SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4317715431> ?p ?o ?g. }

Showing items 1 to 100 of ±120 with 100 items per page.

W4317715431 abstract "Abstract Selecting suitable grasps on three-dimensional objects is a challenging visuomotor computation, which involves combining information about an object (e.g., its shape, size, and mass) with information about the actor’s body (e.g., the optimal grasp aperture and hand posture for comfortable manipulation). Here we used functional magnetic resonance imaging to investigate brain networks associated with these distinct aspects during grasp planning and execution. Human participants viewed and then executed preselected grasps on L-shaped objects made of wood and/or brass. By leveraging a computational approach that accurately predicts human grasp locations, we selected grasp points that disentangled the role of multiple grasp-relevant factors: grasp axis, grasp size, and object mass. Representational Similarity Analysis revealed that grasp axis was encoded along dorsal-stream regions during grasp planning. Grasp size was first encoded in ventral-stream areas during grasp planning, then in premotor regions during grasp execution. Object mass was encoded in ventral-stream and (pre)motor regions only during grasp execution. Premotor regions further encoded visual predictions of grasp comfort, whereas the ventral stream encoded grasp comfort during execution, suggesting its involvement in haptic evaluation. These shifts in neural representations thus capture the sensorimotor transformations that allow humans to grasp objects. Significance Statement Grasping requires integrating object properties with constraints on hand and arm postures. Using a computational approach that accurately predicts human grasp locations by combining such constraints, we selected grasps on objects that disentangled the relative contributions of object mass, grasp size, and grasp axis during grasp planning and execution in a neuroimaging study. Our findings reveal a greater role of dorsal-stream visuomotor areas during grasp planning, and surprisingly, increasing ventral stream engagement during execution. We propose that during planning, visuomotor representations initially encode grasp axis and size. Perceptual representations of object material properties become more relevant instead as the hand approaches the object and motor programs are refined with estimates of the grip forces required to successfully lift the object." @default.
W4317715431 created "2023-01-23" @default.
W4317715431 creator A5012373338 @default.
W4317715431 creator A5017712317 @default.
W4317715431 creator A5019440281 @default.
W4317715431 creator A5028635251 @default.
W4317715431 creator A5040862935 @default.
W4317715431 creator A5043004979 @default.
W4317715431 creator A5048363235 @default.
W4317715431 creator A5048566788 @default.
W4317715431 date "2023-01-22" @default.
W4317715431 modified "2023-10-01" @default.
W4317715431 title "Distinct neural components of visually guided grasping during planning and execution" @default.
W4317715431 cites W1633132569 @default.
W4317715431 cites W1779974355 @default.
W4317715431 cites W1821561312 @default.
W4317715431 cites W1965025745 @default.
W4317715431 cites W1965877203 @default.
W4317715431 cites W1970361628 @default.
W4317715431 cites W1970890515 @default.
W4317715431 cites W1976715276 @default.
W4317715431 cites W1977875348 @default.
W4317715431 cites W2015135984 @default.
W4317715431 cites W2015577702 @default.
W4317715431 cites W2018829466 @default.
W4317715431 cites W2033935115 @default.
W4317715431 cites W2034782470 @default.
W4317715431 cites W2034862290 @default.
W4317715431 cites W2046510061 @default.
W4317715431 cites W2048563248 @default.
W4317715431 cites W2057429824 @default.
W4317715431 cites W2060434935 @default.
W4317715431 cites W2066722744 @default.
W4317715431 cites W2069863465 @default.
W4317715431 cites W2074823786 @default.
W4317715431 cites W2074936002 @default.
W4317715431 cites W2082627290 @default.
W4317715431 cites W2084145388 @default.
W4317715431 cites W2084977927 @default.
W4317715431 cites W2089114146 @default.
W4317715431 cites W2092164886 @default.
W4317715431 cites W2097799357 @default.
W4317715431 cites W2098223187 @default.
W4317715431 cites W2103446469 @default.
W4317715431 cites W2107913136 @default.
W4317715431 cites W2110553737 @default.
W4317715431 cites W2110933002 @default.
W4317715431 cites W2118125647 @default.
W4317715431 cites W2123544472 @default.
W4317715431 cites W2124757386 @default.
W4317715431 cites W2131833445 @default.
W4317715431 cites W2136963804 @default.
W4317715431 cites W2141503459 @default.
W4317715431 cites W2159825486 @default.
W4317715431 cites W2160654481 @default.
W4317715431 cites W2161681010 @default.
W4317715431 cites W2170797424 @default.
W4317715431 cites W2172051647 @default.
W4317715431 cites W2246006780 @default.
W4317715431 cites W2301755253 @default.
W4317715431 cites W2303410315 @default.
W4317715431 cites W2313293719 @default.
W4317715431 cites W2479114389 @default.
W4317715431 cites W2486857086 @default.
W4317715431 cites W2790096320 @default.
W4317715431 cites W2914691171 @default.
W4317715431 cites W2949185666 @default.
W4317715431 cites W3027047923 @default.
W4317715431 cites W3047166322 @default.
W4317715431 cites W3118746110 @default.
W4317715431 cites W3127661058 @default.
W4317715431 cites W3133335573 @default.
W4317715431 cites W4231412447 @default.
W4317715431 cites W4245197649 @default.
W4317715431 cites W4246051408 @default.
W4317715431 cites W4255693181 @default.
W4317715431 doi "https://doi.org/10.1101/2023.01.22.525053" @default.
W4317715431 hasPublicationYear "2023" @default.
W4317715431 type Work @default.
W4317715431 citedByCount "0" @default.
W4317715431 crossrefType "posted-content" @default.
W4317715431 hasAuthorship W4317715431A5012373338 @default.
W4317715431 hasAuthorship W4317715431A5017712317 @default.
W4317715431 hasAuthorship W4317715431A5019440281 @default.
W4317715431 hasAuthorship W4317715431A5028635251 @default.
W4317715431 hasAuthorship W4317715431A5040862935 @default.
W4317715431 hasAuthorship W4317715431A5043004979 @default.
W4317715431 hasAuthorship W4317715431A5048363235 @default.
W4317715431 hasAuthorship W4317715431A5048566788 @default.
W4317715431 hasBestOaLocation W43177154311 @default.
W4317715431 hasConcept C107457646 @default.
W4317715431 hasConcept C154945302 @default.
W4317715431 hasConcept C171268870 @default.
W4317715431 hasConcept C199360897 @default.
W4317715431 hasConcept C2781238097 @default.
W4317715431 hasConcept C31972630 @default.
W4317715431 hasConcept C41008148 @default.
W4317715431 hasConceptScore W4317715431C107457646 @default.
W4317715431 hasConceptScore W4317715431C154945302 @default.
W4317715431 hasConceptScore W4317715431C171268870 @default.