Young and Older Adults May Utilize Different Cognitive Abilities When Performing a Spatial Recognition Memory Test With Varying Levels of Similarity

We used signal detection theory to evaluate spatial recognition memory utilizing a behavioral test hypothesized to tax pattern separation. Correlations with standardized neuropsychological tests also were examined. Healthy young (n = 40) and older (n = 30) adults completed a spatial recognition memory test involving high- and low-similarity conditions. Using d’ as the dependent variable, we found that older adults were significantly impaired relative to young adults on the high- and low-similarity conditions (ps < .05). Both groups performed significantly better in the low-similarity condition compared to the high-similarity condition (p < .05), with young adults exhibiting greater improvement relative to older adults. We also found that young adults may rely on spatial attention abilities when performing our test, while older adults might rely on memory and executive function abilities. These findings indicate that young and older adults may utilize different cognitive abilities when performing certain spatial memory tests.

[1]  Laudan B. Jahromi Recognition Memory , 2021, Encyclopedia of Autism Spectrum Disorders.

[2]  D. McFarland Factor-Analytic Evidence for the Complexity of the Delis–Kaplan Executive Function System (D-KEFS) , 2020, Assessment.

[3]  Zachariah M. Reagh,et al.  Greater loss of object than spatial mnemonic discrimination in aged adults , 2016, Hippocampus.

[4]  Lisa Delano-Wood,et al.  Spatial pattern separation differences in older adult carriers and non-carriers for the apolipoprotein E epsilon 4 allele , 2016, Neurobiology of Learning and Memory.

[5]  C. Stark,et al.  Mnemonic discrimination relates to perforant path integrity: An ultra-high resolution diffusion tensor imaging study , 2016, Neurobiology of Learning and Memory.

[6]  S. Courtney,et al.  A signal detection theory analysis of behavioral pattern separation paradigms , 2015, Learning & memory.

[7]  Shauna M. Stark,et al.  Stability of age-related deficits in the mnemonic similarity task across task variations. , 2015, Behavioral neuroscience.

[8]  C. Kirwan,et al.  Structural and functional correlates of behavioral pattern separation in the hippocampus and medial temporal lobe , 2015, Hippocampus.

[9]  Paul E. Gilbert,et al.  Differences in temporal order memory among young, middle-aged, and older adults may depend on the level of interference , 2015, Front. Aging Neurosci..

[10]  E. Rolls,et al.  A computational theory of hippocampal function, and tests of the theory: New developments , 2015, Neuroscience & Biobehavioral Reviews.

[11]  Alexa M. Morcom,et al.  Age-related increases in false recognition: the role of perceptual and conceptual similarity , 2014, Front. Aging Neurosci..

[12]  Michael A Yassa,et al.  Temporal discrimination deficits as a function of lag interference in older adults , 2014, Hippocampus.

[13]  M. Yassa,et al.  Effects of aging on mnemonic discrimination of emotional information. , 2014, Behavioral neuroscience.

[14]  Zachariah M. Reagh,et al.  Spatial discrimination deficits as a function of mnemonic interference in aged adults with and without memory impairment , 2014, Hippocampus.

[15]  C. Brock Kirwan,et al.  A possible negative influence of depression on the ability to overcome memory interference , 2013, Behavioural Brain Research.

[16]  Shauna M. Stark,et al.  A task to assess behavioral pattern separation (BPS) in humans: Data from healthy aging and mild cognitive impairment , 2013, Neuropsychologia.

[17]  E. Rolls A quantitative theory of the functions of the hippocampal CA3 network in memory , 2013, Front. Cell. Neurosci..

[18]  Michael A. Yassa,et al.  Perceptual versus conceptual interference and pattern separation of verbal stimuli in young and older adults , 2013, Hippocampus.

[19]  Paul E. Gilbert,et al.  Spatial pattern separation in cognitively normal young and older adults , 2012, Hippocampus.

[20]  Paul E. Gilbert,et al.  The effect of interference on temporal order memory for random and fixed sequences in nondemented older adults. , 2012, Learning & memory.

[21]  Paul E. Gilbert,et al.  Less efficient pattern separation may contribute to age-related spatial memory deficits , 2012, Front. Ag. Neurosci..

[22]  Diano F. Marrone,et al.  Disambiguating the similar: The dentate gyrus and pattern separation , 2012, Behavioural Brain Research.

[23]  C. Stark,et al.  Pattern separation in the hippocampus , 2011, Trends in Neurosciences.

