The goal of this study is to train core muscles in patients with chronic low back pain, the researchers will compar between the effect of suspension exercise core muscle training and pressure biofeed back core muscle training
Recently suspension training systems have become popular as a way to improve fitness. These systems create instability during workouts which challenges the body in new ways. As a result, suspension training can help increase muscle strength mass and power. Furthermore, it enhances functional performance by engaging the core muscles more intensely. This focus on the core is important for overall fitness and can lead to better results in various physical activities. (Angleri et al., 2020), Suspension training involves using straps to hang either the lower or upper limbs allowing them to move freely. This setup creates a unique environment for exercise as it engages multiple muscle groups at once. Many exercises focus on the core which is essential for stability and strength. The movement of the limbs can introduce different challenges making workouts more dynamic and effective. Overall suspension training is a versatile method that can enhance physical fitness in various ways (Behm and Drinkwater, 2010). Core stabilization training using pressure biofeedback has shown to be effective in reducing pain and improving function in individuals with mechanical low back pain. This type of training focuses on strengthening the muscles that support the spine. By using pressure biofeedback individuals can better understand their body's alignment and muscle engagement during exercises. As a result, many participants reported less pain both when resting and during activities. Overall, this method of training helps improve daily functioning and enhances quality of life for those suffering from low back pain. (Mahesh and Mrunmayee, 2019).
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
48
Participants were instructed to perform the exercises through the full range of motion using the correct technique, while maintaining a neutral alignment of the spine and pelvis throughout each movement. Each exercise was performed three times, with each repetition lasting six seconds. A three-minute rest interval was provided between exercises to ensure adequate recovery, all exercises were performed three times per week for a duration of four weeks The following exercises have been selected 1. Roll-out 2. Bodysaw 3. Pike 4. Knee-tuck
The patients were instructed to take a relaxed breath in and out, hold the breath out, and then draw in the lower abdomen without moving the spine. Independent contraction of the transversus abdominis muscle was achieved through the abdominal drawing-in maneuver(ADIM). * In the supine position, the pressure biofeedback unit was placed beneath the lumbar lordosis, and air was infused into the bulb to establish a baseline pressure of 40 mmHg. pressure increases of 0-2 mmHg g from a baseline of 40 mmHg * In the prone position, the pressure biofeedback unit was positioned between the navel and the anterior superior iliac spine (ASIS), and air was infused into the bulb to establish a baseline pressure of 70 mmHg. A decrease in pressure ranging from 4 to 10 mmHg during the performance of the active drawing-in maneuverwas considered to indicate a successful execution of the exercise. * After two weeks, lumbar stabilization exercises were progressively introduced
Faculty of Physical Therapy
Cairo, Egypt
change of low back pain
Low back pain intensity will be measured using the Numeric Pain Rating Scale (NPRS). Participants will be instructed to select the number that best represents their current pain intensity. Scores range from 0 (no pain) to 10 (worst imaginable pain), with higher scores indicating greater pain severity.
Time frame: one month
Change in Lumbar Extension Range of Motion
Lumbar extension range of motion will be measured using the Modified-Modified Schober Test. Measurements will be recorded in centimeters (cm).
Time frame: one month
Change in Lumbar Flexion Range of Motion
Lumbar flexion range of motion will be measured using the Modified-Modified Schober Test. Measurements will be recorded in centimeters (cm).
Time frame: one month
Change in Trunk Flexor Muscle Endurance
Trunk flexor muscle endurance will be assessed using the Trunk Flexor Test (TFT) from the McGill Core Endurance Test battery. Endurance time will be recorded in seconds, with longer durations indicating greater endurance.
Time frame: one month
Change in Trunk Extensor Muscle Endurance
Trunk extensor muscle endurance will be evaluated using the Trunk Extensor Test (TET) from the McGill Core Endurance Test battery. Endurance time will be recorded in seconds, with longer durations reflecting better endurance.
Time frame: one month
Change in Right Lateral Trunk Muscle Endurance
Right lateral trunk muscle endurance will be assessed using the Right Lateral Musculature Test from the McGill Core Endurance Test battery. Endurance time will be recorded in seconds.
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1. Participants are instructed to walk as normally and flexibly as possible 2. Advise when lifting: * Participants are instructed to avoid twisting and bending. * When lifting heavy objects, they are instructed to use their thighs while keeping the back vertical. * At other times, they are instructed to use the back and flex it appropriately. 3. Participants were instructed to apply heat for 20 minutes, twice daily 4. Avoid sitting or standing for prolonged period and change position every 15 minutes. 5. Sitting: Sit with a back support 6. Driving: Use a back support (lumbar roll) at the curve of your back. 7. Participants were instructed to sleep and lie down on a firm mattress and box spring set that did not sag. If necessary, they were advised to place a board under the mattress or temporarily position the mattress on the floor.
Time frame: one month
Change in Left Lateral Trunk Muscle Endurance
Left lateral trunk muscle endurance will be assessed using the Left Lateral Musculature Test from the McGill Core Endurance Test battery. Endurance time will be recorded in seconds.
Time frame: one month
Presence of Abnormal Movement Patterns During Prone Hip Extension
Abnormal movement patterns will be assessed using the Prone Hip Extension Test. Participants will be classified as positive or negative based on the presence of any of the following: Lumbar spine rotation Lateral shift of the lumbar spine Lumbar spine extension Pelvic girdle elevation on the side of hip extension
Time frame: one month
Change in Functional Disability Due to Low Back Pain
Functional disability will be assessed using the Oswestry Disability Index (ODI). The ODI consists of ten domains including pain intensity, personal care, lifting, work, sitting, standing, sleeping, sexual activity, social life, and traveling. Scores are reported as a percentage, with higher scores indicating greater disability.
Time frame: one month
Change in Lumbar Core Muscle Strength
Lumbar core muscle strength will be assessed using a Pressure Biofeedback Unit (PBU). Participants will be positioned in crook-lying with the knees flexed between 70° and 90°. The PBU will be placed beneath the lumbar lordosis and inflated to a baseline pressure of 40 mmHg. Participants will be instructed to perform an abdominal drawing-in maneuver and maintain the contraction for 10 seconds. The change in pressure (mmHg) will be recorded as an indicator of lumbar core muscle activation.
Time frame: one month