Your search keyword '"Reaction Time"' showing total 55,563 results

1. The brain hierarchically represents the past and future during multistep anticipation

Author

Tarder-Stoll, Hannah, Baldassano, Christopher, and Aly, Mariam

Subjects

Biological Psychology, Information and Computing Sciences, Psychology, Neurosciences, 1.2 Psychological and socioeconomic processes, 1.1 Normal biological development and functioning, Mental health, Brain, Hippocampus, Humans, Magnetic Resonance Imaging, Brain Mapping, Learning, Reaction Time, Adult, Female, Male, Young Adult, Anticipation, Psychological, Virtual Reality

Abstract

Memory for temporal structure enables both planning of future events and retrospection of past events. We investigated how the brain flexibly represents extended temporal sequences into the past and future during anticipation. Participants learned sequences of environments in immersive virtual reality. Pairs of sequences had the same environments in a different order, enabling context-specific learning. During fMRI, participants anticipated upcoming environments multiple steps into the future in a given sequence. Temporal structure was represented in the hippocampus and across higher-order visual regions (1) bidirectionally, with graded representations into the past and future and (2) hierarchically, with further events into the past and future represented in successively more anterior brain regions. In hippocampus, these bidirectional representations were context-specific, and suppression of far-away environments predicted response time costs in anticipation. Together, this work sheds light on how we flexibly represent sequential structure to enable planning over multiple timescales.

Published

2024

2. A 108-h total sleep deprivation did not impair fur seal performance in delayed matching to sample task

Author

Lyamin, Oleg I, Borshchenko, Vasilisa D, and Siegel, Jerome M

Subjects

Zoology, Biological Sciences, Sleep Research, Behavioral and Social Science, Basic Behavioral and Social Science, Animals, Fur Seals, Sleep Deprivation, Male, Female, Memory, Short-Term, Reaction Time, Cognitive functions, Working memory, Delayed matching to sample task, Learning, Total sleep deprivation, Northern fur seal, Biochemistry and Cell Biology, Physiology

Abstract

While the majority of studies have concluded that sleep deprivation causes detrimental effects on various cognitive processes, some studies reported conflicting results. We examined the effects of a 108-h total sleep deprivation (TSD) on working memory in the northern fur seal, an animal with unusual sleep phenomenology and long-range annual migrations. The performance of fur seals was evaluated in a two-choice visual delayed matching to sample (DMTS) task, which is commonly used to evaluate working memory. In baseline conditions, the performance of fur seals in a DMTS task based on the percentage of errors was somewhat comparable with that in nonhuman primates at similar delays. We have determined that a 108-h TSD did not affect fur seals' performance in a visual DMTS task as measured by overall percentage of errors and response latencies. On the contrary, all fur seals improved task performance over the study, including the baseline, TSD and recovery conditions. In addition, TSD did not change the direction and strength of the pattern of behavioral lateralization in fur seals. We conclude that a 108-h TSD did not interfere with working memory in a DMTS test in northern fur seals.

Published

2024

3. Behavioral and neural measures of confidence using a novel auditory pitch identification task.

Author

Tang, Tamara, Samaha, Jason, and Peters, Megan

Subjects

Humans, Male, Female, Adult, Electroencephalography, Reaction Time, Young Adult, Pitch Perception, Acoustic Stimulation, Metacognition, Auditory Perception

Abstract

Observers can discriminate between correct versus incorrect perceptual decisions with feelings of confidence. The centro-parietal positivity build-up rate (CPP slope) has been suggested as a likely neural signature of accumulated evidence, which may guide both perceptual performance and confidence. However, CPP slope also covaries with reaction time, which also covaries with confidence in previous studies, and performance and confidence typically covary; thus, CPP slope may index signatures of perceptual performance rather than confidence per se. Moreover, perceptual metacognition-including neural correlates-has largely been studied in vision, with few exceptions. Thus, we lack understanding of domain-general neural signatures of perceptual metacognition outside vision. Here we designed a novel auditory pitch identification task and collected behavior with simultaneous 32-channel EEG in healthy adults. Participants saw two tone labels which varied in tonal distance on each trial (e.g., C vs D, C vs F), then heard a single auditory tone; they identified which label was correct and rated confidence. We found that pitch identification confidence varied with tonal distance, but performance, metacognitive sensitivity (trial-by-trial covariation of confidence with accuracy), and reaction time did not. Interestingly, however, while CPP slope covaried with performance and reaction time, it did not significantly covary with confidence. We interpret these results to mean that CPP slope is likely a signature of first-order perceptual processing and not confidence-specific signals or computations in auditory tasks. Our novel pitch identification task offers a valuable method to examine the neural correlates of auditory and domain-general perceptual confidence.

