The purpose of the study is to determine the effect of core stability and sensorimotor training exercises on postural stability post lower limb burn.
The need for this study develops from the lack of information in the published studies about the effectiveness of core stability exercises and sensorimotor training on the rehabilitation of burned patients. Severe burn injuries, particularly those encompassing over 20% of the total body surface area (TBSA), trigger elevated catabolism and hypermetabolic responses in adult and pediatric burn patients. This wide spectrum of pronounced effects stemming from the hypermetabolic response and catabolism includes substantial muscle mass depletion, reduced muscle strength and endurance, hindered wound healing, impaired sensory perception, constrained ambulatory capacity, postural instability, and diminished functional mobility. Core stability exercises improve neuromuscular system performance that causes the optimal lumbar-pelvic -hip chain mobility and good acceleration and deceleration, appropriate muscular balance, proximal stability and good function. Sensorimotor training exercise emphasizes postural control and progressive challenges to the sensorimotor system to restore normal motor programs in patients. The proprio sensory system helps the motor system to maintain equilibrium on a reflex, automatic basis. In response to a sudden load, "the muscles will respond rapidly to stabilize the body, i.e., they will try to maintain balance and posture. The present study is designed to investigate the effect of core stability and sensorimotor training exercises on postural stability in burned patients.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
90
Patients will perform core stability exercises three times weekly for eight weeks. The exercises include abdominal hollowing, bridge, right-angle leg lifts with thigh press, seated twist, knee-to-chest with elbow flexion, prone abdominal hollowing, prone arm and leg lift, quadruped abdominal hollowing, quadruped arm or arm-leg lifts, and various plank positions: forearm plank, side plank, forearm plank with hip raise, and forearm plank with straight legs.
Patients will perform sensorimotor training exercises three times weekly for eight weeks, progressing through three phases: static (weeks 1-2), dynamic (weeks 3-4), and functional (weeks 5-8). Exercises, repeated 3-5 times per session with rest intervals, advance from simple to complex as patients master each level. Static exercises include standing on firm/soft surfaces and single-leg balances. Dynamic exercises add forward lunges and T-band kicks. Functional training incorporates walking on various surfaces, toe and heel skipping, squats, balance drills on wobble boards, and multidirectional rolling movements with visual and single-leg variations. This progression enhances coordination, balance, and functional stability.
Faculty of physical therapy, Cairo University
Giza, Egypt
overall stability index
It was evaluated using the Biodex Balance System (BBS) before and after the eight-week treatment program. Patients will stand barefoot on the locked platform, centering themselves using visual feedback on the screen. Once stable, foot angles and heel coordinates will be recorded, and tests will commence with stability levels gradually decreasing from level eight to level four. Each test will last 30 seconds, with patients maintaining the cursor within the smallest balance zones. Postural stability measures will be calculated as the mean of three trials.
Time frame: 8 weeks
anterior-posterior stability index
It was evaluated using the Biodex Balance System (BBS) before and after the eight-week treatment program. Patients will stand barefoot on the locked platform, centering themselves using visual feedback on the screen. Once stable, foot angles and heel coordinates will be recorded, and tests will commence with stability levels gradually decreasing from level eight to level four. Each test will last 30 seconds, with patients maintaining the cursor within the smallest balance zones. Postural stability measures will be calculated as the mean of three trials.
Time frame: 8 weeks
medial-lateral stability index
It was evaluated using the Biodex Balance System (BBS) before and after the eight-week treatment program. Patients will stand barefoot on the locked platform, centering themselves using visual feedback on the screen. Once stable, foot angles and heel coordinates will be recorded, and tests will commence with stability levels gradually decreasing from level eight to level four. Each test will last 30 seconds, with patients maintaining the cursor within the smallest balance zones. Postural stability measures will be calculated as the mean of three trials.
Time frame: 8 weeks
Khadra Mohamed Ali, PhD
CONTACT
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.
All patients will undergo a traditional physical therapy program consisting of stretching exercises, strengthening exercises, and scar management techniques, three times weekly for eight weeks.