Peripheral sensory information and postural control in children with strabismus

Publication date: Available online 23 July 2018

Source: Gait & Posture

Author(s): Prasath Jayakaran, Logan Mitchell, Gillian M Johnson

Abstract

Background

Sensory feedback from the visual system along with the vestibular and somatosensory systems is essential for the regulation of normal postural control. Children with strabismus and, therefore, with abnormal binocular vision, may have an altered perception of space and use different sets of cues to determine depth perception when compared with children without strabismus.

Objective

To explore the postural control of children with and without strabismus, when the three sensory systems are challenged.

Method

Forty-six children (21 with strabismus and 25 age-matched controls) aged between 5 and 10 years completed ophthalmic screening and then underwent assessment for postural control, which included Paediatric Balance Scale (PBS) and six conditions of the Sensory Organization Test (SOT). Four primary outcome measures were: PBS summary score, Equilibrium Score (ES), Strategy Score (SS) and Sensory Analysis Score of the SOT.

Results

A significant difference (P < 0.05) was observed between the strabismus and non-strabismus group in the PBS and, ES and SS of SOT condition 1. The Sensory Analysis values were significantly different (P = 0.03) between the groups for ‘Somatosensory’. Simple linear regression analysis suggested that the strabismus condition was significantly (P ≤ 0.02) associated with the PBS and, the ES and SS of condition 1, with a variance of 14.6%, 16.1% and 12.8%, respectively. Subgroup analysis suggested that age was a significant (P ≤ 0.001) predictor for balance scores in non-strabismus group (R² ranged from 32% to 58.4%), but not for the strabismus group.

Significance

Postural control in children with strabismus is not equivalent to that of children without strabismus, when their somatosensory system is challenged. Additionally, the functional balance performance of children with strabismus is lower than their counterparts without strabismus. Collectively, the results suggest that the usual improvement in balance performance with increasing age is observed in children without strabismus but not in children with strabismus.

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Peripheral sensory information and postural control in children with strabismus

Publication date: Available online 23 July 2018

Source: Gait & Posture

Author(s): Prasath Jayakaran, Logan Mitchell, Gillian M Johnson

Abstract

Background

Sensory feedback from the visual system along with the vestibular and somatosensory systems is essential for the regulation of normal postural control. Children with strabismus and, therefore, with abnormal binocular vision, may have an altered perception of space and use different sets of cues to determine depth perception when compared with children without strabismus.

Objective

To explore the postural control of children with and without strabismus, when the three sensory systems are challenged.

Method

Forty-six children (21 with strabismus and 25 age-matched controls) aged between 5 and 10 years completed ophthalmic screening and then underwent assessment for postural control, which included Paediatric Balance Scale (PBS) and six conditions of the Sensory Organization Test (SOT). Four primary outcome measures were: PBS summary score, Equilibrium Score (ES), Strategy Score (SS) and Sensory Analysis Score of the SOT.

Results

A significant difference (P < 0.05) was observed between the strabismus and non-strabismus group in the PBS and, ES and SS of SOT condition 1. The Sensory Analysis values were significantly different (P = 0.03) between the groups for ‘Somatosensory’. Simple linear regression analysis suggested that the strabismus condition was significantly (P ≤ 0.02) associated with the PBS and, the ES and SS of condition 1, with a variance of 14.6%, 16.1% and 12.8%, respectively. Subgroup analysis suggested that age was a significant (P ≤ 0.001) predictor for balance scores in non-strabismus group (R² ranged from 32% to 58.4%), but not for the strabismus group.

Significance

Postural control in children with strabismus is not equivalent to that of children without strabismus, when their somatosensory system is challenged. Additionally, the functional balance performance of children with strabismus is lower than their counterparts without strabismus. Collectively, the results suggest that the usual improvement in balance performance with increasing age is observed in children without strabismus but not in children with strabismus.

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Balance performance in older adults with hip osteoarthritis: A systematic review

Publication date: September 2018

Source: Gait & Posture, Volume 65

Author(s): Alexandra M.A. Picorelli, Anna L. Hatton, Elise M. Gane, Michelle D. Smith

Abstract

Background

The hip is one of the most common joints affected by osteoarthritis (OA) and it has been identified as a key risk factors for falls. Physical impairments associated with OA, such as joint pain, muscle weakness, joint stiffness and sensory dysfunction, can all negatively affect balance and increase risk of falling.

Question

Is balance performance altered in older adults with hip osteoarthritis? To determine whether static, dynamic, reactive or functional balance performance is altered in older people with hip osteoarthritis.

