Is word recognition crowded in pure alexia?

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Is word recognition crowded in pure alexia? / Sand, Katrine; Habekost, Thomas; Petersen, Anders; Starrfelt, Randi.

In: Journal of Vision, Vol. 17, No. 10, 31.08.2017, p. 1037.

Research output: Contribution to journalConference abstract in journalResearchpeer-review

Harvard

Sand, K, Habekost, T, Petersen, A & Starrfelt, R 2017, 'Is word recognition crowded in pure alexia?', Journal of Vision, vol. 17, no. 10, pp. 1037. https://doi.org/10.1167/17.10.1037

APA

Sand, K., Habekost, T., Petersen, A., & Starrfelt, R. (2017). Is word recognition crowded in pure alexia? Journal of Vision, 17(10), 1037. https://doi.org/10.1167/17.10.1037

Vancouver

Sand K, Habekost T, Petersen A, Starrfelt R. Is word recognition crowded in pure alexia? Journal of Vision. 2017 Aug 31;17(10):1037. https://doi.org/10.1167/17.10.1037

Author

Sand, Katrine ; Habekost, Thomas ; Petersen, Anders ; Starrfelt, Randi. / Is word recognition crowded in pure alexia?. In: Journal of Vision. 2017 ; Vol. 17, No. 10. pp. 1037.

Bibtex

@article{7fcc14977e04432da7db202f6ca23902,
title = "Is word recognition crowded in pure alexia?",
abstract = "Pure alexia is a selective deficit in reading, which arises following damage to the left ventral occipito-temporal cortex. Crowding, the inability to recognise objects in a clutter, has recently been hypothesised to be the underlying deficit of apperceptive visual agnosia1. Crowding normally occurs in peripheral vision, and we therefore tested whether the performance with words at the centre of fixation in a pure alexic patient (LK) is indeed similar to the performance of matched controls in the peripheral visual field. Using an accuracy-based word recognition task with brief, masked exposures, we tested word processing in LK and 24 matched controls. LK was tested in central vision, while the controls were tested in central vision and 4.6 degrees to the right of fixation. LK was significantly impaired on visual word recognition in the central visual field but there was no significant difference when comparing LK's performance in central vision and the performance of the controls at 4.6 degrees. The equivalent eccentricity1 was calculated by estimating the linear relationship between the mean performance across the exposure durations in the central and peripheral condition in the control group. Based on this, we found that the equivalent eccentricity of LK corresponds to 7.4 visual degrees, indicating that her visual word recognition is as bad as normal word recognition would be with stimuli presented 7-8 degrees from fixation. Our findings indicate that word recognition in pure alexia may be impaired by the same processing limitations that makes normal vision less efficient in the periphery than at fixation. Leaning on a recent proposal from Martelli et al.1, we suggest that central vision is crowded in pure alexia, and that this may at least partly explain the reading deficit. 1) Martelli et al. (2015). Journal of vision. 15(12): 921Meeting abstract presented at VSS 2017",
author = "Katrine Sand and Thomas Habekost and Anders Petersen and Randi Starrfelt",
note = "10.1167/17.10.1037",
year = "2017",
month = aug,
day = "31",
doi = "10.1167/17.10.1037",
language = "English",
volume = "17",
pages = "1037",
journal = "Journal of Vision",
issn = "1534-7362",
publisher = "Association for Research in Vision and Ophthalmology",
number = "10",

}

RIS

TY - ABST

T1 - Is word recognition crowded in pure alexia?

AU - Sand, Katrine

AU - Habekost, Thomas

AU - Petersen, Anders

AU - Starrfelt, Randi

N1 - 10.1167/17.10.1037

PY - 2017/8/31

Y1 - 2017/8/31

N2 - Pure alexia is a selective deficit in reading, which arises following damage to the left ventral occipito-temporal cortex. Crowding, the inability to recognise objects in a clutter, has recently been hypothesised to be the underlying deficit of apperceptive visual agnosia1. Crowding normally occurs in peripheral vision, and we therefore tested whether the performance with words at the centre of fixation in a pure alexic patient (LK) is indeed similar to the performance of matched controls in the peripheral visual field. Using an accuracy-based word recognition task with brief, masked exposures, we tested word processing in LK and 24 matched controls. LK was tested in central vision, while the controls were tested in central vision and 4.6 degrees to the right of fixation. LK was significantly impaired on visual word recognition in the central visual field but there was no significant difference when comparing LK's performance in central vision and the performance of the controls at 4.6 degrees. The equivalent eccentricity1 was calculated by estimating the linear relationship between the mean performance across the exposure durations in the central and peripheral condition in the control group. Based on this, we found that the equivalent eccentricity of LK corresponds to 7.4 visual degrees, indicating that her visual word recognition is as bad as normal word recognition would be with stimuli presented 7-8 degrees from fixation. Our findings indicate that word recognition in pure alexia may be impaired by the same processing limitations that makes normal vision less efficient in the periphery than at fixation. Leaning on a recent proposal from Martelli et al.1, we suggest that central vision is crowded in pure alexia, and that this may at least partly explain the reading deficit. 1) Martelli et al. (2015). Journal of vision. 15(12): 921Meeting abstract presented at VSS 2017

AB - Pure alexia is a selective deficit in reading, which arises following damage to the left ventral occipito-temporal cortex. Crowding, the inability to recognise objects in a clutter, has recently been hypothesised to be the underlying deficit of apperceptive visual agnosia1. Crowding normally occurs in peripheral vision, and we therefore tested whether the performance with words at the centre of fixation in a pure alexic patient (LK) is indeed similar to the performance of matched controls in the peripheral visual field. Using an accuracy-based word recognition task with brief, masked exposures, we tested word processing in LK and 24 matched controls. LK was tested in central vision, while the controls were tested in central vision and 4.6 degrees to the right of fixation. LK was significantly impaired on visual word recognition in the central visual field but there was no significant difference when comparing LK's performance in central vision and the performance of the controls at 4.6 degrees. The equivalent eccentricity1 was calculated by estimating the linear relationship between the mean performance across the exposure durations in the central and peripheral condition in the control group. Based on this, we found that the equivalent eccentricity of LK corresponds to 7.4 visual degrees, indicating that her visual word recognition is as bad as normal word recognition would be with stimuli presented 7-8 degrees from fixation. Our findings indicate that word recognition in pure alexia may be impaired by the same processing limitations that makes normal vision less efficient in the periphery than at fixation. Leaning on a recent proposal from Martelli et al.1, we suggest that central vision is crowded in pure alexia, and that this may at least partly explain the reading deficit. 1) Martelli et al. (2015). Journal of vision. 15(12): 921Meeting abstract presented at VSS 2017

U2 - 10.1167/17.10.1037

DO - 10.1167/17.10.1037

M3 - Conference abstract in journal

VL - 17

SP - 1037

JO - Journal of Vision

JF - Journal of Vision

SN - 1534-7362

IS - 10

ER -

ID: 184859962