21. Hughes G, Watkins J. Lower limb coordination and stiffness during landing from volleyball block jumps. Res Sports Med. 2008;16(2):138-154. 22. Kurz MJ, Stergiou N, Buzzi UH, Georgoulis AD. The effect of anterior cruciate ligament reconstruction on lower extremity relative phase dynamics during walking and running. Knee Surg Sports Traumatol Arthrosc. Mar 2005;13(2):107-115. 23. Larsen AH, Puggaard L, Hamalainen U, Aagaard P. Comparison of ground reaction forces and antagonist muscle coactivation during stair walking with ageing. J Electromyogr Kinesiol. Aug 2008;18(4):568-580. 24. Laubenthal KN, Smidt GL, Kettelkamp DB. A quantitative analysis of knee motion during activities of daily living. Phys Ther. Jan 1972;52(1):34-43. 25. Lohmander LS, Englund PM, Dahl LL, Roos EM. The long-term consequence of anterior cruciate ligament and meniscus injuries: osteoarthritis. Am J Sports Med. Oct 2007;35(10):1756-1769. 26. Lu TW, Yen HC, Chen HL. Comparisons of the inter-joint coordination between leading and trailing limbs when crossing obstacles of different heights. Gait Posture. Feb 2008;27(2):309-315. 27. Lustosa LP, Ocarino JM, de Andrade MA, Pertence AE, Bittencourt NF, Fonseca ST. Muscle co-contraction after anterior cruciate ligament reconstruction: Influence of functional level. J Electromyogr Kinesiol. Dec 2011;21(6):1050-1055. 28. Lyon R, Liu XC, Hung J, Kernozek TW. Dynamic assessment in patients following bone-patellar tendon-bone autograft anterior cruciate ligament reconstruction. Open Orthop J. 2011;5:160-164. 29. Mattacola CG, Perrin DH, Gansneder BM, Gieck JH, Saliba EN, McCue FC, 3rd. Strength, Functional Outcome, and Postural Stability After Anterior Cruciate Ligament Reconstruction. J Athl Train. Sep 2002;37(3):262-268. 30. McClinton S, Donatell G, Weir J, Heiderscheit B. Influence of step height on quadriceps onset timing and activation during stair ascent in individuals with patellofemoral pain syndrome. J Orthop Sports Phys Ther. May 2007;37(5):239-244. 31. Mitsou A, Vallianatos P, Piskopakis N, Maheras S. Anterior cruciate ligament reconstruction by over-the-top repair combined with popliteus tendon plasty. J Bone Joint Surg Br. May 1990;72(3):398-404. 32. Mundermann A, Dyrby CO, D'Lima DD, Colwell CW, Jr., Andriacchi TP. In vivo knee loading characteristics during activities of daily living as measured by an instrumented total knee replacement. J Orthop Res. Sep 2008;26(9):1167-1172. 33. Nakamura N, Horibe S, Sasaki S, et al. Evaluation of active knee flexion and hamstring strength after anterior cruciate ligament reconstruction using hamstring tendons. Arthroscopy. Jul-Aug 2002;18(6):598-602. 34. Papannagari R, Gill TJ, Defrate LE, Moses JM, Petruska AJ, Li G. In vivo kinematics of the knee after anterior cruciate ligament reconstruction: a clinical and functional evaluation. Am J Sports Med. Dec 2006;34(12):2006-2012. 35. Perotto A, Delagi EF. Anatomical guide for the electromyographer : the limbs and trunk. Springfield, Ill.: Charles C. Thomas; 1994. 36. Protopapadaki A, Drechsler WI, Cramp MC, Coutts FJ, Scott OM. Hip, knee, ankle kinematics and kinetics during stair ascent and descent in healthy young individuals. Clin Biomech (Bristol, Avon). Feb 2007;22(2):203-210. 37. Reider B, Arcand MA, Diehl LH, et al. Proprioception of the knee before and after anterior cruciate ligament reconstruction. Arthroscopy. Jan 2003;19(1):2-12. 38. Riemann BL, Lephart SM. The sensorimotor system, part I: the physiologic basis of functional joint stability. J Athl Train. Jan 2002;37(1):71-79. 