Motor Imaging, Neglect, and Upper Extremity Function in Stroke

Stroke is a condition characterized by impaired cerebrovascular circulation due to bleeding or blockage, resulting in problems such as weakness on one side of the body, mobility, balance, coordination, and cognitive impairment. Motor impairment, usually restricting movement of the face, arm, and leg on one side of the body, affects approximately 80% of stroke individuals. Upper extremity function is significantly reduced in about 80% of stroke individuals due to spasticity and muscle weakness, which restricts elbow extension movement. Problems with shoulder, arm, hand, and wrist function-in short, upper extremity disorders-are very common after a stroke. These upper extremity disorders generally involve difficulty with arm, hand, and finger movement and coordination, significantly limiting individuals' interaction with their environment and functionality. In addition to motor losses, spatial neglect due to right hemisphere lesions is one of the frequently observed neuropsychological problems after a stroke. Neglect syndrome is characterized by an individual's inability to perceive, direct attention to, or maintain bodily awareness in the spatial area opposite to the damaged hemisphere of the brain. This negatively impacts motor performance and daily living activities, reducing the effectiveness of rehabilitation. In individuals with severe neglect, the use of the affected side decreases, slowing functional recovery. In recent years, motor cognition-based methods have gained increasing importance in post-stroke rehabilitation alongside classical approaches. One of these methods, motor imagery (MI), is the process of mentally visualizing a movement without actually performing it. Neuroimaging studies have shown that the brain regions activated during motor imagery are largely similar to the motor areas activated during actual movement. Therefore, it is suggested that there may be a relationship between motor functions and motor imagery ability in stroke patients. However, the reported results in this area are inconsistent in stroke patients. Although motor impairments do not directly reflect performance in imagery, motor consequences resulting from brain damage negatively affect imagery, and generally, more severe motor impairments have been associated with weaker imagery ability. Research has shown that individuals with high motor imagery skills experience positive effects in terms of motor performance and learning. Conversely, a decrease in imagery capacity or factors affecting the cognitive representation of movement (e.g., neglect or lateralization disorders) can limit the effectiveness of the rehabilitation process. Therefore, it is important to comprehensively investigate the relationships between motor imagery skills and neglect, upper extremity function, activities of daily living, and quality of life in individuals after a stroke. Based on this information, this study aimed to investigate the relationship between motor imagery skills and the level of neglect (neglet), upper extremity motor function, activities of daily living, quality of life, lateralization performance, and mental rotation ability in individuals after a stroke.

Hypotheses:

1. Hypothesis: Motor imagery skills in individuals after a stroke are related to the level of neglect (neglet).
2. Hypothesis: Motor imagery skills in individuals after a stroke are related to the level of upper extremity motor function.
3. Hypothesis: Motor imagery skills in individuals after a stroke are related to activity of daily living performance.

Hypothesis 4: Motor imagery skills in individuals after stroke are related to their quality of life level.

Hypothesis 5: Motor imagery skills in individuals after stroke are related to lateralization performance.

Hypothesis 6: Motor imagery skills in individuals after stroke are related to mental rotation ability.