研究生: |
林宗慶 Tsung-Ching Lin |
---|---|
論文名稱: |
微創全人工膝關節置換術後之結果及效益:動力學及功能性恢復之探討 The results and effect of minimal invasive total knee replacement surgery: the discussion of kinetic analyses and functional recovery |
指導教授: |
相子元
Shiang, Tzyy-Yuang |
學位類別: |
碩士 Master |
系所名稱: |
運動競技學系 Department of Athletic Performance |
論文出版年: | 2011 |
畢業學年度: | 99 |
語文別: | 中文 |
論文頁數: | 92 |
中文關鍵詞: | 微創手術 、瞬發率 、最大力矩值 |
英文關鍵詞: | minimal invasive surgery, rate of force development, peak torque |
論文種類: | 學術論文 |
相關次數: | 點閱:161 下載:7 |
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 |
目的: 瞭解接受微創全人工膝關節置換手術後,受試者下肢動力學參數及功能性回復之自然過程,並探討不同肌力檢測時,膝伸肌與膝屈肌之最大力矩值的變化。方法: 本實驗採前瞻性(prospective)方式,共收集22名受試者(平均年齡68.6±6.6歲;平均身高:154.5±7.9公分;平均體重66.6±8.5公斤),均接受單側微創全人工膝關節置換術,並於術前、術後第一、二、六及十二個月,總共做五次的評估。使用Biodex測試儀評估病患健側和患側的膝伸、屈肌之等長、等速肌力、關節活動度、關節敏感度及瞬發率。結果: 術前患側及健側只在等速肌力及關節活動度有顯著差異。在術後第一及第二個月患側之膝伸肌在等長60度、等速60及180角速度之最大力矩值均顯著小於健側。術後二個月患側之肌力均和術前無顯著差異。術後六個月患側及健側在等速180角速度的膝伸肌最大力矩值有顯著差異。至於患側0-150毫秒之膝伸肌瞬發率則在術後每一時間點均顯著小於健側。結論:患側之下肢肌力於術後一個月相較於術前會有一明顯下降之現象;術後二個月患側下肢肌力約可恢復至術前水準;至術後六個月時,患側尚有快縮肌之肌力比健側低,術後一年間患側下肢之瞬發率均持續低於健側。此一結果可提供運動科學人員日後設計專門之運動訓練器材或研擬相關之運動處方之參考。
Purpose: To investigate the kinetic parameters of lower limb and nature course of functional recovery of the patient who underwent the minimal invasive total knee replacement surgery and determine the change of maximal torque in knee flexors and knee extensors at different muscle strength testing condition. Methods: In this prospective study, twenty-two participants underwent the unilateral minimal invasive total knee replacement surgery, and the knee extensors, knee flexors muscle strength were evaluated at five different times: before surgery, post surgery 1th, 2th, 6th and 12th month. Isometric, isokinetic muscle strength, range of motion(ROM), joint sense and rate of force development(RFD) were analyzed. Results: There is significant difference in isokinetic muscle strength of knee extensor and ROM between both sides before surgery. On post surgery 1st and 2nd month, the maximal torquethe of knee extensor in the operative side were significant smaller than the non-operative side at isometric testing in 60°, and isokinetic test at 60°, and 180° angular velocity. There is no significant difference between post surgery 2nd month and pre surgery in operative side.Only isokinetic 180° the maximal torque of knee extensors in non-operation side was greater than the operation side. 0-150ms RFD of operative leg is significant smaller than non-operative leg duing post surgery 1th, 2th, 6th and 12th month.Conclusion: This study concluded that there was a significant decreased maximal torque of operative leg at one month after surgery compare with the value before surgery; The muscle strength of operative leg can recover to the level before surgery at post surgery 2nd month;There is still lower muscle strength of fast msucle in operative leg than non-operative leg at post surgery 6th month.The values of RFD in operative leg is always lower than non-operative leg during post surgery 1 year.This conclusion could be the reference for the exercise scientists or other exercise experts to design the exercise equipment and exercise prescription.
