Postural-suprapostural task is defined as postural control takes place while at least one other concurrent task is being performed. In a postural-suprapostural task, appropriate prioritization of is necessary to achieve task goals and maintain postural stability. Therefore, regarding to impose task prioritization in a postural-suprapostural task, the optimal task-priority strategy for PD patients is still an issue of debate. With the uses of EEG, EMG and behavioral measures, the purpose of this project is to investigate the differences in performance quality and intrinsic neural mechanisms of a postural-suprapostural task for PD patients, by adopting posture-focus and suprapostural-focus strategies during standing and walking. The present project is expected to have significant contributions not only to gain a better insight to neural correlates of concurrent postural and suprapostural tasks with different task prioritization under standing and walking, but to optimize treatment strategy for PD patients with balance or dual-tasking disturbances.
Postural-suprapostural task is defined as postural control takes place while at least one other concurrent task is being performed. In a postural-suprapostural task, appropriate prioritization of is necessary to achieve task goals and maintain postural stability. Some studies support that a "posture-first" strategy is favored by patients with Parkinson disease (PD) in order to secure stance stability, but this comes at the cost of reduced suprapostural performance. In addition, overemphasizing on postural task might deteriorate automatic control of posture resulting in increased postural instability, and the best task-priority strategy might vary with balance ability of PD patients. Therefore, regarding to impose task prioritization in a postural-suprapostural task, the optimal task-priority strategy for PD patients is still an issue of debate. With the uses of EEG, EMG and behavioral measures, the purpose of this 2-year research project is to investigate the differences in performance quality and intrinsic neural mechanisms of a postural-suprapostural task for PD patients, by adopting posture-focus and suprapostural-focus strategies during standing and walking. In the first year, we will characterize task prioritization effect on reciprocity of a postural-suprapostural task, with a special focus on modulation of brain and muscle activity patterns in standing posture for early stage (modified H \& Y: 1, 1.5 and 2) and moderate stage (modified H \& Y: 2.5 and 3) PD patients. In the second year, the appropriate task prioritization, walking automaticity and power/connectivity of brain areas will be investigated in walking for PD patients with/without freezing of gait. The present project is expected to have significant contributions not only to gain a better insight to neural correlates of concurrent postural and suprapostural tasks with different task prioritization under standing and walking, but to optimize treatment strategy for PD patients with balance or dual-tasking disturbances.
Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
OTHER
Masking
NONE
Enrollment
80
posture-focus strategy: when performing postural-suprapostural task (dual-task), the patient mainly focus on postural task (standing/walking). supraposture-focus strategy: when performing postural-suprapostural task (dual-task), the patient mainly focus on suprapostural task (stabilize the tray).
National Taiwan University Hospital
Taipei, Taiwan
RECRUITINGElectroencephalography (EEG)
to collect the brain activity (unit: uV)
Time frame: about 30 seconds for each trial, total about 30 minutes
Electromyography (EMG)
to collect the muscle activity (unit: mV)
Time frame: about 30 seconds for each trial, total about 30 minutes
Gait parameters (GAITRite)
to know how the subjects walk during the trial
Time frame: about 30 seconds for each trial, total about 30 minutes
Center of pressure (COP)
to know how the subjects stand during the trial
Time frame: about 30 seconds for each trial, total about 30 minutes
Tilting angle of inclinometer
to know how the subjects perform the suprapostural task during the trial
Time frame: about 30 seconds for each trial, total about 30 minutes
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.