LISTSERV 16.0 - PARKINSN Archives

Spinal paralysis 'breakthrough'

Monday, 6 November, 2000, 01:30 GMT - Scientists in the United States have
made a breakthrough which could lead to restoration of movement in people
with damaged spinal cords.

A team from Johns Hopkins University in Baltimore have restored movement to
paralysed mice and rats by injecting immature stem cells into the animal's
spinal fluid.

The animals were paralysed by introducing an animal virus that specifically
attacks motor neurons (the cells that co-ordinate movement).

Normally, animals infected with the Sindbis virus permanently lose the
ability to move their limbs, as neurons leading from the spinal cord to
muscles deteriorate.

They drag legs and feet behind the, mimicking symptoms found in patients
with a disease called spinal muscular atrophy (SMA).

But half of the rodents treated with stem cells recovered the ability to
place the soles of one or both of their hind feet on the ground.

Researcher Dr Jeffrey Rothstein said: "This research may lead most
immediately to improved treatments for patients with paralysing motor
neuron diseases, such as amyotrophic lateral sclerosis (ALS) and SMA.

"Under the best research circumstances, stem cells could be used in early
clinical trials within two years."

Dr Douglas Kerr, who led the research team, said the study was significant
because it was one of the first to demonstrate stem cells have the
potential to restore function over a broad region of the central nervous
system.

[Lab mice BBC] He said: "Most use of neural stem cells so far has been for
focused problems such as stroke damage or Parkinson's Disease, which affect
a small, specific area."

In the rodent study, however, injected stem cells migrated to broadly
damaged areas of the spinal cord.

Dr Kerr said: "Something about cell death is apparently a potent stimulus
for stem cell migration.

"Add these cells to a normal rat or mouse, and nothing migrates to the
spinal cord."

In the study of 18 rodents, the researchers injected stem cells into the
animals' cerebrospinal fluid via a hollow needle at the base of the spinal
cord.

Within several weeks, the cells migrated to the ventral horn, a region of
the spinal cord containing the bodies of motor nerve cells.

Between 5% and 7% of the stem cells turned into fully functioning nerve
cells, enough to restore some movement within eight weeks in half of the
rodents.

The scientists are now trying to discover how it is possible that such an
apparently small number of nerve cells can make such a significant
difference to the animals' capacity to move.

SMA is the most common inherited neurological disorder and the most common
inherited cause of infant death. The gene for the disease is carried by one
in 40 people.

Both parents need to be carrying the gene before a child develops the
condition. The disease causes nerve cells leading from the spinal cord to
muscles to deteriorate.

Children are born weak and have trouble swallowing, breathing and walking.
Most die in infancy, though some live into young childhood.

In the UK, Anita MacAulay, executive director of the Jennifer Trust for
Spinal Muscular Atrophy, welcomed the research.

She said: "This research is really exciting news and will be well received
by the families of victims as it could make the day when SMA is thing of
the past that much closer."

ALS causes the deterioration of motor nerves leading from the brain to the
spinal cord as well as those from the cord to muscles. The disease
eventually creates whole-body paralysis and death.

Ruth Obeten, superintendent physiotherapist at the Internal Spinal Injuries
and Rehabilitation Centre at the Royal Buckinghamshire Hospital, said the
technique could potentially also help patients with spinal injuries.

She said: "Maybe eventually if you inject these things into the spine
immediately after injury you might get some re-growth of material.

"But spinal cord material dies off so quickly that unless it was done
immediately there would be nothing left to re-grow."

The findings were presented at a conference of the Society for Neuroscience
in New Orleans.


Related to this story:
Stem cell advance fuels embryo debate (20 Sep 00 | Health)
Embryo cells imported to UK (07 Jul 00 | Health)
Nerve implants tackle paralysis (07 Jun 00 | Health)
Scientists re-grow damaged nerves (19 Jan 00 | Health)
Motor neurone disease 'caused by virus' (12 Jan 00 | Health)

Internet links:
Center for ALS (Amyotrophic Lateral Sclerosis) Research at Johns Hopkins
Neuromuscular diseases
Jennifer Trust for Spinal Muscular Atrophy
Fight Spinal Muscular Atrophy

BBC News Online: Health
http://news.bbc.co.uk/low/english/health/newsid_1004000/1004133.stm

janet paterson, an akinetic rigid subtype parkie
53 now /44 dx cd / 43 onset cd /41 dx pd / 37 onset pd
TEL: 613 256 8340 URL: http://www.geocities.com/janet313/
EMAIL: [log in to unmask] SMAIL: POBox 171 Almonte Ontario K0A 1A0 Canada