2010
DOI: 10.1016/j.neuropsychologia.2010.01.029
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Effects of lateral head inclination on multimodal spatial orientation judgments in neglect: Evidence for impaired spatial orientation constancy

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Cited by 34 publications
(31 citation statements)
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“…The first reported findings similar to those in the cat (Sauvan and Peterhans, 1999), but had multiple methodological issues and was contradicted by the second, which found no indication of a gravity-centered representation in V1 (Daddaoua et al, 2014). Consistent with the present results, clinical studies suggest gravity-centered representations arise in parietal cortex (Brandt et al, 1994;Funk et al, 2010;Guardia et al, 2012), an important locus of multisensory processing and reference frame transformations (Buneo et al, 2002;Avillac et al, 2005;Mullette-Gillman et al, 2009;Chang and Snyder, 2010;Seilheimer et al, 2014).…”
supporting
confidence: 86%
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“…The first reported findings similar to those in the cat (Sauvan and Peterhans, 1999), but had multiple methodological issues and was contradicted by the second, which found no indication of a gravity-centered representation in V1 (Daddaoua et al, 2014). Consistent with the present results, clinical studies suggest gravity-centered representations arise in parietal cortex (Brandt et al, 1994;Funk et al, 2010;Guardia et al, 2012), an important locus of multisensory processing and reference frame transformations (Buneo et al, 2002;Avillac et al, 2005;Mullette-Gillman et al, 2009;Chang and Snyder, 2010;Seilheimer et al, 2014).…”
supporting
confidence: 86%
“…This reflects that external gravitational signals detected by the vestibular and proprioceptive systems are used to reinterpret egocentrically encoded retinal images in gravitycentered coordinates (De Vrijer et al, 2008). Deficits in the vestibular system or in the ability to combine gravitational and visual signals due to brain injury thus compromise visual stability (Brandt et al, 1994;Funk et al, 2010Funk et al, , 2011Baier et al, 2012). Similarly, the absence of gravitational signals in space causes astronauts to experience disorienting jumps in perceived orientation (e.g., "upward" suddenly becomes "rightward"; Oman et al, 1986).…”
Section: Introductionmentioning
confidence: 99%
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“…An object’s spatial orientation, for example, is perceived to remain constant relative to the gravitational vector even when your head is tilted to the side. This reflects that the brain uses gravitational (vestibular/proprioceptive) signals to transform the visual representation of the scene from an eye into a world reference frame [36, 37]. Recently, gravitational signals were found to modify the visual responses of neurons in the macaque caudal intraparietal area (CIP) such that object orientation was encoded in a range of intermediate reference frames distributed between head-, eye-, and world-centered (Rosenberg & Angelaki, abstract in Computational and Systems Neuroscience 2013, Salt Lake City, UT, February 2013).…”
Section: Reference Frame Transformationsmentioning
confidence: 99%
“…One is that we did not control the subjects' trunk and head positions during verticality adjustments. Even though GVS is known to affect head and trunk orientation, its influence on verticality adjustments is controversial [11,22,28,31]. Another limitation is that the order of the different verticality assessments in experiment 1 was not randomized.…”
Section: Time Coursementioning
confidence: 99%