پیوندهای مفید
آمار
| تعداد نشریات | 26 |
| تعداد شمارهها | 306 |
| تعداد مقالات | 2,643 |
| تعداد مشاهده مقاله | 3,969,436 |
| تعداد دریافت فایل اصل مقاله | 2,673,800 |
The Spatiotemporal Parameters of Stair Locomotion in Individuals with Congenital Sight Loss and Full-sight | ||
| Journal of Advanced Sport Technology | ||
| مقاله 7، دوره 4، شماره 1 - شماره پیاپی 12، شهریور 2020، صفحه 61-71 اصل مقاله (412.62 K) | ||
| نویسندگان | ||
| Jamshid Nouri Ghafar1؛ Mahdi Majlesi* 1؛ Elaheh Azadian2؛ Amir Fatollahi3 | ||
| 1Department of Sport Biomechanics, Faculty of Humanities, Islamic Azad University, Hamedan Branch, Hamedan, Iran. | ||
| 2Department of Motor Behavior, Faculty of Humanities, Islamic Azad University, Hamedan Branch, Hamedan, Iran. | ||
| 3Department of Physical Education and Sport Sciences, Faculty of Educational Science and Psychology, University of Mohaghegh Ardabili, Ardabil, Iran. | ||
| چکیده | ||
| Stair ascent and descent is a challenging task for people with sight loss. Identifying the effects of lack of visual input in people with sight loss while stair ascent and descent can be effective in planning rehabilitation program and improving locomotion pattern. The purpose of the present study is to evaluate the spatiotemporal variables in stair ascent and descent in people with sight loss and comparing them with people with full-sight. In this study, the spatiotemporal variables of stair ascent and descent in people with sight loss were measured using 3D motion analysis device Vicon with frequency of 100HZ. For within group analysis, repeated measure test and for that of between groups, independent sample t-test were used with level of significance of p<0.05. The spatial‐temporal gait parameters during stair ascent and descent were collected. The results showed that the people with sight loss had less speed, cadence and stride length comparing with people with full-sight (p<0.05). Moreover, stride and step time, single and double support time and stance time were significantly more in people with sight loss comparing with the people with full-sight (p<0.05). There was a significant difference in variables such as cadence and stance time between stair ascent and descent (p<0.05) and in both groups the mentioned difference was the same (p>0.05). Decreased speed and cadence and increased stance time represent motion deficiency in people with sight loss. Regarding the mentioned results, people with sight loss have cautious stair locomotion pattern and spatiotemporal variables in closed eye state in people with full-sight had weaker patterns comparing with people with loss sight. | ||
| کلیدواژهها | ||
| Sight loss؛ Spatiotemporal variables؛ Stair ascent and descent؛ Open and closed eyes | ||
| مراجع | ||
|
1. Juodžbalienė, V. and K. Muckus, The influence of the degree of visual impairment on psychomotor reaction and equilibrium maintenance of adolescents. Medicina, 2006; 42(1): 49-56.
2. Larsson, L. and K. Frändin, Body awareness and dance-based training for persons with acquired blindness—effects on balance and gait speed. Visual impairment research, 2006; 8(1-2): 25-40.
3. Timmis, M.A., et al., Kinematic analysis of step ascent among patients with central visual field loss. Gait & Posture, 2014; 39(1): 252-257.
4. Patino, C.M., et al., Central and peripheral visual impairment and the risk of falls and falls with injury. Ophthalmology, 2010; 117(2): 199-206. e1.
5. Ponchillia, P.E., S.K.V. Ponchillia, and S.V. Ponchillia, Foundations of rehabilitation teaching with persons who are blind or visually impaired. 1996: American Foundation for the Blind.
6. Hallemans, A., et al., Low vision affects dynamic stability of gait. Gait & Posture, 2010; 32(4): 547-551.
7. Hallemans, A., et al., Development of independent locomotion in children with a severe visual impairment. Research in Developmental Disabilities, 2011; 32(6): 2069-2074.
