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March 16, 2026Open Access

Kinematic Analysis of Manual, Collaborative and Robotic Surgical Retractor Holding

Puntos clave

This study aims to quantify the kinematic performance of manual, collaborative, and robotic retractor holding in a surgical context.
Conducted kinematic analysis using 6-DOF tracking at 80 Hz during ex-vivo porcine liver retraction.
Compared position deviation, tremor intensity, and path length across manual, collaborative, and robotic modes.
Analyzed effect sizes to evaluate stability and precision differences between systems.
Robotic assistance reduced position deviation from 133 mm (manual) to 0.74 mm (99.4% reduction).
Tremor intensity decreased by 99.6% with robotic assistance.
Path length for robotic retraction reduced from 9.3 m to 0.17 m (98% reduction).
Collaborative mode achieved 50% reduction in position deviation and 93% reduction in path length.

Resumen

Surgical retractor stability is crucial for precision and safety. This study quantifies kinematic performance of manual, collaborative, and robotic retractor holding using 6-DOF tracking at 80 Hz during ex-vivo porcine liver retraction. Robotic assistance reduced position deviation from 133 mm (manual) to 0.74 mm (99.4%), tremor intensity by 99.6%, and path length from 9.3 m to 0.17 m (98%). Effect sizes ranged from d=1.03 to d=2.64. Collaborative mode achieved intermediate stability (50% deviation reduction, 93% path reduction) while preserving adjustment capability. Results establish objective metrics for retraction quality assessment and demonstrate that passive robotic assistance achieves submillimeter precision while addressing personnel shortages in open surgery.

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Zehny et al. (Tue,) studied this question.

synapsesocial.com/papers/69b79e968166e15b153ac11f https://doi.org/https://doi.org/10.18416/automed.2026.2509

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