Comparative Effects of Sensory Integration Therapy and Balance Board Training in Community Dwelling Older Adults

Not Applicable

Recruiting

• Conditions: Geriatrics
• Interventions: Other: Sensory Integration Therapy; Other: Balance Board Training

• Registration Number: NCT06476743
• Lead Sponsor: Riphah International University

Brief Summary

Balance plays a significant role in stability and walking and it's essential for improving the quality of life and functional autonomy while reducing the risk of falling. This research intends to shed light on the advantages of sensory integration therapy and balance board training because it is important to addressing the issues related to ageing and their possible effects.

Detailed Description

Previously the study was conducted to determine how sensory integration training affected older persons (aged 50 to 80) in terms of their ability to balance. Twelve healthy volunteers and eight people who had suffered a chronic stroke were included in this study. The participants were trained for six weeks. During standing and dynamic base-of-support exercises, repeated sensory training targeted visual and somatosensory inputs. The balance error scoring system, was used to evaluate standing balance both before and after training. With the exception of the most difficult condition (the single leg stand on a foam surface), there were no appreciable declines (improvements in balance) between pre and post-test for the healthy individuals. It was noted that the stroke participants' ability for balance had increased.

The study conducted in 2021 aimed at the comparison between the effects of virtual reality training (VRT) and conventional balance training (CBT) on the balance of the elderly. 36 elderly who are living in nursing homes were randomly divided into three groups: virtual reality training, conventional balance training and control group. Each group participated in a 60 min session, 3 times per week for 9 weeks. To assess the balance, the balance tests were used on single-leg stance (STS) with open and closed eyes, functional reach test (FRT), timed up and go test (TUG) and Fullerton advance balance scale (FABS). After the intervention the results showed that neither VRT nor CBT training method superior to other.

In 2020, a study was conducted to determine how combined strength and balance training affected the measurements of muscular strength and balance in older women who had previously had falls. Twenty-seven senior ladies were divided into two groups at random: the intervention group (IG, n = 12) and the control group (CG, n = 15). The IG underwent eight weeks of combined strength and balance training, consisting of three sessions per week with force plate visual biofeedback. .. At a rehabilitation facility, the CG got physical treatment and gait training. balance, and muscle strength (assessed by the sit-to-stand test, weight-bearing squat, which calculates the proportion of body mass supported by each leg at various knee flexions \[0°, 30°, 60°, and 90°). The modified clinical test of sensory interaction was utilized for balance assessments. This study shows that combined strength and balance training reduced sway oscillation in the IG and enhanced the percentage distribution of body weight between the legs.

Previously a study aimed to assess the efficacy of long term balance training with and without sensory augmentation among community dwelling healthy older adults. Twelve participants were randomly assigned into two groups. The experimental group received vibrotactile sensory augmentation through the smart phone balance trainers. While the control group performed exercises without sensory augmentation. Balance performance was assessed by using (activity balance confidence scale, sensory organization test, mini balance evaluation, Functional reach test, gait speed test, time up and go). After training the experimental group had significantly greater impairments in sensory organization test and mini balance evaluation systems test score than control group.

The study was conducted aimed to investigate the feasibility of a home based Wi balance training with mobile older stroke survivors. 14 persons participated in the study and were randomized to the training group (n=6) and the conventional balance training group (n=8). To get information about individual balance deficits that berg balance scale and dynamic gait index, ABC scale, timed up and go test (TUG) and a posturographic measurement were conducted. The results showed that unsupervised use of Wii balance board in the home environment seems possible and adequate for older stroke survivors with low functional limitation.

The study was to assess to which extent two similar skiing games challenge balance, as reflected in center of mass (COM) movements relative to their functional limits of stability (FLOS). Thirty young and elderly participants performed two skiing games, one on the Wii balance board (wiiski), which uses a force plate and one with the Kinect sensor (kinski), which performs motion tracking. During gameplay, kinematics were captured using seven opto electronical cameras. Subjects showed significantly larger maximal %FLOS displacement during the kinski game than during the Wiiski game. Furthermore, maximal COM displacement and COM speed in kinski remained similar or increased over trials, whereas for Wiiski it decreased.