8. Lamoreux, E.L., et al., Visual impairment, causes of vision loss, and falls: the Singapore Malay Eye Study. Investigative ophthalmology & visual science, 2008; 49(2): 528-533.
9. Ramsey, V.K., et al., A biomechanical evaluation of visually impaired persons' gait and long-cane mechanics. Journal of rehabilitation research and development, 1999; 36(4): 323-332.
10. Lord, S.R. and J. Dayhew, Visual risk factors for falls in older people. Journal of the American Geriatrics Society, 2001; 49(5): 508-515.
11. McCrory, J.L., et al., Ground reaction forces during stair locomotion in pregnancy. Gait & Posture, 2013; 38(4): 684-690.
12. Verghese, J., et al., Self-Reported Difficulty in Climbing Up or Down Stairs in Nondisabled Elderly. Archives of Physical Medicine and Rehabilitation, 2008; 89(1): 100-104.
13. Silverman, A.K., et al., Whole-body angular momentum during stair ascent and descent. Gait & Posture, 2014; 39(4): 1109-1114.
14. McCrory, J.L., et al., Ground reaction forces during stair locomotion in pregnant fallers and non-fallers. Clinical Biomechanics, 2014; 29(2): 143-148.
15. Bergland, A., et al., Health, balance, and walking as correlates of climbing steps. Journal of aging and physical activity, 2008; 16(1): 42-52.
16. Conway, Z.J., et al., Evidence of compensatory joint kinetics during stair ascent and descent in Parkinson’s disease. Gait & Posture, 2017; 52: 33-39.
17. Hicks-Little, C.A., et al., Temporal-spatial gait adaptations during stair ascent and descent in patients with knee osteoarthritis. The Journal of Arthroplasty, 2012; 27(6): 1183-1189.
18. Meyer, C.A., et al., Evaluation of stair motion contributes to new insights into hip osteoarthritis‐related motion pathomechanics. Journal of Orthopaedic Research, 2016; 34(2): 187-196.
19. Organization, W.H., WHO guidelines for safe surgery: safe surgery saves lives. 2009: Sưu tầm.
20. Mian, O.S., et al., Kinematics of stair descent in young and older adults and the impact of exercise training. Gait & Posture, 2007; 25(1): 9-17.
21. Brustio, P.R., D. Magistro, and M.E. Liubicich, Changes in temporal parameters during performance of the Step Test in older adults. Gait & Posture, 2015; 41(1): 217-221.
22. Gao, B., M.L. Cordova, and N. Zheng, Three-dimensional joint kinematics of ACL-deficient and ACL-reconstructed knees during stair ascent and descent. Human Movement Science, 2012; 31(1): 222-235.
23. Faul, F., et al., G* Power 3: A flexible statistical power analysis program for the social, behavioral, and biomedical sciences. Behavior research methods, 2007; 39(2): 175-191.
24. Meyns, P., et al., Is interlimb coordination during walking preserved in children with cerebral palsy? Research in Developmental Disabilities, 2012; 33(5): 1418-1428.
25. Kadaba, M.P., H. Ramakrishnan, and M. Wootten, Measurement of lower extremity kinematics during level walking. Journal of Orthopaedic Research, 1990; 8(3): 383-392.
26. Winter, D.A., Biomechanics and motor control of human movement. 2009: John Wiley & Sons.
27. Harper, N.G., J.M. Wilken, and R.R. Neptune, Muscle function and coordination of stair ascent. Journal of biomechanical engineering, 2018; 140(1): 011001.
28. Whittle, M., Gait analysis an introduction. 2007, Butterworth-Heinemann,: Edinburgh ; New York. p. 255 p. ill. 25 cm. + 1 CD-ROM (4 3/4 in.).
