The Effect of Augmented Reality Based Telerehabilitation Application on Neuromuscular and Sensorimotor Parameters in Multiple Sclerosis Patients
- Conditions
- Multiple Sclerosis
- Interventions
- Other: Augmented Reality Based Telerehabilitation ApplicationOther: Training face-to-face
- Registration Number
- NCT05639517
- Lead Sponsor
- Ankara Yildirim Beyazıt University
- Brief Summary
Core stability, which is affected from the early period in with patients Multiple Sclerosis (PwMS), is due to deterioration in the somatosensory, motor and musculoskeletal systems. Based on the knowledge that core stability is effective on many functions, it is seen that trunk stabilization exercises are included in the physiotherapy and rehabilitation programs of patients. However, the effectiveness of augmented reality-based telerehabilitation application, which includes trunk stabilization training in PwMS, has not been adequately investigated in the literature. The aim of the study is to investigate the effectiveness of augmented reality-based telerehabilitation application, which includes trunk stabilization training, on neuromuscular and sensorimotor parameters in PwMS.
- Detailed Description
Not available
Recruitment & Eligibility
- Status
- NOT_YET_RECRUITING
- Sex
- All
- Target Recruitment
- 30
- Diagnosed with relapsing remitting MS by a neurologist,
- Having a disability level between 1 and 5 according to the Expanded Disability Status Scale (EDSS),
- Those who get over 24 points in the Standardized Mini Mental State Test (SMMT),
- Those who have not had an MS attack in the last three months,
- Volunteer individuals
- Receiving corticosteroid therapy in the last 4 weeks,
- Having additional neurological disease that may cause balance disorder
- Individuals who have had surgery related to the spine, hip, knee or ankle
Study & Design
- Study Type
- INTERVENTIONAL
- Study Design
- PARALLEL
- Arm && Interventions
Group Intervention Description Group 1 Augmented Reality Based Telerehabilitation Application Patients in this group will receive spinal stabilization training through augmented reality based telerehabilitation application. Group 2 Training face-to-face Patients in this group will receive spinal stabilization training face-to-face.
- Primary Outcome Measures
Name Time Method Balance Change from baseline at 8 weeks MiniBESTest will be used to evaluate the static and dynamic balance.It consists of 14 questions including antisipatuar postural reaction, reactive postural control, sensory orientation and dynamic balance. The test is scored between 0-28 points. The highest score indicates good balance.
- Secondary Outcome Measures
Name Time Method Spinal mobility Change from baseline at 8 weeks Spinal Mouse device will be used to evaluate spinal mobility. Measurements will be made between the spinous process of the 7th cervical vertebra and approximately the level of the 3rd sacral vertebra. Maximum degrees of right-left lateral flexion in the frontal plane and maximum degrees of flexion-extension in the sagittal plane will be measured and recorded.As the degree increases, the deformity also increases.
Muscle Activity Change from baseline at 8 weeks An 8-channel superficial EMG system will be used to measure signals from the quadriceps and tibialis anterior muscles.Electrodes will be placed according to SENIAM criteria.The signals received from the muscles of the individuals will be recorded during standing up from sitting. As a result, the average muscle activations of the muscles during the activity will be numerically recorded in %MVIC.
Core Muscle Endurance- Side Bridge Change from baseline at 8 weeks While the participants are in the side-lying position, they will raise their hips and align their bodies in a straight line by getting support from their feet and elbows. The time will be recorded by asking them to maintain the position as much as possible.As the time increases, the endurance decreases.
Core Muscle Endurance-Trunk Flexor Change from baseline at 8 weeks The trunk flexor test will be performed with the arms crossed over the thorax, the trunk at 60 degrees of flexion, and the knees and hips flexed to 90 degrees. The test will be finished when the participant is unable to maintain the position. The time will be recorded.As the time increases, the endurance decreases.
Fatigue- Fatigue Impact Scale Change from baseline at 8 weeks Each question ranges from 0 (no problem) to 4 (maximum problem) in the scale that evaluates cognitive status, physical condition and psychological status. High scores indicate fatigue.
Core Muscle Endurance- Trunk Extansor Change from baseline at 8 weeks The trunk extensor test will be performed in the prone position, with the pelvis, hips and knees fixed to the bed. The participant will be asked to cross his arms over his body and position his body horizontally. The test will be finished when the participant is unable to maintain the horizontal position. The time will be recorded. As the time increases, the endurance decreases.
Trunk Position Sense Change from baseline at 8 weeks Inclinometer will be positioned at spinous process of 1th thoracic vertebrae and 1 sacral during trunk position sense assessment. Subject will be retreated to neutral position and asked to come back taught position while eyes closed. Test will be repeated 3 times and angle of deviation from 30 degree flexion position will be recorded and the average of the results will be taken.As the deflection angle increases, the sense of position deteriorates. As the deflection angle increases, the sense of position deteriorates.
Fatique-Fatigue Severity Scale Change from baseline at 8 weeks The Fatigue Severity Scale, which rates the severity of fatigue symptoms, consists of questions expressing 9 different conditions.A high score indicates increased fatigue severity. Patients with a score of \<4 will be considered "not tired", and patients with a score of \>4 will be considered "tired".