Though, exercise is considered significant for older adults, most of the available literature and publications focuses on individual exercise interventions rather than directly comparing them. Thus, up to the author's knowledge, no studies have been found to compare how balance board training and sensory integration treatment affects functional mobility, postural stability, balance, and fall risk. Moreover, the literature on the relationship between improving balance and sensory integration is quite thin. Among latest researches, only fewer provide thorough procedures for sensory integration treatment and balance board training. Therefore, Present study aims to bridge this gap by optimizing exercise strategies and providing the evidence-based recommendations tailored to the unique needs of older adults.

Study Timeline

• Study Start: 2024-02-01
• Status Verified: 2024-06
• Study First Submitted: 2024-06-11
• Study First Submitted QC: 2024-06-24
• Last Update Submitted: 2024-06-24
• Study First Posted: 2024-06-26
• Last Update Posted: 2024-06-26
• Primary Completion: 2024-08-30
• Study Completion: 2024-08-30

Recruitment & Eligibility

• Status: RECRUITING
• Sex: All
• Target Recruitment: 58

Inclusion Criteria

• Should be living independently (FIM 108-126).
• No history of lower limb injury in the 1 year prior to the study.
• Individuals with MMSE score greater than or equal to 24.
• Individuals with BBS score 41-56.

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Exclusion Criteria

• Individuals with recent cardiac or neurological changes in medical status.
• Individuals with recent surgical procedures within the last 6 months will not include in the study.
• Individuals with the presence of inner ear problems, dizziness, long-term medication.
• A history of injury within 1 year before the study.

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Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Sensory Integration Therapy	Sensory Integration Therapy	Sensory integration therapy in older adults focuses on optimizing sensory processing to enhance overall function and well-being. It aims to improve sensory perception, coordination, and integration, which are essential for maintaining balance and mobility
Balance Board Training	Balance Board Training	Balance board training in older adults is a targeted approach aimed at enhancing stability and reducing fall risk. Utilizing specialized boards, it challenges balance control and proprioception, crucial for maintaining equilibrium. Through regular practice, older adults can improve muscle strength, coordination, and confidence in weight-bearing activities

Primary Outcome Measures

Name	Time	Method
Berg Balance Scale	8th week	Berg balance scale is used to find and access the balance issues. This scale consists of 14 task which related to everyday life. Each function rates from 0 (worst) to 4 (best) along a dependence and independence sequence. In this test, we gradually reduce the base of support from sitting and standing to single-leg stance, assess a subject's capacity to sustain positions or movements of increasing difficulty. One's ability to change position is also evaluated

Secondary Outcome Measures

Name	Time	Method
Time up and go test	8th week	The TUG test measures the time, in seconds, taken by an individual to stand up from a standard arm chair, walk at their standard pace a distance of 3 meters, turn, walk back to the chair, and sit down. The TUG is widely used because it is reliable and it tests several important balance and mobility skills, including, sit-to-stand transitions, turning, and gait. Time less than 13.5 seconds indicate good mobility.
Fall risk assessment tool	8th week	The Johns Hopkins Fall Risk Assessment Tool (JHFRAT) is a tool that makes possible to implement a multi-factorial assessment of the risk of falling in a simple way, which requires an average of 5 min for its completion. The maximum score for this tool is 20. Score of 16-20 indicate high risk of fall, while the score between 5-10 indicate low risk of fall.
Functional Reach Test	8th week	Functional reach test is designed to assess the postural stability. During the test, the person stands next to a wall with their arm raised to 90 degrees. They then reach forward as far as possible without taking a step, while maintaining their balance. The distance reached is measured from the starting position to the fingertips at maximum reach.; A score of 6 or less indicate poor postural stability thereby increasing risk of fall.; A score greater than 10 indicates good postural stability and minimum risk of fall

Trial Locations

Locations (2)

Al-Shifa Malik Hospital; 🇵🇰 Lahore, Punjab, Pakistan

Gosha e Shifa Hosital; 🇵🇰 Lahore, Punjab, Pakistan