Published

2024

4. How (and why) does iconicity effect lexical access: An electrophysiological study of American sign language.

Author

McGarry, Meghan, Midgley, Katherine, Holcomb, Phillip, and Emmorey, Karen

Subjects

American Sign language, ERPs, Iconicity, N400, Picture-naming, Translation, Humans, Male, Female, United States, Sign Language, Electroencephalography, Evoked Potentials, Semantics, Reaction Time

Abstract

Prior research has found that iconicity facilitates sign production in picture-naming paradigms and has effects on ERP components. These findings may be explained by two separate hypotheses: (1) a task-specific hypothesis that suggests these effects occur because visual features of the iconic sign form can map onto the visual features of the pictures, and (2) a semantic feature hypothesis that suggests that the retrieval of iconic signs results in greater semantic activation due to the robust representation of sensory-motor semantic features compared to non-iconic signs. To test these two hypotheses, iconic and non-iconic American Sign Language (ASL) signs were elicited from deaf native/early signers using a picture-naming task and an English-to-ASL translation task, while electrophysiological recordings were made. Behavioral facilitation (faster response times) and reduced negativities were observed for iconic signs (both prior to and within the N400 time window), but only in the picture-naming task. No ERP or behavioral differences were found between iconic and non-iconic signs in the translation task. This pattern of results supports the task-specific hypothesis and provides evidence that iconicity only facilitates sign production when the eliciting stimulus and the form of the sign can visually overlap (a picture-sign alignment effect).

Published

2023

5. A new perspective on the role of physical salience in visual search: Graded effect of salience on infants attention.

Author

DeBolt, Michaela, Mitsven, Samantha, Pomaranski, Katherine, Cantrell, Lisa, Oakes, Lisa, and Luck, Steven

Subjects

Female, Humans, Infant, Pattern Recognition, Visual, Attention, Visual Perception, Reaction Time

Abstract

We tested 6- and 8-month-old White and non-White infants (N = 53 total, 28 girls) from Northern California in a visual search task to determine whether a unique item in an otherwise homogeneous display (a singleton) attracts attention because it is a unique singleton and pops out in a categorical manner, or whether attention instead varies in a graded manner on the basis of quantitative differences in physical salience. Infants viewed arrays of four or six items; one item was a singleton and the other items were identical distractors (e.g., a single cookie and three identical toy cars). At both ages, infants looked to the singletons first more often, were faster to look at singletons, and looked longer at singletons. However, when a computational model was used to quantify the relative salience of the singleton in each display-which varied widely among the different singleton-distractor combinations-we found a strong, graded effect of physical salience on attention and no evidence that singleton status per se influenced attention. In addition, consistent with other research on attention in infancy, the effect of salience was stronger for 6-month-old infants than for 8-month-old infants. Taken together, these results show that attention-getting and attention-holding in infancy vary continuously with quantitative variations in physical salience rather than depending in a categorical manner on whether an item is unique. (PsycInfo Database Record (c) 2023 APA, all rights reserved).

Published

2023

6. The impact of micronutrient supplementation in alcohol-exposed pregnancies on reaction time responses of preschoolers in Ukraine

Author

Kable, JA, Coles, CD, Keen, CL, Uriu-Adams, JY, Jones, KL, Yevtushok, L, Kulikovsky, Y, Zymak-Zakutnya, N, Dubchak, Iryna, Akhmedzhanova, D, Wertelecki, W, Chambers, CD, and CIFASD, the

Subjects

Reproductive Medicine, Biomedical and Clinical Sciences, Clinical Trials and Supportive Activities, Clinical Research, Conditions Affecting the Embryonic and Fetal Periods, Alcoholism, Alcohol Use and Health, Substance Misuse, Pediatric, Brain Disorders, Prevention, Reproductive health and childbirth, Good Health and Well Being, Child, Preschool, Dietary Supplements, Female, Humans, Male, Micronutrients, Pregnancy, Prenatal Exposure Delayed Effects, Reaction Time, Ukraine, attention, choline, micronutrient supplementation, prenatal alcohol, reaction time, CIFASD, Neurosciences, Public Health and Health Services, Substance Abuse, Biological psychology, Clinical and health psychology

