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Mount Laurel
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King of Prussia
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The Menisci
(singular form = meniscus) of the knee are
crescent-shaped pads of tough, rubbery fibrocartilage, which is a tissue
commonly referred to as "gristle" in the table meat processing industry. The
paired menisci of the human knee are often simply referred to as the knee's
"cartilages". They exist between the femur (thigh bone) and tibia ("shin
bone") to cushion the knee joint during day-to-day use
(see FIGURES 1a-1c). Their specific job is to spread out the joint's
bone-to-bone contact pressure (caused by carrying your body weight) over a
broad area. This avoids concentrated stress in any one spot, which can cause
breakdown and deterioration (arthritis) of the articular (gliding surface)
cartilage covering the ends of the femur and tibia. Several forms of
meniscus damage and deterioration are known to occur, which for general
convenience have traditionally been lumped together under the umbrella terms
"meniscus tear" or "torn cartilage".
FIGURE 1a - Basic knee anatomy, demonstrating the location of the
medial (inner) meniscus and lateral (outer) meniscus. |
 FIGURE
1b - This photograph demonstrates a cross-section of the medial
half of a normal human knee specimen. Above, you see the rounded contour
of the femoral condyle. Below, you see the flatter, upper surface of the
tibia. These two bones have been drawn apart here to better demonstrate
the meniscus (see arrows), which lies between them. You can see that the
meniscus is a wedge-shaped structure when viewed in cross-section. It is
held in place here by its attachment to the knee's capsular ligament on
the left-hand side. |
 FIGURE
1c - In this picture, the same knee anatomy specimen seen in
Figure 1-b is shown, but in a more normal anatomic configuration, with
the femur (above) resting upon the tibia (below). Here you can easily
see how the meniscus serves as a natural cushion or pad, interposed
between the femur and tibia. The arrows demonstrate the direction of
joint loading forces while standing. This specimen also demonstrates
nicely how the bones of the knee are lined with articular (joint
surface) cartilage (the white, border tissue coating the
spongy-appearing, dark red bone). Articular cartilage adds to the
shock-absorbing capability of the knee and provides the joint with
smooth, low-friction gliding surfaces. |
Just like the rest of our body parts, our menisci do age and ultimately
degenerate. While they can be suddenly torn apart by a violent injury at any
age, they typically become gradually weakened, worn and broken down by
natural processes as we get older, at times causing symptoms while at other
times not. The rearward (posterior) portions of the menisci seem to receive
the great majority of stress, both in day-to-day life and in traumatic knee
sprains, thus almost all surgical work ends up being done on the posterior
two thirds of these structures. Tears of the frontal (anterior) portions of
the menisci occur only with relative rarity. Because healthy menisci perform
a useful function in the knee, when injured they should be repaired and
preserved whenever possible and practical. Meniscus lesions are typically
classified by orthopedic surgeons as being either "traumatic" or
"degenerative" tears.
Traumatic Meniscus Tears
A meniscus that is forcefully pinched between the femur and tibia during
a knee sprain injury may tear, even if it is strong, youthful and
undegenerated. Such tears are called "traumatic" because they occur suddenly
and because the meniscus would not have failed at that time were it not for
the highly stressful knee sprain. With few exceptions, simultaneous
weight-bearing and joint rotation (as are typically seen in a wrenching,
sprain-type injury) are required to tear a meniscus, as without the former,
no impingement ("pinching") forces are experienced by the meniscus.
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FIGURE 2
- Schematic diagram demonstrating the vascular (blood vessel) supply of
the meniscus, which enters through the meniscus' attachment to the
knee's capsular ligament. |
Only the outer (more peripheral) 30-40% of a meniscus actually has a
capillary blood supply (see FIGURE 2) and
thereby a significant potential for healing when injured. Sometimes a
traumatic tear will involve this peripheral, vascular (or so-called "red")
zone of the meniscus, whereas at other times it will also (or only) involve
the avascular (non-bleeding or so-called "white") zone, which is in the
inner 2/3 of the meniscus (see FIGURE 3).
Relatively vertical (straight split), traumatic tears in the peripheral 1/3
of the meniscus have good healing potential, thus are almost always
surgically repairable. Tears in the inner, avascular "white" zone of the
meniscus do not bleed and are rarely good candidates for surgical repair (at
least with current technology), as their healing potential is much more
limited. Even if such tears seem to heal initially, following a repair
procedure, they have a fairly high chance of breaking down again, thus
requiring another surgical procedure (meniscectomy) to excise them in the
future.
