Hossein Ahadi, Mehdi Khaleghi Tazeji, Hassan Sadeghi, Rasuol Yaali,
Volume 0, Issue 0 (11-2019)
Abstract
Introduction: Balance is a key component of motor control and plays a crucial role in maintaining postural stability during dynamic tasks such as landing and changing direction. Time to stability is a sensitive indicator of neuromuscular efficiency in restoring balance after mechanical perturbations.
Purpose of study: The purpose of this study was to examine the effects of balance training with and without stroboscopic glasses on TTS in physically active individuals.
Methods: In this Randomized Controlled Trial study, 39 physically active men aged 18–30 years were randomly assigned to three groups: balance training with stroboscopic glasses, conventional balance training, and control. Participants completed six weeks of progressive balance exercises. TTS during single-leg landings from 30, 50, and 70 cm was measured using a force plate. Data were analyzed using ANCOVA and Bonferroni post hoc tests with a significance level of 0.05.
Results: The results of the analysis of covariance (ANCOVA) indicated that both training groups showed a significant improvement in time to stabilization compared with the control group (p < 0.05).A significant main effect of group was observed at 30 cm (η² = 0.34, F = 8.40, p = 0.001), 50 cm (η² = 0.25, F = 5.33, p = 0.010), and 70 cm (η² = 0.30, F = 6.96, p = 0.003).
The reduction in time to stabilization was greater in the stroboscopic eyewear group at the 50- and 70-cm landing heights and was accompanied by larger effect sizes. At the 30-cm height, both training groups demonstrated similar improvements.
Conclusion: Intentional visual perturbation using stroboscopic glasses enhances reliance on proprioceptive and vestibular inputs, improving dynamic balance control. Integrating stroboscopic glasses into balance training programs may be an effective strategy to enhance performance and reduce the risk of lower-limb injuries in athletes.
Keywords: Balance training, stroboscopic glasses, time to stability
H Arazzadeh, A.a Norasteh,
Volume 17, Issue 17 (4-2019)
Abstract
Although to improve balance and grasp the proprioception, recommended balance exercises, but there is not clear mechanism for the effectiveness of equilibrium training on healthy subjects. Suitable interaction of varios system of body and environment are necessary to maintain of the balance. Balance exercise is prescribed to improve balance and proprioception. There is not clear mechanism about the effectiveness of these exercise on healthy subjects. So The purpose of this study was to the Effect of 8 weeks of ankle-specific balance training on the balance and knee and ankle proprioception of adolescent volleyball players. the statistical sample of this study was 30 adolescent volleyball players in the league Golestan Which were selected as accessible and were randomly assigned into experimental and control groups. The experimental group performed 8 weeks and 3 sessions per week of ankle-specific balance. The results showed that there was a significant difference in the mean of balance and errors in reconstructing the angles of knee and ankle after exercise in the experimental group, while in the control group it was not significant. Results of this study showed that Balance Training can improve balance and proprioception in the knee and the ankle.
Karar Khajeh Nemat, Heydar Sadeghi, Ismaeil Ebrahimi Takamjani, Raghad Memar,
Volume 18, Issue 20 (11-2020)
Abstract
Proprioception is essential for joint function and through which individual can detect body parts movement in space. Aim of present study is to investigate effect of balance training on unstable platform with tilting, translation and combined motion on knee joint position sense in active young males. 39 healthy active male divided in to three training and control (n=9) groups. Training on unstable platform with tilting motion group (n=10), Training on unstable platform with translating motion group (n=10) and combined training group (n=10) performed exercises program for 8 weeks, three times a week. Errors in repositioning of knee joint in 30, 45 and 60⁰ angles (active and passive) was measured by Biodex system 3, before and after training period. Data was analysed by using one-way ANOVA test (P≤0/05). Although after 8 weeks, active and passive errors in repositioning of knee joint in mentioned angles decreased in training groups but this difference was not significant (P≤0/05). Balance training on unstable platform alone cannot have a big effect on knee joint position sense in active young male.
