軀幹肌肉生物回饋訓練對低骨密度者之姿勢與平衡控制影響

Pei-Yu Su; 蘇姵宇

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/21963

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	徐瑋勵(Wei-Li Hsu)
dc.contributor.author	Pei-Yu Su	en
dc.contributor.author	蘇姵宇	zh_TW
dc.date.accessioned	2021-06-08T03:55:19Z	-
dc.date.copyright	2018-10-03
dc.date.issued	2018
dc.date.submitted	2018-08-15
dc.identifier.citation	1. NIH Consensus Development Panel on Osteoporosis Prevention D, and, Therapy. Osteoporosis prevention, diagnosis, and therapy. JAMA. 2001;285(6):785-795. 2. Riggs BL, Jowsey J, Kelly PJ, Jones JD, Maher FT. Effect of sex hormones on bone in primary osteoporosis. J Clin Invest. 1969;48(6):1065-1072. 3. WHO. Prevention and management of osteoporosis. 2003. 4. Kado DM, Huang MH, Karlamangla AS, et al. Factors associated with kyphosis progression in older women: 15 years' experience in the study of osteoporotic fractures. J Bone Miner Res. 2013;28(1):179-187. 5. Harrison RA, Siminoski K, Vethanayagam D, Majumdar SR. Osteoporosis-related kyphosis and impairments in pulmonary function: a systematic review. J Bone Miner Res. 2007;22(3):447-457. 6. Chow SB, Marilyn M. Relationship of thoracic kyphosis to functional reach and lower-extremity joint range of motion and muscle length in women with osteoporosis or osteopenia: a pilot study. Top Geriatr Rehabil. 2004;20(4):297-306. 7. Sinaki M, Itoi E, Rogers JW, Bergstralh EJ, Wahner HW. Correlation of back extensor strength with thoracic kyphosis and lumbar lordosis in estrogen-deficient women. Am J Phys Med Rehabil. 1996;75(5):370-374. 8. Cook C. The relationship between posture and balance disturbances in women with osteoporosis. Phys Occup Ther Geriatr. 2009;20(3-4):37-49. 9. Sangtarash F, Manshadi FD, Sadeghi A. The relationship of thoracic kyphosis to gait performance and quality of life in women with osteoporosis. Osteoporos Int. 2015;26(8):2203-2208. 10. Sinaki M, Brey RH, Hughes CA, Larson DR, Kaufman KR. Balance disorder and increased risk of falls in osteoporosis and kyphosis: significance of kyphotic posture and muscle strength. Osteoporos Int. 2005;16(8):1004-1010. 11. Cann CE, Genant HK, Kolb FO, Ettinger B. Quantitative computed tomography for prediction of vertebral fracture risk. Bone. 1985;6(1):1-7. 12. Dalsky GP, Stocke KS, Ehsani AA, Slatopolsky E, Lee WC, Birge SJ, Jr. Weight-bearing exercise training and lumbar bone mineral content in postmenopausal women. Ann Intern Med. 1988;108(6):824-828. 13. O'Brien K, Culham E, Pickles B. Balance and skeletal alignment in a group of elderly female fallers and nonfallers. J Gerontol A Biol Sci Med Sci. 1997;52(4):B221-226. 14. Burke TN, Franca FJ, Ferreira de Meneses SR, Cardoso VI, Marques AP. Postural control in elderly persons with osteoporosis: Efficacy of an intervention program to improve balance and muscle strength: a randomized controlled trial. Am J Phys Med Rehabil. 2010;89(7):549-556. 15. Hongo M, Itoi E, Sinaki M, et al. Effect of low-intensity back exercise on quality of life and back extensor strength in patients with osteoporosis: a randomized controlled trial. Osteoporos Int. 2007;18(10):1389-1395. 16. Kang JI, Jeong DK, Choi H. The effects of trunk stabilization exercise on bone density after menopause. J Phys Ther Sci. 2015;27(12):3869-3872. 17. Chien MY, Yang RS, Tsauo JY. Home-based trunk-strengthening exercise for osteoporotic and osteopenic postmenopausal women without fracture: a pilot study. Clin Rehabil. 2005;19(1):28-36. 