What Exactly
is MS?
Signs
and Symptoms of MS
Whatever the causes and mechanisms
involved in MS may be, the main effects of MS are on the central
nervous system - which means the brain and the spinal cord. This
is why MS is classified as a neurological disease and is the specialty
of neurologists. Symptoms can include any or all of the following:
tingling, or pins and needles, anywhere in the body; difficulty
in walking; dragging either foot; loss of co-ordination; loss
of sensation or distorted sensation anywhere in the body; numbness
in the hands, feet, limbs or other parts of the body; feeling
like you are made of cotton wool; rubber or jelly; clumsiness;
double or blurred vision or temporary blindness in an eye; slurred
speech; an urgency to urinate or an inability to pass urine; loss
of balance; unnatural fatigue; a feeling of tight bands around
the trunk or lower limbs which can be itchy; sometimes pain; vertigo;
tremors in the hands and arms; spasticity of the muscles or else
muscles like jelly; a feeling of extreme cold like frostbite in
the extremities; feeling like a wet rag in humid weather.
The
Course of MS
Usually, the only type of MS mentioned
is the relapsing-remitting type, where someone has an attack,
followed by a remission, when the person goes back to the way
he or she was before the last attack or slightly worse than before.
Scientists have been trying to find out just what it is which
switches people into a remission. Many have felt that if only
they could solve the mystery of remission they could treat MS.
The relapsing-remitting type is by no means the only course of
MS. The other common type is described by scientists as 'chronic
progressive'. In these cases, there are no clear-cut 'attacks'
and the person just gets progressively worse. In some rare cases,
it is possible to get a galloping form of MS, where the person
degenerates rapidly and dies within a few years. But it is also
possible to have one attack of MS, and then to have nothing happen
to you ever again, and live to a ripe old age. Doctors sometimes
say that the first five years of MS are a predictor of the future.
Those who have hardly got worse in that time are said to have
a 'benign' course. It would be nice to do something about the
disease early on so that one is not faced with the horrible prospect
of getting worse and worse, at whatever speed.
The
Cause or Causes of MS
What causes MS, and what is going on in
MS, are a complex puzzle. One scientist has described MS as 'baroque
in its complexity'. As the years roll by, the puzzle just seems
to grow more complex - immunoglobulins, abnormal IgC ratios, monoclonal
antibodies, histocompatibility antigens . . . How all these pieces
fit together has not yet been solved by scientists. However, this
not the place to try and unravel the complex mechanisms going on
in the disease. What is important to know is that there are some
broadly undisputed facts about what is going on in MS. It is
useful to know the orthodox theories about MS as they now stand.
The prevailing wisdom among orthodox doctors in the field of MS
is that MS is a multi-factorial disease. They believe that a virus,
or viruses may be the infecting agent, and there is some evidence
that people with MS have an intrinsic inability to cope with such
viruses. The immune system plays a complicated part in all this,
perhaps causing the scattered damage to the nervous system. Epidemiological
studies (studies done on different populations in different pants
of the world) suggest that there may be some environmental agent
at work in MS. Other studies point to some genetic component. Large
amounts of money are being spent on medical research targeted at
these areas. The aim is to find the cause or causes of MS first,
so that a treatment or treatments can then be found, and finally
a cure, or a prevention, or both. While all these global theories
may well turn out to be true, a more holistic approach would be
to look for more personal reasons for your disease, or dis-ease.
There may be stress factors in your life, which triggered the first
symptoms. There may also be environmental factors, which affect
you in an individual way. You are the only person who can discover
the more personal causes of why you have MS. A voyage of self-discovery
may help answer deep questions about 'Why me?' and, once revealed,
help you on your journey to health. The global theories about MS
may take years to come to fruition. I believe we have enough knowledge
now about what is happening in MS to start self-help treatment
without losing precious time.
What
is happening in MS?
There are some medical facts about
MS which have been pieced together and which are for the most
part undisputed, and helpful to know.
Myelin
and Demyetination
The central thing that is happening
in MS is that myelin is breaking down. Everyone agrees about that.
But what scientists don't agree on is why the myelin breaks down
and whether this breakdown of myelin is the primary event in MS,
or whether it follows on from something else happening. MS is
a disease which affects the central nervous system. The central
nervous system is the brain and the spinal cord. In the white
matter of the central nervous system (CNS) each nerve fibre (called
an axon) is surrounded by a layer of insulation, called myelin.
