Testing Devices That Involve the Sense of Touch in Subjects With Traumatic Brain Injury
- Previous studies have shown that computer-based devices that simulate everyday tasks can be helpful for evaluation and rehabilitation in people who have had strokes. Researchers are interested in studying whether similar devices can be used to evaluate and treat individuals who have had a traumatic brain injury, to determine if the device should be developed to help with rehabilitation in the future.
- To evaluate the effectiveness of a computer-based simulation compared with actual performance of actions in individuals who have had a traumatic brain injury.
- Individuals at least 18 years of age who have had a non-penetrating mild or moderate traumatic head injury within the past year and have experience playing computer games.
- Participants will be screened with a physical and neurological examination and medical history.
- Participants will complete questionnaires and an interview about mood and feelings, stress levels, quality of life, and how well they function at work or at home. Participants will also have tests of memory, attention, thinking, and reasoning. Some of the questionnaires and tests will be completed in writing, some orally, and some on a computer.
- Participants will have movement and coordination tests that involve simple tasks such as putting pegs in a pegboard, using a key, lifting different objects, and folding things.
- Participants will duplicate the movement and coordination tests by using a computer program that simulates the tasks with a cursor on a computer screen. Participants will do four separate simulated tasks (such as arranging letters or hitting a nail with a hammer) three times.
- The full visit will take about 4 hours, and no followup visits are required.
Traumatic Brain Injury
|Study Design:||Time Perspective: Prospective|
|Official Title:||Testing Subjects With Traumatic Brain Injury Using Haptic Technology|
|Study Start Date:||April 2011|
Adults who have suffered traumatic brain injury are people who have a wide variety of signs and symptoms. These often include problems with motor planning and learning, memory, cognitive performance and behavior. The physical findings and self reports of symptoms are heterogeneous, and do not always correlate with anatomic findings. Evaluation and measurement of function in this population, and treatment of functional deficits are being developed so that treatments can be specifically targeted toward functional recovery. Additionally, evaluation and treatment usually relies heavily on labor intensive interventions. This study will assess the feasibility of using haptic devices that interface the user via touch using force as feedback in subjects with a TBI. Haptic devices are similar to joysticks. The specific haptic device we are using in this project is a stylus, shaped like a pen with which the subject navigates virtual space moving a cursor on a computer screen. The project aims to obtain pilot data in relation to how an individual with TBI performs measuring their engagement and interaction with the haptic, which is programmed to simulate functional activity and cognitive tasks, and whether the haptic devices can reliably be used for data capture.
Seventy adult subjects with a clinical diagnosis of a non-penetrating TBI will be enrolled. Subjects will need to be at least 1 year from date of initial brain injury. Subjects will be recruited from NIH, affiliated hospitals/clinics, and in the community.
This is a prospective cohort study of subjects with a clinical diagnosis of a non-penetrating traumatic brain injury. Subjects will be recruited and assessed at the National Institutes of Health. Data will be shared and stored at NIH. Subjects will be stratified according to findings into cohorts for comparison. Subjects will not be treated with experimental therapies as part of the research study.
The role of multimodal visuo-sensory motor input learning using haptic devices will be explored in this project. Virtual reality has been applied to both the evaluation and treatment of persons with TBI. The application of simulated environments has helped engage patients in therapeutic activities and also has provided real life situations that call for integration of sensory, cognitive and motor activities Haptic and robotic devices, which provide sensory and force input to assist in human movement, have been used to help in neurorecovery.
Each subject will have only one test session and there will be no further follow-up appointments. The haptic session is designed to take no more than 1 hour. However, it may take longer for some to complete the battery of tests. It may take up to four hours to complete the NIH processes such as admissions, the history and physical, and the haptic session.
Performance on haptic tasks will be assessed for time to completion, distance of trajectories and frequency of repeated trajectories.
|United States, Maryland|
|National Institutes of Health Clinical Center, 9000 Rockville Pike|
|Bethesda, Maryland, United States, 20892|
|Principal Investigator:||Leighton Chan, M.D.||National Institutes of Health Clinical Center (CC)|