Abstract

The potential of micronutrients to ameliorate the impact of prenatal alcohol exposure (PAE) on attentional regulation skills was explored in a randomized clinical trial conducted in Ukraine. Women who differed in prenatal alcohol use were recruited during pregnancy and assigned to one of three groups [No study-provided supplements, Multivitamin/Mineral Supplement (MVM), or MVM plus Choline]. Their offspring were seen in the preschool period and a reaction time task was administered. Participants were asked to press a response button as quickly as possible as 30 stimuli from the same category (animals) were presented consecutively and then followed by six stimuli from a novel category (vehicles). Number correct, mean latency of the response over trials, and variability in the latency were analyzed separately by sex. During the initial animal trials, boys whose mothers received MVM during pregnancy had more correct responses and reduced response latency compared to boys whose mothers had no MVM treatment. During vehicle trials, maternal choline supplementation was associated with increased response speed in males without a PAE history. Females receiving supplements did not show the same benefits from micronutrient supplementation and were more adversely impacted by prenatal alcohol exposure. Relationships between maternal levels of choline, betaine, and dimethylglycine (DMG) and task performance were also assessed. Although no effects were found for choline after adjusting for multiple comparisons, lower baseline DMG level was associated with greater accuracy and shorter latency of responses in the initial animal trials and shorter latency in the vehicle trials in female preschoolers. Level of betaine in Trimester 3 was associated with reduced variability in the latency of male responses during the animal trials. Maternal micronutrient supplementation in pregnancy appears to improve preschool reaction time performance, but the effects varied as a function of sex and PAE exposure status.

Published

2022

7. Understanding and Supporting Inhibitory Control: Unique Contributions From Proactive Monitoring and Motoric Stopping to Childrens Improvements With Practice.

Author

Traut, Hilary, Chevalier, Nicolas, Guild, Ryan, and Munakata, Yuko

Subjects

Attention, Child, Female, Humans, Inhibition, Psychological, Male, Reaction Time

Abstract

Children struggle to stop inappropriate behaviors. What interventions improve inhibitory control, for whom, and why? Prior work suggested that practice proactively monitoring for relevant signals improved childrens inhibitory control more than practice with motoric stopping. However, these processes were not clearly dissociated. This study tested 162 seven- to nine-year-old children (89 female, 72 male, 1 unreported; 82% White) on the stop-signal task, following monitoring or stopping-focused practice. Both methods improved inhibitory control, supported generalization, and interacted ( η p 2  = .20-.73). Practice approaches differentially impacted variability ( η p 2  = .01-.09). Only monitoring benefits showed signs of depending upon proactive control ( η p 2  = .02). These findings highlight unique contributions of attentional and stopping processes to inhibitory control, suggesting possibilities for tailored interventions.

Published

2021

8. History Modulates Early Sensory Processing of Salient Distractors.

Author

Adam, Kirsten CS and Serences, John T

Subjects

Clinical Research, Eye Disease and Disorders of Vision, Behavioral and Social Science, Underpinning research, 1.1 Normal biological development and functioning, Mental health, Adult, Attention, Brain, Female, Humans, Magnetic Resonance Imaging, Male, Neuropsychological Tests, Pattern Recognition, Visual, Reaction Time, Visual Cortex, Visual Perception, Young Adult, attentional selection, fMRI, priority, salience, visual search, Medical and Health Sciences, Psychology and Cognitive Sciences, Neurology & Neurosurgery

Abstract

To find important objects, we must focus on our goals, ignore distractions, and take our changing environment into account. This is formalized in models of visual search whereby goal-driven, stimulus-driven, and history-driven factors are integrated into a priority map that guides attention. Stimulus history robustly influences where attention is allocated even when the physical stimulus is the same: when a salient distractor is repeated over time, it captures attention less effectively. A key open question is how we come to ignore salient distractors when they are repeated. Goal-driven accounts propose that we use an active, expectation-driven mechanism to attenuate the distractor signal (e.g., predictive coding), whereas stimulus-driven accounts propose that the distractor signal is attenuated because of passive changes to neural activity and inter-item competition (e.g., adaptation). To test these competing accounts, we measured item-specific fMRI responses in human visual cortex during a visual search task where trial history was manipulated (colors unpredictably switched or were repeated). Consistent with a stimulus-driven account of history-based distractor suppression, we found that repeated singleton distractors were suppressed starting in V1, and distractor suppression did not increase in later visual areas. In contrast, we observed signatures of goal-driven target enhancement that were absent in V1, increased across visual areas, and were not modulated by stimulus history. Our data suggest that stimulus history does not alter goal-driven expectations, but rather modulates canonically stimulus-driven sensory responses to contribute to a temporally integrated representation of priority.SIGNIFICANCE STATEMENT Visual search refers to our ability to find what we are looking for in a cluttered visual world (e.g., finding your keys). To perform visual search, we must integrate information about our goals (e.g., "find the red keychain"), the environment (e.g., salient items capture your attention), and changes to the environment (i.e., stimulus history). Although stimulus history impacts behavior, the neural mechanisms that mediate history-driven effects remain debated. Here, we leveraged fMRI and multivariate analysis techniques to measure history-driven changes to the neural representation of items during visual search. We found that stimulus history influenced the representation of a salient "pop-out" distractor starting in V1, suggesting that stimulus history operates via modulations of early sensory processing rather than goal-driven expectations.