39. Riemann BL, Lephart SM. The Sensorimotor System, Part II: The Role of Proprioception in Motor Control and Functional Joint Stability. J Athl Train. Jan 2002;37(1):80-84. 40. Riener R, Rabuffetti M, Frigo C. Stair ascent and descent at different inclinations. Gait Posture. Feb 2002;15(1):32-44. 41. Roberts D, Friden T, Stomberg A, Lindstrand A, Moritz U. Bilateral proprioceptive defects in patients with a unilateral anterior cruciate ligament reconstruction: a comparison between patients and healthy individuals. J Orthop Res. Jul 2000;18(4):565-571. 42. Rudolph KS, Snyder-Mackler L. Effect of dynamic stability on a step task in ACL deficient individuals. J Electromyogr Kinesiol. Oct 2004;14(5):565-575. 43. Scanlan SF, Chaudhari AM, Dyrby CO, Andriacchi TP. Differences in tibial rotation during walking in ACL reconstructed and healthy contralateral knees. J Biomech. Jun 18 2010;43(9):1817-1822. 44. Stergiou N, Ristanis S, Moraiti C, Georgoulis AD. Tibial rotation in anterior cruciate ligament (ACL)-deficient and ACL-reconstructed knees: a theoretical proposition for the development of osteoarthritis. Sports Med. 2007;37(7):601-613. 45. Tashman S, Collon D, Anderson K, Kolowich P, Anderst W. Abnormal rotational knee motion during running after anterior cruciate ligament reconstruction. Am J Sports Med. Jun 2004;32(4):975-983. 46. Tashman S, Kolowich P, Collon D, Anderson K, Anderst W. Dynamic function of the ACL-reconstructed knee during running. Clin Orthop Relat Res. Jan 2007;454:66-73. 47. Thorlund JB, Roos EM, Aagaard P. Neuromuscular function during stair descent in meniscectomized patients and controls. Med Sci Sports Exerc. Jul 2011;43(7):1272-1279. 48. Trees AH, Howe TE, Dixon J, White L. Exercise for treating isolated anterior cruciate ligament injuries in adults. Cochrane Database Syst Rev. 2005(4):CD005316. 49. van Grinsven S, van Cingel RE, Holla CJ, van Loon CJ. Evidence-based rehabilitation following anterior cruciate ligament reconstruction. Knee Surg Sports Traumatol Arthrosc. Aug 2010;18(8):1128-1144. 50. Vinther A, Kanstrup IL, Christiansen E, et al. Exercise-induced rib stress fractures: potential risk factors related to thoracic muscle co-contraction and movement pattern. Scand J Med Sci Sports. Jun 2006;16(3):188-196. 51. Winter DA. Biomechanics and motor control of human movement. Hoboken, N.J.: Wiley; 2009. 52. Zachazewski JE, Riley PO, Krebs DE. Biomechanical analysis of body mass transfer during stair ascent and descent of healthy subjects. J Rehabil Res Dev. 1993;30(4):412-422.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/64247	-
dc.description.abstract	背景：前十字韌帶受傷的病人在接受韌帶重建手術後，雖然膝關節之穩定性和功能都得到改善，但其下肢神經肌肉控制仍無法完全回復至術前狀況。神經肌肉控制的改變可能會影響其關節間協調性。此變異會造成病人在上下樓梯時動作表現出現問題而可能提早退化性關節炎的發生。目的：本研究探討前十字韌帶重建術後病人在上下樓梯時之神經肌肉控制及下肢關節協調度之變化。假設：前十字韌帶重建術後病人會使用較不協調的神經肌肉控制與關節間協調動作來進行上下樓梯的動作。設計：橫斷性研究。受試者：十七位單側前十字韌帶重建術後病人組和十七位年齡性別配對之健康對照組。方法：受試者會以自選速度上下四階的階梯，(樓梯高度分別為16 及21公分)。動作過程中會同時收取動作學、動力學和肌電圖之訊號。另外會進行膝關節之本體感覺測試。手術側、健側與對照組之關節間協調度、膝關節剛性、協同收縮比率、本體感覺誤差和肌肉力量的數據進行分析。統計分析使用混合型變異數分析(mixed-model ANOVA)進行計算。顯著程度設定在0.05。結果：本研究發現前十字韌帶重建術後病人會有明顯的肌力下降。上樓梯時，病人患側有較低的肌肉協同收縮比率；患側在髖-膝和膝-踝關節間協調度上也有明顯較高的變異度。而在下樓梯時，患側在控制下降期有較低的膝關節剛性，但在承重期則沒有差異；此外，患側之膝-踝關節間協調度有明顯較高的變異度。結論：前十字韌帶重建手術後的病人在神經肌肉控制和關節間協調度上與正常人之間仍然有明顯的差異。術後肌力減少可能是造成肌肉協同收縮型態改變之主要原因。臨床應用：日後對於前十字韌帶重建術後病人，物理治療可能要增加更多的肌力訓練以及強調神經肌肉控制訓練的重要性，以改善術後病人在上下樓梯時關節間協調的變異型態。	zh_TW
