scholarly journals Age affects pigeons’ (Columba livia) memory capacity but not representation of serial order during a locomotor sequential-learning task

2021 ◽  
Vol 11 (1) ◽  
Author(s):  
Christina Meier ◽  
Parisa Sepehri ◽  
Debbie M. Kelly
Keyword(s):  
Cognitive Processing ◽  
Age Groups ◽  
Serial Order ◽  
Columba Livia ◽  
Memory Capacity ◽  
Learning Task ◽  
Individual Variability ◽  
Sequential Learning ◽  
Choice Test ◽  
Age Related

AbstractAging affects individuals of every species, with sometimes detrimental effects on memory and cognition. The simultaneous-chaining task, a sequential-learning task, requires subjects to select items in a predetermined sequence, putting demands on memory and cognitive processing capacity. It is thus a useful tool to investigate age-related differences in these domains. Pigeons of three age groups (young, adult and aged) completed a locomotor adaptation of the task, learning a list of four items. Training began by presenting only the first item; additional items were added, one at a time, once previous items were reliably selected in their correct order. Although memory capacity declined noticeably with age, not all aged pigeons showed impairments compared to younger pigeons, suggesting that inter-individual variability emerged with age. During a subsequent free-recall memory test in the absence of reinforcement, when all trained items were presented alongside novel distractor items, most pigeons did not reproduce the trained sequence. During a further forced-choice test, when pigeons were given a choice between only two of the trained items, all three age groups showed evidence of an understanding of the ordinal relationship between items by choosing the earlier item, indicating that complex cognitive processing, unlike memory capacity, remained unaffected by age.

scholarly journals Age affects pigeon memory capacity, but not representation of serial order, during a locomotor sequential-learning task

2021 ◽  
Author(s):  
Christina Meier ◽  
Parisa Sepehri ◽  
Debbie M. Kelly
Keyword(s):  
Cognitive Processing ◽  
Age Groups ◽  
Serial Order ◽  
Memory Capacity ◽  
Learning Task ◽  
Individual Variability ◽  
Sequential Learning ◽  
Choice Test ◽  
Age Related ◽  
Recall Memory

Abstract Aging affects individuals of every species, with sometimes detrimental effects on memory and cognition. The simultaneous-chaining task, a sequential-learning task, requires subjects to select items in a predetermined sequence, putting demands on memory and cognitive processing capacity. It is thus a useful tool to investigate age-related differences in these domains. Pigeons of three age groups (young, adult and aged) completed a locomotor adaptation of the task, learning a list of four items. Training began presenting only the first item; additional items were added, one at a time, once previous items were reliably selected in their correct order. Although memory capacity declined noticeably with age, not all aged pigeons showed impairments compared to younger pigeons, suggesting that inter-individual variability emerged with age. During a subsequent free-recall memory test, when all trained items were presented alongside novel distractor items, most pigeons did not reproduce the trained sequence in the absence of reinforcement. During a further forced-choice test, when pigeons were given a choice between only two of the trained items, all three age groups showed evidence of an understanding of the ordinal relationship between items by choosing the earlier item, indicating that complex cognitive processing, unlike memory capacity, remained unaffected by age.

Age Affects Responses on the Speech, Spatial, and Qualities of Hearing Scale (SSQ) by Adults with Minimal Audiometric Loss

2012 ◽  
Vol 23 (02) ◽  
pp. 081-091 ◽  
Author(s):  
Jessica Banh ◽  
Gurjit Singh ◽  
M. Kathleen Pichora-Fuller
Keyword(s):  
Older Adults ◽  
Hearing Loss ◽  
Cognitive Processing ◽  
Local Community ◽  
Age Groups ◽  
Younger Adults ◽  
Clinically Normal ◽  
Age Related ◽  
Listening In Noise ◽  
Psychology Course

