PATELLA LUXATIONS
The
knee is an engineering marvel, extremely complicated and concise, able
to move in multiple combinations of direction, and normally able to withstand
considerable torque forces. The structure is encased in an exquisite joint
capsule with ligaments connecting three large longbones, tendons running
into and over it and connecting bone with muscle, as well as muscle to
muscle via the sesamoids and patella. The capsule is lubricated by synovial
fluid.
The
most common joint disorder in the stifles, other than ruptured cruciate
ligaments, is luxated patellas. The patella, or “knee cap” is a small bone
(the body’s largest sesamoid bone) that seems to “float” outside of a joint.
In actuality, it normally is securely attached to the area and the muscles
by means of ligaments and tendons. It can be considered a localized
ossification center in the tendon connecting the quadriceps muscle in the
upper thigh to the tibia in the lower leg. You should be able to feel it
somewhat above the slight indentation along the front of your dog’s rear
leg, where the breed standards like to refer to the “bend of stifle”; this
is where the upper and the lower thighs meet. In motion, the patella will
normally slide down into a groove between the condyles of the femur. The
quadriceps muscle group acts to extend (straighten) the limb; because the
patella is enclosed in the lower tendon of that muscle group, the knee
cap is more in front of the joint when the muscle is relaxed, and slides
upward in front of the lower femur when contracted. That’s when the major
discomfort occurs in dogs with defective stifles, with the patella missing
the center of the groove in which case it is referred to as being luxated.
Almost all dogs with patellar luxation have some other structural abnormality
related to it; thus, in order to improve the individual’s life and prevent
passing the defect to others, a regime of early evaluation and detection
is important.
The
alignment of muscle and tendon insertions or the relative positions of
the leg bones may be such that the patella is pulled more to one side and
hence misses that groove. The biomechanics are easily described by what
we call the “bowstring effect”, in which the muscle fiber group on one
side works better than the other side, and puts tension on the patellar
tendon and associated bone structures. In so doing, the kneecap is pulled
toward the dog’s centerline (medial displacement) and if the force is strong
enough it will slide out of the groove running between the femoral condyles.
This wears away the ridge of that “trochlea” so the effect is to slip out
of the groove more easily as time goes on. Meanwhile, the underside of
the patella also abrades, becoming less V-shaped and less likely to stay
in the track where it belongs. In the more severe cases, the abnormal strain
on the muscles and joint caused by forces being misdirected in this manner
results in pain. It is usually considerable and almost always leads to
a very noticeable change in gait, such as skipping or perhaps even a refusal
to walk at times. Mild cases can go undiagnosed by a vet and, to some extent,
unnoticed by the owner. Most pups can be diagnosed only after 4 to 6 months
of age.
If the luxated patellar bone is offset toward the centerline of the
dog, the condition is called medial luxation or displacement. If the bone
moves on the “outside”, or away from the centerline, it is called lateral
luxation. A method you can use to keep these terms straight might be to
think of the “median strip” in the middle of a divided highway. Medial
patellar luxation is almost undoubtedly inherited.
We
know that in limbs with two bones, such as the lower thigh and the lower
foreleg, there are frequently small differences in the growth rate or eventual
length ratios between tibia and fibula or between ulna and radius. It may
well be that a disruption in growth rate of one of such a pair causes a
twist or misalignment of both hard and soft structures in joints such as
the wrist, elbow, knee, and hock. On the other hand, slightly abnormal
muscle-fiber type or ratios might cause more tension on one side than on
another. Some have tried to solve to solve the puzzle of the chicken-or-the-egg
with explanations of one sort, and others have proposed the other. Whichever
happens, and it could be that either is involved in any specific case,
we are more concerned here with the “after-the-fact” condition, and how
it relates to a dog’s gait, health, and value as a show or breeding animal.
Whatever is the reason for a specific abnormality, sometimes all I can
do in this book is describe it. Where possible, I shall try to explain
it.
In some individuals of achondroplastic breeds such as Bassets and Dachshunds, luxation might be more a result of “breeder-selected” abnormal shape and position (curvature) of tibia and femur. The lateral deviation of the distal femur and the medial deviation of the proximal tibia seem to have similar results as found with luxation caused by muscle abnormalities.
Medial Luxation
This is the most common form. Most cases of medial patellar luxation involve toys and other small breeds, many of which are rather “straight in the stifle” such as the Shar Pei, but there may not be more than coincidence in that. Small (Toy and Miniature) Poodles, perhaps because there are so many of them indiscriminately bred, seem to be the most “visible” to the casual observer, but there is evidence that indeed, there is a 4 to 8 times greater predisposition in the miniature and toy breeds in general, and “the incidence of medial luxations is high in toy poodles”. Dr. Priester, the same man who did a study on breed, sex, and other factors in relation to HD, also studied these factors and their connection to canine patellar dislocation. Medial luxation in larger dogs is far less common, but does occur.
