Comparison of Neuromuscular and Aquatic Exercise Programs on Fall Risk and Physical Function in Geriatrics

Study Results

Results pending

The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.

Basic Information

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Recruitment Status

COMPLETED

Clinical Phase

NA

Total Enrollment

46 participants

Study Classification

INTERVENTIONAL

Study Start Date

2024-03-04

Study Completion Date

2024-10-30

Brief Summary

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Objective: The aim of this study is to compare neuromuscular and aquatic Exercise programs on fall risk and physical function in geriatrics.

Methods: As a result of the power analysis (G-Power), 36 participants are planned to be included in this study Block randomization will be used to divide participants into 2 groups, each with at least 18 participants: Group 1 (NE Group) and Group 2 (AE Group) (Randomizer.org). NE (Neuromuscular Exercise) group will participate in a 12-week exercise program consisting of sensorimotor system training, postural stability and control, global and local joint stabilization, balance training, muscle strength, breathing, and functional movement patterns.AE (Aqıuatic Exercise) Group will participate in an aquatic exercise program, which includes warm-up, mobility and strength, stretching, and cooling exercises in a 140 cm deep pool with a water temperature of 32 °. Data will be collected using the International Physical Activity Survey Short Form (IPAQ-SF), Montreal Cognitive Assessment Scale (MoCA), Geriatric Pain Measure, Optojump-next (Microgate, Bolzano, Italy), 6-minute Walk Test, 30-second-Sit-to-Stand Test, Four Step Square Test, Berg Balance Scale, Fear of Falling Avoidance Behavior Questionnaire.

Practice Implications: This current study will contribute to the understanding of how neuromuscular exercises affect falls and physical function in geriatrics.

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Detailed Description

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Human aging is a complex and individual process that occurs in biological, psychological, and social areas. The metabolic and physicochemical characteristics of cells gradually change with age, a process known as biological aging. This results in cellular self-regulation, regeneration, and structural alterations as well as the degeneration of healthy tissues and organs.

Physical performance impairments are linked to a wide range of negative health consequences, including osteoporosis, falls, and fractures, and are one of the most important health problems in geriatrics. Proprioceptive perception is significantly related to postural stability. Musculoskeletal system disorders (in physiological, neurological, kinesthetic, auditory, vestibular proprioception, and cognitive systems) cause balance problems, which may lead to an increase in the frequency of falls in the elderly. Exercise is critical for healthy aging and may improve walking and balance and reduce the risk of falls in the geriatric population.

Neuromuscular exercise is a relatively broad class of exercise programs that include programs aimed at improving balance, muscle activation, functional alignment, and functional joint stability, known by terms such as functional exercise, proprioceptive, agility, or perturbation training. Unlike traditional strength training, neuromuscular exercise addresses the quality of movement and emphasizes joint control in all three planes. The primary goal of neuromuscular exercise is to achieve compensatory functional stability and improve sensorimotor control. Neuromuscular exercises have been researched in knee osteoarthritis and patellofemoral pain, anterior cruciate ligament injury, fibromyalgia, obesity, autism spectrum disorder in children, cancer, chronic pain, and in various sports fields to improve balance and physical performance after injury.

Aquatic exercises are mostly rehabilitation-oriented practices that can be applied at different temperatures and depths, structured according to a specific goal. In aquatic exercises, the buoyancy of the water reduces the load on the joints, and thanks to the hydrostatic pressure providing support and resistance, older adults can exercise with a lower risk of injury and pain. Studies have shown the positive effects of aquatic exercises on improving dynamic balance, reducing the risk of falling, lower extremity strength, and mental-physical health in geriatrics.

In the literature review on the subject, no study was found comparing neuromuscular exercise and aquatic exercises in the field of geriatrics.

The aim of this study is to compare neuromuscular and aquatic Exercise programs on fall risk and physical function in geriatrics.

Methods:

Participants:

Volunteer individuals who met the inclusion and exclusion criteria and are first and second-year students of Alanya Alaaddin Keykubat University 60+ Renewal University will participate in the study. Detailed information about the study will be given to each participant who wishes to participate in the study, and their written and verbal consent will be obtained.

According to the power analysis made with the G-power program, it was found that 80% power can be obtained with 95% confidence when at least 30 people are included in the study. While calculating the sample size, timed get-up and walk test results \[Group 1: 7.81 (standard deviation: 0.91), Group 2: 9.31 (standard deviation: 1.24)\] were taken as a basis and the effect size was calculated as = 1.379. The risk of case loss was taken into account by taking a reserve rate of 20%, and it was planned to include 36 participants. The cases will be divided into 2 groups by block randomization using the internet program, consisting of at least 18 individuals: Group 1 \[NE group\] and Group 2 \[AE group\] (Randomizer.org).

Study Protocol:

The study will be divided into two parallel groups: The neuromuscular exercise group and the Aquatic exercise group. Both groups will participate in exercise programs for 12 weeks.

Evaluations will be administered before and after exercise programs. Data will be collected using the International Physical Activity Survey Short Form (IPAQ-SF), Montreal Cognitive Assessment Scale (MoCA), Geriatric Pain Measure, Optojump-next (Microgate, Bolzano, Italy), 6-minute Walk Test, 30-second-Sit-to-Stand Test, Four Step Square Test, Berg Balance Scale, Fear of Falling Avoidance Behavior Questionnaire.

