Dominance of Sensory Inputs in Maintaining Balance among Acute and Subacute Stroke Patients
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Stroke leads to hemiparesis which further leads to poor balance. Established fact behind this balance problem is motor weakness and this study focuses on the influence of sensory system over imbalance among these subjects. The objective of the study was to analyze the influence of visual, vestibular and somatosensory systems in maintaining balance among acute and sub acute stroke patients using the CTSIB (Clinical Test For Sensory Integration and Balance) test&in addition to determine whether there are any alterations in the dominance of sensory inputs among sub acute stroke patients.
Metbods
A total of 31 patients with hemiparesis secondary to unilateral CVA were tested. Subjects were divided into an acute (A) and a sub acute (B) group. Study design: Descriptive study. Timed performances under six different conditions were compared across the two groups using the CTSIB. The CTSIB is a timed test in which the postural sway is measured while the subject stands quietly under 6 different conditions that alters the availability and accuracy of visual, vestibular and somatosensory inputs for postural orientation.
Results
Patients in the acute group demonstrated a poor score in all compliant surface conditions and a very low score in conditions 5 and 6 with a mean score of 5.56 and 8.25 respectively, whereas those of the sub acute groups have a higher mean of 23.73 and 28.93 respectively. When comparing the scores between the two groups using two way ANOVA, it was found that there was a statistically insignificant difference in conditions 1, 2 and 3. A statistically significant difference was noted in condition 4 (P< 0.05) and high level of significance was noted in conditions 5 and 6 between the groups with P value of < 0.001.
Discussion and conclusion
based on the results of this study it was concluded that patients with acute hemiplegia rely excessively on their visual system for maintaining balance and this becomes a natural compensatory strategy for coping with poor balance. Dominance or excessive reliance on the visual system among these patients causes suppression and masking of two other systems (vestibular and somatosensory). Unmasking of the influence of somatosensory system is seen in sub acute patients and this unmasking can occur as early as 1 to 5 months following stroke.
- Ralph L. Sacco (1995) Vascular disease etiology and pathogenesis In; Rowland editor. Merits textbook of Neurology Philadelphia: Lea and Febiger; Pg-227
- Susan B. O Sullivan (2001) Stroke in; Physical Rehabilitation: Assessment and Treatment: Fourth edition; Pg- 520
- Loewen SC. Anderson BA. Predictors of stroke outcome using objective measure scales. Stroke 1990;21: 78-81
- Kwakkel G. Wagenaar RC. Kollen BJ Lankhorst GJ. Predicting disability in stroke: a critical review of literature. Age aging. 1996;25:476-489
- Lamb SE. Ferrucci L. volapto S, et al. risk factors for falling in home dwelling older women with stroke. Stroke 2003;34: 494-501
- Janet Carr and Roberta Shepherd: Neurological rehabilitation optimizing motor performance; Balance Pg- 705
- Brunnstrom (1970) walking preparation and gait training- trunk balance In: Brunnstrom’s movement therapy in hemiplegia: a neurological approach; second edition: Pg-146.
- Hirschfeld H.(1992) on the integration of posture, locomotion and voluntary movement in human: normal and impaired development. Dissertation. Karolinska Institute, Stockholm, Sweden.
- Gurfinkel VS, Levick Yu S (1991). Perceptual and automatic aspects of the postural body scheme. In: Piallard J, ed. Brain and space. NY: Oxford science publishers.
- Winter, D.A., Patla, A.E and Frank, J.S. (1990) Assessment of balance control in Humans. Medical Progress through Technology, 16, Pg: 31-51
- Richard D Di Fabio. Assessing the influence of sensory interaction on balance: suggestion from the field. Phys Ther 1986;66: 1548-1550.
- Helene Corriveau et al (2004) Evaluation of postural stability in elderly with stroke: Arch Phys Med Rehabil. July 2004 Vol 85 Pg:1095-1101.
- Ruth Ann Geiger et al (2001) Balance and mobility following stroke: Effect of Physical therapy interventions with and without biofeedback/ forceplate training: Physical Therapy 2001 April Vol 81. No 4 Page 995-1005
- Garland SJ (2003) Recovery of standing balance and functional mobility after stroke. Arch Phy Med Rehabil 2003 dec 84(12) 1753-1759
- Isabelle V. Bonan,(2004) Reliance on Visual Information After Stroke. Part I: Balanceon Dynamic Posturography Arch Phys Med Rehabil Vol 85, February 2004
- Carr JH et al (1985) Investigation of a new motor assessment scale for stroke patients. Phys Ther. 1985 Feb;65(2):175-80
- Richard D Di Fabio. Assessing the influence of sensory interaction on balance: suggestion from the field. Phys Ther 1986;66: 1548-1550
- Dietz V et al (1992) Human neurological control of automatic functional movement: interaction between central programs and afferent input. Phys Rev 1992; 72: 33-69
- Nashner LM (1990). Sensory, neuromuscular and biomechanical contributions to balance. In Balance, proceedings of the APTA forum. Alexandria. VA: APTA, 1990: 5-13
- Isabelle V. Bonan et al (2004) Reliance of visual information after stroke. Part II: Effectiveness of a balance rehabilitation program with visual cue deprivation after stroke: A randomized control trial. Arch Phy Med Rehabil Vol 85, feb 2004.
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