Postural Stability Clinical Trial
— STABLEFITOfficial title:
Effect of Different Neuromuscular Training Modalities on Postural Stability in Healthy Recreation People: A Randomised Controlled Trial
Verified date | March 2024 |
Source | University of Novi Sad |
Contact | n/a |
Is FDA regulated | No |
Health authority | |
Study type | Interventional |
Background: Postural stability (PS) is a vital function that helps maintain equilibrium during standing still, locomotion, and any activities requiring high balance performance. Under static and dynamic conditions, PS is a fundamental factor for the quality of movement in everyday activities or sports. PS and adaptive ability are required in sports due to the interactions between the sensory and motor systems, which regulate postural adjustments by processing information from the visual, vestibular, and somatosensory systems, as reported by previous studies. The interest in using different exercises and protocols for improving PS in sports and physiotherapy has grown in the last few decades. Experts have proposed various training modalities to increase neuromuscular stability, balance, postural control, and general stability. Dynamic Neuromuscular Stabilization (DNS) is a complex of correction exercises with a neuromuscular approach based on improving breathing, fundamental movements, and principles of developmental kinesiology. Whole body vibration training (WBV) is a neuromuscular training approach that has recently become very popular among researchers and practitioners in health and sport. It is usually used as an additional method in a conventional training routine. Designing the training program to achieve the optimal benefits for PS in healthy young adults is important in general personal health management. Although different training protocols have improved PS and general stability in everyday activities, there is still considerable debate regarding the optimal exercise modalities within an exercise program. Aim: The purpose of this study is to determine the effects of dynamic neuromuscular stabilisation (DNS), whole-body vibration (WBV), and a combination of DNS and WBV (MIX) training modalities on postural stability (PS) in healthy recreation participants. Method and materials: 180 gender-balanced groups were divided into four groups, MIX, DNS, VIBRO and CONTROL and underwent two months of treatment. The single and double-leg Center of Force (COF) parameters were collected on the Forceplate.
Status | Completed |
Enrollment | 180 |
Est. completion date | June 25, 2022 |
Est. primary completion date | February 20, 2022 |
Accepts healthy volunteers | Accepts Healthy Volunteers |
Gender | All |
Age group | 21 Years to 26 Years |
Eligibility | Inclusion Criteria: - history of neurological or musculoskeletal disorders; - clinical conditions that could impair balance (motor disorders, medical conditions like diabetes, heart disease, stroke, issues with vision, thyroid, nerves, or blood vessels). Exclusion Criteria: - the absence of injuries in the past six months - the absence of other medical conditions, including COVID-19 - no programmed physical activity in the past three months. |
Country | Name | City | State |
---|---|---|---|
Serbia | Faculty of sport and Physical Education, University of Novi Sad | Novi Sad | Vojvodina |
Lead Sponsor | Collaborator |
---|---|
University of Novi Sad |
Serbia,
Marinkovic D, Macak D, Madic DM, Sporis G, Kuvacic D, Jasic D, Petric V, Spehnjak M, Projovic A, Gojkovic Z. Effect of Neuromuscular Training Program on Quality of Life After COVID-19 Lockdown Among Young Healthy Participants: A Randomized Controlled Trial. Front Psychol. 2022 Apr 12;13:844678. doi: 10.3389/fpsyg.2022.844678. eCollection 2022. Erratum In: Front Psychol. 2023 Feb 28;14:1161581. — View Citation
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Primary | Double-leg static postural stability sway area | Double leg static postural stability sway area was evaluated using a 0.5 m Footscan® plate from RSscan International, Belgium, featuring 4096 sensors and a scanning rate of up to 300 Hz. Participants completed single and double-leg tasks, each lasting 30 seconds with three trials and a two-minute break between each. During the double-leg stance, they were instructed to maintain a still, upright posture, standing comfortably with feet shoulder-width apart, barefoot, eyes open, and fixed on a cross 5 meters away at eye level on a blackboard. Arms were kept by their sides. Measurement began after a 10-second preparation period to avoid transient effects. Double-leg static postural stability sway area is analyzed in square centimeters. | 2 months | |
Primary | Double-leg static postural stability center of force traveled way | Double leg static postural stability center of force traveled way was evaluated using a 0.5 m Footscan® plate from RSscan International, Belgium, featuring 4096 sensors and a scanning rate of up to 300 Hz. Participants completed single and double-leg tasks, each lasting 30 seconds with three trials and a two-minute break between each. During the double-leg stance, they were instructed to maintain a still, upright posture, standing comfortably with feet shoulder-width apart, barefoot, eyes open, and fixed on a cross 5 meters away at eye level on a blackboard. Arms were kept by their sides. Measurement began after a 10-second preparation period to avoid transient effects. Double-leg static postural stability center of force traveled way is analyzed in millimeters. | 2 months | |
