Introduction
Hip dysplasia is a congenital
disease that affects mostly large breed dogs. It causes weakness and
lameness to the rear quarters, and eventually leads to painful
arthritis. This arthritis goes by several names; degenerative joint
disease, arthrosis, osteoarthritis.
This disease is so prevalent, and so debilitating,
that a special veterinary organization called The Orthopedic Foundation for
Animals (OFA)
was organized.
Cause
Many factors work together to cause this disease,
which is a combination of a dog genetically inclined to get this disease interacting
with environmental factors that bring about the symptoms. These environmental
factors excess calcium in the diet of puppy food for large breed dogs, along
with obesity, high protein and calorie diets, and a lack of or too much exercise.
The breeding of dogs that already have hip dysplasia is one of the primary reasons
the disease is still present. A
dog that has hip dysplasia in one socket is prone to having a problem with the
ligaments of the knee in the other leg (anterior cruciate rupture).
Pathophysiology
During the degenerative process the cartilage
that lines the hip joint, called hyaline cartilage, is damaged. The damage results
from the abnormal forces on the cartilage from the deformed hip socket. Small
fractures can occur in the cartilage also. Eventually an enzyme is released
that degrades the joint further and decrease the synthesis of an important joint
protectant called proteoglycans. The cartilage becomes thinner and stiffer,
further compromising its ability to handle the stresses of daily movement and
weight bearing.As
the problem progresses more enzymes are released, which now affect the precursors
to proteoglycans, molecules called glycosaminoglycans and hyaluronate. Lubrication
is negligible, inflammation occurs, and the joint fluid can no longer nourish
the hyaline cartilage. This viscious cycle continues until pain occurs. The
body attempts to reduce this pain by stabilizing the hip joint. New bone is
deposited at the joint, both inside and out, along with some of the ligaments
and muscle attachments to the area. This causes thickening and a decrease in
the range of motion. This is the actual arthritis noted on a radiograph, which
will not go away and will continue to progress.
Breed
Predispositions
Many dogs can develop hip dysplasia. Dogs that
were commonly affected years ago, like German Shepherds and Labrador
Retrievers, still get the disease but not as commonly as
before.
According to the OFA some of the breeds with the highest prevalence
are:
|
Bulldog |
Pug |
Otterhund |
Clumber Spaniel |
|
Neapolitan Mastiff |
St. Bernard |
Boykin Spaniel |
Sussex Spaniel |
| American Bulldog
|
Newfoundland |
American Staffordshire Terrier
|
Bloodhound |
|
Bullmastiff |
Chesapeake Bay Retriever |
Golden Retriever |
Gordon Setter |
|
Rottweiler |
Chow Chow |
Old English Sheepdog |
Kuvasz |
|
Norweigan Elkhound |
Giant Schnauzer |
German Shepherd |
Bernese Mountain Dog |
|
English Setter |
Black and Tan Coonhound |
Shih Tzu |
Staffordshire Terrier |
|
Welsh Corgi |
Beagle |
Briard |
Brittany |
|
Bouvier des flandres |
Welsh Springer Spaniel |
Curly Coated Retriever |
Polish Lowland Sheepdog |
|
Portugese Water Dog |
English Springer Spaniel |
Pudel Pointer |
Irish Water Spaniel |
Diagnosis
Hip Dysplasia is diagnosed based
on a history of weakness or lameness to the rear legs, especially
after exercise or when first getting up after resting. Some young
dogs will bunny hop when running, and might lie down on their
stomachs with their legs stretched behind them. It is possible to
palpate joint laxity on some dogs that are anesthetized (we call this
the Ortolani sign). Radiography is the definitive way this disease is
diagnosed. It is not perfect though, since a dog can be hip dysplasia
free on the radiograph (phenotype), but can be genetically
predisposed to the disease (genotype). These dogs have the potential
to be carriers of the disease, yet show no symptoms themselves.
Many variables affect the degree
of lameness. They include caloric intake, degree of exercise, and
weather. To further add to the complication, pets with terrible
looking hips on radiographs might act as if nothing is wrong, while
others with barely discernible changes on their radiographs might be
severely lame.
These
are the x-rays of a dog with a normal pelvis. The
diagram below explains why these hips are normal. View
both of them at the same time if
possible.
On
the right side of this normal pelvis we have outlined
2 important anatomical features. The "U" shaped
appearance of the neck (outlined in white), and the
full rounded appearance of the head (outlined in
black), are normal. They indicate a full socket with a
tight fit and no signs of secondary changes due to
instability of the ball and socket
joint.
This
dog has moderate changes that indicate it has hip
dysplasia on the right side. The socket is not as
rounded as it could be, and the head of the femur is
slightly flattened. also, the neck of the femur does
not have the U shaped indentation that is normal. You
can see this better on the closeup views
below.
The
arrow points to the thickening in the femoral neck
in the abnormal right socket. You can
also visualize the slightly flattened appearance of the
head of the femur and the fact that it does not fit into
the socket as tight as the normal hip marked
left.
This
is a case of severe hip dysplasia. The arrows point to
the thickened femoral neck on each side along with the
secondary arthritis occurring on the left side. Notice
how flat the sockets are and the lack of rounded
appearance of the femoral head. This dog is probably
in pain and has a difficult time walking in the rear
quarters.
If
left untreated the disease continues to progress,
eventually causing a crippling lameness and severe
pain. Correcting this problem at an early age might
have prevented this.
Dogs
are not the only species that gets hip dysplasia. It
can also occur in cats (Maine Coons are commonly
affected), although not as common as in
dogs.
The
white arrows outline the large amount of stool in the
colon of the above cat with feline hip dysplasia. It
is painful for this cat to squat to have a bowel
movement, as a result it gets severely
constipated.
