跌倒危險因子評估工具於中風患者的信度效度與反應性分析

Hsiao-I Kuo; 郭曉意

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/46510

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	林光華(Kwan-Hwa Lin)
dc.contributor.author	Hsiao-I Kuo	en
dc.contributor.author	郭曉意	zh_TW
dc.date.accessioned	2021-06-15T05:12:52Z	-
dc.date.available	2012-09-09
dc.date.copyright	2010-09-09
dc.date.issued	2010
dc.date.submitted	2010-07-23
dc.identifier.citation	1. Hydman D, Ashburn A, Stack E. Fall evwnts among people with stroke living in the community: circumstances of falls and charateristics of fallers. Arch Phys Med Rehabil 2002;83:165-70. 2. Ashburn A, Hydman D, Pickering R, Yardley L, Harris S. Predicting people with stroke at risk of falls. Age Ageing 2008;37:270-6. 3. Parkkari J. Fall-inciduced injuries among elderly people. Lancet 1997;350:1174. 4. Tinetti ME, Speechley M, Ginster SF. Risk factors for falls among elderly persons living in the community. N Eng J Med 1988;319:1701-7. 5. Forster A, Young J. Incidence and concequences of falls due to stroke: a systematic inquiry. Br Med J 1995;311:83-6. 6. Tromp AM, Pluijm SMF, Smith JH, Deeg DJH, Bouter LM, Lips P. Fall-risk screening test: a prospective study on predictors for falls in community-dwelling elderly. Am J Epidemiol 2001;54:837-44. 7. Oliver D, Daly F, Martin FC, Mcmurdo MET. Risk factors and risk assessment tools for falls in hospital in-patients: a systematic review. Age Ageing 2004;33(122-30). 8. Gates S, Smith LA, Fisher JD, Lamb SE. Systematic review of accuracy of screening instruments for predicting. JRRD 2008;45:1105-16. 9. Perell KL, Nelson A, Goldman RL, Luther SL, Prieto-Lewis N, Rubenstein LZ. Fall risk assessment measures: an analytic review. J Geronotol 2001;56(12):761-6. 10. Sackley CM. Falls, sway, and symmetry of weightbearing after stroke. Int Disabil Stud 1991;13:1-4. 11. Nyberg L, Gustafson Y. Patient falls in stroke rehabilitation. A challenge to rehabilitation strategies. Stroke 1995;26:838-42. 12. Mayo NE, Korner-Bitensky N, Kaizer F. Relationship between response time and falls among stroke patients undergoing physical rehabilitation. Int J Rehabil Res 1990;13:47-55. 13. Cheng PT, Liaw MY, Wong MK, Tang FT, Lee MY, Lin PS. The sit-to-stand movement in stroke patients and its correlation with falling. Arch Phys Med Rehabil 1998;79:1034-6. 14. Mackintosh SFH, Hill K, Dodd KJ. Balance score and history of falls in hospital predict recurrent falls in the 6 months following stroke rehabilitation. Arch Phys Med Rehabil 2006;87:1583-9. 15. Moreland JD, Richardson JA, Goldamith CH, Clase CM. Muscle weakness and falls in older adults: a systematic review and metaanalysis. J Am Geratr Soc 2004;52:1121-9. 16. Rubenstein LZ. Falls in older people: epidemiology, risk factors and strategies for prevention. Age Ageing 2006;35:37-41. 17. Lord SR, Clark RD, Webster IW. Physiological factors associated with falls in an elderly population. J Am Geratr Soc 1991;39:1194-200. 18. Lord SR, Menz HB, Tiedemann A. A physiological profile approach to fallrisk assessment and prevention. Phys Ther 2003;83:237-52. 19. Lord SR, Ward JA, Williams P, Anstey KJ. Physiological factors associated with falls in older community-dwelling women. J Am Geratr Soc 1994;42:1110-7. 20. Lord SR, Dayhew J. Visual risk factors for falls in older people. J Am Geratr Soc 2001;49:508-15. 