Effects of a sagittal position of the body gravity center and manual weight-load on postural control during rapid arm-lifting.
- VernacularTitle:急速上肢挙上時の立位姿勢調節に対する身体重心の前後方向の位置と重量負荷の影響
- Author:
KATSUO FUJIWARA
;
HIROSHI TOYAMA
;
HITOSHI ASAI
;
TADAHIKO YAMASHINA
- Publication Type:Journal Article
- Keywords:
Standing posture;
Anticipatory postural control;
Rapid arm lifting;
Gravity center;
Weight load
- From:Japanese Journal of Physical Fitness and Sports Medicine
1991;40(4):355-364
- CountryJapan
- Language:Japanese
-
Abstract:
A study was conducted to investigate the effects of a sagittal position of the body gravity center (GCP) and manual weight-load on postural control during rapid arm-lifting. The subjects were five males aged 21 to 36 years. They stood on a force plate while maintaining the GCP at 30%, 45% and 60% from the heel, regarding the fool length as 100%, and anteriorly lifted both arms spontaneously as rapidly as possible. These trials were carried out ten times under a 5 kg weight or no weight. EMGs of the biceps femoris muscle (BFM) and anterior deltoid muscle (ADM), the fluctuation of the center of foot pressure (CFP) and body motion were analyzed by focusing on their time sequences.
At 45% and 60% GCP the BFM action started prior to the ADM action, whereas at 30% GCP it tended to lag behind. The lag times under no weight were 13.9±12.75 ms (mean±SD) at 30% GCP, -32.7±18.18 ms at 45% GCP and -46.0±19.40 ms at 60% GCP. Those under 5 kg weight were 15.0±11.40 ms at 30% GCP, -22.0±6.74 ms at 45% GCP and -28.9±7.63 ms at 60% GCP. These results indicate that the anticipatory action of the muscle related to postural control arises only at specific GCPs.
The difference of starting points for BFM action to ADM action showed no significant difference between 45% and 60% GCP for either as 5 kg or no weight. The CFP position moving in a forward direction during arm-lifting showed a marked difference between 45% and 60% GCP. The time for arm-lifting showed a marked difference between 5 kg and no weight. These results suggest that the starting point of anticipatory muscle action related to postural control does not change according to the magnitude and time course of the distance to the body equilibrium as a result of arm-lifting.
