Stroke Clinical Trial
Official title:
Mental Imagery to Reduce Motor Deficits in Stroke
The primary aim of the proposed study is to collect data in an effort to estimate the clinical effectiveness of implementing repetitive task practice (RTP) in addition to mental imagery training (MIT) to improve upper extremity motor function and the quality of life of chronic stroke patients.
Stroke is the leading cause of chronic disability in the United States, and lack of upper
limb motor control is a major contributor to stroke-related disability. Physical and
occupational therapy treatments are most commonly used to reduce long-term disability.
Unfortunately, little scientific evidence exists to best target patients for therapy, define
when such therapies should be provided, or even to identify the best therapies themselves. A
recent National Institutes of Health consensus panel decided that there were only three
therapeutic techniques with supporting scientific evidence, and for only one of these
techniques, constraint induced therapy, was there evidence from a randomized trial.
The imagination, probably our most under-utilized health resource, can be used to remember
and recreate the past, develop insight into the present, influence physical health, improve
creativity and inspiration, and anticipate possible futures. All of us have, to some extent,
experienced the effects of the imagination on the body. In recent years, data have suggested
that mental practice can improve the performance of motor skill behaviors. These studies
have generally shown that healthy volunteers who train with their minds on a specific task
usually show better performance compared with a those that did not practice, although less
than those who train physically.
To date, only a few small attempts to use mental practice in rehabilitation have been tried.
A study in subacute stroke patients comparing the possibility and effectiveness of a program
that combined imagery and physical therapy with a program of physical therapy only, showed
that combining the two therapies is a clinically feasible, cost-effective addition to
therapy that may improve functional outcomes more than participation in physical therapy
only. Thus, mental practice in physical rehabilitation offers a potential way to improve
motor recovery after damage to the brain.
One approach to improve arm function among patients with stroke is intensive repetitive task
practice (RTP). This treatment can take the form of functional training alone or also
include other ways encouraged within constraint induced (CI) movement therapy. Repetitive
activities often used in physical or occupational therapy may also improve health related
quality of life. While intense treatment, such as CI therapy, to overcome arm impairment may
prove to be helpful, such therapy is expensive because it relies on one-on-one interaction
between the patient and rehabilitation therapist. New therapeutic treatments to help
existing therapy that offer helpful and money saving alternatives must be developed to
improve arm use, and also, stroke survivors' quality of life.
While RTP and mental imagery may be promising treatments, we do not clearly understand the
changes that may occur in the brain's of patients who have had a stroke following any
physical rehabilitation. A few studies using positron emission tomography (PET) and
functional magnetic resonance imaging (fMRI) measures have shown the blood flow changes in
the brain during physical movement following CIT. If the way in which recovery of motor
function after stroke were better understood, better decisions could be made regarding the
best selection of specific treatment strategies.
The primary aim of the proposed study is to collect data in an effort to estimate the
clinical effectiveness of implementing RTP in addition to mental imagery training (MIT) to
improve upper extremity motor function and the quality of life of chronic stroke patients.
One group in this study will be asked to "mentally rehearse" a series of upper limb
functional motor tasks for one and a half hours per day (3-30 minute sessions), with the
guidance of an audio tape, for a total of 21 hours over two weeks. Another group will
undergo 10 days (6 hours per day) RTP with a licensed rehabilitation specialist as well as
listen to the same MIT tape for one and a half hours per day (3-30 minute sessions. Motor
function and quality of life will be measured on two occasions: before the intervention and
immediately after the intervention. A unique aspect of this study will be to obtain the fMRI
data on a subset of patients enrolled in each group. Everything involving this study will be
done at the Center for Rehabilitation Medicine at Emory University School of Medicine and at
the Emory University Hospital.
This study represents one of the first tries at using mental imagery in addition to a
physical rehabilitation for the recovery of movement after stroke and, to our knowledge, the
first try to use fMRI to look at changes in the brain after mental training. The results of
this study may allow us to learn more about the relationship between rehabilitation and
brain function after stroke, as well as confirm the idea that actual changes in the brain
are related to improving movement in the body.
This study uses an new therapeutic method along with well accepted methods (RTP) in an
effort to improve arm movement of patients who have had a stroke. A thorough approach will
be used to determine how the use of mental imagery along with RTP can change movement of the
arm and the quality of life of patients who have had a stroke using proven clinical tests to
determine movement performance and patients' quality of life. Furthermore, precise brain
functioning tests (i.e. fMRI) will be performed to better understand the actual changes that
happen in the brain when stroke patients have improved movement in their arm.
Should the use of MIT and RTP be better than RTP or MIT alone, a many year randomized
clinical trial would be suggested to determine the helpfulness of using mental imagery
training with RTP to improve arm function and the quality of life of patients with stroke.
The benefits of this would be reduced costs for arm rehabilitation among certain patients
who have had strokes and a better way for rehabilitation centers to prescribe and provide
therapy targeting the arm. Because of shorter lengths of stay and fewer number of therapy
sessions allowed for in- and out-patient services for stroke survivors, the use of
additional and different delivery systems, such as mental imagery, become very important.
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Crossover Assignment, Masking: Single Blind (Outcomes Assessor), Primary Purpose: Treatment
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