內政部戶政司(2008,10 月).內政部統計月報.2009 年12 月取自
http://sowf.moi.gov.tw/stat/month/m1-05.xls。
行政院經濟建設委員會(2008).中華民國臺灣97年至145 年人口推計結
果.2010 年11 月,取自http://www.cepd.gov.tw/ml.aspx?sNo=0000455&&key=&ex=%20&ic=。
行政院衛生署國民健康局(2009,3月).老人健康促進計畫(2009-2012).
2010年11月,取自
http://www.bhp.doh.gov.tw/BHPnet/Portal/Them_Show.aspx?Subject=200802210001&Class=2&No=200908250001。
張先龍,曾炳芳,Lo Nagi Nung (2007)。微創人工膝關節置換技術。載於張先龍,曾炳芳,Lo Nagi Nung(主編),微創人工髖、膝關節置換術(頁55-104)。上海市:上海科學技術出版社。
Ananthila, A., & Lyn, M. (2010). Current evidence for osteoarthritis treatments. Therapeutic Advances in Musculoskeletal Disease, 2(1), 17-28.
Aglietti, P., Baldini, A., & Sensi, L. (2006). Quadriceps-sparing versus mini-subvastus approach in total knee arthroplasty. Clinical Orthopaedics and Related Research. 452, 106-111.
Archibeck, M. J., & White Jr, R. E. (2006). What's new in adult reconstructive knee surgery. The Journal of Bone and Joint Surgery, 88(7), 1677-1686.
Avramidis, K., Strike, P. W., Taylor, P. N., & Swain, I. D. (2003). Effectiveness of electric stimulation of the vastus medialis muscle in the rehabilitation of patients after total knee arthroplasty1. Archives of Physical Medicine and Rehabilitation, 84(12), 1850-1853.
Barak, Y., Ayalon, M., & Dvir, Z. (2004). Transferability of strength gains from limited to full range of motion. Medicine & Science in Sports & Exercise, 36(8), 1413-1420.
Barrack, R. (1983). Joint laxity and proprioception in the knee. The Physician and Sports Medicine, 11, 258-261.
Bäthis, H., Perlick, L., Blum, C., Lüring, C., Perlick, C., & Grifka, J. (2005). Midvastus approach in total knee arthroplasty: a randomized, double-blinded study on early rehabilitation. Knee Surgery, Sports Traumatology, Arthroscopy. 13(7), 545-550.
Bayramoglu, M., Toprak, R., & Sozay, S. (2007). Effects of osteoarthritis and fatigue on proprioception of the knee joint. Archives of Physical Medicine and Rehabilitation, 88(3), 346-350.
Berman, A. T., Bosacco, S. J., & Israelite, C. (1991). Evaluation of total knee arthroplasty using isokinetic testing. Clinical Orthopaedics and Related Research, 271, 106-113.
Berth, A., Urbach, D., Neumann, W., & Awiszus, F. (2007). Strength and voluntary activation of quadriceps femoris muscle in total knee arthroplasty with midvastus and subvastus approaches. The Journal of Arthroplasty. 22(1), 83-88.
Berry, D. J., Berger, R. A., Callaghan, J. J., Dorr, L. D., Duwelius, P. J., & Hartzband, M. A. et al. (2003). Minimally invasive total hip arthroplasty: Development, early results, and a critical analysis. Presented at the Annual Meeting of the American Orthopaedic Association, Charleston, South Carolina, USA, June 14, 2003. Journal of Bone and Joint Surgery, 85-A(22), 2235-2246.
Blazevich, A. J., Horne, S., Cannavan, D., Coleman, D. R., & Aagaard, P. (2008). Effect of contraction mode of slow speed resistance training on the maximum rate of force development in the human quadriceps. Muscle & Nerve, 38(3), 1133-1046.