Nerve signals cannot travel normally without this insulating sheath,
arid without myelin there may be faulty connections between adjacent
nerve fibres. Think of these myelin-covered nerve fibres as if
they were an electrical cable containing many wires. In a cable,
it is very important that the wires should not make contact with
each other To stop this from happening, each wire is covered by
some insulating material - usually rubber or plastic. The insulation
makes sure the electricity in the wire goes to its destination
without short-circuiting. In Multiple Sclerosis, the myelin in
the central nervous system suffers patches of demyelination. The
damage to the brain and spinal cord occurs in many widely scattered
areas. That is why it is called 'multiple' - there are many patches
of damage. The damaged area becomes filled with hard material,
or scars. 'Sclerosis' means scars. Multiple sclerosis means many
scars. How your MS affects you may depend on where in the brain
and spinal cord the scarring, or plaques, are. It is the white
matter of the brain and spinal cord which is damaged in MS, rather
than the grey matter. The white matter actually looks white to
the naked eye. It consists of fibres, which carry messages from
the sense organs - like the skin, eyes and ears - up to the higher
parts of the brain. The white matter also sends messages from
the brain down to the muscles. The white matter also links up
various parts of the brain. It is the sort of 'wiring' of the
brain. This explains why your ability to feel, move, and co-ordinate
is affected in MS. Even though demyelination in MS still leaves
many questions unanswered, more is known now about myelin and
its breakdown than even five years ago. Seventy-eight per cent
of myelin is made up of lipids, which are complex fats. Myelin
also contains proteins. The best nutrition for MS is very rich
in the kind of structural fats which go to make up myelin. MS
only involves demyelination of the central nervous system. The
nerve fibres in the peripheral nervous system do not get affected
in MS. The myelin in both systems is similar in its lipid composition.
But the two types of myelin are quite different in their protein
composition. The other big difference is that in the central nervous
system there are glial (special connective tissue) cells called
oligodendrocytes which are responsible for producing myelin sheath,
whereas in the peripheral nervous system there are other types
of cells which do this, called the Schwann cells. Scientists are
now able to see clearly for themselves what is going on when myelin
breaks down. They have identified in particular something called
a macrophage. In normal circumstances, macrophages are
goodies. They are mobile white cells present in the blood, which
infiltrate into damaged tissue. They aid other troops in the immune
system to remove debris and bacteria by scavenging them, or gulping
them up. It now seems that myelin breakdown only seems to occur
in the presence of infiltrating macrophages. Under the microscope,
these macrophages can be seen actually gobbling up the myelin.
MS is called an auto-immune disease because components of the
immune system turn against the body instead of defending it. These
rogue macrophages are part of the auto-immune process in multiple
sclerosis. Why the macrophages decide to turn on myelin is still
a puzzle. Other bits of the immune system, such as the lymphocytes,
are thought to behave in a hostile way too. Then there are the
astrocytex. Astrocytes are the cells that form the scar
after the myelin is destroyed. But they are turning out to be
baddies too. They produce enzymes, which are a bit similar to
macrophages in that they are garbage collectors - they clear away
dead and waste products. It now seems that these enzymes may play
an important role in damaging myelin in an area of inflammation.
This inflammation itself is a key part of an acute attack in MS.
Moreover; the myelin contains an enzyme system of its own which
can digest myelin proteins and contribute to breakdown.The switch,
or trigger, that switches these processes on is still open to
debate. In any case, some scientists hold the view that it is
futile to look for any trigger, as the process of demyelination
is a purely degenerative one. This means that the myelin itself
degenerates without any trigger because it was never properly
built in the first place. The building blocks for laying down
strong myelin were faulty and it did not have the strength to
last a lifetime, as it normally should. The building blocks, which
lay down strong and healthy myelin are largely made of structural
fats.
Myelin
Can Regenerate
Whatever the reason or reasons
for myclin breaking down, the heartening thing to know is that
myelin can regenerate. Not long ago, it was thought that myelin
could not regenerate, but now this seems to be mistaken. Although
myelin is a relatively stable structure, individual components
do turn over, with old components being broken down and replaced
with newly-formed components. This means that some of the damage
sustained by the nervous system is in principle capable of recovery.
MS plaques may not be fixed sites of permanent damage, but areas
in which damaged tissues are attempting self-repair The trick
is to know exactly what conditions aid that recovery. Some, or
a combination, of therapies may be providing these conditions
which aid myelin regeneration. For a long time, researchers have
been saying that if only they could find out what made myelin
regenerate, they could solve MS.
For
further information : visit
any of the Multiple Sclerosois sites on the Web.
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