A comparison of the fixation strength was made for the Steinmann, Denham, and the Apex commercial bone pins, which have different drilling end geometry and self-tapping thread design. Additional tests were made to assess the effects of pre-drilling with an orthopaedic twist drill bit prior to pin insertion. Peak pull-out force and pin displacement were measured for these pins inserted into the distal metaphysis of human cadaveric tibiae. The quality of thread reproduction in the bone resulting from the cutting process was assessed from thread profiles of negative moulds cast into the threaded holes. The Apex pins had similar pull-out forces to the Denham pins, despite their smaller diameter. Values for both pins were significantly greater than those for the Steinmann pin. The thread profiles showed that the Denham pin caused substantial damage to the cortical bone and formed poor quality threads in the cancellous bone. The Apex pin formed a better thread, which was improved further by the use of a pre-drilled pilot hole.
Copyright © 1994. Published by Elsevier Ltd.