dc.description.abstract	Background: After anterior cruciate ligament (ACL) reconstruction surgery, the knee instability decreases, however, the neuromuscular control among the joints of the lower extremity might still not fully recover. Altered neuromuscular control might affect the proper inter-joint coordination. These changes may alter patients’ movement pattern during stair negotiation that could lead to early knee osteoarthritis. Purpose: This study aimed to investigate the neuromuscular control and inter-joint coordination during stair negotiation in patients with ACL reconstruction. Hypothesis: The neuromuscular control and inter-joint coordination of patients would demonstrate a less coordinative pattern during stair negotiation compared to that of healthy control participants. Study design: Cross-sectional study. Subjects: Seventeen unilateral ACL reconstructed patients and seventeen healthy age and gender-matched controls. Methods: Participants were instructed to perform stair ascent and descent on a 4-steps stair (stair height: 16 cm and 21 cm) with their self-selected speed. Kinematic, kinetic and electromyography data was collected during stair negotiation. Proprioception test of knee joint was also evaluated. Inter-joint coordination, knee stiffness, coactivation ratio, proprioceptive error and muscle strength among the surgical side, non-surgical side of patients and controls were analyzed. A mixed-model ANOVA was used to compare the difference of variables among the surgical side, non-surgical side of patients and controls. The significant level was set at 0.05. Results: Muscle strength of affected side in the patient group was significantly decreased compared to the healthy control. During stair ascent, affected side showed a lower knee coactivation ratio compared to the sound side. The variability of hip-knee and knee-ankle inter-joint coordination in the affected side was significantly decreased. During stair descent, significantly lower knee stiffness was observed in the affected side during controlled lowering phase, but not during weight acceptance phase. Higher variability of knee-ankle inter-joint coordination was found in the affected side. Conclusion: Significant alterations of neuromuscular control and inter-joint coordination between the patients and the control during stair negotiation. The varied inter-joint coordination pattern might relate to the altered muscle coactivation pattern and reduced muscle strength in ACL reconstructed patients. Clinical application: In the future, physical therapists should provide adequate muscle strengthening exercise to the patients and focus on importance of neuromuscular training for improving neuromuscular control and inter-joint coordination during stair negotiation.	en
dc.description.provenance	Made available in DSpace on 2021-06-16T17:36:46Z (GMT). No. of bitstreams: 1 ntu-101-R99428015-1.pdf: 17199298 bytes, checksum: 42a45af1d608aa979b3264c331360268 (MD5) Previous issue date: 2012	en
dc.description.tableofcontents	口試委員會審定書 i 誌謝 ii 中文摘要 iii 英文摘要 v CONTENTS viii Index of Figure xiii Index of Table xvi Chapter1. Introduction 1 1.1 Backgrounds 1 1.2 Research questions 2 1.3 Study Purposes 3 1.4 Hypotheses 3 Chapter2. Literature review 4 2.1 Anterior cruciate ligament reconstruction 4 2.1.1 The role of anterior cruciate ligament 4 2.1.2 Epidemiology of ACL injury and surgery 4 2.1.3 Indication of ACL reconstruction surgery 5 2.1.4 Outcomes of ACL reconstruction 5 2.2 Knee motion during stair negotiation 6 2.3 Kinematics in ACL reconstructed patients during stair negotiation 