Training and Exercise Applications:

A Neuromuscular exercise program consisting of sensorimotor system training, postural stability and control, global and local joint stabilization, balance training, muscle strength, breathing, and functional movement patterns will be created for the participants in Group 1. Exercises will start with breathing and a 10-minute warm-up period, static and dynamic proprioception, kinesthesia training (weighting on the extremities, balance, walking, open kinetic chain, closed kinetic chain exercises), postural control exercises, Frenkel coordination exercises, balance exercises (balance ball). and with a balance board), muscle strength (calisthenic exercises, therabat exercises), plyometric exercises, and core stabilization exercises will be applied progressively over the weeks and will end with a 10-minute cooling period including flexibility and relaxation exercises.

Participants in Group 2 will undergo an aquatic exercise program at Alanya Alaaddin Keykubat University in a 140 cm deep pool and 32-degree water temperature. The exercise program will begin with a 10-minute warm-up period, including straight, sideways, back walking, cycling without equipment on the parallel bar, lower extremity strength exercises, standing on tiptoes and pressing on the heels, weight transfer, resistant exercises with auxiliary devices, calisthenic exercises, hamstring and quadriceps femoris stretching. It will end with a cooling period including exercises.

Exercise sessions in both groups will last 45-60 minutes and will be applied twice a week for 12 weeks. Blood pressure measurements of all participants will be taken before the exercises. Exercise participation will be tracked in each session.

Statistical Analysis:

In the statistical analysis of data will obtain in this study, a Windows-based SPSS (IBM SPSS Statistics, Version 24.0, Armonk, NY, USA) package program will use. Continuous variables will express as a mean ± standard deviation or as a median (minimum-maximum values), and categorical variables as a number and percent. Analytical (Kolmogorov-Smirnov/Shapiro-Wilks test) and visual (Histogram and probability graphs) methods will use to test the conformity of data for normal distribution. When the parametric test assumptions were provided, Independent Sample T-Test will use to compare independent group differences; when the parametric test assumptions were not provided, the Mann Whitney-U test will use to compare independent group differences. In the dependent group analyses; when the parametric test assumptions were provided, Paired Sample T-Test will use; when the parametric test assumptions were not provided, Wilcoxon Test will use. Chi-Square Analysis and Fisher Exact Test will use compare differences between categorical variables.

Conditions

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Geriatrics Exercise Therapy Fall Physical Functional Performance

Study Design

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Allocation Method

RANDOMIZED

Intervention Model

PARALLEL

The study will be divided into two parallel groups: The neuromuscular exercise group and the Aquatic exercise group. Both groups will participate in exercise programs for 12 weeks.

Primary Study Purpose

SUPPORTIVE_CARE

Blinding Strategy

NONE

Study Groups

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Neuromuscular Exercise Group

A 12-week Neuromuscular exercise program consisting of sensorimotor system training, postural stability and control, global and local joint stabilization, balance training, muscle strength, breathing, and functional movement patterns will be created for the participants in Group 1.

Group Type EXPERIMENTAL

Neuromuscular Exercise

Intervention Type BEHAVIORAL

A Neuromuscular exercise program consisting of sensorimotor system training, postural stability and control, global and local joint stabilization

Aquatic Exercise Group

Group 2 will undergo a 12-week aquatic exercise program at Alanya Alaaddin Keykubat University in a 140 cm deep pool and 32-degree water temperature.

Group Type EXPERIMENTAL

Aquatic Exercise

Intervention Type BEHAVIORAL

The exercise program will begin with a 10-minute warm-up period, including straight, sideways, back walking, cycling without equipment on the parallel bar, lower extremity strength exercises, standing on tiptoes and pressing on the heels, weight transfer, resistant exercises with auxiliary devices, calisthenic exercises, hamstring and quadriceps femoris stretching. It will end with a cooling period including exercises.

Interventions

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Neuromuscular Exercise

A Neuromuscular exercise program consisting of sensorimotor system training, postural stability and control, global and local joint stabilization

Intervention Type BEHAVIORAL

Aquatic Exercise

The exercise program will begin with a 10-minute warm-up period, including straight, sideways, back walking, cycling without equipment on the parallel bar, lower extremity strength exercises, standing on tiptoes and pressing on the heels, weight transfer, resistant exercises with auxiliary devices, calisthenic exercises, hamstring and quadriceps femoris stretching. It will end with a cooling period including exercises.

Intervention Type BEHAVIORAL

Other Intervention Names

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Aquatherapy Aquatic Rehabilitation

Eligibility Criteria

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Inclusion Criteria

* Being able to speak and understand Turkish,
* Getting a score at least 21 points on the Montreal Cognitive Assessment Scale (MoCA),
* Being able to walk without using any assistive device,
* Being able to adapt to the training program and wanting to participate in the study voluntarily

Exclusion Criteria

* Presence of neurological, musculoskeletal, inner ear or eye diseases that will cause functional disability and impaired standing balance,
* Those who have had changes in their medical treatments in the last 6 months,
* Those with a history of lower extremity surgery as it may affect balance tests,
* Volunteers who do not attend at least one of the training and evaluations for any reason.
* Volunteers who want to leave the study voluntarily.
* Volunteers who cannot continue working due to any additional disease that develops.

Minimum Eligible Age

65 Years

Maximum Eligible Age

85 Years

Eligible Sex

ALL

Accepts Healthy Volunteers

Yes