29. Yazdani, S., et al., Spatiotemporal Variables of Gait in Patients with Adolescent Idiopathic Scoliosis and Healthy Individuals. Journal of Sport Biomechanics, 2016; 2(3): 5-14.
30. BOptom, R.Q.I., et al., Visual impairment and falls in older adults: the Blue Mountains Eye Study. Journal of the American Geriatrics Society, 1998; 46(1): 58-64.
31. Wood, J.M., et al., Risk of falls, injurious falls, and other injuries resulting from visual impairment among older adults with age-related macular degeneration. Investigative ophthalmology & visual science, 2011; 52(8): 5088-5092.
32. Nakamura, T., Quantitative analysis of gait in the visually impaired. Disability and Rehabilitation, 1997; 19(5): 194-197.
33. MacGowan, H., Kynematic analysis of the walking gait of sighted and congenitally blind children: ages 6 to 10 years. Biomechanics IX-A, 1985: 575-580.
34. Hallemans, A., et al., Visual deprivation leads to gait adaptations that are age- and context-specific: I. Step-time parameters. Gait & Posture, 2009; 30(1): 55-59.
35. Jazi, S.D., et al., Effect of selected balance exercises on the dynamic balance of children with visual impairments. Journal of Visual Impairment & Blindness, 2012; 106(8): 466-474.
36. Özer, M., et al., Comparison of Ankle Proprioception Between Blind and Healthy Athletes. Orthopaedic journal of sports medicine, 2014; 2(11_suppl3): 2325967114S00156.
37. Clark-Carter, D.D., A. Heyes, and C.I. Howarth, The gait of visually impaired pedestrians. Human Movement Science, 1987; 6(3): 277-282.
38. Alavi-Mehr SM, Jafarnezhadgero A, Salari-Esker F, Zago M. Acute effect of foot orthoses on frequency domain of ground reaction forces in male children with flexible flatfeet during walking. The Foot. 2018; 37: 77-84.
39. Mohammadi V, Letafatkar A, Sadeghi H, Jafarnezhadgero A, Hilfiker R. The effect of motor control training on kinetics variables of patients with non-specific low back pain and movement control impairment: Prospective observational study. Journal of bodywork and movement therapies. 2017; 21(4): 1009-16.
40. Jafarnezhadgero A, Sorkhe E, Meamarbashi A. Efficacy of motion control shoes for reducing the frequency response of ground reaction forces in fatigued runners. Journal of Advanced Sport Technology. 2019; 2(1): 8-21.
41. Mohammadi V, Hilfiker R, Jafarnezhadgero AA, Jamialahmadi S, Karimizadeh Ardakani M, Granacher U. Relationship between training-induced changes in the Star Excursion Balance Test and the Y balance test in young male athletes. Annals of Applied Sport Science. 2017; 5(3):31-8.
42. Jafarnezhadgero A, Madadi-Shad M, McCrum C, Karamanidis K. Effects of corrective training on drop landing ground reaction force characteristics and lower limb kinematics in older adults with genu valgus: A randomized controlled trial. Journal of aging and physical activity. 2019; 27(1): 9-17.
43. Jafarnezhadgero AA, Anvari M, Granacher U. Long-term effects of shoe mileage on ground reaction forces and lower limb muscle activities during walking in individuals with genu varus. Clinical Biomechanics. 2020; 73: 55-62.
44. Jafarnezhadgero AA, Sorkhe E, Oliveira AS. Motion-control shoes help maintaining low loading rate levels during fatiguing running in pronated female runners. Gait & posture. 2019; 73: 65-70.
45. Madadi-Shad M, Jafarnezhadgero AA, Sheikhalizade H, Dionisio VC. Effect of a corrective exercise program on gait kinetics and muscle activities in older adults with both low back pain and pronated feet: A double-blind, randomized controlled trial. Gait & Posture. 2020; 76: 339-45. | ||
|
آمار تعداد مشاهده مقاله: 448 تعداد دریافت فایل اصل مقاله: 205 |
||