Changing stroke rehab and research worldwide now.Time is Brain! trillions and trillions of neurons that DIE each day because there are NO effective hyperacute therapies besides tPA(only 12% effective). I have 523 posts on hyperacute therapy, enough for researchers to spend decades proving them out. These are my personal ideas and blog on stroke rehabilitation and stroke research. Do not attempt any of these without checking with your medical provider. Unless you join me in agitating, when you need these therapies they won't be there.

What this blog is for:

My blog is not to help survivors recover, it is to have the 10 million yearly stroke survivors light fires underneath their doctors, stroke hospitals and stroke researchers to get stroke solved. 100% recovery. The stroke medical world is completely failing at that goal, they don't even have it as a goal. Shortly after getting out of the hospital and getting NO information on the process or protocols of stroke rehabilitation and recovery I started searching on the internet and found that no other survivor received useful information. This is an attempt to cover all stroke rehabilitation information that should be readily available to survivors so they can talk with informed knowledge to their medical staff. It lays out what needs to be done to get stroke survivors closer to 100% recovery. It's quite disgusting that this information is not available from every stroke association and doctors group.

Monday, March 10, 2025

New brain imaging technique offers hope for better stroke rehabilitation

 Which means the followup research needs to be how to get dendritic branching and axon pathfinding going to reconnect the areas of the brain. WHOM IS GOING TO DO THAT?

  • axon pathfinding (42 posts to March 2012)

  • dendritic branching (42 posts to February 2012)

    • Doesn't anyone in stroke have two functioning neurons to see the path forward to survivor recovery except for me?

    The latest here:

    New brain imaging technique offers hope for better stroke rehabilitation

     Reviewed
    Georgetown University Medical CenterMar 3 2025

    A new Georgetown University Medical Center study in collaboration with MedStar Health and the National Institutes of Health exploring a new brain imaging technique is bringing stroke experts a step closer to better tailoring rehabilitation.

    Neurologists often use MRI images of the brain's white matter to glean information about a person's ability to recover, but a new imaging technique added to MRI allows clinicians to better see the condition of white matter tracts leading to the limbs, an observation usually only seen after death during an autopsy.

    A white matter tract called the corticospinal tract provides the main wiring that goes from your brain down to your spinal cord to help power your arms and legs. If those cables are severed or atrophied, the person is not going to be able to regain meaningful use of their arms and legs – they wouldn't have much motor strength."

    Matthew A. Edwardson, MD, study leader, associate professor of neurology at Georgetown University School of Medicine and vascular neurologist and a member of the stroke team atMedStar Georgetown University Hospital

    The imaging technique used by Edwardson and his colleagues is called diffusion tensor-based morphometry (DTBM). It combines directional information about the structures in the brain with the shape and size of the structures being imaged. Previously it was difficult to separate the white matter cables from the gray matter using morphometry approaches because they did not include the directional information. This two-part technique allows researchers to map and quantify changes over time in the white matter tracts.

    "To our knowledge, this is the first study to allow us to measure atrophy of these tracts in stroke survivors," says Edwardson, a member of the Center for Brain Plasticity and Recovery, a joint collaboration between Georgetown University and MedStar National Rehabilitation Network.

    He and colleagues from the National Institutes of Health (NIH) describe their findings in March 3, 2025 in the journal Neurology ("Association between changes in white matter volume detected with diffusion tensor-based morphometry and motor recovery after stroke").

    "Now, we can see if the cables have shrunk in size which would indicate that a stroke has caused enough damage to the brain to lead to the wiring becoming atrophied," says Edwardson. "That observation is strongly correlated with how well somebody will recover. If there's a lot of atrophy in the brain in those cables, they're not going to have much ability to recover their arm function after a stroke."

    Edwardson says further studies would be needed before the observations could be used to tailor stroke rehabilitation.

    "It would be helpful for the therapist to know at the time of admission to inpatient rehabilitation whether there's some likelihood of their patient regaining function," he says. "If it is determined that the patient isn't likely to recover meaningful motor use, then the therapist could change their strategy to perhaps focus on the unimpaired side with strategies to compensate for the disability."

    Along with Edwardson co-authors of the publication are Amritha Nayak, ME, M. Okan Irfanoglu, PhD; and Carlo Pierpaoli, MD, PhD; of NIH's National Institute of Biomedical Imaging and Bioengineering; and . Marie Luby, PhD; and Lawrence L. Latour, PhD; of NIH's National Institute of Neurological Disorders and Stroke.

    The authors report having no personal financial interests related to the study.

    Funding was received from the National Center for Advancing Translational Sciences (UL1TR000101), and Georgetown's Clinical and Translational Science Award.

    Source:

    Georgetown University Medical Center

    Journal reference:

    Edwardson, M. A., et al. (2025) Association Between Changes in White Matter Volume Detected With Diffusion Tensor–Based Morphometry and Motor Recovery After Stroke. Neurology. doi.org/10.1212/WNL.0000000000213408.

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