Experienced and remembered emotional intensity in older adults.

After Ross Perot's abrupt withdrawal from the presidential race in July of 1992, supporters (n?=?227) rated their initial emotional reactions and described their coping strategies. After the elections in November of 1992, supporters (n?=?147) recalled their initial emotional reactions. In contrast to claims that subjective emotional intensity decreases with age, older adults (71–84 years, M?=?75) initially reported feeling just as sad, angry, and hopeful as middle-aged (46–70 years, M?=?60) and younger adults (22–45 years, M?=?37). Older adults were more likely than middle-aged and younger adults to disengage from thwarted political goals, however. For those who maintained their original goal, memory for the intensity of past feelings of sadness decreased with age. These findings suggest that age differences in response to survey questions about emotional intensity may reflect changes in memory for past emotions, and changes in coping strategies, rather than the intensity of the older adults' emotional experience as it occurred. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Individual variation in hemispheric asymmetry: Multitask study of effects related to handedness and sex.

Functional hemispheric asymmetries were examined for right- or left-handed men and women. Tasks involved (1) auditory processing of verbal material, (2) processing of emotions shown on faces, (3) processing of visual categorical and coordinate spatial relations, and (4) visual processing of verbal material. Similar performance asymmetries were found for the right-handed and left-handed groups, but the average asymmetries tended to be smaller for the left-handed group. For the most part, measures of performance asymmetry obtained from the different tasks did not correlate with each other, suggesting that individual Ss cannot be simply characterized as strongly or weakly lateralized. However, ear differences obtained in Task 1 did correlate significantly with certain visual field differences obtained in Task 4, suggesting that both tasks are sensitive to hemispheric asymmetry in similar phonetic or language-related processes. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

MRI asymmetries of Broca's area: the pars triangularis and pars opercularis

Broca's area, which includes the pars triangularis (PTR) and pars opercularis (POP), is a neuroanatomic region important in speech-language production. Previous data demonstrated that PTR asymmetries are highly correlated with language dominance determined by selective hemispheric anesthesia or Wada testing, suggesting that asymmetries of the PTR may, in part, predict language dominance. The POP, however, has not been measured on volumetric magnetic resonance imaging (MRI), and therefore, it is unclear whether morphological asymmetries of the POP exist, and whether these asymmetries differ in right- and left-handers. The purpose of this study was to determine if measurable asymmetries of the POP exist on MRI, and whether the direction of the asymmetries differ in right- and left-handers. The PTR and POP were measured on volumetric MRI scans of 16 right-handers and 16 left-handers matched for age and gender. There was a significant leftward asymmetry of the PTR in right- and left-handers, although the asymmetry was reduced in the left-handers. In contrast, there was a leftward asymmetry of the POP in right-handers, and a rightward asymmetry in the left-handers. Handedness, derived from a handedness inventory, was positively correlated with POP asymmetry.     

Reliability of CT scan cerebral hemispheric asymmetry measurements across multiple CT scans and variability in CT scanning angulation.

To date every published paper on CT scan hemispheric asymmetries has measured the asymmetries on only one scan per subject. This study examines whether CT scan hemispheric asymmetry measurements made on individual subjects change category (left, equal, or right) over multiple CT scan times. The asymmetries were measured at each of three scan times for each of 29 subjects (N = 87 scans) by two independent raters. Occipital length asymmetry categories and occipital width asymmetry categories were consistent across multiple CT scans. Frontal length asymmetry categories were not consistent across multiple CT scan times. Frontal width asymmetry categories appear to be more consistent than frontal length asymmetries but less consistent than occipital length or occipital width asymmetries across multiple CT scan times. The inter-rater reliability was most highly correlated for occipital length and occipital width. The inter-rater reliability for frontal width and frontal length asymmetries was also highly correlated. though not as highly as the occipital length or occipital width asymmetries. This study also examined whether CT scan hemispheric asymmetries changed in relation to the angle at which the CT scan was performed. The angulation of the CT scan did not appear to affect the consistency of the CT scan hemispheric asymmetry categories. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Age and visual field differences in computing visual-spatial relations.

