Long-term clinical outcomes for ceramic-on-ceramic (CoC) bearings
are encouraging. However, there is a risk of squeaking. Guidelines
for the orientation of the acetabular component are defined from
static imaging, but the position of the pelvis and thus the acetabular
component during activities associated with edge-loading are likely
to be very different from those measured when the patient is supine.
We assessed the functional orientation of the acetabular component. A total of 18 patients with reproducible squeaking in their CoC
hips during deep flexion were investigated with a control group
of 36 non-squeaking CoC hips. The two groups were matched for the
type of implant, the orientation of the acetabular component when
supine, the size of the femoral head, ligament laxity, maximum hip
flexion and body mass index. Aims
Patients and Methods
Many different lengths of stem are available
for use in primary total hip replacement, and the morphology of
the proximal femur varies greatly. The more recently developed shortened
stems provide a distribution of stress which closely mimics that
of the native femur. Shortening the femoral component potentially
comes at the cost of decreased initial stability. Clinical studies
on the performance of shortened cemented and cementless stems are promising,
although long-term follow-up studies are lacking. We provide an
overview of the current literature on the anatomical features of
the proximal femur and the biomechanical aspects and clinical outcomes
associated with the length of the femoral component in primary hip
replacement, and suggest a classification system for the length
of femoral stems. Cite this article:
