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Estimating Rats

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Estimating Rats Working Memory Capacity in an Object Recognition Foraging Task Jerome Cohen, Xue Han, Anca Matei, Vara Parameswaran Department of Psychology ... – PowerPoint PPT presentation

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Title: Estimating Rats


1
Estimating Rats Working Memory Capacity in an
Object Recognition Foraging Task
  • Jerome Cohen, Xue Han, Anca Matei, Vara
    Parameswaran
  • Department of Psychology, University of Windsor
  • Myron Hlynka
  • Department of Mathematics and Statistics,
    University of Windsor

The14th Annual Meeting of the Comparative
Cognition Society Melbourne Beach, Florida,
March, 2007
2
Difficulties in assessing memory in non-verbal
animals
  • DMTS, DNMTS, radial maze, food cache recovery
    errors not always due to loss in working memory
    (Thorpe, Jacova, Wilkie, 2004 Wilkie, Willson,
    Carr, 1999)
  • Overestimation (Cole Chappell-Stephenson, 2004)
    or underestimation (Cohen et al. 2004) of spatial
    location working memory in radial maze task

3
How much information can be stored and for how
long?
  • Open radial maze tasks confounded with direction
    cues
  • Rats may retain how far away arms are from a
    given direction sampled rather than specific arm
    locations.
  • Object recognition tasks DMTS, DNMTS, novel
    object recognition (see Mumby, 2001)
  • Assess retention interval for one or two objects
  • Non-spatial DMTS, DNMTS versions difficult to
    acquire.

4
Five important characteristics of a good working
memory task for rats
  • Object recognition task should be easy to acquire
  • Working memory should be biologically more
    relevant to the animal than search response
    algorithms
  • Reward new object recovery so as to prevent
    premature search termination
  • Large pool of objects to prevent proactive
    interference from object repetition over
    successive trials
  • Assess individual animals working memory
    capacity

5
Our Object Location Recognition Task (version 2
of Cohen et al.2006)
  • Subjects Six Long-Evans male hooded rats
  • Apparatus Large enclosed square foraging area
    with 25 (5 x 5) covered food wells
  • Only food wells covered with objects baited with
    sunflower seeds
  • Pool of 60 objects
  • Trials partitioned into study and test segments
  • Study segment n object-covered wells, each
    baited with one seed
  • Test segment one or more new objects replace
    old objects - baited with 6 seeds
  • I-min inter-segment-interval

6
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7
Three Phases each 48 trials
  • Phase 1 trial One new object in test segment
    replaces one of the three old objects from
    previous study segment.
  • Object locations randomized over trials but not
    within a trial
  • Phase 2 trial Two new objects in test segment
    replace two of the six old objects from previous
    study segment
  • Phase 3 trial Three new objects in test segment
    replaces three of nine old objects from previous
    study segment.

8
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10
Dependent Variable and Measure of Estimated No.
of Old Objects Retained
  • Number of choices to find all jackpot objects
  • Observed distribution of cumulative proportion of
    trials rat finds all jackpots in each phase.
  • Compare observed distributions with theoretical
    cumulative probability distributions for finding
    all jackpots based on no memory (chance) to
    perfect working memory of all old objects from
    the study segment (K-S tests)
  • Estimate of recognized old objects based on 95
    confidence interval around the observed
    distribution.

11
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12
Example for one rat
13
Summary of Results
  • Phase 1 No rat shows above chance performance in
    finding one jackpot out of three objects.
  • Phase 2 All rats show above chance performance
    in finding two jackpots out of six objects.
  • Phase 3 Five rats show above chance performance
    in finding three jackpots out of nine objects.

14
Estimation of Number of Old Objects Recognized
  • Phase 2 Six objects / Phase 3 Nine objects
  • Rat 2B between 1 and 4 / 0 and 4
  • Rat 2D between 2 and 4 / 6 and 8
  • Rat 3A between 0 and 3 / none
  • Rat 3B between 1 and 4 / 2 and 4
  • Rat 3C between 0 and 3 / 0 and 3
  • Rat 3D between 0 and 3 / 0 and 3

15
Conclusions
  • Increasing set or patch size promotes working
    memory processes relative to other search
    strategies.
  • Our rats seem to be able to recognize about 2 or
    3 old objects.

16
Does recognition of old objects change as more
jackpots are found?
  • Compare observed distributions for finding all
    three jackpots with those for finding two
    jackpots or only one jackpot from nine objects.
  • Generate new theoretical distributions for number
    of choices to find the first, second, or third
    jackpot based on no memory to perfect memory for
    old objects.

17
Example for one rat
18
Re-estimation of Number of Recognized Old Objects
  • Phase 3 1st / 2nd / 3rd jackpot
  • 2B 6 - 8 / 3 7 / 0 4
  • 2D 7 - 9 / 7 9 / 6 8
  • 3A 6 - 8 / 2 6 / none
  • 3B 7 - 8 / 3 7 / 1 - 4
  • 3C 5 8 / 2 6 / 0 - 3
  • 3D 7 - 9 / 3 6 / 0 - 3

19
Conclusion and Question
  • As rat finds more jackpots, its performance for
    recognizing old objects declines
  • Is this effect due to a loss in rats working
    memory capacity or switching to other search
    strategies?

20
Thank You !
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