Bonutti, P. M., Zywiel, M. G., Ulrich, S. D., Stroh, D. A., Seyler, T. M., & Mont, M. A. (2010). A comparison of subvastus and midvastus approaches in minimally invasive total knee arthroplasty. The Journal of Bone and Joint Surgery.92(3), 575-582.
Bullens, P. H., van Loon, C. J., de Waal Malefijt, M. C., Laan, R. F., & Veth, R. P. (2001). Patient satisfaction after total knee arthroplasty: A comparison between subjective and objective outcome assessments. The Journal of Arthroplasty, 16(6), 740-747.
Busse, M. E., Wiles, C. M., & van Deursen, R. W. (2006). Co-activation: Its association with weakness and specific neurological pathology. Journal of Neuroengineering and Rehabilitation, 3:26-34.
Caracciolo, B., & Giaquinto, S. (2005). Determinants of the subjective functional outcome of total joint arthroplasty. Archives of Gerontology and Geriatrics. 41(2), 169-176.
Chang, C. H., Yang, R. S., Chen, K. H., Liu, T. K., Chen, W. C., & Ho, Y. C. et al. (2010). Muscle torque in total knee arthroplasty: comparison of subvastus and midvastus approaches. Knee Surgery, Sports Traumatology, Arthroscopy,18 (7),934-938.
Cheing, G. L., & Hui-Chan, C. W. (2001). The motor dysfunction of patients with knee osteoarthritis in a Chinese population. Arthritis & Rheumatism, 45(1), 62-68.
Clarkson, P. M., Kroll, W., & Melchionda, A. M. (1981). Age, isometric strength, rate of tension development and fiber type composition. Journal of Gerontology, 36(6), 648-653.
Codine, P., Dellemme, Y., Denis-Laroque, F., & Herisson, C. (2004). The use of low velocity submaximal eccentric contractions of the hamstring for recovery of full extension after total knee replacement: A randomized controlled study. Isokinetic and Exercise Science, 12, 215-218.
Dillon, C. F., Rasch, E. K., Gu, Q., & Hirsch, R. (2006). Prevalence of knee osteoarthritis in the United States: Arthritis data from the Third National Health and Nutrition Examination Survey 1991-94. The Journal of Rheumatology, 33(11), 2271-2279.
Fink, B., Egl, M., Singer, J., Fuerst, M., Bubenheim, M., & Neuen-Jacob E. (2007). Morphologic Changes in the Vastus Medialis Muscle in Patients With Osteoarthritis of the Knee. Arthiritis & Rheumatism. 56(11), 3626–3633.
Hassan, B. S., Mockett, S., & Doherty, M. (2001). Static postural sway, proprioception, and maximal voluntary quadriceps contraction in patients with knee osteoarthritis and normal control subjects. Annals of The Rheumatic Diseases, 60(6), 612-618.
Hernández-Vaquero, D., Fernández-Carreira, J. M., Pérez-Hernández, D., Fernández-Lombardía, J., & García-Sandoval, M. A. (2006). Total knee arthroplasty in the elderly. Is there an age limit? The Journal of Arthroplasty. 21(3), 358-361.
Hsu, R. W., Tsai, Y. H., Huang, T. J., & Chang, J. C. (1998). Hybrid total knee arthroplasty: a 3- to 6-year outcome analysis. Journal of Formosan Medical Association. 97(6), 410-415.
Husby, V. S., Helgerud, J., Bjorgen, S., Husby, O. S., Benum, P., & Hoff, J. (2009). Early maximal strength training is an efficient treatment for patients operated with total hip arthroplasty. Archives of Physical Medicine and Rehabilitation, 90(10), 1658-1667.
Jones, C. A., Voaklander, D. C., & Suarez-Alma, M. E. (2003). Determinants of function after total knee arthroplasty. Physical Therapy. 83(8), 696-706.
Isaac, S. M., Barker, K. L., Danial, I. N., Beard, D. J., Dodd, C. A., & Murray, D. W. (2007). Does arthroplasty type influence knee joint proprioception? A longitudinal prospective study comparing total and unicompartmental arthroplasty. Knee, 14(3), 212-217.