Background: Age-related declines in auditory and cognitive processing may contribute to the difficulties with listening in noise that are often reported by older adults. Such difficulties are reported even by those who have relatively good audiograms that could be considered “normal” for their age (ISO 7029-2000 [ISO, 2000]). The Speech, Spatial, and Qualities of Hearing Scale (SSQ; Gatehouse and Noble, 2004) is a questionnaire developed to measure a listener's self-reported ability to hear in a variety of everyday situations, such as those that are challenging for older adults, and it can provide insights into the possible contributions of auditory and cognitive factors to their listening difficulties. The SSQ has been shown to be a sensitive and reliable questionnaire to detect benefits associated with the use of different hearing technologies and potentially other forms of intervention. Establishing how age-matched listeners with audiograms “normal” for their age rate the items on the SSQ could enable an extension of its use in audiological assessment and in setting rehabilitative goals. Purpose: The main purpose of this study was to investigate how younger and older adults who passed audiometric screening and who had thresholds considered to be “normal” for their age responded on the SSQ. It was also of interest to compare these results to those reported previously for older listeners with hearing loss in an attempt to tease out the relative effects of age and hearing loss. Study Sample: The SSQ was administered to 48 younger (mean age = 19 yr; SD = 1.0) and 48 older (mean age = 70 yr, SD = 4.1) adults with clinically normal audiometric thresholds below 4 kHz. The younger adults were recruited through an introductory psychology course, and the older adults were volunteers from the local community. Data Collection and Analysis: Both age groups completed the SSQ. The differences between the groups were analyzed. Correlations were used to compare the pattern of results across items for the two age groups in the present study and to assess the relationship between SSQ scores and objective measures of hearing. Comparisons were also made to published results for older adults with hearing loss. Results: The pattern of reported difficulty across items was similar for both age groups, but younger adults had significantly higher scores than older adults on 42 of the 46 items. On average, younger adults scored 8.8 (SD = 0.6) out of 10 and older adults scored 7.7 (SD = 1.2) out of 10. By comparison, scores of 5.5 (SD = 1.9) have been reported for older adults (mean age = 71 yr, SD = 8.1) with moderate hearing loss (Gatehouse and Noble, 2004). Conclusions: By establishing the best scores that could reasonably be expected from younger and older adults with “normal” hearing thresholds, these results provide clinicians with information that should assist them in setting realistic targets for interventions for adults of different ages.

scholarly journals EXPRESS: Serial memory for landmarks encountered during route navigation

2021 ◽  
pp. 174702182110207
Author(s):  
Christopher Hilton ◽  
Jan Wiener ◽  
Andrew Johnson
Keyword(s):  
Older Adults ◽  
Age Groups ◽  
Serial Order ◽  
Learning Task ◽  
Learning Condition ◽  
Younger Adults ◽  
Flexible Learning ◽  
Route Learning ◽  
Serial Memory ◽  
List Learning

The present study demonstrates similarities between route learning and classical tests of serial order memory. Here, we investigated serial memory for landmarks in a route learning task, in younger and older adults. We analysed data from a route learning task with 12 landmarks, reported by Hilton et al. (2021). Participants (88 younger and 77 older) learned a route using either a Fixed Learning (3 exposures to the route) or Flexible Learning (repeated exposures until successful navigation was achieved) procedure. Following route learning, participants completed Immediate Free Recall (IFR) and Free Reconstruction of Order (Free RoO) of the landmarks. We show clear acquisition of sequence memory for landmarks for both age groups, with Free RoO producing a bowed serial position curve. IFR produced recency effects but no primacy effects in fixed learning, with recency reduced following flexible learning for both age groups. Younger adults displayed a primacy bias for the first item recalled in both learning conditions, as did the older adults in the flexible learning condition. In contrast, older adults displayed a recency bias in the fixed learning condition. Evidence of contiguity in IFR was present only for younger adults in the flexible learning condition. Findings are broadly consistent with results from typical short-term list learning procedures and support the universality of sequence learning effects, which we demonstrate are generalisable to a navigation context.

