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Orthopaedic Proceedings
Vol. 94-B, Issue SUPP_XXXVII | Pages 113 - 113
1 Sep 2012
Dietz S Schwarz T Sternstein W Rommens P
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Open reduction and internal fixation of proximal humerus fractures with angular stable plates is, beside antegrade nailing of the humerus, a standard procedure. A retrograde nail has been developed to avoid penetrating the rotator cuff and to avoid opening the fracture side during osteosynthesis.

The aim of our biomechanical study was to evaluate if retrograde nailing of proximal humerus fractures is as stable as locking plate osteosynthesis.

The biomechanical properties of 2 implants were tested in 11 human fresh frozen cadaveric humeri pairs. The Retron Nail® and the Philos® plate were implanted after osteotomy. All specimens were suspected to axial and torque load for 1000 cycles in a servo pneumatic testing apparatus.

The Philos® plate had greater torsion stiffness than the Retron® nail, but we found no significance. The Retron® nail had greater axial stiffness but our findings were not statistically significant.

Our study showed, that there are no significant differences between a retrograde nail and locking plate osteosynthesis for proximal humerus fractures concerning axial and torsion deformities. Therefore the retrograde nail is a suitable alternative for fixation of proximal humerus fracture.


Orthopaedic Proceedings
Vol. 92-B, Issue SUPP_IV | Pages 571 - 571
1 Oct 2010
Dietz S Nijs S Rommens P Sternstein W
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The aim of our biomechanical study was to find out whether the prosthetic design, especially of the metaphyseal part, and the type of tuberosity fixation influences the primary stability in shoulder arthroplasty.

Materials and Methods: 16 fresh frozen human cadaveric humeri were dissected until only the rotator cuff remained. A four-part fracture was simulated by osteotomy. In a first step two types of shoulder prosthesis (open stem versus closed stem) were used. The Tornier Aequalis prosthesis (open stem) using suture fixation and the Mathys Affinis fracture prosthesis (closed stem) using cable fixation were implanted according to standard techniques. The specimens were then loaded into a servo-pneumatic testing device in 25° of abduction. In 20 consecutive cycles traction of 40 Newton was alternating exerted on the subscapularis and infraspinatus tendon, while a continuous force of 40 Newton was exerted on the greater tuberosity to simulate the pull of the m. supraspinatus. The motion of the fragments was recorded by 2 high speed cameras. The following parameters were investigated : Failure of osteosynthesis, intertuberosity motion, motion lesser tuberosity-shaft, motion greater tuberosity-shaft, motion metaphysis-shaft. After completing the first series the cable fixation exposed to be more stable. In a second series we compared cable versus suture fixation in the Affinis fracture prosthesis to find out whether the stability was depending on the prosthesis design.

Results:

Series 1: The intertuberosity motion was significantly lower in the cable prosthesis. The tuberosity-shaft motion was significantly lower in the cable group for greater and lesser tuberosity. The metaphysis - shaft motion did not significantly differ in both groups.

Series 2: The intertuberosity motion was significant lower when the tuberosities were fixed by cable. The tuberosity-shaft motion was significantly lower when cable fixation was used. The metaphysis-shaft motion was not significantly diverse.

Conclusion: Highest primary stability of tuberosity fixation in trauma-arthroplasty of the shoulder was measured in cable fixation and closed stem. We proved that the kind of fixation was the most important factor determing the stability. Metaphyseal design was less important.