Kaplan, F. S., Nixon, J. E., Reitz, M., Rindfleish, L., & Tucker, J. (1985). Age-related changes in proprioception and sensation of joint position. Acta Orthopaedica, 56(1), 72-74.
King, J., Stamper, D. L., Schaad, D. C., & Leopold, S. S. (2007). Minimally invasive total knee arthroplasty compared with traditional total knee arthroplasty: Assessment of the learning curve and the postoperative recuperative period. Journal of Bone and Joint Surgery, 89(1), 497-503.
Koralewicz, L. M., & Engh, G. A. (2000). Comparison of proprioception in arthritic and age-matched normal knees. Journal of Bone and Joint Surgery, 82-A(11), 1582-1588.
Leopold, S. S. (2009). Minimally invasive total knee arthroplasty for osteoarthritis. New England Journal of Medicine, 360(17), 1749-1758.
Lombardi Jr, A. V., Viacava, A. J., & Berend, K. R. (2006). Rapid recovery protocols and minimally invasive surgery help achieve high knee flexion. Clinical Orthopaedics and Related Research, 452, 117-122.
Lowe, C. J. M., Barker, K. L., Dewey, M., & Sackley, C. M. (2007). Effectiveness of physiotherapy exercise after knee arthroplasty for osteoarthritis: Systematic review and meta-analysis of randomised controlled trials. British Medical Journal, 335(7624), 812-821.
Lüring, C., Beckmann, J., Haibock, P., Perlick, L., Grifka, J., & Tingart, M. (2008). Minimal invasive and computer assisted total knee replacement compared with the conventional technique: A prospective, randomised trial. Knee Surgery, Sports Traumatology, Arthroscopy, 16(10), 928-934.
Maffiuletti, N. A., Bizzini, M., Widler, K., & Munzinger, U. (2010). Asymmetry in quadriceps rate of force development as a functional outcome measure in TKA. Clinical Orthopaedics and Related Research, 468(1), 191-198.
Marsh, A. P., Rejeski, W. J., Lang, W., Miller, M. E., & Messier, S. P. (2003). Baseline balance and functional decline in older adults with knee pain: The Observational Arthritis Study in Seniors. Journal of the American Geriatrics Society, 51(3), 331-339.
McConnell, S., Kolopack, P., & Davis, A. M. (2001). The Western Ontario and McMaster Universities Osteoarthritis Index (WOMAC): A review of its utility and measurement properties. Arthritis Care & Research, 45(5), 453-461.
Meier, W., Mizner, R., Marcus, R., Dibble, L., Peters, C., & LaStayo, P. C. (2008). Total knee arthroplasty: muscle impairments, functional limitations, and recommended rehabilitation approaches. Journal of Orthopaedic and Sports Physical Therapy, 38(5), 246-256.
Merle-Vincent, F., Couris, C. M., Schott, A. M., Conrozier, T., Piperno, M., Mathieu, P. et al. (2010). Factors predicting patient satisfaction 2 years after total knee arthroplasty for osteoarthritis. Joint Bone Spine. 78(4), 383-386
Minns Lowe, C. J., Barker, K. L., Dewey, M. & Sackley, C. M. (2007). Effectiveness of physiotherapy exercise after knee arthroplasty for osteoarthritis: Systematic review and meta-analysis of randomized controlled trials. British Medical Journal, 335, 812-820.
Mintken, P. E., Carpenter, K. J., Eckhoff, D., Kohrt, W. M., & Stevens, J. E. (2007). Early neuromuscular electrical stimulation to optimize quadriceps muscle function following total knee arthroplasty: A case report. The Journal of Orthopaedic and Sports Physical Therapy, 37(7), 364-371.