Diagnosis and Severity
The
experienced dog show observer can often spot the more severely afflicted
dogs, usually while watching the
Pomeranian, Lhasa Apso, Peke, Boston, and other small breed competition.
The worst will ambulate on three legs, or even appear to be trying to put
all their weight on the front limbs. Frequently, dogs with the mild to
moderate forms of medial patellar luxation will “skip” every once in a
while, perhaps during a requested change of speed or making a corner, perhaps
without other stimulus except the discomfort. So momentary is it, that
many a judge has missed it. Some of those that do not make it to the show
ring because the severity makes symptoms too obvious might evidence some
pain, run on three legs for a while, then put weight on the leg again in
an apparently normal manner. Some dogs have such a mild case that they
can fool you until they are palpated by an expert, or are subjected to
force-plate analysis, in which instrumentation records how much weight
is applied to each of the four legs.
Four
grades of medial luxation are used to describe the disorder. Grade 1 is
for the dog that usually has a normal condition, but which can be luxated
by minor trauma or pushing firmly with the thumb and fingers. In Grade
2, the patella can be manually displaced by adequate finger pressure or
can slip out when the leg is fully extended, though it can be pushed back
by the owner or a vet. With the next two grades it is difficult (grade
3) or impossible (grade 4) to put the patella back in place.
Other signs are progressively worse, too, of course. Older dogs with
Grades 1 or 2 may seem O.K. until a sudden onset that may be triggered
by trauma or arthritic change that the dogs no longer fully tolerate; nevertheless,
it is a genetic problem.
Grade 1 dogs occasionally skip or carry a leg, sometimes only for one stride in a twenty- or thirty-foot stretch of gaiting. Pain might be barely or not noticed, even when the cap is luxated slightly with finger pressure. Grade 2 dogs will more frequently to usually “carry” a leg, and occasionally bear weight on it; crepitus might be felt and heard, depending on the dog’s age. Surgery is recommended for Grades 2 to 4, earlier for the worse degrees. In Grade 3, a little weight bearing might be possible, but there is permanent dislocation; you can push the patella back into the shallow groove, but it will ride out as soon as you ease up on the pressure. Most dogs will stand bowlegged or crouched. In Grade 4, the affected leg will always be carried so that weight is not transmitted to the ground. The luxation is permanent and surgery will have to address other surfaces in the joint as well.
Lateral Luxation
When
the patella is displaced toward the “outside”, it is said to be luxated
laterally. This condition is not as common, accounting for less than 24%
of patellar dislocations. While it can be found in any size dog, it is
more commonly found in large breeds. Any misalignment in the quadriceps
muscles, the trochlear groove between the condyles of the femur, the tibia
(larger of the two lower leg bones), and the ligaments early in life will
abnormally shape the cartilage and, as it ossifies into bone, this legacy
will solidify. Other puns aside, though, it has been seen that changing
the directions or vectors of the muscle contraction forces will give unbalanced
strains on the growth plates and other cartilaginous tissues in the young
pup, and this means permanent deformities in the bone structures they will
have developed into. It only takes a couple of weeks of misdirected stresses
to produce this permanent deformation.
Coxa
valgum, the condition in which the femoral head is inserted into the acetabulum
at a greater-than-normal angle, tends to force the lower part of the femur
toward the midline, which changes the relative position of the trochlear
groove in which the patella should slide without pressure on one side of
the groove or the other. An increase in the anteversion angle between
the femur and the acetabular portion of the pelvis carries with it a corresponding
torsional force on the whole femur, and another tendency for medial displacement
of the distal femur as well. A vet school professor I consulted years ago
felt that there was a cause-and-effect relationship between patellar luxation
and hip dysplasia, but admitted there was disagreement on which caused
what. Others have mentioned that lateral luxation can cause deformation
of the femoral head in large, fast-growing breeds.
What
happens when the stifles are brought closer together in this “knock-kneed”
condition known as genu valgum?
The dog’s weight is applied unevenly to one of the femoral condyles,
and as the puppy is subjected to this, the development of the growth plate
on that (lateral) side is inhibited while the medial condyle continues
to grow and ossify normally. The change in the height of the lateral
trochlear ridge, plus the fact that the patella rides atop it instead of
next to it in the groove, makes for a shallow groove. In addition,
if luxation started early, there were little or no developmental forces
to even create a normal groove in the first place. All this presents
an easy escape for the patella into an increasingly bad position. With
every step the dog takes, the abrasion continues, cartilage is destroyed,
ligaments are stretched, and pain probably increases. At almost infinitesimally
small increments, to be sure, but progressively nonetheless.
The
same sort of “bowstring effect” exists as in medial luxation, but bowing
the femur inward instead, and rotating the tibia laterally (outward) while
displacing the developing tuberosity on the tibia where the patellar tendon
is inserted. The vastus medialis part of the quadriceps muscle is
supposed to act as half of the couple (an engineering term meaning balanced
rotational forces) and insure the patella rides in the groove and transfers
the quadriceps’ force to extend the lower leg in a straight fashion.