Medical
Treatment
Environmental
Keeping your dog's weight under
control and providing controlled exercise are very beneficial.
Going for short walks will give you an idea of your dog's limits.
Proper exercise will maintain muscle tone and keep the joints
moving and more fluid. Swimming is a superior form of exercise to
achieve this goal.
Provide a warm environment and a well padded
bedding area are also of benefit. Additional
warmth helps chronically infected joints. Hot water bottles are helpful. We
don't recommend electric heating pads because of serious burn potential.
Drugs
Many drugs have been used to
control the pain associated with the secondary arthritis that
occurs with hip dysplasia. Some of these drugs are extremely
effective, and can provide a dog with a high degree of relief from
pain.
Buffered aspirin and
ascriptin (aspirin with maalox) are readily available over the
counter remedies. Tylenol should not be used in dogs because of
its potential for side effects. Tylenol is NEVER used in cats
because it can cause a serious disease called
methemoglobinemia.
Rimadyl and Etogesic are
highly effective prescription medications. The work by
inhibiting the release of prostaglandins, leading to less
inflammation in the joints. They should be given prior to any
bout of exercise. Some dogs will vomit or have diarrhea on
these medications. Giving the medication on a full stomach and
using GI protectants can minimize this problem. Rimadyl use in
labradors should be carefully monitored for signs of liver
problems.
Nutraceuticals are popular
arthritis treatments, primarily because they are thought of as
more natural than drugs. Humanoids use them commonly. They
provide the raw material that enhance they synthesis of
glycosaminoglycan and hyaluronate. Controlled studies are
lacking to determine their true effectiveness. Oral versions
take at least one month to become effective. a great advantage
is their lack of side effects. Oral versions include Cosequin,
Synovicare, Glycoflex, arthramine, and MaxFlex. Injectable
versions include adequan, a drug that has been used in
veterinary medicine, especially in horses, for many years.
Injectable versions achieve a more rapid response than oral
medications.
We can't predict which
medications will work best in an individual case. Trying
different ones, even using some of them in combination, can let
you determine which is the best approach in your
dog.
Surgical
Treatment
Most cases of hip dysplasia,
especially in younger dogs, are treated surgically. One of the
surgical specialists we consult with will make the determination of
which procedure is the most appropriate. Three main types of surgery
are performed.
This area contains graphic
pictures of actual surgical procedures performed at the hospital. It
may not be suitable for some children (and some adults also!).
1. Femoral Head
Ostectomy (FHO)
In this procedure the head (or
ball) of the femur is removed. The remaining part of the femur forms
a false joint with the muscles, ligaments, and tendons in the area.
Even though this false joint is not as good as a real joint, there is
a significant reduction in pain. almost any sized dog can have this
procedure even though it is much more effective in smaller dogs.
Obese dogs and those with significant loss of muscle do not do as
well. Compared to the other types of surgery this one is much more
basic, yet many pets that have this surgery return to almost normal
function.
This
are the hips of Mickey, a very active australian
Shepherd. He has hip dysplasia on both sides. FHO surgery
will be performed on his right hip.
After the skin
incision is made the muscles are separated to give visualization of
the femoral head. It is gently rotated and brought up as far as possible.
A special air powered
drill is used to cut the neck of the femur at just the right angle.
The
angle in the cut of the femoral neck is apparent. also
present on the head of this femur is a piece of the round
ligament, one of the structures that anchors the head of
the femur into the socket.
An opening remains
where the head of the femur used to reside. The remaining bone will form
a false joint, and return this pet to almost 100% function.
The
muscles that were separated and cut are now carefully
sutured. These muscles are necessary for normal movement of
the false joint that will soon form.
This
is what remains after the surgery. Mickey healed rapidly
after the surgery and is running around as fast as
before, according to his worried mom.
2. Triple Pelvic Osteotomy (TPO)
This surgery is used in large breed dogs no older
than 10 months of age. Candidates for this surgery can only have mild
hip dysplasia and no signs of secondary arthritis. During the
procedure the pelvis is cut and rotated slightly so that the head of
the femur has a tighter fit into the socket. Since the pelvis is
being cut it needs to be stabilized with bone plates.
The pelvis is cut in
3 locations. The locations of these cuts allows the proper
rotation of the hips.
This is the final result
after a TPO surgery. These two plates are angled to provide
the proper pelvic rotation.
3. Total Hip Replacement (THR)
In this procedure the neck and head of the femur
are replaced with stainless steel or titanium implants. This is a
highly specialized procedure performed only by select veterinarians.
It is used in young dogs that have achieved most of their skeletal
growth and in adult dogs that weigh at least 40 pounds. It can be
used in dogs that already have secondary arthritis, unlike the TPO.
It has a high success rate but has to be performed carefully because
if post operative complications occur they can be
disastrous.
This
is the end result of the surgery. These implants now make
up the ball and socket joint, and will remain fully
functional for many years.
An additional treatment
modality that has yielded great success in treating hip dysplasia is called
VOM.
It is a non-invasive and non-painful way to stimulate the nervous system to
help the hip dysplasis syndrome.
Prevention
This is achieved by neutering pets that have the disease. Dogs
can be screened for this problem by taking radiographs of their hips at 2 years
of age. If they are certified free of hip dysplasia by the Orthopedic Foundation
of america (OFA), there is much less of a chance they will sire offspring with
the problem. It is best to purchase large breed dogs only if their parents are
OFA certified to be hip dysplasia free.
No guarantee can be given when breeding hip dysplasia free
dogs radiographically that their offspring will not deveop the disease. A dog
can be hip dysplasia free on a radiograph, yet still carry the genetic predisposition
to this disease that will be transmitted to its offspring.
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