Mizner, R. L., Petterson, S. C., Stevens, J. E., Vandenborne, K., & Snyder-Mackler, L. (2005). Early quadriceps strength loss after total knee arthroplasty. The contributions of muscle atrophy and failure of voluntary muscle activation. The Journal of Bone and Joint Surgery, 87(5), 1047-1053.
Mizner, R. L., Petterson, S. C., & Snyder-Mackler, L. (2005). Quadriceps strength and the time course of functional recovery after total knee arthroplasty. The Journal of Orthopaedic and Sports Physical Therapy. 35(7), 424-436.
Mizner, R. L., Petterson, S. C., Stevens, J. E., Axe, M. J., & Snyder-Mackler, L. (2005). Preoperative quadriceps strength predicts functional ability one year after total knee arthroplasty. The Journal of Rheumatology. 32(8), 1533-1539.
Mizner, R. L., Petterson, S. C., Stevens, J. E., Vandenborne, K., & Snyder-Mackler, L. (2005). Early quadriceps strength loss after total knee arthroplasty. The contributions of muscle atrophy and failure of voluntary muscle activation.The Journal of Bone and Joint Surgery. 87(5), 1047-1053.
Nuelle, D. G., & Mann, K. (2007). Minimal incision protocols for anesthesia, pain management, and physical therapy with standard incisions in hip and knee arthroplasties: The effect on early outcomes. The Journal of Arthroplasty, 22(1), 20-25.
Nyland, J., Frost, K., Quesada, P., Angeli, C., Swank, A., Topp, R., & Malkani, A. L. (2007). Self-reported chair-rise ability relates to stair-climbing readiness of total knee arthroplasty patients: A pilot study. Journal of Rehabilitation Research and Development, 44(5), 751-759.
Pap, G., Machner, A., & Awiszus, F. (2004). Strength and voluntary activation of the quadriceps femoris muscle at different severities of osteoarthritic knee joint damage. Journal of Orthopaedic Research, 22(1), 96-103.
Pai, Y. C., Rymer, W. Z., Chang, R. W., & Sharma, L. (1997). Effect of age and osteoarthritis on knee proprioception. Arthritis & Rheumatism, 40(12), 2260-2265.
Petrella, R., Lattanzio, P., & Nelson, M. (1997). Effect of age and activity on knee joint proprioception. American Journal of Physical Medicine & Rehabilitation, 76(3), 235-241.
Pijnappels, M., Bobbert, M. F., & van Dieen, J. H. (2005). Control of support limb muscles in recovery after tripping in young and older subjects. Experimental Brain Research, 160(3), 326-333.
Rossi, M. D., Brown, L. E., & Whitehurst, M. (2006). Knee extensor and flexor torque characteristics before and after unilateral total knee arthroplasty. American Journal of Physical Medicine and Rehabilitation. 85(9), 737-746.
Saleh, K. J., Lee, L. W., Gandhi, R., Ingersoll, C. D., Mahomed, N. N., & Sheibani-Rad, S. et al. (2010). Quadriceps strength in relation to total knee arthroplasty outcomes. Instructional Course Lectures. 59, 119-130.
Schroer, W. C., Diesfeld, P. J., Reedy, M. E., & LeMarr, A. R. (2008). Mini-subvastus approach for total knee arthroplasty. The Journal of Arthroplasty. 23(1), 19-25.
Schroer, W. C., Diesfeld, P. J., Reedy, M. E., & LeMarr, A. R. (2010). Isokinetic strength testing of minimally invasive total knee arthroplasty recovery. The Journal of Arthroplasty, 25(2), 274-279.
Slemenda, C., Brandt, K. D., Heilman, D. K., Mazzuca, S., Braunstein, E. M., & Katz, B. P. et al. (1997). Quadriceps weakness and osteoarthritis of the knee. Annals of Internal Medicine, 127(2), 97-104.
Slemenda, C., Heilman, D. K., Brandt, K. D., Katz, B. P., Mazzuca, S. A., & Braunstein, E. M. et al. (1998). Recuded quadricepts strength relative to body weight: a risk factor for knee osteoarthritis in women. Arthritis & Rheumatism, 41(11), 1951-1959.