scholarly journals HIPPOCAMPAL GLUTAMATE MODULATION DURING MEMORY ENCODING: ASSOCIATION WITH AGE AND SUBFIELD VOLUMES

2019 ◽  
Vol 3 (Supplement_1) ◽  
pp. S840-S841
Author(s):  
Chaitali Anand ◽  
Roya Homayouni ◽  
Qijing Yu ◽  
Sruthi Ramesh ◽  
Dalal Khatib ◽  
...  
Keyword(s):  
Dentate Gyrus ◽  
Age Differences ◽  
Memory Performance ◽  
Age Groups ◽  
Learning Task ◽  
Resonance Spectroscopy ◽  
Association Learning ◽  
Age Related ◽  
Younger Age

Abstract Hippocampal glutamatergic activity plays a pivotal role in memory consolidation, including the ability to form novel associations that declines with age. To test whether glutamatergic dysfunction may underpin age-related memory declines, we examined in vivo age differences in hippocampal glutamate modulation during encoding of associations, and its relationship with hippocampal subfield volumes. Proton functional magnetic resonance spectroscopy was performed on 32 young (25.1±2.8 years; 18 females) and 16 older (65.9±2.7 years; 7 females) adults to measure changes in hippocampal (randomly assigned right or left) glutamate during an object-location paired association learning task (with 12 cycles of encoding-retrieval epochs). Volumes of the dentate gyrus&CA3, CA1, subiculum, and entorhinal cortex were manually measured from T2-weighted MRI images. Memory performance differed between the age-groups [F(1, 46)=8.56, p<.01], with the older attaining a lower asymptote [t(46)=2.93, p<.05] compared to the younger. Age differences in glutamate were observed only during encoding (age-group x epoch: F(3,137)=5.28, p<.01), and varied over the epochs. Young adults showed increased glutamate during the first four encoding epochs of each cycle, with levels remaining high thereafter. Old adults evidenced a decrease in glutamate during the first four epochs, and a slow, sustained ramping-up afterwards. Including both age-groups, the maximum change in glutamate, calculated using the maximum and minimum levels during encoding, was positively associated with CA1 [F(2,39)=4.28, p<.05] and the dentate gyrus&CA3 volume [F(2,39)=4.4, p<.05], after correcting for multiple comparisons. Glutamate modulation specific to encoding may underlie age-related memory declines and be related to selected hippocampal subfield volumes.

scholarly journals Adaptation of reach action to a novel force-field is not predicted by acuity of dynamic proprioception in either older or younger adults

2020 ◽  
Author(s):  
Nick M. Kitchen ◽  
R Chris Miall
Keyword(s):  
Older Adults ◽  
Force Field ◽  
Visual Feedback ◽  
Spatial Working Memory ◽  
Age Groups ◽  
Memory Capacity ◽  
Motor Deficits ◽  
Adaptive Performance ◽  
Age Related ◽  
Force Field Adaptation

AbstractHealthy ageing involves degeneration of the neuromuscular system which impacts movement control and proprioception. Yet the relationship between these sensory and motor deficits in upper limb reaching has not been examined in detail. Recently, we reported that age-related proprioceptive deficits were unrelated to accuracy in rapid arm movements, but whether this applied in motor tasks more heavily dependent on proprioceptive feedback was not clear. To address this, we have tested groups of younger and older adults on a force-field adaptation task under either full or limited visual feedback conditions and examined how performance related to dynamic proprioceptive acuity. Adaptive performance was similar between the age groups, regardless of visual feedback condition, although older adults showed increased after-effects. Physically inactive individuals made larger systematic (but not variable) proprioceptive errors, irrespective of age. However, dynamic proprioceptive acuity was unrelated to adaptation and there was no consistent evidence of proprioceptive recalibration with adaptation to the force-field for any group. Finally, in spite of clear age-dependent loss of spatial working memory capacity, we found no relationship between memory capacity and adaptive performance or proprioceptive acuity. Thus, non-clinical levels of deficit in dynamic proprioception, due to age or physical inactivity, do not affect force-field adaptation, even under conditions of limited visual feedback that might require greater proprioceptive control.

