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After thirty-five years of wearing a heavy backpack into
remote areas, slipping and sliding on steep terrain in search
of wonder and solitude, attempting to find another pristine
high mountain lakeside campsite, I've noticed, more and more,
my knees ache at the end of the day--and, sometimes, before
the day has ended. Diagnosis: Worn out parts. Cause: Abuse
and overuse. Cure: Well . . .
I have become another of the numberless victims of the human body's joint most
vulnerable to wear and tear. No other of the skeletal system's 187 bone-to-bone
connections causes as many chronic problems.
To take care of a knee, it is, perhaps, best to start with an understanding
of its construction and function. If your car fails to run properly, you need
some basic auto mechanics in order to decide 1) is it OK to keep driving it?
2) are there things I can do to make it work better? and 3) does it need a
car doctor? Same goes for the human "machine."
BODY MECHANICS
Knees are directly comprised of three bones: the femur (thigh), the tibia (which
we touch when we say "shin"), and" the patella (kneecap).
Another bone, the fibula, attaches behind the tibia, near the knee, but has
no specific influence on the joint.
Femurs and tibias articulate, or move against each other, when legs are in
motion. The articulating surfaces of the femur and tibia are semi-flat and,
to ensure a secure fit, each knee is padded with two C-shaped pieces of cartilage,
one on the outer half of joint space, the other on the inner half. Called the
medial (inside) meniscus and the lateral (outside) meniscus, they also absorb
some of the shock of movement. Placed strategically in the knee, for additional
padding, are fluid-filled sacks, called bursae, at points of the greatest friction.
The knee is held together by ligaments--four of them. They're attached at the
points of highest stress. Connecting the femur to the tibia are the medial
and lateral collateral ligaments, on the inside and outside of the knee. They
provide stability for side-to-side motion. For back-to-front and front-to-back
stability, there are the cruciate (crossed) ligaments. They run through the
joint space, between the two menisci. Both cruciate ligaments attach on their
upper end to the femur, and on their lower end to the tibia, and they're named
for where they attach to the tibia. The anterior (front) cruciate ligament
(ACL) attaches to the femur at the back of the knee and to the tibia in front,
thus preventing the knee from sliding too far forward. The posterior (rear)
cruciate ligament (PCL) attaches to the femur at the front of the knee and
the tibia at the rear, thus preventing the knee from sliding too far backwards.
Ligaments are made of connective tissue in which there is very, very little
elasticity.
When in motion, the great muscles of the leg provide additional support to
the knee. The quadriceps (thigh) muscles are a group of four muscles. They
taper down into one tendon that crosses the knee and attaches to the top of
the tibia. The patella lives in the middle of this tendon. Three muscles in
the back of the leg, the hamstrings, also help support the knee. One attaches
to the outside of the knee and the other two to the inside. The calf muscle
(gastrocnemius) attaches in two places to the back of the femur and, finally,
a long thin muscle runs from the groin to the inside of the knee adding a touch
more of support.
In addition, a long tough tendon, called the ilio-tibial band, runs from your
gluteals (the muscles of your hindquarters) down the thigh, across the knee,
attaching to the outside of the tibia. This band, too, gives a bit of support.
You'd think, with all that support, the knee would last longer. Unfortunately,
the fittings are only moderately snug, the demands put on the joint are great,
and it is highly susceptible to damage.
From a trauma point of view, any force applied to the knee can partially or
totally severe a ligament (a sprain), a nasty injury. If the force is applied
to the outside of the knee, the medial collateral ligament and anterior cruciate
ligament may be involved, as well as the medial cartilage. If the force is
applied to the inside of the knee, the lateral collateral could be torn and
lateral cartilage may be ruptured. Twisting forces may significantly damage
the cruciate ligaments.
But the most common source of chronic knee pain is not injury but overuse of
the muscles that support the knee. When the muscles are stressed too much,
they tear (a strain) and create a great deal of discomfort. They most often
strain near their attachment to the knee. Tendonitis, an inflammation of the
tendons, has the same mechanism of injury. Muscle strains and tendonitis are
commonly mistaken by the patient as a torn ligament or cartilage. This mistake
is very common when the ilio-tibial band is involved. Since the band is required
for uphill motion, it is often abused when hikers are unused to going uphill,
or increase their uphill activity, especially if they're wearing a pack. The
problem, called ilio-tibial band syndrome, causes pain primarily where the
band attaches to the outside of the knee, simulating a torn collateral ligament.
General knee pain may have other causes including patellar compression syndrome,
a problem created by too much pressure on the back of the kneecap by too much
walking, especially downhill. A dull ache, constant and nagging, is the common
complaint. Or, perhaps, the kneecap doesn't run quite correctly in its track.
The additional side-to-side motion of the kneecap puts additional stress on
its inner surface which eventually causes pain for up to several hours after
use. If the pain becomes chronic, never going away, the condition may be chondromalacia
of the patella. Chondromalacia refers to a disintegration of the cartilage
under the kneecap, probably caused by a chemical change stimulated by past
injury or overuse. The cartilage becomes frayed and eroded. Interestingly,
the cartilage can't hurt since it has no nerve endings. So the pain must come
from inflamed tissue around the cartilage.
ASSESSING THE DAMAGE
1. First, you need to assess the extent of the damage. Did the pain start as
the result of trauma (a forceful blow or twist) or overuse? If it was trauma,
was there a direct blow to the knee? Which way was the knee forced to move?
Did it twist? Was the foot planted when the force struck? Did the hurt hiker
hear any sounds, such as a popping noise? If it was overuse, has the sufferer
ever had this kind of knee pain before? Does it hurt all the time or just
when he or she moves? In both cases it is beneficial to ask, Have you ever
had pain like this before? If the pain came on suddenly from trauma, especially
if it made funny noises, and if it hurts most of the time, the patient needs
to see a doctor.