21. Aleksandra A, Salmoni AW, Speechley M, Vandervoort AA. Defining a fall and reasons for falling: comparisons among the views of seniors,health care providers, and the research literature. J Geronotol 2006;46(3):367-76. 22. Spittle AJ, Doyle LW, Boyd RN. A systematic review of the clinimetric properties of neuromotor assessments for preterm infants during the first year of life. Dev Med Child Neurol 2008;50:254-66. 23. Wang CH, Hsieh CH, Dai MH, Chen CH, Lai YF. Inter-rater reliability and validity of the stroke rehabilitation assessment of movement (STREAM) instrument. J Rehab Med 2002;34:20-4. 24. Blum L, Korner-Bitensky N. Usefulness of the berg balance scale in stroke rehabilitation: a systematic review. Phys Ther 2008;88(5):559-66. 25. Portney LG, Watkins MP. Foundations of clinical research: Applications to practice. 3 ed. New York: Alexander,JL; 2009. 26. Pickard AS, Johnson JA, Feeny DH. Reponsiveness of geriatric health-related quality of life measures in stroke. Qual Life Res 2005;14:207-19. 27. Jorgensen L, Engstad T, Jacobsen BK. Higher incidence of falls in long-term stroke survivors than in population controls: depressive symptoms predict falls after stroke. Stroke 2002;33:542-7. 28. Harris JE, Eng JJ, Marigold DS, Tokuno CD, Louis CL. Relationship of balance and mobility to fall incidence in people with chronic stroke. Phys Ther 2005;85:150-8. 29. Tutuarima JA, Hann RJ, Limburg M. Number of nursing staff and falls: a case-control study on falls by stroke patients in acute care setting. J Adv Nurs 1993;18:1101-5. 30. Yates JS, Lai SM, Duncan PW, Studenski S. Falls in community-dweelling stroke survivors: an accumulated impairments model. JRRD 2002;39:385-94. 31. Weeedesteyn V, Niet M, Duilnhoven HRJ, Geurts ACH. Falls in individuals with stroke. JRRD 2008;45:1195-214. 32. Campell A, Borrie M, Spears G. Risk factors for falls in a community-based prospective study of people 70 years and older. J Geronotol Med Sci 1989;44:112-7. 33. Marigold DS, Eng JJ, Dawson AS, Inglis JT, Harris JE, Gylfadottir S. Exercise leads to faster postural reflexes, improved balance and mobility, and fewer falls in older persons with chronic stroke. J Am Geratr Soc 2005;53:416-23. 34. Vearrier LA, Langan J, Shumway-Cook A, Wollacott M. An intensive massed practice approach to retaining balance post-stroke. Gait Posture 2005;22:154-63. 35. Connell BR. Role of the environment ib falls prevention. Clin Geriatr Med 1996;12:859-80. 36. Vlahov D, Myers AH. Epidemiology of falls among patients in a rehabilitation hospital. Arch Phys Med Rehabil 1990;7:8-12. 37. Teasell R, Mcraw M, Foley N, Bhardwaj A. The incidence and concequences of falls in stroke patients during inpatient rehabilitation: factors associated with high risk. Arch Phys Med Rehabil 2002;83:329-33. 38. Rammenmark A, Nyberg L, Borssen B, Gustafson Y. Fracture after stroke. Osteoporos Int 1998;8:92-5. 39. Vellas B, Cayla F, Bocquet H, Albarede JL. Prospective study of restriction of activity in old people after stroke. Age Ageing 1987;16:189-93. 40. Nyberg L, Gustafson Y. Fall prediction index for patients in stroke rehabilitation. Stroke 1997;28:716-21. 41. Beninato M, Portney LG, Sullivan PE. Using the International Classification of Functioning, Disability and Health as a framework to examine the association between falls and clinical assessment tools in people with stroke. Phys Ther 2009;89:816-24. 