Lateral luxation of the patella can begin
with a hypoplastic muscle called the vastus medialis. It is the part of
the
quadriceps muscle group that is the last to develop and is the first
muscle to undergo atrophy following injury or disuse.
Hypoplasia means underdevelopment, with fewer cells and myofibers,
so the muscle doesn’t stretch properly. It is probably not clinically identifiable
in many or most cases. If it is not working properly, it does not balance
the force of the vastus lateralis, which is then able to exert too much
pull toward the “outside” (laterally). The vastus lateralis may also cause
or contribute to the femur and tibia being twisted out of alignment with
each other. This compounds the problem, sending the forces of the contracting
quadriceps into a slightly (but importantly) different direction. The whole
joint capsule is abnormally stressed and there is a possibility that a
ruptured cruciate ligament so often seen in sporting and working breeds
might be genetically related.
Some 15 to 20% of luxated patella cases have accompanying (or resultant?)
cranial cruciate ligament rupture. It could be that the genes for one muscle’s
hypoplasia give cruciate ligament damage if combined with genes for certain
characteristics, and patella luxation if combined with those for other
characteristics.
Causes
for lateral patellar luxation are often unproven, partly because there
are so few cases. Willis in his excellent work on the German Shepherd
Dog, says that he has only seen two cases in the breed, and Priester reported
Saints but no GSDs in his 1972 study, despite the fact that the latter
breed is the most populous in the world and was one of the five or six
most popular breeds in the USA at the time. I hold the premise that almost
everything has a genetic base, and that the reason some dogs are afflicted
by an apparently environmental occurrence is that they are genetically
more susceptible than others, be it rupturing a cruciate ligament, having
gastric volvulus, heat stroke, or whatever. However, the low incidence
makes it hard to convince some people. Just how such a genetic weakness
is expressed, that is, its etiology and pathogenesis, can easily and understandably
be a point of disagreement. Thus, such “causes” have been proposed as estrogen
imbalance or trauma while in the uterus; both have been pretty much discounted
as possibilities.
In lateral luxation, the lateral condyle of the femur, because its growth plate has been subjected to excess pressure and growth has been altered, is misshapen. The trochanteric ridge is lower, sort of like riding on one of those compact spare tires, and the trochlear groove is more shallow. Thus the patella does not have a nice, deep, secure groove to ride in, and it is easy to pull it out of normal direction, especially since the force to one side is so persistent (every time the dog flexes or extends the knee). The groove becomes even more shallow due to wearing away faster than the dog can rebuild with new cells. Still, symptoms of lateral luxation usually are slower to develop than medial luxation signs. The dog may be over 5 years old by the time clinical signs of Grade 1 or 2 appear. The affected dog may be knock-kneed, cowhocked, or toed-out, but then, many non-affected dogs may show these traits, so do not base a diagnosis on those alone. In sudden-onset cases involving both rear limbs at once (perhaps brought on by strenuous exercise), the dog might not be able to stand and the condition may appear to be a neurological disorder.
Treatment
Surgical correction (not cure) generally is aimed at re-establishing or creating a deeper groove and repositioning the muscle vectors. If surgery is postponed, osteoarthritis may be a problem of varying severity, with osteophytes and a thickened, swollen knee joint capsule making correction more difficult. Steroids are often prescribed (they are as commonly resorted to as Valium for adult humans or Ritalin for kids) but given the dangerous and unpleasant side-effects of such medication, your best recourse is probably surgery, which sometimes is very extensive. Since patellar luxations are progressive, the earlier you detect and treat, the greater the success will be.
Genetics
It’s
part of my usual soapbox to point toward genetic origins for almost everything,
and this is no exception. Noted geneticist Frederick Hutt flatly said of
patellar luxation, “It is inherited and polygenic”. However, as Olmstead
says, the heredity of lateral patellar luxation is difficult to substantiate
because the condition does not occur as often as, say, HD or many other
more frequently seen orthopedic disorders. While the role of trauma is
easy to see, the “primary pathophysiology” is not.
Just how and why the genes express themselves in luxated patellas,
whether medially or laterally, is not all that clear. But perhaps it need
not be, as long as we follow the wise breeder’s rule: don’t breed defective
dogs, whatever the defect or supposed cause.
By Fred Lanting
Author of
The Total German Shepherd Dog
This is the expanded and enlarged second edition, a "must" for every true
GSD lover. It is an excellent
alternative to the "genetic history" by Willis, but less technical and
therefore suitable for the novice, yet very
detailed to be indispensable for the reputable GSD breeder.
Chapters include: History and Origins, Modern Bloodlines, The Standard,
Anatomy, The German Shepherd in
Motion, Shows, Showing, and Training, The Winners, Nutrition and Feeding,
General Care and Information,
Health and First Aid, Parasites and Immunity, Diseases and Disorders, The
Geriatric German Shepherd,
Breeding, Basics of Genetics, Reproduction, Whelping, The First Three Weeks,
Four to Twelve Weeks,
Trouble-shooting Guide