Lower extremity biomechanics during single-leg drop jump in female basketball players with dynamic knee valgus alignment
The objectives of this study were to quantify the contribution of joint motion to dynamic knee valgus and to classify dynamic knee valgus alignment during single-leg jump landing motion in young female basketball players according to the dominant joint motion. Participants were 64 young female baske...
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Japanese Society of Physical Fitness and Sports Medicine
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doaj-cf3f1c47e7bd4b9496cabad96b5bdf432021-05-31T02:24:17ZengJapanese Society of Physical Fitness and Sports MedicineJournal of Physical Fitness and Sports Medicine2186-81312186-81232013-11-012450150810.7600/jpfsm.2.501jpfsmLower extremity biomechanics during single-leg drop jump in female basketball players with dynamic knee valgus alignmentHirokazu Kobayashi0Tomonao Kanamura1Sentaro Koshida2Koji Miyashita3Tsuruo Okado4Takuya Shimizu5Kiyoshi Yokoe6Faculty of Health Science, Nihon Fukushi UniversityInstitute of Sports Medicine and ScienceFaculty of Health Sciences, Ryotokuji UniversityCollege of Life and Health Sciences, Chubu UniversityInstitute of Sports Medicine and ScienceGraduate School of Health and Sport Science, Chukyo UniversityInstitute of Sports Medicine and ScienceThe objectives of this study were to quantify the contribution of joint motion to dynamic knee valgus and to classify dynamic knee valgus alignment during single-leg jump landing motion in young female basketball players according to the dominant joint motion. Participants were 64 young female basketball players (age 16.1 ± 0.7 years, body mass 58.8 ± 7.8 kg, height 165.4 ± 9.3 cm, and body mass index 21.5 ± 1.8). We collected the motion data with 12 digital video cameras and calculated the knee-in angle and the toe-out angle in the frontal view to select the neutral and dynamic valgus (Knee-in & Toe-out: KI) groups. We also established three-dimensional data of hip, knee, and ankle joint motion. The results demonstrated that the ranges of hip adduction and knee valgus motion were significantly greater in the KI group than in the neutral group (P < 0.0063). In addition, the participants in the KI group were categorized into three different groups: hip dominant type (8 players), knee dominant type (6 players) and foot dominant type (6 players), depending on the dominant relative joint motion for dynamic knee valgus. Our current results suggest that, like other strength training programs, a lower extremity injury prevention program may need to be designed based on detailed kinematic assessment of an individual athlete.https://www.jstage.jst.go.jp/article/jpfsm/2/4/2_501/_pdf/-char/eninjury preventionlower extremity biomechanicsanterior cruciate ligament |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Hirokazu Kobayashi Tomonao Kanamura Sentaro Koshida Koji Miyashita Tsuruo Okado Takuya Shimizu Kiyoshi Yokoe |
spellingShingle |
Hirokazu Kobayashi Tomonao Kanamura Sentaro Koshida Koji Miyashita Tsuruo Okado Takuya Shimizu Kiyoshi Yokoe Lower extremity biomechanics during single-leg drop jump in female basketball players with dynamic knee valgus alignment Journal of Physical Fitness and Sports Medicine injury prevention lower extremity biomechanics anterior cruciate ligament |
author_facet |
Hirokazu Kobayashi Tomonao Kanamura Sentaro Koshida Koji Miyashita Tsuruo Okado Takuya Shimizu Kiyoshi Yokoe |
author_sort |
Hirokazu Kobayashi |
title |
Lower extremity biomechanics during single-leg drop jump in female basketball players with dynamic knee valgus alignment |
title_short |
Lower extremity biomechanics during single-leg drop jump in female basketball players with dynamic knee valgus alignment |
title_full |
Lower extremity biomechanics during single-leg drop jump in female basketball players with dynamic knee valgus alignment |
title_fullStr |
Lower extremity biomechanics during single-leg drop jump in female basketball players with dynamic knee valgus alignment |
title_full_unstemmed |
Lower extremity biomechanics during single-leg drop jump in female basketball players with dynamic knee valgus alignment |
title_sort |
lower extremity biomechanics during single-leg drop jump in female basketball players with dynamic knee valgus alignment |
publisher |
Japanese Society of Physical Fitness and Sports Medicine |
series |
Journal of Physical Fitness and Sports Medicine |
issn |
2186-8131 2186-8123 |
publishDate |
2013-11-01 |
description |
The objectives of this study were to quantify the contribution of joint motion to dynamic knee valgus and to classify dynamic knee valgus alignment during single-leg jump landing motion in young female basketball players according to the dominant joint motion. Participants were 64 young female basketball players (age 16.1 ± 0.7 years, body mass 58.8 ± 7.8 kg, height 165.4 ± 9.3 cm, and body mass index 21.5 ± 1.8). We collected the motion data with 12 digital video cameras and calculated the knee-in angle and the toe-out angle in the frontal view to select the neutral and dynamic valgus (Knee-in & Toe-out: KI) groups. We also established three-dimensional data of hip, knee, and ankle joint motion. The results demonstrated that the ranges of hip adduction and knee valgus motion were significantly greater in the KI group than in the neutral group (P < 0.0063). In addition, the participants in the KI group were categorized into three different groups: hip dominant type (8 players), knee dominant type (6 players) and foot dominant type (6 players), depending on the dominant relative joint motion for dynamic knee valgus. Our current results suggest that, like other strength training programs, a lower extremity injury prevention program may need to be designed based on detailed kinematic assessment of an individual athlete. |
topic |
injury prevention lower extremity biomechanics anterior cruciate ligament |
url |
https://www.jstage.jst.go.jp/article/jpfsm/2/4/2_501/_pdf/-char/en |
work_keys_str_mv |
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