42. Beninato M, Portney LG, Sullivan PE. Using the International Classification of Functioning, Disability and Health as a framework to examine the asociation between falls and clinical assessment tools in people with stroke. Phys Ther 2009;89(8):816-25. 43. Scott V, Votova K, Scanlan A, Close J. Multifactorial and functional mobility assessment tools for fall risk among older adults in community, home-support, long-term and acute care settings. Age Ageing 2007;36:130-9. 44. Myers H. Hospital fall risk assessment tools: a critique of the literature. International Journal of Nursing Practice 2003;9:223-35. 45. Piirtola M, Era P. Force platform measurements as predictors of falls among older people- a review. Geronotology 2006;5:1-16. 46. Duncan PW, Weiner DK, Chandler J, Stundenski S. Functional reach: a new clinical measure of balance. J Geronotol Med Sci 1990;45:192-7. 47. Berg K. Balance and its measure in the elderly: a review. Phyiother Can 1989;41:240-6. 48. Whitney SL, Hudak MT, Marchetti GF. The dynamic gait index relates to self-reported fall history in individuals with ventibular dysfunction. J Vestib Res 2000;10:99-105. 49. Raiche M, Hebert R, Prince F. Screening older adults at risk of falling with the Tinetti bakance scale. The Lancet 2000;356(1001-2). 50. Morse JM, BMorse R, Tylko S. Development of a scale to identify the fall-prone patient. Can J Aing 1989;8:366-77. 51. Coker E, Oliver D. Evaluation of the STRATIFY falls prediction tool on a geratric unit outcomes manag 2003;7(1):8-16. 52. Perell KL, Nelson A, Goldman RL, Luther SL, Prieto-Lewis N, Rubenstein LV. Fall risk assessment measures: an analytic review. J Geronotol 2001;56:761-6. 53. Shumway-Cook A, Baldwin M, Polissar NL, Gruber W. Predicting the probability for falls in community-dwelling older adults. Phys Ther 1997;77(8):812-9. 54. Muir SW, Berg K, Chesworth B, Speechley M. Use of the berg balance scale for predicting multiple falls in community-dwelling elderly people: a prospective study. Phys Ther 2008;88:449-59. 55. Berg K, Wood-Dauphinee SL, Williams JI, Gayton D. Measuring balance in the elderly: preliminary development of an instrument Phyiother Can 1989;41:304-11. 56. Sturnieks DL, Geroge RS, Lord SR. Balance disorders in the elderly. Neurophysiologie Clinique 2008;38:467-78. 57. Grisso JA, Kelsey JL, Strom BL. Risk factors for falls as a cause of hip fracture in women. J Geronotol A Biol Sci Med Sci 1991;324:1326-31. 58. Lord SR, Clark RD, Webster IW. Physiological factors associated with falls in an elderly population. J Am Geratr Soc 1991;39:1194-2000. 59. Grabiner MD, Jahnigen DW. Modeling recovery from stumbles: preliminary data on variable selection and classificationefficacy. J Am Geratr Soc 1992;40:910-3. 60. Stundenski S, Duncan PW, Chander JM. Postural responses and effector factors in persons with unexplained falls: results and methodologic issues. J Am Geratr Soc 1991;39:229-34. 61. Chander JM, Duncan PW. Balance and falls in the elderly: issues in evaluation and treatment. In: Guccione AA, editor. Geriatric Phyical Therapy. Boston: Mosy-Year Book, Inc.; 1993. p 237-51. 62. Murphy MA, Olson SL, Protas EJ. Screening for falls in community-dwelling elderly J Aging Phys Act 2003;11:66-80. 