7 2.4 Inter-joint coordination 8 2.4.1 Continuous relative phase 8 2.4.2 Inter-joint coordination in ACL reconstructed patients 9 2.5 Neuromuscular control in ACL reconstructed patients during stair negotiation 9 2.5.1 Neuromuscular control for functional joint stability 9 2.5.2 Proprioceptive adaption after ACL reconstruction 10 2.5.3 Muscle co-contraction at the knee joint after ACL reconstruction 11 2.5.4 Knee joint stiffness after ACL reconstruction 12 2.6 Summary of literature review 12 Chapter3. Methods 14 3.1 Study design 14 3.2 Study Procedure 14 3.3 Participant 15 3.4 Data collection 16 3.4.1 Kinematic and kinetic 16 3.4.2 Electromyography (EMG) 19 3.4.3 Participants characteristics and questionnaire 20 3.5 Experiment setup 20 3.5.1 Stair negotiation task 20 3.5.2 Proprioception testing task 22 3.6 Data analysis 24 3.6.1 Inter-joint coordination 24 3.6.2 Joint stiffness 29 3.6.3 Proprioception 30 3.6.4 Electromyography 30 3.7 Statistical analysis 31 Chapter4. Results 33 4.1 Participants characteristics 33 4.2 Stair ascent 38 4.2.1 Coactivation analysis in stance phase in the whole stance phase 38 4.2.2 Difference of RMS and cross-correlation in the whole stance phase 39 4.2.3 Deviation phase in the whole stance phase 41 4.3 Stair descent 42 4.3.1 Knee stiffness and coactivation in weight acceptance phase 42 4.3.2 Knee stiffness and coactivation in controlled lowering phase 43 4.3.3 Coactivation analysis in the whole stance phase 46 4.3.4 Difference of RMS and cross-correlation in the whole stance phase 47 4.3.5 Deviation phase in the whole stance phase 49 Chapter5. Discussion 50 5.1 Proprioception, mechanical stability and function status were restored after ACL surgery 50 5.2 Muscle strength was not fully recovered after ACL surgery 51 5.3 Muscle coactivation pattern was altered during stair ascent after ACL surgery 52 5.4 Movement variability was increased after ACL surgery 53 5.5 Dynamic knee stability was decreased in controlled lowering phase during stair descent after ACL surgery 53 5.6 Similar inter-joint coordination pattern after ACL reconstruction 55 5.7 Possible mechanism might accelerate the degeneration of knee joint 55 5.8 Clinical importance and application 56 5.9 Limitations of the study 56 Chapter6. Conclusions 58 Chapter7. References 59 Appendix 68
dc.language.iso	en
dc.subject	神經肌肉控制	zh_TW
dc.subject	膝關節剛性	zh_TW
dc.subject	上下樓梯	zh_TW
dc.subject	關節間協調性	zh_TW
dc.subject	前十字韌帶重建	zh_TW
dc.subject	肌肉協同收縮	zh_TW
dc.subject	muscle coactivation	en
dc.subject	interjoint coordination	en
dc.subject	stair negotiation	en
dc.subject	neuromuscular control	en
dc.subject	knee stiffness	en
dc.subject	Anterior cruciate ligament reconstruction	en
dc.title	前十字韌帶重建術後在上下樓梯時之神經肌肉控制與關節間協調度變化研究	zh_TW
dc.title	Changes in Neuromuscular Control and Inter-joint Coordination after Anterior Cruciate Ligament Reconstruction during Stair Negotiation	en
dc.type	Thesis
dc.date.schoolyear	100-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	王至弘,呂東武,陳譽仁
dc.subject.keyword	前十字韌帶重建,關節間協調性,上下樓梯,神經肌肉控制,膝關節剛性,肌肉協同收縮,	zh_TW
dc.subject.keyword	Anterior cruciate ligament reconstruction,interjoint coordination,stair negotiation,neuromuscular control,knee stiffness,muscle coactivation,	en
dc.relation.page	74
dc.rights.note	有償授權
dc.date.accepted	2012-08-15
dc.contributor.author-college	醫學院	zh_TW
dc.contributor.author-dept	物理治療學研究所	zh_TW
顯示於系所單位：	物理治療學系所

文件中的檔案：

檔案	大小	格式
ntu-101-1.pdf 未授權公開取用	16.8 MB	Adobe PDF

顯示文件簡單紀錄

系統中的文件，除了特別指名其著作權條款之外，均受到著作權保護，並且保留所有的權利。