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Finger pressure adjustments to various object configurations during precision grip in humans and monkeys

In this study, we recorded the pressure exerted onto an object by the index finger and the thumb of the preferred hand of 18 human subjects and either hand of two macaque monkeys during a precision grasping task. The to‐be‐grasped object was a custom‐made device composed by two plates which could be...

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Bibliographic Details
Published in:The European journal of neuroscience 2017-06, Vol.45 (11), p.1473-1484
Main Authors: Viaro, Riccardo, Tia, Banty, Coudé, Gino, Canto, Rosario, Oliynyk, Andriy, Salmas, Paola, Masia, Lorenzo, Sandini, Giulio, Fadiga, Luciano, Foxe, John
Format: Article
Language:English
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Summary:In this study, we recorded the pressure exerted onto an object by the index finger and the thumb of the preferred hand of 18 human subjects and either hand of two macaque monkeys during a precision grasping task. The to‐be‐grasped object was a custom‐made device composed by two plates which could be variably oriented by a motorized system while keeping constant the size and thus grip dimension. The to‐be‐grasped plates were covered by an array of capacitive sensors to measure specific features of finger adaptation, namely pressure intensity and centroid location and displacement. Kinematic measurements demonstrated that for human subjects and for monkeys, different plate configurations did not affect wrist velocity and grip aperture during the reaching phase. Consistently, at the instant of fingers‐plates contact, pressure centroids were clustered around the same point for all handle configurations. However, small pressure centroid displacements were specifically adopted for each configuration, indicating that both humans and monkeys can display finger adaptation during precision grip. Moreover, humans applied stronger thumb pressure intensity, performed less centroid displacement and required reduced adjustment time, as compared to monkeys. These pressure patterns remain similar when different load forces were required to pull the handle, as ascertained by additional measurements in humans. The present findings indicate that, although humans and monkeys share common features in motor control of grasping, they differ in the adjustment of fingertip pressure, probably because of skill and/or morphology divergences. Such a precision grip device may form the groundwork for future studies on prehension mechanisms. Finger pressures exerted onto a small object that can assume different configurations (while keeping constant its size) during grasping performed by humans and monkeys. The various handle configurations induced specific pressure adjustments. Human grasping was characterized by smaller finger adjustments.
ISSN:0953-816X
1460-9568
DOI:10.1111/ejn.13587