63. Burle B, Vidal F, Tandonnet C, Hasbroucq T. Physiological evidence for response inhibition in choice reaction time task. Brain and Cognition 2004;56:153-64. 64. Soyuer F, Ozturk A. The effect of spasticity, sense and walking aids in falls of prople after chronic stroke. Disabil Rehabil 2007;29:679-87. 65. Lamb SE, Ferrucci L, Volapto S, Fried LP, Guralnik JM, Gustafson Y. Risk factors for falling in home-dwelling older women with stroke: the women's health and aging study. Stroke 2003;34:494-501. 66. Mayo NE, Korner-Bitensky N, Kaizer F. Relationship between respone time and falls among stroke patients undergoing physical rehabilitation. Int J Rehabil Res 1990;13:47-55. 67. Lord SR, Sturnieks DL. The physiology of falling: assessment and prevention strategies for older people. J Sci Med Sport 2005;8:35-42. 68. Lord SR, Clark RD, Webster IW. Postural stability and associated physiological factors in a population of aged persons. J Geronotol 1991;46(3):69-76. 69. Lord SR, Mclean D, Stathers G. Physiological factors associatedwith injurious falls inolderpeople living in the community. J Geronotol 1992;38:338-46. 70. Sturnieks DL, Geroge RS, Lord SR. Balance disorders in the elderly. Clinical Neurophysiology 2008;38:467-83. 71. Close JCT. Prevention of falls in older people. Disabil Rehabil 2005;27:1061-71. 72. Fitzpatrick R, McCloskey DI. Proprioceptive, visual and vestibular thresholds for the perception of sway during standing in humans. J Physiol 1994;478:173-86. 73. Van Buskirk C, Webster D. Prognostic value of sensory defect in rehabilitation of hemiplegics. Neurolody 1955;5:407-11. 74. Anderson EK. Sensory impairments in hemiplegia. Arch Phys Med Rehabil 1971;52:293-7. 75. Fozard JL, Vercryssen M, Reynolds SL, Hancock PA, Quilter RE. Age differences and changes in reaction time: the Baltimore Longitudinal Study of Aging. J Geronotol 1994;49:179-89. 76. Kaizer F, Korner-Bitensky N, Mayo NE, Becker R, Coopersmith H. Response time of stroke patients to a visual stimulus. Stroke 1988;19:335-9. 77. Mackintosh SFH, Hill K, Dodd KJ, Goldie P, Culham E. Falls and injury prevention should be part of every stroke rehabilitation plan. Clin Rehabil 2005;19:441-51. 78. Corriveau H, Hebert R, Raiche M, Prince F. Evaluation of postural stability in the elderly with stroke. Arch Phys Med Rehabil 2004;85:1095-101. 79. Lord SR, Ward JA. Age-associated differneces in sensori-motor function and balance in community dwelling women. Age Ageing 1994;23:452-60. 80. Overstal PW, Exton-Smith AN, Imms FJ, Johnson AL. Falls in the elderly related to postural imbalance. Br Med J 1977;1:261-4. 81. Brocklehurst JC, Robertson D, James-Groom P. Clinical correlates of swayin old age-sensory modalities. Age Ageing 1982;11. 82. Lord SR, Sturnieks DL. The physiology of falling: assessment and prevention strategies for older people. J Sci Med Sport 2005;8:35-42. 83. Lord SR, Clark RD. Simple physiological and clinical tests for the accurate prediction of falling in older people. J Geronotol 1996;42:199-203. 84. Lord SR, Sambrook PN, Gilbert C. Postural satbility,falls and fractures in the elderly: results from the Dubbo Osteoporosis epidemiology study. Med J Aus 1994;160:688-91. 85. Szabo SM, Janssen PA, Khan KM, Potter MJ, Lord SR. Older women with age-related macular degeneration have a greater risk of falls: a physiological profile assessment study. J Am Geratr Soc 2008;56:800-7. 