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01694 am a22001693u 4500 |
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55334 |
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|a dc
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|a Zawani Ahmmad, Siti Nor
|e author
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|a Chew, Zhen San
|e author
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|a Su, Eileen Lee Ming
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|a Yeong, Che Fai
|e author
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|a Force variability as an objective measure of surgical skill
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|b Penerbit UTM Press,
|c 2015-04.
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|z Get fulltext
|u http://eprints.utm.my/id/eprint/55334/1/YeongCheFai2015_ForceVariabilityasanObjectiveMeasureofSurgical.pdf
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|a This study investigated the force variability of subjects with different level of surgical skills for different force levels. Twelve participants were recruited from three different levels of surgical experiences: A group of surgeon (N = 4), medical student (N = 3) and engineering student (N = 5) underwent a simple finger force control task using a custom developed 'Force Matching' module. Three different levels of target force were used: 2 N, 4 N, and 6 N. The task was performed simultaneously using right and left hands. The mean error of force was measured to compare the performance between the three group using Kruskal-Wallis test. A statistically significant difference was detected among the three groups at 2 N when using right hand. We also found that the surgeon group made less error compared to the two other groups at force level 4 N and 6 N for both hands. This finding has important implication for developing a parametric assessment model to evaluate basic skill level in surgical procedures. However, for most accurate result, a big sample size of subject is required
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|a en
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|a TK Electrical engineering. Electronics Nuclear engineering
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