|
Causes Of Symptoms
Acid and Inflammation
in the Tissues
Inflammation
Muscles
Discs
Facts about your
Discs
Bone and Joint
Contributions to Pain
Facts about your
Bones and Joints
Acid and Inflammation in the Tissues
If acid builds up in your tissues it sets off an alarm system.
This alarm system is working all the time. For example, if sit
motionless, after a while it starts to hurt. Movement is important
to keep your system flushed. Lack of movement or a physical
obstruction, like sitting on a rock, leads to a fluid build up in
your muscles and joints creating byproducts of cell activity,
including acid. The acid build-up in muscles and other soft
tissues activates sensors in your nervous system, which fires
impulses through your nerves and up your spinal cord - the
messaging system of the body. When they reach the brain, they
cause the sensation of pain. If your brain concludes that your
muscles are in danger and that you should do something about the
problem, it will make them ache. The solution would be for you to
move. Any kind of movement, particularly random movement, is best.
The
thought of acid in our tissues should make us all get up. We are
designed for movement. Inflammation in the tissues is something
else that causes us pain. Anything with 'itis' refers to
inflammation ‐ tonsillitis is the inflammation of the tonsils.
Inflammation is designed to create discomfort. Remember when you
last sprained an ankle, experienced toothache or appendicitis.
Inflammation is a primitive form of defence that is essential to
the tissue repair process. Think of the swelling, redness and pain
after an injury as part of your own internal repair system.
Without it, you would not get better. Inflammation occurs because
something has been injured or stressed to the point where
chemicals are released, which set off inflammation. The body then
sends in more blood to the area (redness). The blood carries
injury repair cells that begin to clear up and heal the area,
which creates the swelling. Nerve sensors are sensitive to this
and cause the pain. Inflammation makes the joints stiff in the
morning and produces sharp pains, redness and warmth.
Muscles Muscles are given the blame
for much of our pain, but these six key facts about our muscles go
a long way to putting muscle pain into perspective: 1. Muscles
have many sensors in them so they can easily be a significant part
of a pain experience. 2. Muscles can become unhealthy and weak
especially if they are underused, static for long periods or used
in ways in which they are not suited, such as being kept tight for
long periods. 3. Muscles are actually quite hard to injure. They
bruise a bit and sometimes receive 'micro tears', which are small
injuries to the lining of muscles. However, it is difficult to
injure a muscle severely. The pain may stem from a build-up of
acid, which will make alarm bells ring. New exercises can
sometimes trigger muscle soreness some hours later, particularly
after eccentric movements where muscles contract as they lengthen.
4. Muscles have a great blood supply, so when they are injured,
they heal quickly. After all, movement and protection are so
important to our survival. If you have ever hurt your tongue, you
would know how quickly it heals. Tongue is made of muscle; eating
and speaking are important. 5. Altered muscle activity is part
of your response to injury and threat. Changes in muscle activity
can occur in the short term to aid escape or to protect you; but
in the long term there can be cost. 6. Muscle activity is about
making sense of the world and how to cope with it. In this way,
muscles are windows on to the brain. So if your muscles are
working differently, you must ask yourself why.
Discs The word 'disc' is an
unfortunate name for a remarkable structure that sits between the
vertebra. It is not, at any stage of life, like a disc. In anatomy
and medical books they are usually drawn in shapes recognisable as
a disc, but such drawings bear no resemblance to the real thing.
Discs are firmly attached between adjacent vertebra and are made
of the same material as your ear along with some super strong
ligament. In 1934, a famous study showed that a disc could swell
onto a nerve in the lumber spine. Since then, all sorts of
therapies have been aimed at the disc. Current approaches include
manual techniques of manipulation, surgical techniques include
removal or snipping pieces off, injecting or superheating/burning
it. Practitioners of the various techniques may have reported some
positive outcomes, but nothing has been overly successful for the
actual treatment of the disc. The main objective of chiropractic
treatment for a disc prolapse is to maintain as much normal
function of the affected area whilst symptoms persist. Avoiding
movement is probably one of the worst things a patient can do.
Disc injuries attract alarming adjectives like 'ruptured,
grumbling, degenerated, herniated and slipped'. It is now widely
accepted that most adults have disc degeneration in their spine
that would previously have been described in this way, yet they
have absolutely no symptoms whatsoever. Even quite marked
degeneration of the disc is not always the source of the pain.
Facts about your Discs Outer layers
of a disc have a nerve supply, so danger sensors can be activated
if those layers are in any way in danger. If the disc is injured,
the surrounding structures (which are also full of danger and
sensor nerve endings) are probably affected as well. An injured
disc may not necessarily cause instant pain. A 'slow pain',
perhaps eight to ten hours after the injury, may occur as the disc
re-inflames. Frequently, a disc injury will result in pain and
stiffness the day after it is injured. It is natural for discs
to degenerate. Degeneration is a normal part of the ageing of all
tissues. It does not have to contribute to a pain experience. The
discs are attached to the bones around it, and they stick and age
together. At least 30% of people who have no lower back pain have
discs bulging into their spinal canal, sometimes markedly. This
fact has been known for many years but it is still not common
knowledge among the general public. Discs never slip. They age,
bulge, sometimes herniate, and sometimes squeeze onto a nerve or
release chemicals that irritate a nerve. Despite these dramatic
sounding changes, this does not necessarily alarm the nervous
system.
Bone and Joint Contributions to Pain
Bones and joints are often blamed for deep movement-related pain.
This may make people fearful of movement because they are afraid
it will injure their joints. We have all grown up with the concept
of pain 'deep in the joint' and 'in the bones'. Many a patient has
said "I need to get a bit of oil into my joints".
There are 206 bones in the body and many more joints. Bones are
not normally brittle. They absorb pressures well and will adapt
and change their shape in response to the body's needs. Bones are
living, healing structures. They are full of danger sensors and so
are joints. Bones are covered in the very sensitive outer layer ("periostium"),
which acts as an extra protection system; no one likes getting
kicked in the shins!
Facts about your Bones and Joints
Joint pains are often described as grinding, stabbing, gnawing and
aching. However, these words are our brain-derived interpretations
based on the input from the joint, plus a whole lot of other
inputs. Part of the reason we describe joints as grinding is
because that makes sense mechanically. An important factor
related to joints and pain seems to be the speed at which joints
are damaged - if the changes are slow, the brain probably
concludes that there is no real danger. The pain of dislocation,
inflammation and fracture is undeniable, but most people with worn
joints never know about it. Our bones and joints are not
attractive when X-rayed, especially if you are a bit older. We all
have worn joints, surfaces and little boney outgrowths. X-ray
findings do not necessarily match pain. Changes are likely to be
age-related.
Joints require movement and regular compression, which are
essential for their health. Movement distributes a synovial fluid
(lubricant), and cartilage requires the pumping compression to
help with blood flow. The brain eagerly welcomes the sensory input
of the joints, as it wants to know what is happening so it can
construct the best responses for you (e.g. it tells you to alter
balance or position). Smashed bones can heal, sometimes stronger
than before. The repair process is powerful. Some joints in your
back or neck can get injured, for example in car accidents, but
the injuries can be too small to see on X-rays and scans. Your
brain may recognise the threat however and ring alarm bells, which
may, or may not, result in pain. |