[24]  Shauna M. Stark,et al.  Age-related memory deficits linked to circuit-specific disruptions in the hippocampus , 2011, Proceedings of the National Academy of Sciences.

[25]  Shauna M. Stark,et al.  Pattern separation deficits associated with increased hippocampal CA3 and dentate gyrus activity in nondemented older adults , 2010, Hippocampus.

[26]  H. Brown-Borg,et al.  Assessment of spatial memory in mice. , 2010, Life sciences.

[27]  A. Dale,et al.  Multi-modal imaging predicts memory performance in normal aging and cognitive decline , 2010, Neurobiology of Aging.

[28]  Shauna M. Stark,et al.  Individual differences in spatial pattern separation performance associated with healthy aging in humans. , 2010, Learning & memory.

[29]  Paul E. Gilbert,et al.  The role of the CA3 hippocampal subregion in spatial memory: A process oriented behavioral assessment , 2009, Progress in Neuro-Psychopharmacology and Biological Psychiatry.

[30]  C Brock Kirwan,et al.  Visual object pattern separation deficits in nondemented older adults. , 2009, Learning & memory.

[31]  Vincenzo Paolo Senese,et al.  Visuospatial memory in healthy elderly, AD and MCI: a review. , 2009, Current aging science.

[32]  B. Alescio-Lautier,et al.  Visual and visuospatial short-term memory in mild cognitive impairment and Alzheimer disease: Role of attention , 2007, Neuropsychologia.

[33]  L. Mucke,et al.  Spatial cognition and the human navigation network in AD and MCI , 2007, Neurology.

[34]  C Brock Kirwan,et al.  Overcoming interference: an fMRI investigation of pattern separation in the medial temporal lobe. , 2007, Learning & memory.

[35]  C. Caltagirone,et al.  Cognitive and behavioural predictors of progression rates in Alzheimer's disease , 2007, European journal of neurology.

[36]  J. Bureš,et al.  Spatial navigation deficit in amnestic mild cognitive impairment , 2007, Proceedings of the National Academy of Sciences.

[37]  Cheryl L. Dahle,et al.  Regional brain changes in aging healthy adults: general trends, individual differences and modifiers. , 2005, Cerebral cortex.

[38]  John S. Allen,et al.  Normal neuroanatomical variation due to age: The major lobes and a parcellation of the temporal region , 2005, Neurobiology of Aging.

[39]  Albert Postma,et al.  The contribution of implicit and explicit memory to the effects of errorless learning: A comparison between young and older adults , 2005, Journal of the International Neuropsychological Society.

[40]  Ira Driscoll,et al.  The Aging Hippocampus: Navigating Between Rat and Human Experiments , 2005, Reviews in the neurosciences.

[41]  R. Petersen Mild cognitive impairment as a diagnostic entity , 2004, Journal of internal medicine.

[42]  Yaakov Stern,et al.  Imaging hippocampal function across the human life span: Is memory decline normal or not? , 2002, Annals of neurology.

[43]  Karl J. Friston,et al.  A Voxel-Based Morphometric Study of Ageing in 465 Normal Adult Human Brains , 2001, NeuroImage.

[44]  R. Propper,et al.  A molar entropy model of age differences in spatial memory. , 1998, Psychology and aging.

[45]  A. Beck,et al.  Comparison of Beck Depression Inventories -IA and -II in psychiatric outpatients. , 1996, Journal of personality assessment.

[46]  James L. McClelland,et al.  Hippocampal conjunctive encoding, storage, and recall: Avoiding a trade‐off , 1994, Hippocampus.

[47]  E. Rolls,et al.  Computational analysis of the role of the hippocampus in memory , 1994, Hippocampus.

[48]  Neil A. Macmillan,et al.  Detection Theory: A User's Guide , 1991 .

[49]  Philip A. Allen,et al.  Influence of processing variability on adult age differences in memory distribution of order information , 1990 .

[50]  C. Barnes Aging and the physiology of spatial memory , 1988, Neurobiology of Aging.

[51]  T. Robbins,et al.  A comparative study of visuospatial memory and learning in Alzheimer-type dementia and Parkinson's disease. , 1988, Brain : a journal of neurology.

[52]  Bennet B. Murdock,et al.  CHAPTER 1 – Recognition Memory , 1982 .

[53]  V. Leirer,et al.  Development and validation of a geriatric depression screening scale: a preliminary report. , 1982, Journal of psychiatric research.

[54]  Graham J. G. Upton,et al.  The Analysis of Cross-Tabulated Data , 1980 .