Influence of Timing on Motor Learning

Active, not recruiting

Phase N/A Results N/A

Update History

5 Feb '16
The Summary of Purpose was updated.
New
The purpose of this research study is to compare different methods for training hand movement at home after stroke. This study involves research because it will test two experimental devices, the MusicGlove and the Resonating Arm Exerciser (RAE), compared to conventional hand and arm exercises. The MusicGlove is a glove that measures finger movements and allows its user to play a musical computer game using those movements. The RAE is a lever that attaches to a manual wheelchair with elastic bands and can be pushed back and forth to exercise the arm.
Old
The purpose of this research study is to compare different methods for training hand movement at home after stroke. This study involves research because it will test two experimental devices, the MusicGlove and the Resonating Arm Exerciser (RAE), compared to conventional hand and arm exercises. The MusicGlove is a glove that measures finger movements and allows its user to play a musical computer game using those movements. The RAE is a lever that attaches to a manual wheelchair with elastic bands and can be pushed back and forth to exercise the arm.
The description was updated.
New
In humans, the acquisition of a new task seems to be based on an error-feedback paradigm, where motor command error generated in the first phase of learning is gradually corrected using peripheral feedback. Learning a new skill involves various brain structures and typically brain activation increases with the difficulty of the movement to be learned. To find ways to promote greater neuromotor adaptation during learning, some studies have tried to determine if subjecting individuals to a robot-generated force field that enhances movement error in the course of skill acquisition would improve learning. This premise could thus be used as a training paradigm during rehabilitation following a neurological insult such as a stroke. Results have shown that during training in an enhanced error situation, healthy individuals adapt to the presented perturbation and when this perturbation is removed, a greater improvement in performance is observed. It has been demonstrated that following a stroke, this adaptation still occurs, although to a lower extent than normal. Thus, stroke individuals present greater improvement in their motor performance after experiencing error-enhanced training with a robotic device than when receiving assistance in moving in the intended way. It seems that the impact of such robotic training on brain function is still unclear. During the acquisition of a new task, not only the motor sequence of the action is crucial, but also the timing of the action. Most of the studies evaluating learning and the related brain structures mediating the acquisition of a new task have focused mainly on the motor sequence of the action and a paucity of them have assessed the timing of the action. Timing of an action plays a crucial role in the proper accomplishment of daily activities such as driving or playing tennis. Studies have found that, with practice, subjects are able to learn and anticipate the correct timing of a task and become more accurate in performing it. However, little is known about the effect of learning a new timing task on motor learning and brain related changes when individuals are subjected to a robotic error-enhanced timing of action. The aim of the current project is to evaluate, in healthy and stroke individuals, the effect of introducing a change in movement timing or a feedback of movement timing that will either help or hinder individuals in accomplishing a new timing-based task, in order to determine which form of error modification will best induce motor learning as well as favorable brain plasticity. We hypothesize that the introduction of error amplification and error feedback during the practice of a timing-based task will provide the greatest benefit for motor learning and brain plasticity by providing the individuals with a constant error signal that will drive adaptation. Using a range of different devices, we will test the hypothesis that providing auditory and other types of feedback related to timing errors helps in learning timing tasks.
Old
None.
6 Dec '13
The Summary of Purpose was updated.
New
The purpose of this research study is to compare different methods for training hand movement at home after stroke. This study involves research because it will test two experimental devices, the MusicGlove and the Resonating Arm Exerciser (RAE), compared to conventional hand and arm exercises. The MusicGlove is a glove that measures finger movements and allows its user to play a musical computer game using those movements. The RAE is a lever that attaches to a manual wheelchair with elastic bands and can be pushed back and forth to exercise the arm.
Old
The purpose of this research study is to compare different methods for training hand movement at home after stroke. This study involves research because it will test an experimental devices, the MusicGlove and the Resonating Arm Exerciser (RAE), compared to conventional hand and arm exercises. The MusicGlove is a glove that measures finger movements and allows its user to play a musical computer game using those movements. The RAE is a lever that attaches to a manual wheelchair with elastic bands and can be pushed back and forth to exercise the arm.
2 Jul '13
The Summary of Purpose was updated.
New
The purpose of this research study is to compare different methods for training hand movement at home after stroke. This study involves research because it will test an experimental devices, the MusicGlove and the Resonating Arm Exerciser (RAE), compared to conventional hand and arm exercises. The MusicGlove is a glove that measures finger movements and allows its user to play a musical computer game using those movements. The RAE is a lever that attaches to a manual wheelchair with elastic bands and can be pushed back and forth to exercise the arm.
Old
The purpose of this research study is to compare different methods for training hand movement at home after stroke. This study involves research because it will test an experimental device, the MusicGlove, compared to conventional hand exercise. The MusicGlove is a glove that measures finger movements and allows its user to play a musical computer game using those movements.
The eligibility criteria were updated.
New
Inclusion Criteria: - Age 18 to 80 years of age - Sustained a single stroke affecting the arm, at least three months prior to enrollment - Minimal to moderate lost motor control of the arm after stroke - No active major psychiatric problems, or neurological/orthopedic problems affecting the stroke-affected upper extremity - No active major neurological disease other than the stroke - Absence of pain in the stroke-affected upper extremity Exclusion Criteria: - Severe tone at the affected upper extremity - Severe aphasia - Severe reduced level of consciousness - Severe sensory/proprioception deficit at the affected upper extremity - Currently pregnant - Difficulty in understanding or complying with instructions - Inability to perform the experimental task that will be studied - Increased pain with movement of the stroke-affected upper extremity
Old
Inclusion Criteria: - Age 18 to 75 years of age - Sustained a single stroke affecting the arm, at least six months prior to enrollment - Minimal to moderate lost motor control of the arm after stroke - No active major psychiatric problems, or neurological/orthopedic problems affecting the stroke-affected upper extremity - No active major neurological disease other than the stroke - Absence of pain in the stroke-affected upper extremity Exclusion Criteria: - Severe tone at the affected upper extremity - Severe aphasia - Severe reduced level of consciousness - Severe sensory/proprioception deficit at the affected upper extremity - Currently pregnant - Difficulty in understanding or complying with instructions - Inability to perform the experimental task that will be studied - Increased pain with movement of the stroke-affected upper extremity
A location was updated in Irvine.
New
The overall status was removed for University of California, Irvine.