Immediate effects of femoral external rotational and abductoral taping on ground reaction force characteristics during running

Jafarnezhadgero, Amir Ali; Sorkheh, Elham; ghiasvand, goodarz

Volume 15, Issue 14 (10-2017) RSMT 2017, 15(14): 47-57 | Back to browse issues page

‎ 20.1001.1.22520708.1396.15.14.5.5

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Jafarnezhadgero A A, Sorkheh E, ghiasvand G. Immediate effects of femoral external rotational and abductoral taping on ground reaction force characteristics during running. RSMT 2017; 15 (14) :47-57
URL: http://jsmt.khu.ac.ir/article-1-235-en.html

Immediate effects of femoral external rotational and abductoral taping on ground reaction force characteristics during running

Amir Ali Jafarnezhadgero

, Elham Sorkheh

, Goodarz Ghiasvand

, amiralijafarnezgad@gmail.com

Abstract: (5923 Views)

Introduction and aim: Taping is a common method used by athletes to improve muscular function. The aim was to assess the immediate effect of femoral external rotational and abductoral taping on three-dimensional ground reaction force characteristics, their time to peak, impulse, displacement of center of pressure, vertical loading rate, and free moment during stance phase of running. Method: 24 healthy men (age: 24.6±2.5 years; mass: 74.8±6.2 kg; 177.1±7.9 cm) were included in the study. Ground reaction force data was recorded by a Kistler force platform (sampling rate: 1000 Hz). Paired sample t-test was used for statistical analysis. Results: Compared to without taping condition, taping significantly reduced the peak impact and peak active vertical ground reaction forces during stance phase of running (P≤0.05; low to moderate effect size). Taping application increased and decreased the vertical loading rate (19%, P=0.047, moderate effect size) and the peak free moment values (P≤0.001), respectively. The values of the anterior-posterior and vertical impulses during taping condition were greater than that of without taping condition (P≤0.001; low effect size). Conclusion: Femoral external rotational and abductoral taping could improve the values of free moment, but this is not the case in vertical loading rate during the stance phase of running.

Keywords: Taping, Running, Ground reaction force, Loading rate, Impulse

Full-Text [PDF 1048 kb] (1467 Downloads)

Type of Study: Research |
Received: 2017/08/26 | Accepted: 2018/01/8 | Published: 2018/02/4

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