In this study, a two-dimensional biomechanical hand model predicting tendon loads in the fingers duringguitar playing was developed. To estimate tendon forces, joint reaction forces, and force reactions against agiven fingertip pressure (external force), a static hand model was developed based on the hand anatomy andstatic equilibrium conditions. Model inputs included 1) adopted existing anthropometry data, 2) fingertippressures measured while playing the guitar, and 3) measured joint angles on the fingers. The hand modelevaluated four chords: C, E, G7, and Am. G7 required the highest internal tendon force (41.0N), and Am(32.8N), E (30.3N), and C (26.6N) followed it. The index finger was mainly recruited for all four chordswhile the ring finger showed the worst efficiency, using the external force to internal tendon force ratio.Finally, the quick-and-dirty test showed the simulation result had strong correlation (ğ‘…!= 65.1 %) withEMG result (C: 22.9%MVC, E: 22.1%, G7: 34.8%, and Am: 34.3%) on the FDP muscle, a main flexor ofthe finger.
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