Hip
Resurfacing - What do I need to know?
By Mark F. Schinsky, M.D.
Basic Hip Anatomy.
Your
hip is essentially a ball-andsocket
joint that connects
your leg (femur or thigh bone) to
your trunk (pelvis). The head of
your femur (the top, rounded, balllike
part) fits into your acetabulum
(the rounded socket part of your
pelvis) and is allowed to move fairly
freely while maintaining intimate
contact and stability. Both the surface of the
ball and
the inside of the socket are covered in a quite
resilient,
smooth articular cartilage that cushions the
bones and
allows them to glide against each other. Your
hip is also
surrounded by a synovial membrane, which helps
to
provide nourishment to the joint and also produces
a
thin layer of fluid that lubricates the joint,
decreasing
the friction of the ball rubbing against the
socket. There
are also several strong, non-bony, soft-tissue
structures
around the hip joint that helps to provide stability
so
your hip does not dislocate (come out of socket).
One of
these is your labrum, which surrounds the rim
of your
acetabulum, and another is your hip capsule,
which is a
robust covering of your hip joint. The muscles
around
your hip also help to stabilize the joint and
aid in
function. When all of these structures are working
normally, you are able to move your hip freely
without
pain or discomfort.
Hip Arthritis.
There are many different kinds of arthritis that
can
affect the hip. The most common is osteoarthritis.
Other types of arthritis include post-traumatic
arthritis
and inflammatory arthritis. Other conditions
such as
developmental dyplasia of the hip or  osteonecrosis/avascular
necrosis can also affect the hip joint leading
to
degeneration and pain. Osteoarthritis usually
occurs in
older individuals and is the type of arthritis
generally
referred to as "wear-and-tear" arthritis.
There may or may not be a family history of osteoarthritis.
In
osteoarthritis, called OA for short, the articular
cartilage
wears away leaving exposed bony surfaces to rub
together and grind. Bone spurs, known as osteophytes,
are often formed. These changes lead to stiffness,
pain, and in extreme cases, complete disability.
Posttraumatic
arthritis  occurs after a significant injury to
the
hip, such as a dislocation or fracture, sometimes
many
years earlier. The trauma injures the articular
cartilage
in a variety of ways and over time results in its
deterioration.
In inflammatory arthritis, the most common type
being rheumatoid arthritis, the synovial membrane
becomes inflamed by an autoimmune process, which
in
and of itself can cause pain. In addition to pain,
inflammatory arthritis can also lead to bone destruction/erosion,
stiffness, and decreased function. All of this
makes joint reconstruction more difficult.
Developmental/congenital dyplasia of the hip refers
to
the hip joint not forming properly from birth or
early
childhood. This condition causes the ball-and-socket
joint to not be congruous which leads to early
wear and
degeneration. Osteonecrosis, sometimes also called
avascular necrosis, is a term used to describe
a condition
where the blood supply to the bone is compromised
and
the bone dies in those certain areas. There are
many
causes of osteonecrosis and it can affect different
areas
of the body such as the hips, knees, and shoulders.
History of Hip Resurfacing.
Hip resurfacing is not new. The original predecessors
were cup arthroplasties (replacements) dating
back to
the 1940’s. Since that time, surface replacement
has
gone through many different changes over several
decades. Some of the older implants were composed
of
all Teflon, metal-on-polyethylene (plastic),
and different
types of metal-on-metal designs. Also, the way
the
components were fixed to the bones changed multiple
times over the years. Nearly all of these implant
designs
failed. Some failed early, within a year or so;
while others
failed after a few years. Then, around the 1970’s,
total hip arthroplasty became increasingly popular.
The
results with total hip replacement were excellent
over
both the short- and long-terms. For the most
part,
surgeons stopped focusing on hip resurfacing,
preferring
the proven methods and implants associated with
total
hip replacement. Some surgeons, however, continued
to
work on hip resurfacing. The most recent design
to be
approved in the United States was first implemented
in
Europe in the mid-1990’s. It has a long
and proven track
record in Europe with excellent clinical results.
The current
hip resurfacing implants have only been approved
by the FDA in the US since 2006. Many different
types of
hip resurfacing implants are available throughout
the
world. Other implant designs are currently under
FDA
review and are expected to be approved soon.
What
is Hip Resurfacing and What are its
Advantages/ Disadvantages?