18. Park KH, Oh JS, An DH, et al. Difference in selective muscle activity of thoracic erector spinae during prone trunk extension exercise in subjects with slouched thoracic posture. PM R. 2015;7(5):479-484. 19. Pan WH, Du SH. 2004-2008 Nutrition and Health Survey in Taiwan (NAHSIT). 2011. 20. Tsai K, Twu S, Chieng P, Yang R, Lee T. Prevalence of vertebral fractures in chinese men and women in urban Taiwanese communities. Calcif Tissue Int. 1996;59(4):249-253. 21. Chie WC, Yang RS, Liu JP, Tsai KS. High incidence rate of hip fracture in Taiwan: estimated from a nationwide health insurance database. Osteoporos Int. 2004;15(12):998-1002. 22. Hsu WL, Chen CY, Tsauo JY, Yang RS. Balance control in elderly people with osteoporosis. J Formos Med Assoc. 2014;113(6):334-339. 23. Sinaki M, Khosla S, Limburg PJ, Rogers JW, Murtaugh PA. Muscle strength in osteoporotic versus normal women. Osteoporos Int. 1993;3(1):8-12. 24. Lynn SG, Sinaki M, Westerlind KC. Balance characteristics of persons with osteoporosis. Arch Phys Med Rehabil. 1997;78(3):273-277. 25. Horak FB, Shupert CL, Mirka A. Components of postural dyscontrol in the elderly: a review. Neurobiol Aging. 1989;10(6):727-738. 26. Overstall PW, Exton-Smith AN, Imms FJ, Johnson AL. Falls in the elderly related to postural imbalance. Br Med J. Jan 29 1977;1(6056):261-264. 27. Burke TN, Franca FJ, Meneses SR, et al. Postural control among elderly women with and without osteoporosis: is there a difference? Sao Paulo Med J.凹2010;128(4):219-224. 28. McDaniels-Davidson C, Davis A, Wing D, et al. Kyphosis and incident falls among community-dwelling older adults. Osteoporos Int. 2018;29(1):163-169. 29. Lindsey C, Brownbill RA, Bohannon RA, Ilich JZ. Association of physical performance measures with bone mineral density in postmenopausal women. Arch Phys Med Rehabil. 2005;86(6):1102-1107. 30. Eldeeb AM, Khodair AS. Three-dimensional analysis of gait in postmenopausal women with low bone mineral density. J Neuroeng Rehabil. 2014;11:55. 31. Palombaro KM, Hack LM, Mangione KK, et al. Gait variability detects women in early postmenopause with low bone mineral density. Phys Ther. 2009;89(12):1315-1326. 32. Post RB, Leferink VJ. Spinal mobility: sagittal range of motion measured with the SpinalMouse, a new non-invasive device. Arch Orthop Trauma Surg. 2004;124(3):187-192. 33. Mannion AF, Knecht K, Balaban G, Dvorak J, Grob D. A new skin-surface device for measuring the curvature and global and segmental ranges of motion of the spine: reliability of measurements and comparison with data reviewed from the literature. Eur Spine J. 2004;13(2):122-136. 34. Szpala A, Rutkowska-Kucharska A, Drapała J, Brzostowski K. Choosing the right body position for assessing trunk flexors and extensors torque output. Hum Mov. 2011;12(1):57-64. 35. Mantovani G, Lamontagne M. How Different Marker Sets Affect Joint Angles in Inverse Kinematics Framework. J Biomech Eng. 2017;139(4). 36. Pao JL, Yang RS, Hsiao CH, Hsu WL. Trunk control ability after minimally invasive lumbar fusion surgery during the early postoperative phase. J Phys Ther Sci. 2014;26(8):1165-1171. 37. Lee HJ, Chou LS. Detection of gait instability using the center of mass and center of pressure inclination angles. Arch Phys Med Rehabil. 2006;87(4):569-575. 38. Itoi E. Roentgenographic analysis of posture in spinal osteoporotics. Spine (Phila Pa 1976). 1991;16(7):750-756. 