Fh. Dujardin et al., MICROMOTION, FIT, AND FILL OF CUSTOM-MADE FEMORAL STEMS DESIGNED WITHAN AUTOMATED PROCESS, Clinical orthopaedics and related research, (325), 1996, pp. 276-289
This study presents an automated process for the design of custom made
femoral stems, Two software programs have been developed to obtain th
e inner bone contours from computed tomography scan images and to desi
gn the optimal stem that can be inserted into the femur, This process
requires only 2 hours of computer use, therefore reducing the price of
the stem, It is also possible to control the amount of bone sacrifice
necessary to facilitate the insertion of the stem, Micromotion for 6
specimens was measured using a special machine simulating the load sup
ported by the hip joint during single-limb stance, Three prostheses we
re tested successively: anatomic cementless stem, custom made stem, an
d modified custom made stem in which the distal part was thinned out,
To be stabilized, the anatomic prosthesis required a greater number of
cycles than custom made stems associated with a more important total
vertical migration, The micromotion of custom made prostheses was sign
ificantly less than that of the other prostheses, The fill of custom m
ade stems also was measured, having a range from 93% to 100% (mean, 97
.5%-98.8%) of the medullary canal, The metaphyseal fill was significan
tly linked with the vertical and rotational components of instability,
These results showed that it was possible, using a computerized autom
ated and controlled process, to obtain low price femoral stems well fi
tted to the medullary canal that provide an excellent primary stabilit
y.