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Orthopaedic Proceedings
Vol. 92-B, Issue SUPP_IV | Pages 571 - 572
1 Oct 2010
Gines A Palou EC Torrens C
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Introduction: Functional results of hemiarthroplasties in proximal humeral fractures are unpredictable. The correct consolidation of the tuberosities back to the prosthesis seem to be of capital importance in the functional outcome. The objective of the study is to analyze the changes of the tension registered in the sutures passed through the tuberosities when changing the height and version of the prosthesis in a static model and in a dynamic model.

Material and Method: Prosthesis positioning: in both static and dynamic model, the prosthesis was placed in anatomical position, anatomical increasing 20° retroversion, increasing height in 1cm and anatomical version, decreasing height in 1 cm and anatomical version, increasing height in 1cm and increasing 20° retroversion, decreasing height in 1 cm and increasing 20° retroversion,

Static study: a 4-part fracture was reproduced in four fresh-frozen shoulder specimens. Sutures were placed between lesser tuberosity and diafisis (sensor 1) between both tuberosities (sensor 2) and between greater tuberosity and diafisis (sensor 3). Traction was performed through supraspinatus, infraspinatus and subescapularis attachments until the breakage of the suture or 1 cm gap between bony fragments. Tensions registered in a computer model.

Dynamic study: a 4-part fracture was reproduced in a humeral saw bone. Sutures placed in the same position that in the static model. Saw bone fixed at a robotic arm reproducing cycles of 90° anterior elevation, 30° lateral rotation, 30° internal rotation and retropulsion to starting point. Registering of the tensions. Quantitative values studied through t-student and non parametric values studied through U-Mann-Whitney and Kruskal-Wallis test.

Results: In the Static study, the suture placed between the tuberosities is the one that significantly receives more tension. The breakage of the suture happens more frequently when the prosthesis is placed in a lower position and in a lower more retroverted position.

In the dynamic study, the suture placed between the greater tuberosity and the diafisis is the one significantly receives more tension. The breakage of the suture happens more frequently when the prosthesis is placed in a lower position and in a lower more retroverted position.

Conclusions: When planning sutures between tuberosities in proximal humeral fractures treated with hemiarthroplasty postoperative rehabilitation program has to be considered because different sutures are at risk depending on static or dynamic model.

The worst positions of the hemiarthroplasty as far as over tensioning sutures is concerned are the low position and the low more retroverted position.


Orthopaedic Proceedings
Vol. 87-B, Issue SUPP_I | Pages 81 - 81
1 Mar 2005
Gines A Escalada F Marco E Cáceres E
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Purpose: The purpose of this study is to detect the changes occurring occur in patients with adolescent idiopathic scoliosis in terms height and Cobb’s angle during a specific period of time by means of a mathematic model.

Materials and methods: This was a retrospective study of a cohort of 132 girls. The inclusion criteria were the following: adolescent idiopathic scoliosis, Cobb’s angle greater than 10°, follow-up of at least 2 years with half-yearly controls. The variables were: year of onset of menstruation (menarche), height, Cobb’s angle and treatment. The changes in height and Cobb’s angle which occurred with time were adjusted through curved regression models. The gradient was calculated between each of the consecutive time points (first-degree derivative). Growth was considered stable when the gradient changed direction or was illegible.

Results: The cubic measure was found to be best fitted to the height (R2=0.329) and signal-change parameters of the gradient a year after the onset of menstruation (menarche). The force function was the best for Cobb’s angle, albeit with a slight adaptation (R2=0.038). A correlation was found between the mean height and the angles. This value was found to be higher for girls treated with a brace. Comparing the mean heights recorded in one semester with those of the previous semester, one can observe statistically significant differences up to 2.5– 3 years post-menarche.

Conclusions: Cobb’s angle and height in conservatively-treated adolescent idiopathic scoliosis often stabilize 2,5 years and after the onset of menstruation. Patients treated with a brace stabilize when they reach menarche.