39. Harris R, Chang Y, Beavers K, et al. Risk of fracture in women with sarcopenia, low bone mass, or both. J Am Geriatr Soc. 2017;65(12):2673-2678. 40. Miyakoshi N, Itoi E, Kobayashi M, Kodama H. Impact of postural deformities and spinal mobility on quality of life in postmenopausal osteoporosis. Osteoporos Int. 2003;14(12):1007-1012. 41. Greig AM, Bennell KL, Briggs AM, Wark JD, Hodges PW. Balance impairment is related to vertebral fracture rather than thoracic kyphosis in individuals with osteoporosis. Osteoporos Int. 2007;18(4):543-551. 42. Liu-Ambrose T, Eng JJ, Khan KM, Carter ND, McKay HA. Older women with osteoporosis have increased postural sway and weaker quadriceps strength than counterparts with normal bone mass: overlooked determinants of fracture risk? J Gerontol A Biol Sci Med Sci. 2003;58(9):M862-866. 43. Cunha-Henriques S, Costa-Paiva L, Pinto-Neto AM, Fonsechi-Carvesan G, Nanni L, Morais SS. Postmenopausal women with osteoporosis and musculoskeletal Status: A comparative cross-sectional study. J Clin Med Res. 2011;3(4):168-176. 44. Miyakoshi N, Hongo M, Maekawa S, Ishikawa Y, Shimada Y, Itoi E. Back extensor strength and lumbar spinal mobility are predictors of quality of life in patients with postmenopausal osteoporosis. Osteoporos Int. 2007;18(10):1397-1403. 45. Hongo M, Miyakoshi N, Shimada Y, Sinaki M. Association of spinal curve deformity and back extensor strength in elderly women with osteoporosis in Japan and the United States. Osteoporos Int. 2012;23(3):1029-1034. 46. Shih KS, Weng PW, Lin SC, Chen YT, Cheng CK, Lee CH. Biomechanical comparison between concentrated, follower, and muscular loads of the lumbar column. Comput Methods Programs Biomed. 2016;135:209-218. 47. Giggins OM, Persson UMC, Caulfield B. Biofeedback in rehabilitation. J Neuroeng Rehabil. 2013;10:60. 48. Akkaya N, Ardic F, Ozgen M, Akkaya S, Sahin F, Kilic A. Efficacy of electromyographic biofeedback and electrical stimulation following arthroscopic partial meniscectomy: a randomized controlled trial. Clin Rehabil. 2012;26(3):224-236. 49. Casellato C, Pedrocchi A, Zorzi G, Vernisse L, Ferrigno G, Nardocci N. EMG-based visual-haptic biofeedback: a tool to improve motor control in children with primary dystonia. IEEE Trans Neural Syst Rehabil Eng. 2013;21(3):474-480. 50. Dellve L, Ahlstrom L, Jonsson A, et al. Myofeedback training and intensive muscular strength training to decrease pain and improve work ability among female workers on long-term sick leave with neck pain: a randomized controlled trial. Int Arch Occup Environ Health. 2011;84(3):335-346. 51. Folstein MF, Folstein SE, McHugh PR. 'Mini-mental state'. A practical method for grading the cognitive state of patients for the clinician. J Psychiatr Res. 1975;12(3):189-198. 52. Huskisson EC. Measurement of pain. Lancet. Nov 09 1974;2(7889):1127-1131. 53. van Schoor NM, Knol DL, Glas CA, et al. Development of the Qualeffo-31, an osteoporosis-specific quality-of-life questionnaire. Osteoporos Int. 2006;17(4):543-551. 54. Podsiadlo D, Richardson S. The timed 'Up & Go': a test of basic functional mobility for frail elderly persons. J Am Geriatr Soc. 1991;39(2):142-148. 55. Cholewicki J, McGill SM. Mechanical stability of the in vivo lumbar spine: implications for injury and chronic low back pain. Clin Biomech (Bristol, Avon). 1996;11(1):1-15. 56. Cram JR, Kasman GS, Holtz J. Introduction to Surface Electromyography: Aspen Publishers; 1998. 57. Prieto TE, Myklebust JB, Hoffmann RG, Lovett EG, Myklebust BM. Measures of postural steadiness: differences between healthy young and elderly adults. IEEE Trans Biomed Eng. 1996;43(9):956-966. 