86. Lord SR, Caplan GA, Colagiuri R. Sensori-motor function in older persons with diabetes. Diabet Med 1993;10:614-8. 87. Lord SR, Allen GM, Williams P, Gandevia SC. Risk of falling: predictors based on reduced strength in persons previously affected by polio. Arch Phys Med Rehabil 2001;83:907-11. 88. Lorbach ER, Webster KE, Menz HB, Wittwer JE, MeroryJ.R. Physiological fall risk assessment in older people with Alzheimer's disease. Dement Geriatr Cog Disord 2007;24:260-5. 89. Clark RD, Lord SR, Webster IW. Clinical parameters associated with falls in an elderly population. J Geronotol 1993;39:117-23. 90. Ahmed S, Mayo NE, Higgins J, Salbach NM, Finch L, Wood-Dauphinee SL. The stroke rehabilitation assessment of movement (STREAM): A comparrison with other measures used to evaluate effects of stroke and rehabilitation. Phys Ther 2003;83(7):617-30. 91. Argyriadous S, Melissopoudou H, Krania E, Karagiannidou A, Vlachonicolis I, Lionis S. Dementia and depression: twofrequent disorders of the aged in primary health care in Greece. Family Practice 2001;18:87-91. 92. Ashworth B. Preliminary trial of carisoprodol in multiple sclerosis. Practitioner 1964;192:540-2. 93. Berg K. A comparison of clinical and labratory measures of postural balance in an elderly population. Arch Phys Med Rehabil 1992;73:1073. 94. Berg K, Wood-Dauphinee SL, Williams JI, NMaki B. Measuring balance in the elderly: validation of an instrument Can J Public Health 1992;83:7-11. 95. Green J, Forster A, Young J. A test-retest reliability study of the Barthel Index, the Rivermead Mobility Index, the Nottingham extended Activities of Daily Living Scale and the Frenchay Activities Index in stroke patients. Disabil Rehabil 2001;23(15):670-6. 96. McKhann G, Drachman D, Folstein M, Katzman R, Proice D, Stadlan E. Clinical diagnosis of Alzheimer's disease: report of the NINCDS-ADRDA Work Group under the auspices of Department of Health and Human Servises Task Force on Alzheimer's Disease. Neurology 1984;34:939-44. 97. Argyriadou S, Melissopoulou H, Krania E, Kargiannidou A, Vlachonicolis I, Lionis C. Dementia and depression: two frequent disorders of the aged in primary health care in Greece. Family Practice 2001;18. 98. Andersson AG, Kamwendo K, Seiger A, Appelros P. How to identify potential fallers in a stroke unit: validity indexes of four test method. . J Rehab Med 2006;38:186-91. 99. Shumway-Cook A, Brauer S, Wollacott M. Predicting the probability for falls in community-dwelling older adults using the timed up and go test. Phys Ther 2000;80(9):896-902. 100. Belgen B, Beninato M, Sullivan PE, Narielwalla K. The association of balance capacity and falls self-efficacy with history of falling in community-dwelling people with chronic stroke. Arch Phys Med Rehabil 2006;87:554-61. 101. Hydman D, Ashburn A. People with stroke living in the community: attention deficits, balance, ADL ability and falls. Disabil Rehabil 2003;25:817-22. 102. Yates JS, Lai SM, Duncan PW, Stundenski S. Falls in community-dwelling stroke survivors: an accumulated impairments model. JRRD 2002;39:385-94. 103. Weerdesteyn V, Niet M, Duijnhoven HJR, Geurts ACH. Falls in individuals with sroke. JRRD 2008;45:1195-214. 104. Harris JE, Eng JJ, Marigold DS, Tokuno CD, Louis CL. Relationship of balance and mobility to fall incidence in people with chronic stroke. Physical Therapy 2005;85. 