Age and brain hemispheric differences in visual–spatial performance were investigated using 2 versions of categorical and coordinate (metric) spatial relations tasks. 32 young adults (M?=?19.2 yrs) and 32 older adults (M?=?68.8 yrs) participated. An overall age-related decrement in computing visual–spatial relations was obtained for lateralized presentations and when items were presented centrally. In contrast to some previous findings, there was no evidence to suggest differential aging of the right hemisphere in computing visual–spatial relations. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

New age-linked asymmetries: Aging and the processing of familiar versus novel language on the input versus output side.

This research demonstrates 3 new age-linked asymmetries between identifying versus retrieving phonological information. Young and older adults read aloud familiar isolated words (e.g., mind) and novel pseudowords (e.g., mond) in a production task and identified lexical status for identical stimuli in a comprehension task. Young adults made fewer errors than older adults in production but not comprehension (an age-related input-output asymmetry), and they produced pseudowords but not words with fewer errors than older adults (a lexical-status asymmetry). The lexical-status asymmetry also occurred for response onset times but not for output durations (an onset-output asymmetry). All 3 asymmetries were predicted under the transmission deficit hypothesis (D. G. MacKay & D. M. Burke, 1990) but contradict theories such as general slowing that cannot explain why aging affects some types of information processing more than others. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Distributions of hemispheric asymmetry in left-handers and right-handers: Data from perceptal asymmetry studies.

Although hemispheric asymmetry among individuals is often treated as a categorical variable with 3 values (i.e., left hemisphere dominance, right hemisphere dominance, and bilateral dominance), it is best viewed as a continuously distributed variable ranging from strong asymmetry in favor of the left hemisphere through nearly equal asymmetry to strong asymmetry in favor of the right hemisphere. The present study compared distributions of hemispheric asymmetry in left- and right-handers, based on behavioral indexes of hemispheric asymmetry, such as visual field asymmetry on divided visual field tasks and ear asymmetry on dichotic listening tasks. Meta-analyses of prior studies using these indexes indicate that distributions of hemispheric asymmetry in left- and right-handers differ both in the mean and in the variance. Right-handers have greater mean hemispheric asymmetry than left-, whereas left-handers have greater variance in hemispheric asymmetry than right-handers. Within left-handers, those without sinistral relatives have greater variance in hemispheric asymmetry than those with sinistral relatives, suggesting that sinistral patterns of hemispheric asymmetry determined by environmental factors may be more variable than those determined by genetic factors. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Age and working memory: The role of perceptual speed, the central executive, and the phonological loop.

In a study (N?=?61) comparing older (age range?=?60–80 years, M?=?67) and younger (age range?=?20-33 years, M?=?25) people, age deficits were observed in working memory, perceptual speed, and central executive functioning but not in phonological loop functioning. Controlling for age differences in central executive performance removed over 50% of the age-related variance in working memory span. However, controlling for perceptual speed removed all of the age-related variance in working memory span. In addition, age differences in central executive functioning were largely eliminated after controlling for age deficits in perceptual speed. These findings suggest that age differences in central executive functioning are primarily attributable to a general slowdown in the rate at which information is activated within the working memory system and that no specific deficits in the central executive occur as a consequence of aging. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

The nature and basis of age-related changes in dynamic visual acuity.

The ability of observers to resolve moving targets, or dynamic visual acuity (DVA), was determined for a group of young adults (M age?=?19.6 years) and a group of older adults (M age?=?67.6 years). Targets were presented at two luminance levels over a range of velocities (30, 60, 90, and 120 deg/s) and at 2 durations (200 and 600 ms). The younger subjects exhibited superior DVA under nearly all conditions, but this effect was essentially eliminated by the luminance adjustment. These results are interpreted in terms of decreased retinal illumination in the older subjects rather than in terms of age-related changes in the underlying eye movement systems. Practical and theoretical implications are discussed. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Time course of allocation of visual attention after equating for sensory differences: An age-related perspective.

Adult age differences in the time course of the allocation of visual attention were investigated, in 2 experiments that both included the same 10 younger adults (M?=?22 years) and 10 older adults (M?=?68 years). In Experiment 1, older adults accumulated information about target identity at a slower rate than younger adults, as represented by the rise in accuracy as a function of target duration. To equate performance in a baseline condition in a spatial-cuing paradigm (Experiment 2), target duration was set for each observer on the basis of the data in Experiment 1. Performance for the 2 age groups was comparable, both in the baseline condition and in the time course of attention, as indexed by the function relating accuracy to cue-target onset asynchrony. The authors conclude that, in this spatial-cuing paradigm, an age-related change is evident in sensory processing but not in attentional allocation. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Sequential and coordinative complexity in time–accuracy functions for mental arithmetic.

