YUP I HEAR YOU:)
glad to help:)
Original Message:
-----------------
From: Kendall D. Corbett [log in to unmask]
Date: Wed, 03 Jan 2007 10:47:42 -0700
To: [log in to unmask]
Subject: Re: Cellular Cues Identified For Stroke Recovery
Meir,
Thanks for this! I had an MRI about two weeks ago, as my neurologist wanted to
rule out treatable neurologic causes for my increased spasticity, and was able
to determine the actual cause for my left hemiplegia that started in 1977. (As
if having CP since 1960 wasn't enough!)
On 12/26/06, Meir Weiss <[log in to unmask]> wrote:
>
> http://www.medicalnewstoday.com/medicalnews.php?newsid=59767&nfid=rssf
> eeds
>
>
>
> Cellular Cues Identified For Stroke Recovery
> 26 Dec 2006
>
> When a stroke strikes, the supply of blood to the part of the brain
> affected is interrupted, starving it of oxygen. Brain cells can be
seriously
> damaged or die, impairing local brain function.
>
> But the brain is a battler. Within weeks of a stroke, new blood
> vessels begin to form, and, like marching ants, newly born neurons
> migrate long distances to the damaged area to aid the regeneration process.
What’s not
> known is what the right cellular environment is, and what the cellular
cues
> are for this process of regeneration and migration to take place.
>
> Now, in the Journal of Neuroscience, currently online, S. Thomas
> Carmichael, M.D., Ph.D., an assistant professor in the Department of
> Neurology at the UCLA Geffen School of Medicine, and colleagues report
that
> in the mouse model, this neuron march is the direct result of
> signaling
from
> the newly blooming blood vessels, thus casually linking angiogenesis
> the development of new blood vessels and neurogenesis, the birth of
> new
neurons.
> Further, they have identified what these molecular signals are. The
results
> hold promise for eventual clinical applications that may spur brain
> repair after stroke.
>
> Stroke is the leading cause of adult disability, said Carmichael. And
> while much is known about the mechanisms of cell death in stroke,
> little
is
> known about the mechanisms of neurological recovery after a stroke.
> His
lab
> studies the mechanisms of brain repair and the recovery of function
> after
a
> stroke.
>
> Recent research has revealed that in the adult brain, new neurons form
> in a region of the forebrain known as the subventricular zone (SVZ).
> In mice, after a stroke was initiated in a part of the brain located
> far from the SVZ, the researchers, using a combination of mitotic,
> genetic, and viral labeling, tracked newly formed neuroblasts
> (immature brain cells from
which
> mature adult neurons form) as they traveled through healthy brain
> tissue
to
> the stroke area. Once there, these immature neurons wrapped themselves
> around the immature vascular cells that were in the process of forming
> new blood vessels in the damaged area. The neurons were found to
> arrive at the site within the first two to four weeks after the stroke.
>
> Further, the researchers found that two proteins, stromal-derived
> factor 1
> (SDF1) and angiopoietin 1 (Ang1), that are given off by these
newly-forming
> blood vessels, are what trigger the thousands of immature neurons to
> the site of damage.
>
> “The SDF1 and Ang1 proteins are what link the two processes of
> neurogenesis and angiogenesis together by promoting post-stroke
> neuroblast migration,†said Carmichael. They also appear to
> effect behavioral recovery as well, he noted. The researchers produced
> the stroke in an area of the brain that controls the mouse’s
> facial whiskers. When the
mouse was
> infused by the researchers with Ang1 and SDF1, improvement in the
> function of the whisker’s was seen to the same levels as the
> control
(non-stroke)
> mice.
>
> If harnessed properly, said Carmichael, the molecular mechanisms for
> neuronal regeneration hold the promise of regenerating and
> reconnecting brain cells near the area where stroke occurs. While the
> process may vary between mice and humans, he said, it’s known
> that neurogenesis
occurs in
> humans. “We’re hopeful that we can take advantage of the
brain’s
> plasticity,†said Carmichael. “This work could lead to the
development
> of new therapies that will promote brain repair after stroke.â€
>
> Other authors of the paper were John J. Ohab, Sheila Fleming, and Amin
> Blesch. The research was supported by a grant from the American Heart
> Association, and a distinguished scholar award from the Larry L.
> Hillblom Foundation.
>
> The UCLA Department of Neurology encompasses more than a dozen
> research, clinical and teaching programs. These programs cover brain
> mapping and neuroimaging, movement disorders, Alzheimer disease,
> multiple sclerosis, neurogenetics, nerve and muscle disorders,
> epilepsy, neuro-oncology, neurotology, neuropsychology, headaches and
> migraines,
neurorehabilitation,
> and neurovascular disorders. The department ranked No. 1 in 2005 among
> its peers nationwide in National Institutes of Health funding. For
> more information, see http://neurology.medsch.ucla.edu/.
>
> University of California, Los Angeles (UCLA), Health Sciences
> 924 Westwood Blvd., Ste. 350
> Los Angeles, CA 90095
> United States
> http://www.healthcare.ucla.edu/
> Article URL:
> http://www.medicalnewstoday.com/medicalnews.php?newsid=59767
>
>
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>
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>
>
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--
Kendall
An unreasonable man (but my wife says that's redundant!)
The reasonable man adapts himself to the world; the unreasonable one persists in
trying to adapt the world to himself. Therefore, all progress depends on the
unreasonable man.
-George Bernard Shaw 1856-1950
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