58. Wang TY, Pao JL, Yang RS, Jang JS, Hsu WL. The adaptive changes in muscle coordination following lumbar spinal fusion. Hum Mov Sci. 2015;40:284-297. 59. Khalili A, Almasi MH, Raeissadat SA, Sedighipour L, Salek Zamani Y, Reza Omid Zohoor M. Long-term effects of back extensor strengthening exercises on quality of life in women with osteoporosis. J Women Aging. 2017;29(6):505-514. 60. Evstigneeva L, Lesnyak O, Bultink IE, et al. Effect of twelve-month physical exercise program on patients with osteoporotic vertebral fractures: a randomized, controlled trial. Osteoporos Int. 2016;27(8):2515-2524. 61. Sinaki M, Brey RH, Hughes CA, Larson DR, Kaufman KR. Significant reduction in risk of falls and back pain in osteoporotic-kyphotic women through a Spinal Proprioceptive Extension Exercise Dynamic (SPEED) program. Mayo Clin Proc. 2005;80(7):849-855. 62. Raeissadat SA, Sedighipour L, Pournajaf S, Vahab Kashani R, Sadeghi S. Effect of Posture Training with Weighted Kypho-Orthosis (WKO) on Improving Balance in Women with Osteoporosis. J Aging Res. 2014;2014:427903. 63. Dohrn IM, Hagstromer M, Hellenius ML, Stahle A. Short- and long-term effects of balance training on physical activity in older adults with osteoporosis: a randomized controlled trial. J Geriatr Phys Ther. 2017;40(2):102-111. 64. Halvarsson A, Oddsson L, Franzen E, Stahle A. Long-term effects of a progressive and specific balance-training programme with multi-task exercises for older adults with osteoporosis: a randomized controlled study. Clin Rehabil. 2016;30(11):1049-1059. 65. Miko I, Szerb I, Szerb A, Poor G. Effectiveness of balance training programme in reducing the frequency of falling in established osteoporotic women: a randomized controlled trial. Clin Rehabil. 2017;31(2):217-224. 66. Zhou X, Deng H, Shen X, Lei Q. Effect of balance training on falls in patients with osteoporosis: A systematic review and meta-analysis. J Rehabil Med 2018;50(7):577-581. 67. Bergland A, Thorsen H, Karesen R. Effect of exercise on mobility, balance, and health-related quality of life in osteoporotic women with a history of vertebral fracture: a randomized, controlled trial. Osteoporos Int. 2011;22(6):1863-1871. 68. Katzman WB, Sellmeyer DE, Stewart AL, Wanek L, Hamel KA. Changes in flexed posture, musculoskeletal impairments, and physical performance after group exercise in community-dwelling older women. Arch Phys Med Rehabil. 2007;88(2):192-199.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/21963	-
dc.description.abstract	背景：低骨密度老人常有胸椎過度後凸，合併軀幹肌肉力量、步態、平衡表現的衰退，使跌倒及骨折的風險增加。然而胸椎過度後凸如何影響平衡穩定度仍未釐清，故須探討此生物力學關係，才得以設計有效之復健運動。過去研究已證實軀幹肌肉訓練能增進背肌肌力，但胸椎過度後凸者在訓練時常使用代償策略造成下背痛與壓迫性骨折。肌電訊號生物回饋已被證實能提升運動訓練效果，故本研究欲探討使用肌電訊號生物回饋儀用於軀幹肌肉訓練，是否能改善低骨密度者因胸椎過度後凸所帶來的負面影響。目的：(一)探討胸椎曲度對於老人平衡穩定度之影響；(二)探討軀幹肌肉生物回饋訓練對停經後低骨密度者之姿勢與平衡控制的影響。方法：研究一為觀察性研究，使用動作分析系統探討胸椎曲度與平衡表現之關聯。研究二招募停經後低骨密度者接受軀幹肌肉生物回饋訓練，並於訓練前後進行生物力學與臨床表現之評估。結果：研究一，過度胸椎後凸組中，胸椎後凸角度越高者，其身體重心越往前；骨礦物鹽含量與背部伸肌肌力亦與平衡表現呈顯著正相關。研究二，停經後低骨密度者接受六周軀幹肌肉生物回饋訓練後，脊椎活動度、腹直肌與背部伸肌肌力增加，平衡表現與肌肉收縮模式亦有改善。結論：生物力學分析結果顯示胸椎過度後凸之老人會有身體重心前移的現象，且背部伸肌肌力與骨礦物鹽含量會影響其平衡表現；而軀幹肌肉生物回饋訓練可改善軀幹肌力、姿勢與平衡控制，以期降低其跌倒與骨折之機率。	zh_TW
