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Calling GPs and stroke patients for research into constraint-induced movement therapy
September 07, 2004Traditional treatment of movement problems for people who have suffered traumatic brain injury or strokes has mainly focused on making the best use of motor functions the patient has retained. A team at the University of Surrey is now examining a method which focuses on improving the weaker arm of patients with upper body hemiparesis (hand/arm disability resulting from brain damage). Professor Annette Sterr and her Clinical Neuroscience Research Group are carrying out a five-year study into the practical clinical application of constraint-induced movement therapy (CIT) and the brain mechanisms thought to make the treatment successful. The study is funded by a £760k Career Establishment Grant from the Medical Research Council.
CIT was founded in the US by Professor Edward Taub. He demonstrated that if monkeys with a disabled upper limb had their stronger arm constrained for several consecutive days whilst training their disabled limb using a behavioural learning technique called 'shaping', they would regain some use of the disabled limb. Professor Taub then tried this treatment with stroke patients with reduced hand function, constraining their good arms for 90% of waking hours for two weeks, whilst their affected arms were shaped for six hours a day by performing increasingly difficult arm movements. All the patients showed a marked improvement.
Such research would not be viable in rehabilitation clinics, as they are not designed to see patients for such long periods, and the longer therapy sessions may be too strenuous for many stroke victims. The study aims to build on Professor Sterr's previous work which achieved significant results using shorter training periods and without constraining the good arm. The project also aims to understand the brain mechanisms linked to CIT success by studying brain images with fMRI and recording electrical activity in the brain with EEG. Professor Sterr says: "We know that recovery from brain damage relies on the rewiring of brain circuits and that this process can be stimulated by the tasks you give your brain to do. It is believed that intensive training helps the regain of function by engaging neurons so new brain connections can be formed. By studying electrical activity and images of the brain before and after treatment we are able to test this theory".
The study at UniS will test 112 volunteers who have limited movement in one side of their upper body following a brain injury or stroke at least 12 months previously. Each volunteer will undergo fMRI scans and EEG recordings before and after treatment. The fMRI scanner is a research-only scanner, which allows the team to look at the functioning of the brain, in addition to brain structure shown by MRI scanners.
One group of volunteers will receive standard CIT treatment, while in a further four groups the length of training will vary, as will the use of a constraint. Training will last for two or three weeks, with follow ups every six months for two years. Once back at home, the volunteers will be given a programme of tasks to practise every day.
Group research officer Amy Saunders recently spent three weeks at the University of Alabama studying with Professor Taub, and is now looking to recruit volunteers for the UniS study. Patients need to be low functioning and the approval of their GP will be sought before they can be considered for the study.
Surrey, University of
The study at UniS will test 112 volunteers who have limited movement in one side of their upper body following a brain injury or stroke at least 12 months previously. Each volunteer will undergo fMRI scans and EEG recordings before and after treatment. The fMRI scanner is a research-only scanner, which allows the team to look at the functioning of the brain, in addition to brain structure shown by MRI scanners.
One group of volunteers will receive standard CIT treatment, while in a further four groups the length of training will vary, as will the use of a constraint. Training will last for two or three weeks, with follow ups every six months for two years. Once back at home, the volunteers will be given a programme of tasks to practise every day.
Group research officer Amy Saunders recently spent three weeks at the University of Alabama studying with Professor Taub, and is now looking to recruit volunteers for the UniS study. Patients need to be low functioning and the approval of their GP will be sought before they can be considered for the study.
Surrey, University of
Brain Injury Current Events and Brain Injury News RSSArchives of Physical Medicine and Rehabilitation devotes special issue to traumatic brain injury
The editors of Archives of Physical Medicine and Rehabilitation are pleased to announce a special supplement to the December issue, highlighting traumatic brain injury (TBI).
Selflessness - The Core of All Major World Religions - Has Neuropsychological Connection, MU Study Finds
All spiritual experiences are based in the brain. That statement is truer than ever before, according to a University of Missouri neuropsychologist.
Oh, what a feeling!
People who have lost the ability to interpret emotion after a severe brain injury can regain this vital social skill by being re-educated to read body language, facial expressions and voice tone in others, according to a new study.
New insight into the controls on a go-to enzyme
Scientists at St. Jude Children's Research Hospital have gained new insights into regulation of one of the body's enzyme workhorses called calpains.
Simple brain mechanisms explain arbitrary human visual decisions
Mark Twain, a skeptic of the idea of free will, argues in his essay "What Is Man?" that humans do not command their minds or the opinions they form.
Ultrasound shown to exert remote control of brain circuits
In a twist on nontraditional uses of ultrasound, a group of neuroscientists at Arizona State University has developed pulsed ultrasound techniques that can remotely stimulate brain circuit activity.
A new relationship between brain derived neurotrophic factor and inflammatory signaling
In the October 14th edition of Science Signaling researchers at Boston University School of Medicine (BUSM), The Children's Hospital of Philadelphia/University of Pennsylvania School of Medicine and The University of Colorado Denver School of Medicine have shown that the development of epilepsy in adult rats is linked to functional changes in the expression of alpha 1 containing GABA-A receptors, the main inhibitory neurotransmitter receptor in the brain, that may be dependent upon BDNF-induced activation of the Janus kinase (JAK)/signal transducers and activators of transcription (STAT) pathway.
Direct recording shows brain signal persists even in dreamless sleep
Neuroscientists at Washington University School of Medicine in St. Louis have taken one of the first direct looks at one of the human brain's most fundamental "foundations": a brain signal that never switches off and may support many cognitive functions.
Duke team finds compounds that prevent nerve damage
Duke University Medical Center scientists have made a significant finding that could lead to better drugs for several degenerative diseases including Huntington's disease and Alzheimer's disease.
New marker for raised intracranial pressure
Magnetic resonance imaging (MRI) measurements of the thickness of the optic nerve sheath are a good marker for raised intracranial pressure (ICP).
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