Purpose：The purpose of this study was to evaluate the effect of Whole body vibration exercise(WBVE) in patient with chronic stroke. Methods：Thirty patients were divided into two groups by randomly experimental group(14 subject) and control group(16 subject) in a single blinded, randomised study, experimental group was conducted for the 6-weeks WBVE program and had a structured exercise program for 16 minutes, 5 days per week and control group was conducted for the shame exercise program. Outcome variables included the knee extensor strength, Berg balance scale, Timed up and go test at 0 and 6 weeks. Results：The experimental group tended to improve more than the control group in balance(Berg balance scale) and walking ability(Timed up and go test). There were no trends in differences in change scores by the knee extensor strength. Conclusion：WBVE program may be helpful to improve knee extensor strengthening, dynamic balance and walking ability for patients with chronic patients.

1 Walker C, "Use of visual feedback in retraining balance following acute stroke" 80 (80): 886-895, 2000

2 Bogle Thorbahn LD, "Use of the Berg Balance Test to predict falls in elderly persons" 76 (76): 576-585, 1996

3 Rittweger J, "Treatment of chronic lower back pain with lumbar extension and whole-body vibration exercise" 27 (27): 1829-1834, 2002

4 Podsiadlo D, "The timed Up & Go: a test of basic functional mobility for frail elderly persons" 39 (39): 142-148, 1991

5 Perennou DA, "The polymodal sensory cortex is crucial for controlling lateral postural stability: evidence from stroke patients" 53 (53): 359-365, 2000

6 Chollet F, "The functional anatomy of motor recovery after stroke in humans: a study with positron emission tomography" 29 (29): 63-71, 1991

7 Berg K, "The Balance Scale: reliability assessment with elderly residents and patients with an acute stroke" 27 (27): 27-36, 1995

8 Cheng PT, "Symmetrical body-weight distribution training in stroke patients and its effect on fall prevention" 82 (82): 1650-1654, 2001

9 Di Fabio RP, "Stance duration under sensory conflict conditions in patients with hemiplegia" 72 (72): 292-295, 1991

10 van Nes IJ, "Short- term effects of whole-body vibration on postural control in unilateral chronic stroke patients: preliminary evidence" 83 (83): 867-873, 2004

11 Carey LM, "Sensory loss in stroke patients: effective training of tactile and proprioceptive discrimination" 74 (74): 602-611, 1993

12 Hughes C, "Relationship among performance on stair ambulation, functional reach and Timed Up & Go tests in older adults" 21 : 18-22, 1998

13 Rode G, "Predominance of postural imbalance in left hemiparetic patients" 29 (29): 11-16, 1997

14 Tihanyi TK, "One session of whole body vibration increases voluntary muscle strength transiently in patients with stroke" 21 (21): 782-793, 2007

15 Priplata AA, "Noise- enhanced balance control in patients with diabetes and patients with stroke" 59 (59): 4-12, 2006

16 Bohannon RW, "Manual muscle test scores and dynamometer test scores of knee extension strength" 67 (67): 390-392, 1986

17 van Nes IJ, "Long-term effects of 6-week whole-body vibration on balance recovery and activities of daily living in the postacute phase of stroke: a randomized, controlled trial" 37 (37): 2331-2335, 2006

18 American Heart Association, "Heart disease and stroke statistics 2004 update" American Heart Association 2003

19 Campbell FM, "Head and pelvic movements during a dynamic reaching task in sitting: implications for physical therapists" 82 (82): 1655-1660, 2001

20 Wolfson L, "Gender differences in the balance of healthy elderly as demonstrated by dynamic posturography" 49 (49): 160-167, 1994

21 Keenan MA, "Factors affecting balance and ambulation following stroke" (182) : 165-171, 1984

22 Iwamoto J, "Efficacy of training program for ambulatory competence in elderly women" 53 (53): 85-89, 2004

23 Turbanski S, "Effects of random whole-body vibration on postural control in Parkinson's disease" 13 (13): 243-256, 2005

24 Kawanabe K, "Effect of whole-body vibration exercise and muscle strengthening, balance, and walking exercises on walking ability in the elderly" 56 (56): 28-33, 2007

25 Torvinen S, "Effect of a vibration exposure on muscular performance and body balance. Randomized cross-over study" 22 (22): 145-152, 2002

26 Verschueren SM, "Effect of 6-month whole body vibration training on hip density, muscle strength, and postural control in postmenopausal women: a randomized controlled pilot study" 19 (19): 352-359, 2004

27 Ikai T, "Dynamic postural control in patients with hemiparesis" 82 (82): 463-469, 2003

28 Suzuki K, "Determinants of maximum walking speed in hemiparetic stroke patients" 162 (162): 337-344, 1990

29 Bruyere O, "Controlled whole body vibration to decrease fall risk and improve health-related quality of life of nursing home residents" 86 (86): 303-307, 2005

30 Lebedev MA, "Analysis of the inter- ference electromyogram of human soleus muscle after exposure to vibration" 23 (23): 57-65, 1991

31 Rubin C, "Anabolism. Low mechanical signals strengthen long bones" 412 (412): 603-604, 2001

32 Steffen TM, "Age- and gender-related test performance in community- dwelling elderly people: Six-Minute Walk Test, Berg Balance Scale, Timed Up & Go Test, and gait speeds" 82 (82): 128-137, 2002

33 Bosco C, "Adaptive responses of human skeletal muscle to vibration exposure" 19 (19): 183-187, 1999

34 Rittweger J, "Acute changes in neuromuscular excitability after exhaustive whole body vibration exercise as compared to exhaustion by squatting exercise" 23 (23): 81-86, 2003