Methods

Quantitative measures of postural control, including clinical and lab-based assessment of static, dynamic, reactive and/or functional balance performance, compared with a healthy control group or to the asymptomatic limb.

Results

A total of 5407 articles were identified and 14 papers were included (10 with standardised mean different (SMD) data, four without SMD data). Based on data from single studies, there were medium/large effects for increased medio-lateral displacement when standing with eyes open, increased anterior-posterior and total sway path length when standing with eyes closed, greater overall instability when standing on an unstable surface, and increased displacement toward the stance leg in a lateral step in hip OA compared with controls.

Conclusion

Balance impairments were identified in some measures, limiting the conclusions as to whether balance deficits are a problem in hip OA. Inconsistent findings suggest that balance may not be a primary contributor to increased falls risk in older adults with hip OA. Other factors, such as musculoskeletal deficits, may contribute to higher falls rate in this population.

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P 130—The influence of different settings on accuracies of gait algorithms

Publication date: Available online 23 July 2018

Source: Gait & Posture

Author(s): E. Warmerdam, M.H. Pham, C. Hansen, W. Maetzler

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Balance performance in older adults with hip osteoarthritis: A systematic review

Publication date: September 2018

Source: Gait & Posture, Volume 65

Author(s): Alexandra M.A. Picorelli, Anna L. Hatton, Elise M. Gane, Michelle D. Smith

Abstract

Background

The hip is one of the most common joints affected by osteoarthritis (OA) and it has been identified as a key risk factors for falls. Physical impairments associated with OA, such as joint pain, muscle weakness, joint stiffness and sensory dysfunction, can all negatively affect balance and increase risk of falling.

Question

Is balance performance altered in older adults with hip osteoarthritis? To determine whether static, dynamic, reactive or functional balance performance is altered in older people with hip osteoarthritis.

Methods

Quantitative measures of postural control, including clinical and lab-based assessment of static, dynamic, reactive and/or functional balance performance, compared with a healthy control group or to the asymptomatic limb.

Results

A total of 5407 articles were identified and 14 papers were included (10 with standardised mean different (SMD) data, four without SMD data). Based on data from single studies, there were medium/large effects for increased medio-lateral displacement when standing with eyes open, increased anterior-posterior and total sway path length when standing with eyes closed, greater overall instability when standing on an unstable surface, and increased displacement toward the stance leg in a lateral step in hip OA compared with controls.

Conclusion

Balance impairments were identified in some measures, limiting the conclusions as to whether balance deficits are a problem in hip OA. Inconsistent findings suggest that balance may not be a primary contributor to increased falls risk in older adults with hip OA. Other factors, such as musculoskeletal deficits, may contribute to higher falls rate in this population.

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P 130—The influence of different settings on accuracies of gait algorithms

Publication date: Available online 23 July 2018

Source: Gait & Posture

Author(s): E. Warmerdam, M.H. Pham, C. Hansen, W. Maetzler

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Researcher Receives Grant to Find a Potential Cure for Hearing Loss

​The National Health Service and the Department of Health in the United Kingdom have awarded the Action on Hearing Loss grant to Raj Ladher, PhD, to help him continue his work on protocadherin-15, which could be the key to unlocking a cure for hearing loss. The new funds will allow Ladher's group to understand if modified protocadherin-15 in the hair cells alters the way in which they respond to sound and how hair cells turn sound vibration information into electrical signals that the brain can process. Mutations in protocadherin-15, which is crucial in allowing the inner ear to detect sound and balance information, cause hearing loss. Ladher's research can therefore potentially suggest ways in which protocadherin-15 can be targeted to develop treatments for hearing loss.​

Published: 7/20/2018 1:39:00 PM

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Researcher Receives Grant to Find a Potential Cure for Hearing Loss

​The National Health Service and the Department of Health in the United Kingdom have awarded the Action on Hearing Loss grant to Raj Ladher, PhD, to help him continue his work on protocadherin-15, which could be the key to unlocking a cure for hearing loss. The new funds will allow Ladher's group to understand if modified protocadherin-15 in the hair cells alters the way in which they respond to sound and how hair cells turn sound vibration information into electrical signals that the brain can process. Mutations in protocadherin-15, which is crucial in allowing the inner ear to detect sound and balance information, cause hearing loss. Ladher's research can therefore potentially suggest ways in which protocadherin-15 can be targeted to develop treatments for hearing loss.​

Published: 7/20/2018 1:39:00 PM

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