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FIGURE 3 - Diagrammatic representation of a
torn meniscus (a so-called peripheral, longitudinal tear), seen in
cross-section. The "tear" is the curved, split-defect that you see in
between the peripheral red zone and the inner white zone. The peripheral
red zone in the outer 1/3 of the meniscus is the only portion of the
meniscus that has a capillary blood supply (see Figure 2). Traumatic
meniscal tears within or at the edge of this vascular zone will bleed
and thereby have the potential to heal if treated properly, so they
should be repaired whenever possible. Tears in the inner, thinner,
avascular (white) zone do not bleed and have a far lesser potential for
stable healing. They are, therefore, significantly less amenable to
repair. This is true even if the meniscal tissue was healthy and
non-degenerated prior to failing. |
Degenerative Meniscus Tears
In the case of older, degenerated (weakened and worn)
menisci that typically split apart or break down under routine, day-to-day
or minimal stress conditions, the meniscus itself has not been healthy for
some time. A degenerative meniscal defect will almost never bleed, and in
fact may often occur gradually, without the patient even being aware of it!
When such gradual, degenerative meniscal cleavage or fissuring develops and
is discovered by MRI scanning or arthroscopy, while it is still commonly
said that the patient "tore" their meniscus, this is actually a
mischaracterization. To most people, "tearing" something implies a sudden
structural failure in response to a specific, applied force. While the terms
"torn" and "tear" are convenient for surgeons to use because they are
familiar to patients, it is misleading to use them in relation to a
degenerated meniscus that is simply worn, frayed, fissured, fragmented or
just plain broken down. When a patient hears a surgeon say "You have torn
your meniscus", they naturally infer that their meniscus was healthy and
functioning properly before it "tore", and that like freshly torn ligaments,
their "torn" meniscus can simply be repaired back together again or "fixed",
neither of which is the case with degenerated menisci. Within the confines
of currently available medical technology, degenerative meniscal defects
are almost never amenable to repair. Degenerate menisci break down
either spontaneously or under minimal stress because their intrinsic
strength and toughness have already been compromised by way of the aging
process and/or joint surface erosion caused by arthritis. Attempts at
surgical repair are, therefore, pointless and usually doomed to failure.
There is little to be gained by trying to stitch mushy, permanently weakened
and improperly functioning meniscal tissue back together again. For lack
of a better available treatment, surgical removal of the painful, defective
meniscal tissue is usually the most appropriate course of action
Degenerative meniscal defects can often be recognized by their appearance
on an MRI scan and/or the circumstances under which the meniscus broke down
(usually just routine daily "life" or during minimal stress, absent any
genuine knee trauma). The age of the patient is also often a significant
clue, as most degenerative tears occur in individuals over thirty. Many
menisci were simply not genetically engineered to "go the distance", at
least with respect to current human longevity. A thirty-year-old patient
with a failed or failing meniscus may find the latter concept a bit
difficult to accept, but from an evolutionary perspective, one must realize
that for well over 99% of mankind's existence on this planet, the average
human lifespan may have been 25 years or less due to the ravages of scarce
food supply, a hostile environment and disease. There simply wasn't much
point in nature developing menisci that lasted all that much beyond the age
of thirty. The fact that some menisci last sixty or more years (mainly in
people with "good genes" who do not let themselves get overweight) is
actually what is biologically most remarkable!
Treating Torn or Broken Down Menisci
When meniscus repair is not possible or practical,
surgically removing either acutely (freshly) torn or chronically broken-down
meniscal tissue with an arthroscope usually provides satisfactory relief
from the joint pain and locking / popping caused by the defective meniscus.
Sometimes the pain relief is incomplete, however, since the knee has not
really been structurally restored to normal and the joint surfaces
themselves are subject to becoming tender (if they weren't already).
Secondary measures may then need to be taken, in some cases including the
surgical insertion of an allograft (transplanted replacement) meniscus into
the knee joint. While meniscus transplants often prove helpful in
relieving chronic pain in a non-arthritic knee that has lost a meniscus, it
has not yet been proven that transplanted menisci prevent or reduce future
knee arthritis in humans. For that reason, meniscus transplantation in a
knee that seems to be doing fine despite having lost one of its menisci is
controversial and only rarely done.