Hip resurfacing is a bone conserving surgical
procedure
that is used as an alternative to conventional
total hip
replacement in patients who have advanced hip
arthritis. As opposed to conventional hip replacement,
hip resurfacing does not remove and replace the
entire
femoral head and neck. The arthritic acetabulum
is still replaced, as would be done in a conventional
hip
replacement, but only the arthritic portion of
the
femoral head is removed using precise instruments.
The
femoral head is then reshaped to accommodate the
metal prosthetic shell (cap). This saves more of
the
natural bone to be used in the future should a
revision
be required. This is of particular importance for
younger
patients. The current hip resurfacing technique
uses a
metal-on-metal bearing surface, which has been
shown
in some studies to have high wear resistance and
reduced bone loss. Compared to a conventional hip
replacement, the resurfaced hip is both biomechanically
and anatomically closer to a normal hip, allowing
the
patient to return to more normal activities. The
size of
the resurfaced head is very similar to a normal
femoral
head, which makes it more stable and decreases
the risk
of dislocation. Disadvantages relating to hip resurfacing
include the potential for complications that can
occur
during any major surgical procedure including infection,
bleeding, nerve injury, blood clots, and those
that occur
with anesthetic use. Due to the design of the hip
resurfacing implants, there is an increased release
of
metal ions into the body, though the long term
systemic
problems relating to this, if any, have yet to
be determined. Also, since hip resurfacing maintains
your
femoral neck, there is a higher chance of femur
fracture
following hip resurfacing than with traditional
total hip
replacement.
 
Who is a Candidate
for Hip Resurfacing?
Only an orthopaedic surgeon experienced with
hip
resurfacing can determine if you are a candidate
for this
surgery. Occasionally, additional tests such as
a CT scan
or bone density scan are required to facilitate
the
surgeon in making a determination. In general,
individuals
who suffer from advanced joint disease but who
desire to return to a robust life
are excellent candidates for hip
resurfacing if they are under age
65, active, and have good bone
quality. Because resurfacing
preserves more bone than does
conventional total hip replacement,
it is frequently an appropriate
course of action for younger candidates, who may
require additional hip
surgeries in the future. Hip resurfacing is not
appropriate
for people with certain types of hip problems and/or
deformities, people with poor bone quality, or
for the
inactive and/or elderly. There is also a difference
in
length of incision, surgical dissection, and post-operative
recovery as compared to a standard or minimally-invasive
hip replacement. Your surgeon can discuss these
differences with you at length.
How Long Will a
Resurfaced Hip Last?
At this time, we simply cannot predict the durability
of
hip resurfacing. This is largely due to the fact
that how
long an implant lasts is related to how it is used.
Factors
influencing the implant’s performance include
the
patient’s activity level, the quality of
the patient’s bone at
the time of implantation and over the subsequent
years,
the design and material properties of the implants,
and
the surgeon’s ability to properly implant
the devices.
Other patient factors, such as not complying with
the
post-operative therapy regime, may hasten the failure
of
hip resurfacing. One study shows that European
patients
receiving the same resurfacing implants as those
currently
approved in the U.S. had a 98.4% implant survivorship
five years after resurfacing. This success is comparable
to
conventional total hip replacement at that time
period in
the under 60 age group. However, several other
studies
have also shown that the complication rate with
hip
resurfacing is greater than with traditional total
hip
replacement, particularly for femoral bone fracture.
Since the current hip resurfacing devices have
only been
used for less than a decade, no long term clinical
results
are available. Additional studies are underway
and
should help us to predict long-term implant survivorship.
Summary. Hip
resurfacing is a bone conserving surgical
procedure used to treat advanced hip arthritis.
Although
similar, it is commonly used as an alternative
to total hip
replacement in younger active patients. While there
are
potential complications associated with hip resurfacing,
the benefits include preservation of more of your
natural
bone (so that if a revision is needed in subsequent
years,
it can be more easily accomplished), reduction
in the risk
of significant leg length inequality, and a lower
rate of
dislocation after surgery when compared to conventional
total hip replacement. Although only your surgeon
can
determine if you are a candidate, hip resurfacing
is a consideration
in patients under 65 years of age who are
active and have good bone quality without significant
deformity. Castle Orthopaedics & Sports Medicine,
S.C. is
now pleased to be the first in the Aurora area
to offer
this advanced procedure for our patients. Please
call for
more information or to schedule a consultation.
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