Paired Associate Learning: Age Differences

1996 ◽  
Vol 40 (3) ◽  
pp. 123-127
Author(s):  
Konstantinos V. Katsikopoulos ◽  
Donald L. Fisher ◽  
Michael T. Pullen
Keyword(s):  
Paired Associate ◽  
Age Groups ◽  
Learning Task ◽  
Paired Associate Learning ◽  
Data Sets ◽  
Mathematical Tool ◽  
Associate Learning ◽  
Younger Adults ◽  
Age Related ◽  
Two Age Groups

The issue of age related differences in performance during the acqusition phase of a paired associate learning task is discussed within the framework of a precise mathematical tool. A two-stage, four-state Markov model is employed to analyze the data sets from two age groups consisting of 24 subjects each. The relative efficiencies of the acqusition processes of the younger and the older groups of adults are reflected in the different values of parameters. (These values were obtained by optimizing the fit of the model to the two data sets). The two major findings are: (i) the younger adults form associations (even temporary ones more easily) and (ii) these associations tend to decay less quickly, again in the younger adults. The results speak against the general decrement hypothesis, allthough further investigation is needed.

scholarly journals Adaptation of reach action to a novel force-field is not predicted by acuity of dynamic proprioception in either older or younger adults

2020 ◽  
Author(s):  
Nick M. Kitchen ◽  
R. Chris Miall
Keyword(s):  
Older Adults ◽  
Force Field ◽  
Visual Feedback ◽  
Spatial Working Memory ◽  
Age Groups ◽  
Memory Capacity ◽  
Motor Deficits ◽  
Adaptive Performance ◽  
Age Related ◽  
Force Field Adaptation

AbstractHealthy ageing involves degeneration of the neuromuscular system which impacts movement control and proprioception. Yet the relationship between these sensory and motor deficits in upper limb reaching has not been examined in detail. Recently, we reported that age-related proprioceptive deficits were unrelated to accuracy in rapid arm movements, but whether this applied in motor tasks more heavily dependent on proprioceptive feedback was not clear. To address this, we have tested groups of younger and older adults on a force-field adaptation task under either full or limited visual feedback conditions and examined how performance was related to dynamic proprioceptive acuity. Adaptive performance was similar between the age groups, regardless of visual feedback condition, although older adults showed increased after-effects. Physically inactive individuals made larger systematic (but not variable) proprioceptive errors, irrespective of age. However, dynamic proprioceptive acuity was unrelated to adaptation and there was no consistent evidence of proprioceptive recalibration with adaptation to the force-field for any group. Finally, in spite of clear age-dependent loss of spatial working memory capacity, we found no relationship between memory capacity and adaptive performance or proprioceptive acuity. Thus, non-clinical levels of deficit in dynamic proprioception, due to age or physical inactivity, do not affect force-field adaptation, even under conditions of limited visual feedback that might require greater proprioceptive control.

Disturbance of attention network functions in Chinese healthy older adults: an intra-individual perspective

2015 ◽  
Vol 28 (2) ◽  
pp. 291-301 ◽  
Author(s):  
Hanna Lu ◽  
Ada W. T. Fung ◽  
Sandra S. M. Chan ◽  
Linda C. W. Lam
Keyword(s):  
Older Adults ◽  
Executive Control ◽  
Age Groups ◽  
Individual Variability ◽  
Healthy Ageing ◽  
Executive Attention ◽  
Attention Network ◽  
Chinese Older Adults ◽  
Healthy Older Adults ◽  
Age Related

