The Effect of Different Support Surface on Postural Sway and Limits of Stability in Healthy Individuals
Overview
- Phase
- Not Applicable
- Intervention
- Not specified
- Conditions
- Healthy
- Sponsor
- Recep Tayyip Erdogan University Training and Research Hospital
- Enrollment
- 60
- Locations
- 1
- Primary Endpoint
- Postural Sway
- Status
- Completed
- Last Updated
- 2 years ago
Overview
Brief Summary
This study will evaluate how age, visual sensation and different ground properties affect of postural sways and stability limits at different support surface widths. 60 individuals will be included in this study.
Detailed Description
Balance is considered to be an important component of performance during activity as a result of a complex process in which musculoskeletal and neurological systems function. Two different balance states are defined as the static balance where the individuals maintain their inactive position or the dynamic balance when they perform a foreseen movement. The balance is maintained by keeping the center of gravity within the boundaries of the support surface and is provided by sensory impulses from the visual, vestibular and somatosensory systems organized by the central nervous system. Balance is an important factor to lead an independent life, and it is imperative that the balance be ensured in order to ensure that daily living activities are performed safely. The neural control of the bipedal posture varies depending on the width of the supporting surface, which has a significant impact on the frontal plane biomechanics. There is a linear relationship between increased support surface size and mechanical stability. In experimental studies, it has been shown that increasing muscle width levels in response to translational perturbations seen on the support surface on the horizontal plane have decreased with increasing step width. The changes in the preferred support surface vary depending on the age of the external environment, recurrent falls due to decreased sensory input, or various neurological disorders. However, there are few quantitative studies examining the relationship between different support surface widths and equilibrium, and the effect of posture width on sensory feedback control is still poorly understood. This study was planned to evaluate the effect of age, visual sensation and different soil properties on postural release and stability limits at different support surface widths.
Investigators
Melek Merve ERDEM
Research Assistant
Recep Tayyip Erdogan University Training and Research Hospital
Eligibility Criteria
Inclusion Criteria
- •Healthy individuals aged between 18-50
- •Without any diagnosed disease
- •Individuals who voluntarily agree to participate in this research
Exclusion Criteria
- •The presence of previous lower extremity surgery
- •Pain during evaluation
- •Foot ankle instability
- •Important and irreversible visual deficits
- •Body mass index (BMI) greater than\> 40 kg / m²
- •Limitation of ankle, knee and hip joint in lower extremity
- •Muscle strength of the lower extremity (dorsiflexors, plantar flexors, quadriceps, hamstring, gluteus maximus, gluteus medius) and the trunk (rectus abdominous, internal and external oblique abdominals, back extensor) below 5.
Outcomes
Primary Outcomes
Postural Sway
Time Frame: 1 week
Postural sways were used to evaluate dynamic balance. Postural sway, in terms of human sense of balance, refers to horizontal movement around the center of gravity. Postural sway was assessed during quite standing with open/closed eyes on a hard/soft floor with the Bertec Balance System on 4 different support surfaces: adjacent feet, width of the bitrochanteric diameter, increased by 50% width of the bitrochanteric diameter and reduced by 50% of the width of the bitrochanteric diameter randomly.
Secondary Outcomes
- The Limits of Stability(1 week)