Published

2021

9. CX3CR1 mutation alters synaptic and astrocytic protein expression, topographic gradients, and response latencies in the auditory brainstem

Author

Milinkeviciute, Giedre, Chokr, Sima M, Castro, Emily M, and Cramer, Karina S

Subjects

Biological Sciences, Biomedical and Clinical Sciences, Neurosciences, Clinical Sciences, Neurological, Animals, Astrocytes, Auditory Pathways, Brain Stem, CX3C Chemokine Receptor 1, Evoked Potentials, Auditory, Brain Stem, Female, Gene Expression, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Mutation, Neuronal Plasticity, Reaction Time, Synapses, ABR, astrocytes, auditory brainstem, fractalkine, inhibition, microglia, MNTB, neurotactin, pruning, tonotopy, Zoology, Medical Physiology, Neurology & Neurosurgery

Abstract

The precise and specialized circuitry in the auditory brainstem develops through adaptations of cellular and molecular signaling. We previously showed that elimination of microglia during development impairs synaptic pruning that leads to maturation of the calyx of Held, a large encapsulating synapse that terminates on neurons of the medial nucleus of the trapezoid body (MNTB). Microglia depletion also led to a decrease in glial fibrillary acidic protein (GFAP), a marker for mature astrocytes. Here, we investigated the role of signaling through the fractalkine receptor (CX3CR1), which is expressed by microglia and mediates communication with neurons. CX3CR1-/- and wild-type mice were studied before and after hearing onset and at 9 weeks of age. Levels of GFAP were significantly increased in the MNTB in mutants at 9 weeks. Pruning was unaffected at the calyx of Held, but we found an increase in expression of glycinergic synaptic marker in mutant mice at P14, suggesting an effect on maturation of inhibitory inputs. We observed disrupted tonotopic gradients of neuron and calyx size in MNTB in mutant mice. Auditory brainstem recording (ABR) revealed that CX3CR1-/- mice had normal thresholds and amplitudes but decreased latencies and interpeak latencies, particularly for the highest frequencies. These results demonstrate that disruption of fractalkine signaling has a significant effect on auditory brainstem development. Our findings highlight the importance of neuron-microglia-astrocyte communication in pruning of inhibitory synapses and establishment of tonotopic gradients early in postnatal development.

Published

2021

10. Sleep quality, neurocognitive performance, and memory self-appraisal in middle-aged and older adults with memory complaints

Author

Siddarth, Prabha, Thana-udom, Kitikan, Ojha, Rashi, Merrill, David, Dzierzewski, Joseph M, Miller, Karen, Small, Gary W, and Ercoli, Linda

Subjects

Clinical and Health Psychology, Psychology, Behavioral and Social Science, Clinical Research, Basic Behavioral and Social Science, Aging, Sleep Research, Mental Health, Neurosciences, Mental health, Attention, Clinical Trials as Topic, Cognitive Aging, Cross-Sectional Studies, Diagnostic Self Evaluation, Female, Humans, Male, Memory, Memory Disorders, Mental Status and Dementia Tests, Middle Aged, Reaction Time, Self Report, Sleep, Sleep Wake Disorders, sleep quality, age-related cognitive decline, memory complaints, Medical and Health Sciences, Psychology and Cognitive Sciences, Geriatrics, Applied and developmental psychology