ABSTRACTBackground:Intra-individual variability (IIV) and the change of attentional functions have been reported to be susceptible to both healthy ageing and pathological ageing. The current study aimed to evaluate the IIV of attention and the age-related effect on alerting, orienting, and executive control in cognitively healthy older adults.Method:We evaluated 145 Chinese older adults (age range of 65–80 years, mean age of 72.41 years) with a comprehensive neuropsychological battery and the Attention network test (ANT). A two-step strategy of analytical methods was used: Firstly, the IIV of older adults was evaluated by the intraindividual coefficient of variation of reaction time (ICV-RT). The correlation between ICV-RT and age was used to evaluate the necessity of subgrouping. Further, the comparisons of ANT performance among three age groups were performed with processing speed adjusted.Results:Person's correlation revealed significant positive correlations between age and IIV (r = 0.185, p = 0.032), age and executive control (r = 0.253, p = 0.003). Furthermore, one-way ANOVA comparisons among three age groups revealed a significant age-related disturbance on executive control (F = 4.55, p = 0.01), in which oldest group (group with age >75 years) showed less efficient executive control than young-old (group with age 65–70 years) (Conventional score, p = 0.012; Ratio score, p = 0.020).Conclusion:Advancing age has an effect on both IIV and executive attention in cognitively healthy older adults, suggesting that the disturbance of executive attention is a sensitive indicator to reflect healthy ageing. Its significance to predict further deterioration should be carefully evaluated with prospective studies.

scholarly journals The Effects of Aging on the Neural Basis of Implicit Associative Learning in a Probabilistic Triplets Learning Task

2012 ◽  
Vol 24 (2) ◽  
pp. 451-463 ◽  
Author(s):  
Jessica R. Simon ◽  
Chandan J. Vaidya ◽  
James H. Howard ◽  
Darlene V. Howard
Keyword(s):  
Older Adults ◽  
Associative Learning ◽  
Target Location ◽  
Age Groups ◽  
Learning Task ◽  
Brain Regions ◽  
Behavioral Pattern ◽  
Neural Basis ◽  
Younger Adults ◽  
Age Related

Few studies have investigated how aging influences the neural basis of implicit associative learning, and available evidence is inconclusive. One emerging behavioral pattern is that age differences increase with practice, perhaps reflecting the involvement of different brain regions with training. Many studies report hippocampal involvement early on with learning becoming increasingly dependent on the caudate with practice. We tested the hypothesis that the contribution of these regions to learning changes with age because of differential age-related declines in the striatum and hippocampi. We assessed age-related differences in brain activation during implicit associative learning using the Triplets Learning Task. Over three event-related fMRI runs, 11 younger and 12 healthy older adults responded to only the third (target) stimulus in sequences of three stimuli (“triplets”) by corresponding key press. Unbeknown to participants, the first stimulus' location predicted one target location for 80% of trials and another target location for 20% of trials. Both age groups learned associative regularities but differences in favor of the younger adults emerged with practice. The neural basis of learning (response to predictability) was examined by identifying regions that showed a greater response to triplets that occurred more frequently. Both age groups recruited the hippocampus early, but with training, the younger adults recruited their caudate whereas the older adults continued to rely on their hippocampus. This pattern enables older adults to maintain near-young levels of performance early in training, but not later, and adds to evidence that implicit associative learning is supported by different brain networks in younger and older adults.

scholarly journals Generating Questions: Processing Time Changes Between Early Adolescence and Young Adulthood

2017 ◽  
Vol 21 (1) ◽  
pp. 16-33
Author(s):  
Patrick Drumm ◽  
Dorothy W. Jackson
Keyword(s):  
Cognitive Processing ◽  
Information Seeking ◽  
Age Groups ◽  
Early Adolescents ◽  
Processing Times ◽  
Age Related ◽  
Perceptual Category ◽  
Asking Questions ◽  
Time Changes ◽  
Exclusive Sets

Abstract Information seeking by asking questions is fundamental to solving some problems. How quickly it proceeds can be important, especially if stakes are high. This experiment compared the processing times of three question types generated by early adolescents, middle adolescents, and young adults who sought to identify unknown target exemplars in a series of test arrays. Category questions, which eliminate alternatives based on their membership in contrasting mutually exclusive sets, were of two types: conceptual and perceptual. Conceptual category questions took longer to generate than perceptual category questions for all age groups. Syncretic questions, which refer to more than one category, took longer to generate than perceptual category questions for early adolescents, although they did not take longer to generate than perceptual category questions for the two older groups. Age-related changes in cognitive processing, syncretic thinking, and experience with hypothesis testing provide a framework for interpreting these results.

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