105. Teasell R, McRae M, Foley N, Bhardwaj A. The incidence and consequences of falls in stroke patients during inpatient rehabilitation: factors associated with high risk. Arch Phys Med Rehabil 2002;83:329-33. 106. Liu-Ambrose TY, Khan KM, Eng JJ, Lord SR, Mckay HA. Balance confidence improves with resistance or agility training. J Geronotol 2004;50:373-82. 107. Liu-Ambrose TY, Donaldson MG, Ahamed Y, Graf P, Cook WL, Close J et al. Otago home-based strength and balance retraining improves executive functioning in older fallers: a randomised controlled trial. JAGS 2008;56:1821-30. 108. 王淳厚、毛慧芬、薛漪平、謝清麟。中風病人姿勢控制評估量表之心理計量特性。台灣醫學 2002;6:474-82. 109. Folstein M, Folstein S, McHugh P. Mini Mental State. A practical method for grading the cognitive state of the patient for the clinician. J Psychiatr Res 1975;12:189-96. 110. 黃小玲、謝清麟、林伯欣、楊怡君、黃恢濤。柏格氏平衡量表之信度及同時效度檢定。職能治療學會雜誌 1995;13:25-33.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/46510	-
dc.description.abstract	背景: 隨著國家逐漸邁入高齡化社會，跌倒議題在銀髮族中更顯為重要。研究顯示，有中風病史的老年人為跌倒的高危險群。跌倒會造成身體傷害，重則骨折或頭部外傷，輕則軟組織受傷。對於中風病患，內在因子的生理損傷程度是相當重要。澳洲 (雪梨威爾斯醫學研究中心) Lord博士於1991年發展出跌倒危險因子評估工具 (Physiological Profile Assessment , PPA)，即是設計量化評估老年人的生理損傷程度，此工具應用於老年人跌倒危險因子的信效度分析已有相關研究，但未施行於中風患者。目的: 探討此工具應用於中風病患的信效度與反應性。方法: 本研究收案60位中風病患，中風病人姿勢控制評估量表 (STREAM)平均分數是65.4 。研究方法是選用簡短版的跌倒危險因子評估工具 (PPA-Short Form)，此工具評估五個主要的生理層面：視覺、本體感覺、肌力、反應時間與站姿平衡能力。首先，評估再測信度，在ㄧ個禮拜的間隔，以組內相關係數評估此工具於中風病患的再測信度。第二部份評估再分析此工具與其他跌倒危險因子評估工具(例如：柏格氏平衡量表)的相關性。藉由此工具比較中風病患中跌倒與非跌倒者的差別，進ㄧ步探討此工具的效度，以接受器操作控制曲線分析此工具是否可正確區辫中風病患中有無跌倒經驗者。第三部份評估反應性，將以此工具比較中風病患接受一個月平衡訓練前後的差別，得知此工具對改變的反應性。結果: 簡短版跌倒危險因子評估工具內每一個評估面向皆有中等至良好的再測信度 (n= 53 , 組內相關係數= 0.83~0.96)。簡短版跌倒危險因子評估工具所測得的整體跌倒風險值與柏格氏量表總分有高度相關 (n= 60, 皮爾森相關係數= -0.605)。且中風病患中跌倒 (n= 28)與非跌倒者 (n= 32)在簡短版跌倒危險因子評估工具內的每一個評估項目皆有顯著差異 (p<0.05)。另外，此工具可正確區辨91%有跌倒經驗的中風病患。除了視覺測驗 (效應值= 0.1; 標準化反應平均值= 0.3)，此工具的其他測試項目都可明顯反應中風病患 (n=12)接受一個月平衡訓練前後的改變 (效應值= 0.8~4.7; 標準化反應平均值= 3~41) 。結論: 簡短版跌倒危險因子評估工具對於輕中度的中風患者有良好的信度，區辫效度，且能反映出訓練前後的改變量。故此工具可應用於輕中度的中風患者的跌倒風險評估。	zh_TW
dc.description.abstract	Background and Purpose: Previous studies have found the physical impairments of intrinsic factors were important risk factors for falls in subjects with stroke. One approach for assessing intrinsic fall risk was Physiological profile Assessment (PPA), which was developed in 1991 by Dr. Lord. To be practical in clinical setting, present study chose the short form of PPA which contained five components, i.e., vision, peripheral sensation, muscle force, reaction time, and balance. The aim of this study was to assess the reliability, acuuracy, and responsiveness of PPA-short form for subjects with stroke. Methods: Sixty subjects with stroke aged 52-81 years were recruited in the study (Mean STREAM= 65.4). We chose PPA-short form to assess the population. The short form contained 5 items: a test of vision (edge contrast sensitivity), proprioception, knee extension force, hand choice reaction time and body sway (sway when standing on the medium-density foam rubber mat). The method included three major parts. The first part was to examine the test-retest reliability of PPA among subjects with stroke on two occasions with one week apart by intraclass correlation coefficient (ICC) analysis. The second part was to calculate the association validity of the PPA to the other measures for