2. Visually inspect the damage. Take a look at the knees. Do both knees look
the same? Damaged knees may show swelling, discoloration, or some other obvious
deformity such as a kneecap in the wrong place. The more a knee swells, and
the more discolored it is, and the funnier it looks, the more it needs a doctor.
3. Palpate the damage. Touch the hurt knee with your fingers, probing gently.
Do you find specific points of pain? Are the painful places over ligaments
or tendons? Does it hurt when you push down on the kneecap, or wiggle it side-to-side?
Is there pain along the line where the tibia and femur meet? The more specific
pain in the knee is, the more likely there has been damage that needs repair.
4. Check range of motion of the knee. Can the patient flex and extend the knee
through its full range of motion? Or does it lock up or get too painful to
move past a certain point? Knees with a loss of range of motion should be taken
to a doctor.
5. Check laxity of the knee. Each of the four ligaments holding the tibia to
the femur can be individually assessed. These tests should be done with the
patient sitting down and the leg relaxed. If the patient is unable to tolerate
these checks, the knee needs a doctor.
The medial collateral ligament, the one on the inside of the leg, can be checked
by holding the ankle, with the knee slightly bent, and pushing from the outside
of the knee in. If it's loose or painful, stop pushing.
The lateral collateral ligament, on the outside of the leg, can be checked
in the exact opposite way, pushing from the inside of the knee out. Again,
looseness or pain is a sign to stop pushing.
The anterior cruciate ligament, one of two "crossed" ligaments inside
the knee joint, can be checked by bending the knee slightly and pulling out
on the tibia while pushing back on the femur. Watch for pain and looseness.
Posterior cruciate damage, which happens in only about one percent of all knee
injuries, can be checked simply by lifting the relaxed leg by the ankle and
letting the knee sag.
6. Test for function. This simple test should not be done until at least one
hour after pain starts. If the patient can stand and walk, do halfway deep
knee bends, and jump up and down on each knee individually, it's fine to keep
hiking on those knees.
REPAIRING THE DAMAGE
If the knee has been traumatized to the point where it can't be used, the leg
should be splinted, with the knee slightly flexed, and the patient should
be carried to a doctor for repairs. If the knee can be used carefully, you
can build a walking splint, one that wraps securely around the joint but
does not let the knee move, and the patient can hike out to a doctor. Walking
splints, like fixation splints, should hold the knee in a slightly flexed
position. You can build one by rolling a sleeping pad up from both ends until
you have something resembling two "jelly rolls." Wrapped around
the knee from the rear, the kneecap is left free of pressure. A soft but
firm pad (maybe a rolled up T-shirt) behind the knee keeps it slightly flexed.
Tied securely in place, the splint stabilizes the knee while allowing walking.
A stick or ski pole for a "walking stick" adds to the patient's
stability. If you have an inflatable sleeping pad, such as a ThermaRest,
you can deflate it, build the splint, secure it in place, then inflate the
pad for even greater support. Crazy Creek Chairs also make great walking
knee splints.
If your knee hurts from overuse, you might be able to ease the pain by strengthening
the muscles surrounding the knee. with access to a weight machine, you would
do well to regularly--say, three times a week--perform sets of hamstring curls
and knee extensions. Leg presses also strengthen the knee area. Don't use more
weight than you can easily control, and do the exercises slow and precise instead
of flinging the weight up and down. Keep your feet and ankles turned slightly
outward during the exercises to emphasize the inner thigh muscles. The vastus
medialis--on the inside of your knee--is often weak in backpackers compared
to the vastus lateralis, and this weakness pulls the knee out of line, a source
of pain. Without a weight machine, you can do lunges and "wall sits." A
wall sit is like a supported squat: press your back against a wall and slowly
sit down until your legs are flexed at about 130 degrees; don't go all the
way down to 90 degrees for at 130 degrees the vastus medialis gets a good workout.
During these exercises, keep your lower leg perpendicular to the platform of
your foot to better strengthen the knee. If you don't get better, see a doc
for an evaluation. Sometimes knee pain is related to foot structure, and an
orthotic could help. Sometimes a knee brace can be the thing you need.
RICE speeds the healing and eases the discomfort of all levels of knee pain.
Apply RICE several times a day until the pain is gone. RICE is Rest, Ice, Compression,
and Elevation. Rest means get off the joint. Ice means cool the joint with
ice, snow, chemical cold packs, or cold water. (Note: ice, snow, or cold packs
should not be put directly on naked skin. A bandanna will provide enough insulation
between the cold and the skin.) Compression means wrap the knee in an elastic
wrap, but not too tight. Elevation means keep the knee higher than the patient's
heart. RICE should be applied for 20-30 minutes, then taken off. RICE-ing three
or four times each day should be enough. In addition, over-the-counter anti-inflammatory
drugs (aspirin, ibuprofen) ease pain and speed healing. These drugs should
be taken with food and plenty of water. The dose of an anti-inflammatory drug
you take might be upped beyond what is recommended on the bottle, but you need
a physician's advice about how much to increase the dose.
Overuse injuries can be assessed the same as traumatic injuries. If an overuse
injury is bad enough to splint, it should be taken to a doctor, along with
the rest of the patient. RICE and anti-inflammatory drugs will, once again,
ease pain and speed healing. Gentle massage and mild stretching exercises often
make the knee feel better and mend quicker.
It's nice to know exactly what's going on, but in all instances, your job is
not to figure out exactly what's wrong with a painful knee. Your job is to
figure out how to deal with the pain and whether or not the pain should be
evaluated by a physician.
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