dc.description.abstract	Background: People with low bone mineral density (BMD) often have thoracic kyphotic posture, and combined with decreased trunk muscle strength, poor gait and balance performance, thereby, increasing the risk of falls. The relationship between kyphotic posture and balance stability is unclear, and needs further investigation to prescribe effective rehabilitation exercise. Previous studies showed people with low BMD have increased trunk muscle strength after receiving trunk muscle stabilization exercise. However, compensatory strategy during exercise can lead to low back pain and compression fractures. Electromyography biofeedback training have been proven can enhance effect of training. Therefore, this study investigated whether trunk muscle training with electromyography biofeedback can improve thoracic hyperkyphosis in people with low BMD. Purpose: (1) To investigate the relationship between spinal curvature and balance stability in older adults. (2) To investigate whether trunk muscle biofeedback training can improve posture and balance control in postmenopausal people with low BMD. Methods: In study 1, a motion analysis system was used to investigate the relationship between spinal curvature and balance stability. In study 2, postmenopausal people with low BMD received trunk muscle biofeedback training. Clinical and biomechanical assessments were performed before and after training. Results: In study 1, a significantly positive correlation was found between the center of mass (COM)-center of pressure (COP) inclination angle and thoracic curvature in the high kyphotic group. Bone mineral content and back extensor strength also had significant correlation with balance performance. In study 2, the spinal mobility and trunk muscle strength of postmenopausal people with low BMD increased after receiving trunk muscle biofeedback training. Besides, the pattern of trunk muscle activity and balance performance were also improved. Conclusion: The results of this study revealed that the COM of older adults with thoracic kyphotic posture was closer to the limit of the base of support. Trunk muscle biofeedback training could improve the trunk muscle strength, posture and balance control of people with low BMD, thereby might decrease the risk of falls and fractures.	en
dc.description.provenance	Made available in DSpace on 2021-06-08T03:55:19Z (GMT). No. of bitstreams: 1 ntu-107-R04428006-1.pdf: 7840623 bytes, checksum: 5b5662ad0b2213b0c3d54ef75c3e721d (MD5) Previous issue date: 2018	en
dc.description.tableofcontents	論文口試委員審定書 1 誌謝 2 中文摘要 3 Abstract 4 Table of content 6 Index of Figures 8 Index of Tables 10 Chapter 1. Introduction 11 Chapter 2. Study 1 13 2.1 Literature review 13 2.2 Methods 16 2.3 Results 22 2.4 Discussion 24 2.5 Conclusion 27 Chapter 3. Study 2 28 3.1 Literature Review 28 3.2 Methods 32 3.3 Results 43 3.4 Discussion 46 3.5 Conclusion 50 Chapter 4. Summary and conclusion 51 Chapter 5. References 52 Tables 58 Figures 66 Appendix 1. Participant consent form 91
dc.language.iso	en
dc.title	軀幹肌肉生物回饋訓練對低骨密度者之姿勢與平衡控制影響	zh_TW
dc.title	The effect of trunk muscle biofeedback training on posture and balance control in people with low bone mineral density	en
dc.type	Thesis
dc.date.schoolyear	106-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	曹昭懿(Jau-Yih Tsauo),楊榮森(Rong-Sen Yang)
dc.subject.keyword	平衡穩定度,低骨密度,生物回饋,肌肉訓練,姿勢控制,老年人,	zh_TW
dc.subject.keyword	balance stability,low bone mineral density,biofeedback,muscle training,postural control,older adults,	en
dc.relation.page	101
dc.identifier.doi	10.6342/NTU201803098
dc.rights.note	未授權
dc.date.accepted	2018-08-16
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

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