fall risk (i.e., Berg balance scale) in subjects with stroke by the Pearson correlation coefficient. The PPA was also be analyzed between fallers and non-fallers for subjects with stroke, and the accuracy was analyzed with receiver operating characteristics curve (ROC-curve). The third part was to assess the responsiveness of PPA by investigating the changes after four weeks balance training in subjects with stroke. The results would help the fall risk assessment in clinics. Results: A strong correlation was observed between PPA overall fall risk score and Berg balance scale (r=-0.605). All PPA tests showed good test-retest reliability (ICC= 0.83-0.96). Twenty-two participants were classified as fallers. Significant differences were found between fallers and non-fallers on all physiological domains (p<0.05). The PPA classified 91% subjects into faller and non-faller group. All PPA variables showed moderate to large responsiveness (ES=0.5-4.8; SRM=3-41) except vision (ES=0.1; SRM=0.3). Conclusions: The PPA which demonstrated good reliability, accuracy and responsiveness was recommended as a good fall risk assessment tool for mild to moderate stroke.	en
dc.description.provenance	Made available in DSpace on 2021-06-15T05:12:52Z (GMT). No. of bitstreams: 1 ntu-99-R97428006-1.pdf: 1519936 bytes, checksum: 5bfa4daa20f04c51feebf5bf9b1743d6 (MD5) Previous issue date: 2010	en
dc.description.tableofcontents	Chapter 1. Introduction……………………………………………………………...5 1.1 Background………………………………………………………………………...5 1.2 Purposes and Hypotheses 7 1.3 Operational Definition 9 Chapter 2. Literature Review………………………………………………………13 2.1 Falls in Subjects with Stroke 13 2.2 The Conceptual Model for Falls and Clinical Assessment 16 2.3 Categories of Fall Risk Factor Assessment Tools 17 2.4 Introduction of Physiological Profile Assessment (PPA) 19 Chapter 3. Materials and Methods………………………………………………...29 3.1 Participants 29 3.2 Study Design 29 3.3 Assessment 30 3.4 Pilot Study for Comparison of PPA-short Form and PPA-long Form 32 3.5 Procedures 33 3.6 Data Analysis 36 3.7 Statistical Analysis 36 Chapter 4: Results ……………………………………………………………....….38 4.1 Subject Recruitment 38 4.2 Description of the PPA Data in One Example 38 4.3 Test-retest Reliability of PPA 41 4.4 Validity of PPA 41 4.5 Responsiveness of PPA 43 4.6 Comparison of PPA-short Form and PPA-long Form 43 Chapter 5: Discussion………………………………………..……………….....…..45 5.1 Major Findings 45 5.2 Test-retest Reliability of PPA 46 5.3 Validity of PPA 47 5.4 Responsiveness of PPA 50 5.5 Comparison of PPA-short Form and PPA-long Form 51 5.6 Study Limitation and Further Studies 51 5.7 Conclusion 53 References……………………………………………………………………...…....54
dc.language.iso	en
dc.title	跌倒危險因子評估工具於中風患者的信度效度與反應性分析	zh_TW
dc.title	The Reliability, Validity, and Responsiveness of The Fall Risk Assessment Tool for Subjects with Stroke	en
dc.type	Thesis
dc.date.schoolyear	98-2
dc.description.degree	碩士
dc.contributor.coadvisor	陸哲駒(Jer-Junn Luh)
dc.contributor.oralexamcommittee	曹昭懿(Jau-Yih Tsauo),賴金鑫(Jin-Shin Lai),陳適卿(Shin-Chin Chen)
dc.subject.keyword	跌倒,評估,工具,危險因子,中風,	zh_TW
dc.subject.keyword	Fall,Assessment,Tool,Risk factor,Stroke,	en
dc.relation.page	111
dc.rights.note	有償授權
dc.date.accepted	2010-07-23
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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