Primary | Double-leg static postural stability medio-lateral displacement | Double leg static postural stability medio-lateral displacement was evaluated using a 0.5 m Footscan® plate from RSscan International, Belgium, featuring 4096 sensors and a scanning rate of up to 300 Hz. Participants completed single and double-leg tasks, each lasting 30 seconds with three trials and a two-minute break between each. During the double-leg stance, they were instructed to maintain a still, upright posture, standing comfortably with feet shoulder-width apart, barefoot, eyes open, and fixed on a cross 5 meters away at eye level on a blackboard. Arms were kept by their sides. Measurement began after a 10-second preparation period to avoid transient effects. Double-leg static postural stability medio-lateral displacement is analyzed in millimeters. | 2 months | |
Primary | Double-leg static postural stability anterior-posterior displacement | Double leg static postural stability anterior-posterior displacement was evaluated using a 0.5 m Footscan® plate from RSscan International, Belgium, featuring 4096 sensors and a scanning rate of up to 300 Hz. Participants completed single and double-leg tasks, each lasting 30 seconds with three trials and a two-minute break between each. During the double-leg stance, they were instructed to maintain a still, upright posture, standing comfortably with feet shoulder-width apart, barefoot, eyes open, and fixed on a cross 5 meters away at eye level on a blackboard. Arms were kept by their sides. Measurement began after a 10-second preparation period to avoid transient effects. Double-leg static postural stability anterior-posterior displacement is analyzed in millimeters. | 2 months | |
Primary | Single-leg static postural stability sway area | Single leg static postural stability sway area was evaluated using a 0.5 m Footscan® plate from RSscan International, Belgium, equipped with 4096 sensors and a scanning rate of up to 300 Hz. During the single-limb stance test, participants balanced on one foot, aligning it forward with reference lines in the frontal and sagittal planes. The swinging leg was flexed at the hip and knee to about 90 degrees, while arms hung naturally at their sides. Participants were instructed to maintain a steady posture, focusing on a point 65 centimeters away on the wall. The order of testing between legs was randomized. Measurement began after a 5-second preparation period. Single-leg static postural stability sway area is analyzed in square centimeters.. | 2 months | |
Primary | Single-leg static postural stability center of force traveled way | Single leg static postural stability center of force traveled way was evaluated using a 0.5 m Footscan® plate from RSscan International, Belgium, equipped with 4096 sensors and a scanning rate of up to 300 Hz. During the single-limb stance test, participants balanced on one foot, aligning it forward with reference lines in the frontal and sagittal planes. The swinging leg was flexed at the hip and knee to about 90 degrees, while arms hung naturally at their sides. Participants were instructed to maintain a steady posture, focusing on a point 65 centimeters away on the wall. The order of testing between legs was randomized. Measurement began after a 5-second preparation period. Single-leg static postural stability center of force traveled way is analyzed in millimeters. | 2 months | |
Primary | Single-leg static postural stability anterior-posterior displacement | Single leg static postural stability anterior-posterior displacement was evaluated using a 0.5 m Footscan® plate from RSscan International, Belgium, equipped with 4096 sensors and a scanning rate of up to 300 Hz. During the single-limb stance test, participants balanced on one foot, aligning it forward with reference lines in the frontal and sagittal planes. The swinging leg was flexed at the hip and knee to about 90 degrees, while arms hung naturally at their sides. Participants were instructed to maintain a steady posture, focusing on a point 65 centimeters away on the wall. The order of testing between legs was randomized. Measurement began after a 5-second preparation period. Single-leg static postural stability anterior-posterior displacement is analyzed in millimeters. | 2 months | |
Primary | Single-leg static postural stability medio-lateral displacement | Single leg static postural stability medio-lateral displacement was evaluated using a 0.5 m Footscan® plate from RSscan International, Belgium, equipped with 4096 sensors and a scanning rate of up to 300 Hz. During the single-limb stance test, participants balanced on one foot, aligning it forward with reference lines in the frontal and sagittal planes. The swinging leg was flexed at the hip and knee to about 90 degrees, while arms hung naturally at their sides. Participants were instructed to maintain a steady posture, focusing on a point 65 centimeters away on the wall. The order of testing between legs was randomized. Measurement began after a 5-second preparation period. Single-leg static postural stability medio-lateral displacement is analyzed in millimeters. | 2 months | |
Secondary | Sex | The sex of the participants is recorded at the start of the study. | 2 months | |
Secondary | Date of birth | The participant's date of birth is collected in order to calculate his age in years. | 2 months | |
Secondary | Weight | The weight of the participants is analyzed in kilograms. | 2 months | |
Secondary | Height | The height of the subject is determined in meters. | 2 months | |
Secondary | Body Mass Index (BMI) | The participant's BMI is calculated from his height and weight. | 2 months | |
Secondary | Adherence | Adherence to the program is calculated from the record of the percentage of attendance at the intervention sessions. | 2 months |
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