The Use of Navigation Forces for Assessment of Wrist Arthroscopy Skills Level

Abstract Purpose  To provide an efficient learning process, feedback on performance is crucial. In skills laboratories, it is possible to measure the skills and progression of skills of the trainees objectively. This requires metrics that represent the learning curve of the trainee, which were inves...

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Bibliographic Details
Published in:Journal of wrist surgery 2014-05, Vol.3 (2), p.132-138
Main Authors: Obdeijn, Miryam C., van Baalen, Sophie J., Horeman, Tim, Liverneaux, Philippe, Tuijthof, Gabrielle J. M.
Format: Article
Language:English
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Scientific Article
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Summary:Abstract Purpose  To provide an efficient learning process, feedback on performance is crucial. In skills laboratories, it is possible to measure the skills and progression of skills of the trainees objectively. This requires metrics that represent the learning curve of the trainee, which were investigated for wrist arthroscopy. The research questions were: What are the forces used by novices during wrist arthroscopy? What aspects of these navigation forces are discriminative for the wrist arthroscopy skills level? Methods  A cadaver wrist was mounted in a custom-made distraction device mounted in front of a force platform (ForceTrap). Eleven novices were invited to perform two tasks on the wrist: Insertion of the scope through the 3–4 portal and the hook through the 6R portal, and visualization of the hook in the center of the image Navigation through the wrist from radial to ulnar with probing and visualization of five predefined landmarks The second task was repeated 10 times. The absolute force ( F abs ) and the direction of force were measured. The angle α is defined in the vertical plane, and the angle β in the horizontal plane. Results  The median F abs used by novices remained below the force threshold as defined from the expert data (7.3 N). However, the direction of the applied forces by novices in both planes was not consistent with expert data and showed a wider range. Also, there was no improvement after more trials. Conclusion  Our study suggests by the absence of a learning curve for the novices and a significant difference between novices and experts that novices can benefit from feedback on the magnitude and direction of forces to improve their performance.
ISSN:2163-3916
2163-3924
DOI:10.1055/s-0034-1373838