INTRODUCTIONA stroke is the rapidly

INTRODUCTION
A stroke is the rapidly developing loss of brain function due to a disturbance in the blood supply to the brain. This can be due to ischemia caused by blockage or due to a hemorrhage1). After a stroke, motor, sensory, perceptual, or cognitive deficits may occur, and these impairments can have various impacts on individual functioning through generation of disabilities and affect rehabilitation potential2).

Stroke survivors have difficulty in balance and postural control for standing upright because they are impaired by asymmetric posture, abnormal body imbalance, and deficit of weight transfer3). Asymmetric movement also decreases ability to stand upright, disorients the body midline and space, and hinders appropriate alignment between vertebrae, trunk rotation, selective movement between trunk and extremities, anterior-posterior tilt of the pelvis during weight transfer, protective reaction, and equilibrium reaction4). Previous studies have demonstrated the particular importance of trunk control in stable walking and decreasing falling risk in stroke patients5, 6).

Core strengthening has been rediscovered in rehabilitation. The term has come to connote lumbar stabilization and other therapeutic exercise regimens. In essence, it describes the muscular control required around the lumbar spine for maintenance of functional stability. The “core” has been described as a box, with the abdominals in the front, paraspinal and gluteal muscles in the back, the diaphragm as the roof, and the pelvic floor and hip girdle musculature as the bottom7). Particular attention has been paid to the core because it serves as a muscular corset that works as a unit to stabilize the body and spine, with and without limb movement. In short, the core serves as the center of the functional kinetic chain. In the world of alternative medicine, the core has been referred to as the “powerhouse”, the foundation or engine of all limb movement8). With regard to impaired trunk control and poor balance, previous studies have advocated efficient neuromuscular control for trunk stability and accurate trunk muscle recruitment patterns for control of spinal load in relation to a given task and posture9, 10).

Many recent studies have reported on core stability and its affect on athletes and patients with low back pain8), however, few studies on the relationship between core stability and balance ability and gait in patients with hemiplegia have been reported. Therefore, the purpose of this study was to examine the effect of core stabilization exercise on dynamic balance and gait functions in stroke patients.