When a previously healthy (non-degenerated) meniscus is traumatically
torn in a repairable (vascular) zone, repair methods may take several
forms. Sometimes very peripheral tears of the rear section of the medial
(inner side of the knee) meniscus are best repaired by way of "open"
(non-arthroscopic) surgery, using a skin incision that can be kept as small
as 1 1/4 inches in length. A secure and anatomically accurate suture repair
can be performed through such an incision. Most other repairable meniscal
tears are treated arthroscopically, using guided meniscal suturing
techniques (see FIGURE 4) or repair by way of
bio-absorbable (slowly dissolving) meniscal repair darts. In the latter
case, a specialized insertion instrument is utilized to pass the tiny
fixation dart, pin or clip through the inner section of the meniscus, across
the tear and into the outer section of the meniscus, thus holding both
segments of the torn meniscus together (see FIGURE 5).
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FIGURE 4 - This picture demonstrates the
top portion of a tibia, upon which are resting the medial and lateral
menisci. A peripheral, longitudinal (parallel to the meniscal curvature)
tear in the medial meniscus is shown in the process of being
suture-repaired. The femur is not shown here, so as not to obstruct a
full view of the menisci. Note that the tear is relatively even and
linear, and located in the outer 1/3 (or so-called "red" zone) of the
meniscus, which makes it ideal to repair. Tears in the inner, thinner
2/3 of the meniscus (immediately to the left of the tear shown here)
would be far less likely to heal if repaired because this portion of the
meniscus does not have a capillary blood supply. |
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| FIGURE 5 -
Diagrammatic illustration of an arthroscopic meniscus repair technique
using bioabsorbable (slowly dissolving) meniscus repair darts or
"arrows". |
The general internal environment of the knee at the time of repair seems
to have some effect on the chance for successful meniscus healing after
surgery. It has been found that meniscal repairs done at the same time as
surgical reconstruction of the anterior cruciate ligament have a somewhat
better chance of long-term success than meniscal repairs done by themselves.
This may be due to biochemical healing factors that are more active within a
knee joint that has been irritated in a more extreme fashion by way of more
extensive injury and surgery.
Aside from good surgical technique, the key to obtaining a
high success rate with meniscal repair is often as simple as using selective
judgment when making the decision to repair versus remove. All possible
effort should be taken to repair otherwise healthy menisci that have
excellent healing potential, whereas effort should not be wasted on
thoroughly degenerated menisci that have no realistic chance of healing well
and/or functioning normally. The decision whether or not to attempt
repair in a "borderline" case (i.e., adequate healing is unlikely but not
impossible) can involve some input from the patient, as well as
consideration of the patient's specific circumstances. The younger
the patient, the more consideration should be given toward meniscal repair,
as loss of meniscal function sets in motion an accelerated aging process
within the joint that leads to at least some degree of future osteoarthritis
in the affected region of the knee. In an older individual (over 35
or 40) who is not overweight and who has no leg malalignment
("bowleg" or "knock-knee" deformity) a "borderline" meniscal tear with a
sub-par chance for healing after meniscal repair is often best treated by
primary meniscectomy. This is because the patient's knee has probably
already been subjected to the majority of stresses that it will see
during the course of its lifespan, and it has no specific risk factors
(other than the meniscus injury) for premature osteoarthritis. This makes
the loss of meniscal cushioning less objectionable. One must also consider
the greater risk of surgical complications associated with meniscal repair
procedures (vs. simpler and quicker removal procedures) and the extra
surgical risks that the patient would be subjected to if a second
procedure were to be required because the repair of a "borderline" tear
ultimately failed. Even under ideal circumstances,
a surgically "repaired" meniscus is not guaranteed to heal!
When deciding whether to repair or remove problematic meniscus tissue,
each patient's case must be considered individually, taking into account the
patient's circumstances and wishes, the degree of pre-existing meniscal
degeneration evident, and the overall physical condition of the knee at the
time it is first inspected arthroscopically. Your surgeon's knowledge and
expertise are also important!
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If you have been diagnosed with a knee
meniscus "tear" and you would like a second opinion concerning it’s
potential for presevation or repair, do not hesitate to call upon us
here at The Knee and Shoulder Centers.
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New Jersey
1288 Route 73 South
Suite 100
Mount Laurel, NJ 08054
Phone: 856.273.8900
Fax: 856.802.9772 |
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Pennsylvania
3400 Horizon Drive, Suite 130
Renaissance Corporate Park
King of Prussia, PA 19406
Phone: 610.277.8681
Fax: 856.802.9772 |
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