IDEAS home Printed from https://ideas.repec.org/a/nat/nature/v390y1997i6658d10.1038_37114.html
   My bibliography  Save this article

Antisaccade performance predicted by neuronal activity in the supplementary eye field

Author

Listed:
  • Madeleine Schlag-Rey

    (UCLA School of Medicine)

  • Nelly Amador

    (UCLA School of Medicine)

  • Henry Sanchez

    (UCLA School of Medicine)

  • John Schlag

    (UCLA School of Medicine)

Abstract

The voluntary control of gaze implies the ability to make saccadic eye movements specified by abstract instructions, as well as the ability to repress unwanted orientating to sudden stimuli. Both of these abilities are challenged in the antisaccade task, because it requires subjects to look at an unmarked location opposite to a flashed stimulus, without glancing at it1,2. Performance on this task depends on the frontal/prefrontal cortex and related structures3,4,5,6,7,8, but the neuronal operations underlying antisaccades are not understood. It is not known, for example, how excited visual neurons that normally trigger a saccade to a target (a prosaccade) can activate oculomotor neurons directing gaze in the opposite direction. Visual neurons might, perhaps, alter their receptive fields depending on whether they receive a pro- or antisaccade instruction. If the receptive field is not altered, the antisaccade goal must be computed and imposed from the top down to the appropriate oculomotor neurons. Here we show, using recordings from the supplementary eye field (a frontal cortex oculomotor centre) in monkeys, that visual and movement neurons retain the same spatial selectivity across randomly mixed pro- and antisaccade trials. However, these neurons consistently fire more before antisaccades than prosaccades with the same trajectories, suggesting a mechanism through which voluntary antisaccade commands can override reflexive glances.

Suggested Citation

  • Madeleine Schlag-Rey & Nelly Amador & Henry Sanchez & John Schlag, 1997. "Antisaccade performance predicted by neuronal activity in the supplementary eye field," Nature, Nature, vol. 390(6658), pages 398-401, November.
  • Handle: RePEc:nat:nature:v:390:y:1997:i:6658:d:10.1038_37114
    DOI: 10.1038/37114
    as

    Download full text from publisher

    File URL: https://www.nature.com/articles/37114
    File Function: Abstract
    Download Restriction: Access to the full text of the articles in this series is restricted.

    File URL: https://libkey.io/10.1038/37114?utm_source=ideas
    LibKey link: if access is restricted and if your library uses this service, LibKey will redirect you to where you can use your library subscription to access this item
    ---><---

    As the access to this document is restricted, you may want to search for a different version of it.

    Citations

    Citations are extracted by the CitEc Project, subscribe to its RSS feed for this item.
    as


    Cited by:

    1. Thomas V Wiecki & Chrystalina A Antoniades & Alexander Stevenson & Christopher Kennard & Beth Borowsky & Gail Owen & Blair Leavitt & Raymund Roos & Alexandra Durr & Sarah J Tabrizi & Michael J Frank, 2016. "A Computational Cognitive Biomarker for Early-Stage Huntington’s Disease," PLOS ONE, Public Library of Science, vol. 11(2), pages 1-21, February.
    2. Harleen Bedi & Herbert C Goltz & Agnes M F Wong & Manokaraananthan Chandrakumar & Ewa Niechwiej-Szwedo, 2013. "Error Correcting Mechanisms during Antisaccades: Contribution of Online Control during Primary Saccades and Offline Control via Secondary Saccades," PLOS ONE, Public Library of Science, vol. 8(8), pages 1-10, August.

    More about this item

    Statistics

    Access and download statistics

    Corrections

    All material on this site has been provided by the respective publishers and authors. You can help correct errors and omissions. When requesting a correction, please mention this item's handle: RePEc:nat:nature:v:390:y:1997:i:6658:d:10.1038_37114. See general information about how to correct material in RePEc.

    If you have authored this item and are not yet registered with RePEc, we encourage you to do it here. This allows to link your profile to this item. It also allows you to accept potential citations to this item that we are uncertain about.

    We have no bibliographic references for this item. You can help adding them by using this form .

    If you know of missing items citing this one, you can help us creating those links by adding the relevant references in the same way as above, for each refering item. If you are a registered author of this item, you may also want to check the "citations" tab in your RePEc Author Service profile, as there may be some citations waiting for confirmation.

    For technical questions regarding this item, or to correct its authors, title, abstract, bibliographic or download information, contact: Sonal Shukla or Springer Nature Abstracting and Indexing (email available below). General contact details of provider: http://www.nature.com .

    Please note that corrections may take a couple of weeks to filter through the various RePEc services.

    IDEAS is a RePEc service. RePEc uses bibliographic data supplied by the respective publishers.