September 2024
Volume 24, Issue 10
Open Access
Vision Sciences Society Annual Meeting Abstract  |   September 2024
A rare case of bilateral damage to cortical motion processing areas 40 years after patient L.M.
Author Affiliations
  • Miriam Spering
    University of British Columbia
  • Philipp Kreyenmeier
    University of British Columbia
  • Juana Ayala Castañeda
    University of British Columbia
  • Jason Barton
    University of British Columbia
Journal of Vision September 2024, Vol.24, 355. doi:https://doi.org/10.1167/jov.24.10.355
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      Miriam Spering, Philipp Kreyenmeier, Juana Ayala Castañeda, Jason Barton; A rare case of bilateral damage to cortical motion processing areas 40 years after patient L.M.. Journal of Vision 2024;24(10):355. https://doi.org/10.1167/jov.24.10.355.

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      © ARVO (1962-2015); The Authors (2016-present)

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Abstract

In 1983, Zihl and colleagues reported the case of patient L.M., who had suffered bilateral damage to the lateral temporal-occipital cortex and showed a “disturbance of movement vision in a rather pure form” [Zihl, von Cramon, & Mai, Brain 1983; p.313], manifesting in selective deficits in motion perception, smooth pursuit and manual tracking of moving targets, particularly at higher speeds. These findings suggest that a human homologue of the middle temporal area (MT, or area V5) was located in this region. Here we present 19-year-old female patient C.C., who suffered encephalitis at age 3, with recent MRI showing bilateral damage to lateral occipitotemporal and medial occipitoparietal cortex. Similar to L.M., patient C.C. reports feeling overwhelmed in crowded areas, struggling with ball sports, and inaccuracy with fine motor tasks that involve moving objects. We tested C.C.’s smooth pursuit eye movements to visible and occluded targets and her ability to track and rapidly intercept objects that moved unpredictably. Compared to healthy young adults, C.C.’s smooth pursuit had a reduced velocity gain (.75) and was frequently interrupted by catch-up saccades, even in response to slow (10°/s) targets. When the target was temporarily occluded (ramp-occlusion-ramp for 800 ms each), pursuit dropped to zero velocity during occlusion and did not predictively accelerate before target reappearance. These motion prediction deficits extended to the patient’s performance in naturalistic interception tasks. Whereas pointing accuracy was high (interception error 0.8°) for objects moving along simple, horizontal trajectories, performance degraded significantly for complex flyball (M = 2.4°) and occluded trajectories (M = 3.6°) with almost no ability to discriminate different trajectory types. These findings provide neuropsychological evidence for a role of C.C.’s damaged areas in the control of predictive eye and hand movements to moving objects and show that there is little compensation for these deficits.

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