The Effect of Different Stabilization Exercises Based on Telerehabilitation on Gait, Balance, Functionality and Depression in Individuals With Non-Specific Chronic Neck Pain
Overview
- Phase
- Not Applicable
- Intervention
- Not specified
- Conditions
- Neck Pain
- Sponsor
- Izmir Katip Celebi University
- Enrollment
- 41
- Locations
- 1
- Primary Endpoint
- Cadence
- Status
- Completed
- Last Updated
- 2 years ago
Overview
Brief Summary
In this study, the effects of an 8-week telerehabilitation-based stabilization training in persons with chronic non-specific neck pain will be investigated.
Detailed Description
The aim of the study is to investigate the effects of different telerehabilitation-based stabilization exercises on gait, balance, pain, functionality and depression in individuals with non-specific neck pain. The population of the study will consist of 40 individuals with chronic neck pain, who are followed up with the diagnosis of chronic non-specific neck pain in the Department of Neurosurgery of Dokuz Eylul University Faculty of Medicine. The socio-demographic characteristics of the participants will be recorded through mutual interviews, 'BTS G-Walk' device for walking, 'Biodex Balance' device for balance, Neck Disability Index for disability assessment, Visual Analog Scale (VAS) for pain severity, the Beck Depression Inventory will be used for depression. All participants will walk to the length of a 10 m walkway and back to the start point with the BTS G-Walk (BTS Bioengineering S.p.A., GarbagnateMilanese, Italy), a wearable sensor device to assess spatiotemporal gait parameters. Individuals will walk first in a normal walking pattern and then in a fast walking pattern. Biodex Stability System will be used for balance measurement. The exercises will be taught to the participants face-to-face once in the first session, within the framework of social distance and hygiene rules, and then they will have exercise sessions by mutual videoconference method via the Zoom program for 8 weeks. Patients will be randomly divided into two groups. Cervical stabilization and scapular stabilization training will be given to the first group, and cervical stabilization and core stabilization training will be given to the second group. The effects of these two different telerehabilitation-based exercise methods will be compared.
Investigators
Hatice AYAN
Lecturer
Izmir Katip Celebi University
Eligibility Criteria
Inclusion Criteria
- •Having non-specific neck pain for at least 3 months
- •Having a Neck Disability Index (BDI) score of 10 and above,
Exclusion Criteria
- •Receiving physiotherapy for neck pain in the last 6 months
- •Having speech and comprehension problems,
- •Those who have undergone neck surgery
- •Those with sensory loss
- •Those diagnosed with orthopedic, neurological or vestibular disease
- •Those with a history of trauma ( wiplash)
- •Cases diagnosed with cancer, osteoporosis or treated will not be included in the study.
Outcomes
Primary Outcomes
Cadence
Time Frame: Change from Baseline at 8 weeks
The BTS G-Walk (BTS Bioengineering S.p.A., GarbagnateMilanese, Italy), a wearable sensor device, will be used to assess cadence (steps/min) during the usual walking condition and fast walking condition through a Bluetooth®3.0 connection (G-Studio®software).
Stride length
Time Frame: Change from Baseline at 8 weeks
The BTS G-Walk (BTS Bioengineering S.p.A., GarbagnateMilanese, Italy), a wearable sensor device, will be used to assess stride length (m) during the usual walking condition and fast walking condition through a Bluetooth®3.0 connection (G-Studio®software).
Pelvic angles
Time Frame: Change from Baseline at 8 weeks
The BTS G-Walk (BTS Bioengineering S.p.A., GarbagnateMilanese, Italy), a wearable sensor device, will be used to assess pelvic movements (tilt (°), obliquity(°), rotation(°)) during gait through a Bluetooth®3.0 connection (G-Studio®software). The device provides the data for these pelvic angles in one single report.
Pelvic symmetry
Time Frame: Change from Baseline at 8 weeks
The BTS G-Walk (BTS Bioengineering S.p.A., GarbagnateMilanese, Italy), a wearable sensor device, will be used to assess pelvic symmetry (%) during gait through a Bluetooth®3.0 connection (G-Studio®software). The score is calculated by the device as a percentage score out of 100. The higher score indicates more pelvic symmetry.
Postural stability
Time Frame: Change from Baseline at 8 weeks
A computerized test of the Biodex Balance System will be used to assess postural stability. Subjects will stand on the platform and try to maintain their stability while trying to control their center of pressure which is shown as a point on the screen. The postural stability test assesses the patient's ability to control static balance on a stable platform. The test protocol is performed for 20 seconds with 3 trials. The mean value of the trials is taken as a score. Higher stability index score indicates poor balance and stability.
Limits of stability
Time Frame: Change from Baseline at 8 weeks
A computerized test of limits of stability will be performed using Biodex Balance System®. Subjects will stand on a stable platform and try to maintain their balance while trying to reach in different directions spot that is shown on the screen. The test results present scores for all directions. Higher scores show better performance (0= worst performance; 100= perfect performance).
Speed
Time Frame: Change from Baseline at 8 weeks
The BTS G-Walk (BTS Bioengineering S.p.A., GarbagnateMilanese, Italy), a wearable sensor device, will be used to assess gait speed (m/sec) during usual walking condition and fast walking condition through a Bluetooth®3.0 connection (G-Studio®software).
Step lenght
Time Frame: Change from Baseline at 8 weeks
The BTS G-Walk (BTS Bioengineering S.p.A., GarbagnateMilanese, Italy), a wearable sensor device, will be used to assess step length (% stride length) during in usual walking condition and fast walking condition through a Bluetooth®3.0 connection (G-Studio®software).
Gait Symmetry
Time Frame: Change from Baseline at 8 weeks
The BTS G-Walk (BTS Bioengineering S.p.A., GarbagnateMilanese, Italy), a wearable sensor device, will be used to assess gait symmetry. Gait symmetry index of the right and left sides are obtained during walking. The score is calculated by the device as a percentage score out of 100. The higher score indicates more symmetrical gait.
Secondary Outcomes
- Neck Disability Index(Change from Baseline at 8 weeks)
- Beck Depression Inventory(Change from Baseline at 8 weeks)
- Visual Analog Scale (VAS)(Change from Baseline at 8 weeks)