Osteoarthritis, Hip Clinical Trial
Official title:
Evaluation of a Short Femoral Stem in Total Hip Arthroplasty. A Comparative Study on Stability, Bone Remodelling and Patient Outcome.
In recent years, short femoral stems have been introduced. Short stems are designed based on
traditional stems with good clinical results. The assumed benefit of short stems is that they
are easier to use in mini-invasive surgery, and that preservation of proximal periprosthetic
bone stock is better. Preservation of periprosthetic bone in the proximal femur is thought to
secure long time anchoring of the implant, and reduce the risk of loosening. In addition, a
good proximal bone stock makes later revision surgery less technically demanding. However,
the short stem design could compromise the stability of the prosthesis, and there has been
reported diverging results regarding correct positioning of short stems. This may be due to
the lack of inherent aiming provided by the tip of the traditional long stems. We want to
clinically evaluate the stability and bone remodelling pattern of a new short femoral stem
based on a standard stem with excellent long time results. In addition we will compare the
two different stems regarding positioning, when using a newly developed guiding broach for
the short stem, and the standard broach for the long stem. Finally, patient reported clinical
outcome scores will be evaluated with respect to implant and biomechanical reconstruction.
The aim of this study is to evaluate whether this specific short femoral stem is stable, safe
to use, and if it provides the expected beneficial effects on bone remodelling.
Total hip arthroplasty (THA) is a successful treatment of osteoarthritis and other
destructive diseases of the hip joint, relieving pain and restoring the function of the
joint. In Norway more than 7000 patients undergo primary hip replacement every year, and the
incidence is increasing.
The femoral component of a hip prosthesis is traditionally anchored to the femoral bone with
a stem introduced into the femoral canal and fixated with cement, or through bony ingrowth.
Over the recent years, short femoral stems have been introduced, among other reasons to meet
the increasing popularity of mini-invasive surgical procedures. The short stems are meant to
be easier to introduce through a small incision like used in muscle conserving anterior and
posterior approaches. Secondly, and biomechanically relevant, an important design related
benefit of the short femoral stems is thought to prevent periprosthetic bone resorption. Bone
remodels as a response to mechanical loading. When a stiff implant is inserted into the
femoral canal, the load will "bypass" the proximal femur through the implant, and is
transferred to bone distally. This results in a negative bone remodelling in the proximal
femur, which leads to bone resorption, often termed as "stress shielding". Stress shielding
is observed around most uncemented implants, and mainly occurs within the first 6 - 24 months
postoperatively. The extent of implant coating, the material stiffness, design and the size
of the stem are found to influence the degree of stress shielding. The short stems are thus
designed based on the theory that proximal load transfer preserves metaphyseal bone.
Loss of proximal bone stock due to stress shielding is a controversial subject, but has
several possible consequences. The exact clinical implications are not entirely determined,
but periprosthetic fractures and more challenging revision surgery are recognized problems.
In a revision setting it is favourable to have good proximal bone stock to achieve primary
stability of the implant. Peroperative fracture and compromised stability of the implant may
be a potential problem in stress-shielded bone. Furthermore, already stress-shielded bone in
the proximal femur may give wear debris easier access to the interface between implant and
bone, resulting in further osteolysis. Short-term results for short-stemmed implants are
encouraging in some clinical papers, but most of the available implants lack long-time
clinical documentation. Most papers on stress shielding are not randomized trials between
long and short stems. There are a few reports of increased revision rate and challenging
surgical procedures.
Uncemented prosthetic hip implants are dependent on excellent primary stability to achieve
osseointegration and long-term stability. It is recognized that excessive micromotion at the
bone-implant interface is associated with formation of a soft tissue and loosening of
implants. Micromotion above 40μm leads to partial bone ingrowth, while values above 150μm
completely inhibit bone ingrowth. The main concern in short femoral stems is that stability
might be compromised. This might be due to the relatively less contact surface. There are no
long term results on stability of short femoral stems available, but in vitro studies shows
no significant reduction in stability of prostheses with comparable stem length to the
Furlong Evolution.
Malpositioning may result in a discrepancy between the reconstructed and the native
biomechanical anatomy of the hip. Altered biomechanical properties may influence the clinical
outcome and survival of implants. It has been shown that horizontal femoral offset, increases
significantly more using a short femoral stem compared to conventional femoral stems.
Compared to the contralateral hip, horizontal femoral offset was significantly increased only
when using short stems. Increased femoral offset increases the torsion forces along the stem,
which in turn raises the need for primary stability to avoid micromotion. It is also shown
that a short stem has a wider range of varus-valgus in the stem-shaft axis, On the other
there were found no significant differences in biomechanical reconstruction of the hip when
using a "broach only" short stem, or a "ream and broach" standard stem.
If there are significant differences in the biomechanical hip reconstruction, will this
affect patient reported outcome?
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