Time–accuracy functions for tasks involving single-digit mental addition and subtraction were derived in a sample of 18 younger (mean age?=?21.7 years) and 16 older adults (mean age?=?68.8 years). Sequential complexity was manipulated by varying the number of operations (5 vs. 10); coordinative complexity was induced by bracketing. Age differences were apparent in the coordinative conditions, even though no age difference was present in the sequential conditions. This indicates that the age difference under conditions of high coordinative demands could not be attributed solely to a decline in basic speed of processing. The Age?×?Complexity interaction was due to larger onset times and lower asymptotic performance by the older adults in the coordinative conditions but not due to to rate of approach to the asymptote. This implies that coordinative demands do not differentially hurt access from semantic memory in older adults; however, coordinative demands do have disproportionately negative consequences for computation speed and self-monitoring in older adults. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Adult age differences in short-term memory for serial order: Data and a model.

Age-related deficits in short-term memory have been widely reported, but reduced overall scores could reflect increased order errors, increased omissions, or increased intrusions. Different explanations for reduced short-term memory with aging lead to different predictions. In this study, young (n?=?68; M age?=?20 years) and older (n?=?99; M age?=?65 years) adults were presented with lists of letters and were asked to recall each list immediately in the correct order. Age differences in error patterns were similar for auditory and visual presentation. For example, older adults made more errors of every type, and a greater proportion of the older adults' errors were omissions. An additional condition, in which older adults were encouraged to guess, ruled out an age increase in response threshold as a full explanation for the results. The data were modeled by an oscillator-based computational model of memory for serial order. A good fit to the aging data was achieved by simultaneously altering two parameters that were interpreted as corresponding to frontal decline and response slowing. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

The moderating influence of physical fitness on age gradients in vigilance and serial choice responding tasks.

The moderating influence of physical fitness on age gradients in measures obtained from vigilance and serial choice responding tasks is examined in a sample of 90 postal workers. Physiological data relating to aerobic fitness determined fitness level within 2 age groups: younger participants ages 18 to 30 years (M ?=?25.19; 24 men, 24 women) and older participants ages 43 to 62 years (M ?=?49.19; 20 men, 22 women). A performance decrement across time was found in several measures, and some variation as a function of age was apparent. However, post hoc statistical analyses did not indicate this was due to older adults underperforming younger adults. According to predictions, significant Age?×?Fitness interactions showed older less fit workers to consistently underperform other participants. The findings suggest that older less fit individuals have lower signal sensitivity and processing speed than older fitter people and younger individuals. Results are discussed in relation to underlying physiological mechanisms. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Hemispheric asymmetries in vigilance and cerebral arousal mechanisms in younger and older adults.

Younger and older adults responded to an asterisk presented to either the left or right visual field, with delay interval between onset of a fixation cross and onset of the asterisk varied. At delay intervals longer than 3 s, reaction time was faster when the same visual field was stimulated on 2 successive trials than when different visual fields were stimulated. This prefield effect was larger in the left visual field (right hemisphere), consistent with hypotheses of hemispheric asymmetry for arousal and vigilance. For older adults, these results were obtained only when participants responded with the left hand, suggesting that some aspects of hemispheric asymmetry for attention-related processing or the efficiency of interhemispheric transfer may change in an age-related fashion. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

MMPI differences between alcoholics and drug abusers: Effect of age and race.

Inpatients in Veterans Administration substance-abuse treatment programs voluntarily took the Minnesota Multiphasic Personality Inventory (MMPI) as part of a routine clinical evaluation. The alcohol-dependence-only group (n?=?207) were older (M?=?49.6 years) and had a higher percentage of White Ss (72.9%) than did either the drug-dependence group (n?=?49, M?=?32.9 years, Whites?=?53.1%) or a mixed alcohol- and drug-dependence group (n?=?160, M?=?35.0 years, Whites?=?60.0%). Previously reported differences between alcoholics and drug abusers in depression and psychopathy were obtained when age and race were not used as covariates, but no differences were found when the effects of age and race were statistically controlled. Mixed alcohol and drug abusers had somewhat more pathological MMPI scores than did alcoholics, even when effects due to age and race were partialed out. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Age-specific problems in rhythmic timing.

