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Orthopaedic Proceedings
Vol. 92-B, Issue SUPP_I | Pages 178 - 178
1 Mar 2010
Karim A Farr D Lutz M Calder J
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Compression staples are a popular form of fixation for osteotomy and arthrodesis. “Mechanical Compression” or “Shape Memory” designs are commercially available. We performed a biomechanical study to assess suitability for their intended functions.

Compression was measured using a load cell mounted within a simulated arthrodesis site. Two designs of mechanical compression and shape memory staples were tested and compared. The effect of altering the length of the staple limb was also assessed.

Both designs of mechanical compression staple had divergence of their fixation limbs causing inconsistent compression or even distraction. The shape memory staples all achieved a consistent compressive force at the fusion site. Staple limb length did not appear to alter the compression force generated.

The limbs of Mechanical Compression Staples splay open with a fulcrum at the intersection bridge. As a result, there is distraction of the far cortex and compression of the proximate cortex. Shape memory staples compress both the near and far cortices leading to stability and compression forces across the arthrodesis site.


Orthopaedic Proceedings
Vol. 91-B, Issue SUPP_III | Pages 405 - 405
1 Sep 2009
Farr D Conn K Britton J Calder J Stranks G
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Method: This study reports upon 216 patients (97 Minimally invasive and 119 Standard) enrolled into a randomised control trial comparing a standard posterior approach to the hip with a single incision minimally invasive surgery (MIS) posterior approach at 6 weeks and 1 year post-operatively. Primary outcome measures included operative time, blood loss, length of stay and functional hip scores.

Results: The demographics and pre-operative hip scores for both cohorts were statistically similar. Intra-operative blood loss was significantly reduced in the MIS cohort (p=< 0.01). There was no difference in surgical time (p=0.37), time to discharge (p=0.24) or complication rate between the two groups.

Both groups had statistically improved post-operative hip scores, however, at the 1 year follow-up the MIS group were significantly better in terms of WOMAC, Harris Hip, Merle d’Aubigne and SF-12 scores when compared with a standard posterior approach.

Conclusion: This study demonstrates that MIS THA is a safe, reproducible technique in a DGH. We recommend the use of MIS techniques in primary THA and adhere to the principle that an incision need be no longer than necessary to perform the procedure safely.


Orthopaedic Proceedings
Vol. 91-B, Issue SUPP_I | Pages 164 - 164
1 Mar 2009
Calder J Farr D Karim A
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Introduction: Compression staples are indicated for use in forefoot osteotomies and midfoot and forefoot fusions. The staple design can be divided into “Mechanical Compression” or “Shape Memory”. Although they are becoming increasingly popular because of their ease of use, there is little data published on the effectiveness of the true compression achieved across bony surfaces. There is no data on the optimal limb-length to staple width ratio required for compression. We aimed to compare four commercially available types of compression staple and measure the compression force achieved.

Methods and Materials: Compression in porcine tibia, cancellous bone substitute and perspex was compared using a load cell mounted within a simulated fusion site between two test blocks. The amplified output was continuously recorded using a datalogger and the data analysed. Two designs of “mechanical” compression staple and two designs of “shape memory” staple were tested. The effect of altering limb length on compression was also noted.

Results: The “mechanical” compression staples splayed open with the limbs of both designs causing either no compression or even distraction at simulated fusion site. Distractive forces of up to 23N were recorded. By contrast, the “shape memory” staples all achieved compression at the fusion site of between 5–25N. Limb length did not appear to alter the compression force achieved.

Discussion: “Mechanical” compression staples act in a similar way to basic AO principles of a 2-hole compression plate used without a lag screw technique or pre-bending. Although there is compression of the cis-cortex, the limbs of the staple splay open with a fulcrum around the bridge-limb intersection resulting in distraction of the trans-cortex. “Shape memory” staples compress both the cis- and trans-cortices along the length of the limb leading to adequate stability and compression forces across the fusion site.

Conclusion: This study demonstrates that “mechanical” compression staples cause a distractive force rather than a compressive force and manufacturers should be aware that further design modifications are required to prevent this. We recommend that “shape memory” staples, standard staples or lag screws are used instead. The limb-length to staple width ratio does not appear to be important.