Segal, N. A., Glass, N. A., Felson, D. T., Hurley, M., Yang, M., & Nevitt, M. et al. (2010). Effect of quadriceps strength and proprioception on risk for knee. Medicine & Science in Sport & Exercise, 42(11), 2081-2088.
Stevens, J. E., Mizner, R. L., & Snyder-Mackler, L. (2004). Neuromuscular electrical stimulation for quadriceps muscle strengthening after bilateral total knee arthroplasty: A case series. The Journal of Orthopaedic and Sports Physical therapy, 34(1), 21-29.
Suetta, C., Aagaard, P., Magnusson, S., Andersen, L., Sipila, S., Rosted, A. et al. (2007). Muscle size, neuromuscular activation, and rapid force characteristics in elderly men and women: Effects of unilateral long-term disuse due to hip-osteoarthritis. Journal of Applied Physiology, 102(3), 942-948.
Suetta, C., Aagaard, P., Rosted, A., Jakobsen, A. K., Duus, B., Kjaer, M. et al. (2004). Training-induced changes in muscle CSA, muscle strength, EMG, and rate of force development in elderly subjects after long-term unilateral disuse. Journal of Applied Physiology, 97(5), 1954-1961.
Swanik, C. B., Lephart, S. M., & Rubash, H. E. (2004). Proprioception, kinesthesia, and balance after total knee arthroplasty with cruciate-retaining and posterior stabilized prostheses. The Journal of Bone and Joint Surgery, 86(2), 328-334.
Tan, J., Balci, N., Sepici, V., & Gener, F. A. (1995). Isokinetic and isometric strength in osteoarthrosis of the knee: A comparative study with healthy women. American Journal of Physical Medicine & Rehabilitation, 74(5), 364-369.
Tashiro, Y., Miura, H., Matsuda, S., Okazaki, K., & Iwamoto, Y. (2007). Minimally invasive versus standard approach in total knee arthroplasty. Clinical Orthopaedics and Related Research,463,144-150.
Thorstensson, A., Grimby, G., & Karlsson, J. (1976). Force-velocity relations and fiber composition in human knee extensor muscles. Journal of Applied Physiology, 40(1), 12-16.
van der Esch, M., Steultjens, M., Harlaar, J., Knol, D., Lems, W., & Dekker, J. (2007). Joint proprioception, muscle strength, and functional ability in patients with osteoarthritis of the knee. Arthritis & Rheumatism, 57(5), 787-793.
Vandervoort, A. A., & McCOMAS, A. J. (1986). Contractile changes in opposing muscles of the human ankle joint with aging. Journal of Applied Physiology, 61(1), 361-367.
Wada, M., Kawahara, H., Shimada, S., Miyazaki, T., & Baba, H. (2002). Joint proprioception before and after total knee arthroplasty. Clinical Orthopaedics of Related Research, 403, 161-167.
Wang, S. F., Jan, M. H., Yang, R. S., & Liu, T. K. (2004). Muscle strength of operated and non-operated knee following unilateral total knee arthroplasty in female patients-A prospective study. Formosan Journal of Physical Therapy, 29(1), 1-8.
Wang, S. F., Lin, J. J., Jan, M. H., Cheng, C.K., & Liu, T. K. (1995). Muscle strength of unilateral osteoarthritis patients with total knee replacement: Preliminary result? Formosan Journal of Physical Therapy, 20(2), 91-101.
Yoshida, Y., Mizner, R. L., Ramsey, D. K., & Snyder-Mackler, L. (2008). Examining outcomes from total knee arthroplasty and the relationship between quadriceps strength and knee function over time. Clinical Biomechanics, 23(3), 320-328.
Zhang, Y.,& Jordan, J. M. (2010). Epidemiology of osteoarthritis. Clinics in Geriatric Medicine, 26(3), 355-369.