The authors investigated performance in 2 rhythm tasks in young (M?=?23.8 years) and older (M?=?71.4 years) amateur pianists to test whether slowing of a central clock can explain age-related changes in timing variability. Successive keystrokes in the rhythm tasks were separated by either identical (isochronous) time intervals or varying (anisochronous) intervals. Variability was comparable for young and older adults in the isochronous task; pronounced age effects were found for the anisochronous rhythm. Analyses of covariances between intervals rule out slowing of a central clock as an explanation of the findings, which instead support the distinction between target specification, timekeeper execution, and motor implementation proposed by the rhythm program hypothesis (D. Vorberg & A. M. Wing, 1996). Age stability was found at the level of motor implementation, but there were age-related deficits for processes related to target-duration specification. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Age differences in peripheral refractive error.

Refractive error was measured at 0° to 40° temporal to fixation in 10 young adults (M age?=?26 years) and 10 older adults (M age?=?63 years). Older adults exhibited a greater amount of sphere (i.e., overall) error, but no more so in the periphery than in the fovea. Although age differences were small, younger adults were found to exhibit more peripheral astigmatism than the older adults. Discrepancies between obtained results and those of M. Millodot (1985) may be attributed to the relationship between peripheral astigmatism and presenting refractive status. Alternatively, a two-mechanism model of age-related change in lens curvature is capable of accounting for across-study outcome differences. Recommendations are made concerning optimal viewing conditions for the study of age differences in visual perceptual processes. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Left-ear superiority in children for processing auditory emotional material.

Investigated hemispheric asymmetries in children for processing auditory material varying in emotional intonation or verbal content. 31 kindergartners, 32 4th graders, and 32 8th graders reported on the emotional content and on the verbal content of dichotically presented sentences. Ss listened to tapes of 4 phrases spoken in tones that were happy, sad, angry, or neutral and to sentences that varied in verbal content only. Ss also completed a handedness questionnaire and a hearing test. All age groups showed a left-ear advantage for reporting on the emotional material and a right-ear advantage for reporting on the verbal material. For the emotional task, the degree of ear asymmetry did not vary significantly as a function of emotional category. Findings indicate the the right hemisphere is specialized for mediating auditory emotional stimuli as early as 5 yrs of age. (45 ref) (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Adaptive dominance and functional asymmetry of brain

Rapid environmental changes lead to formation of adaptive dominance which makes the body search for biologically appropriate reactions under the new conditions. This changes in fundamental properties of the brain, like memory, emotions, hemispheric functional asymmetry by ensuring optimization of the processing of a drastically increased flow of signals. The order of information processing is determined by its significance for the body. Selection of new and emotiogenic signals first activates by changes in cortical-subcortical relationships, the left hemisphere and the right hemisphere isolate new and emotiogenic information, respectively. Subsequent inversion of hemispheric dominance, i.e. the prevalence of right hemispheric functions provides construction of a new programme of the body's interaction with the altered environment. This may be possible as it is the right hemisphere that predominantly regulates emotional, humoral, and endocrine regulation. At this stage of adaptation, there is an increase in interhemispheric integration which eventually restores the initial interhemispheric relationships. The newly recovered dominance of the left hemisphere ensures not only an effective reproduction of the formed programme, but organizes a leading reflection of reality.     

Age and forgetting rate with pictorial stimuli.

The rate of forgetting standardized line drawings of common objects was assessed in groups of young (M age?=?22 years) and older (M age?=?70.5 years) subjects. The two groups forgot equal quantities of pictorial stimuli over successive intervals of 10 min, 2 hr, and 48 hr, after being matched for original learning. In contrast, the older subjects showed the expected age decrement in reproduction of geometric designs from memory. These findings indicate that aging does not affect retention of pictures when differences in learning and retrieval abilities are controlled. (PsycINFO Database Record (c) 2010 APA, all rights reserved)