Abstract

ObjectiveBecause of inconsistent findings regarding the relationship between sleep quality and cognitive function in people with age-related memory complaints, we examined how self-reports of sleep quality were related to multiple domains of both objective and subjective cognitive function in middle-aged and older adults.DesignA cross-sectional study involving analysis of baseline data, collected as part of a clinical trial.MeasurementsTwo hundred and three participants (mean age = 60.4 [6.5] years, 69.0% female) with mild memory complaints were asked to rate their sleep quality using the Pittsburgh Sleep Quality Index (PSQI) and their memory performance using the Memory Functioning Questionnaire (MFQ), which measures self-awareness of memory ability. Neurocognitive performance was evaluated using the Continuous Performance Test (CPT), Trail Making Test, Buschke Selective Reminding Test, and the Brief Visuospatial Test - Revised (BVMT-R).ResultsTotal PSQI scores were significantly associated with objective measures of sustained attention (CPT hit reaction time by block and standard error by block) and subjective memory loss (MFQ frequency and seriousness of forgetting). The PSQI components of (poorer) sleep quality and (greater) sleep disturbance were related to (worse) sustained attention scores while increased sleep latency and daytime sleepiness were associated with greater frequency and seriousness of forgetting.ConclusionsSleep quality is related to both objective measures of sustained attention and self-awareness of memory decline. These findings suggest that interventions for improving sleep quality may contribute not only to improving the ability to focus on a particular task but also in reducing memory complaints in middle-aged and older adults.

Published

2021

11. The influence of social motivation on neural correlates of cognitive control in girls

Author

Barker, Tyson V, Buzzell, George A, Troller‐Renfree, Sonya V, Bowman, Lindsay C, Pine, Daniel S, and Fox, Nathan A

Subjects

Biological Psychology, Psychology, Behavioral and Social Science, Neurosciences, Basic Behavioral and Social Science, Pediatric, Clinical Research, Mental health, Adolescent, Cognition, Electroencephalography, Evoked Potentials, Female, Humans, Motivation, Reaction Time, Cognitive Sciences, Behavioral Science & Comparative Psychology, Applied and developmental psychology, Biological psychology

Abstract

Motivation influences cognitive control, particularly in childhood and adolescence. Previous work finds that the error-related negativity (ERN), an event-related potential (ERP) linked to cognitive control following errors, is influenced by social motivation. However, it is unclear whether the influences of social motivation on the ERN extend to stimulus-locked neural correlates of cognitive control. This study reexamines how social motivation influences cognitive control in adolescence by exploring motivational influences on two stimulus-locked ERPs; the N2 and P3. Adolescent girls (8-17 years of age) completed a flanker task under two different conditions. In the social condition, girls were led to believe that they were evaluated by a peer during a flanker task. In the nonsocial condition, girls completed a flanker task while evaluated by a computer. Results revealed that all girls exhibited a larger P3 in social as compared to nonsocial contexts, whereas the N2 was not different between contexts. In addition, the largest P3 enhancements were observed among younger girls. These findings suggest that social motivation influences some ERP components related to cognitive control, and such influences change across development. Additionally, findings suggest the importance of including multiple ERPs when interpreting the functional significance of motivation on cognitive control.

Published

2021

12. Closed-loop Neurofeedback of Alpha Synchrony during Goal-directed Attention

Author

Mishra, Jyoti, Lowenstein, Mira, Campusano, Richard, Hu, Yihan, Diaz-Delgado, Juan, Ayyoub, Jacqueline, Jain, Rajat, and Gazzaley, Adam

Subjects

Basic Behavioral and Social Science, Clinical Research, Behavioral and Social Science, Brain Disorders, Mind and Body, Clinical Trials and Supportive Activities, Pediatric, Attention Deficit Hyperactivity Disorder (ADHD), Neurosciences, Mental Health, 1.1 Normal biological development and functioning, Underpinning research, Neurological, Mental health, Adult, Alpha Rhythm, Attention, Attention Deficit Disorder with Hyperactivity, Cerebral Cortex, Child, Double-Blind Method, Female, Goals, Humans, Male, Neurofeedback, Neuronal Plasticity, Reaction Time, cognitive neurofeedback, brain computer interface, synchrony, dorsal attention network, Attention Deficit Hyperactivity Disorder, anticipation, alpha suppression, neuroplasticity, attention deficit hyperactivity disorder, attention, closed-loop, Medical and Health Sciences, Psychology and Cognitive Sciences, Neurology & Neurosurgery

Abstract

α Oscillations in sensory cortex, under frontal control, desynchronize during attentive preparation. Here, in a selective attention study with simultaneous EEG in humans of either sex, we first demonstrate that diminished anticipatory α synchrony between the mid-frontal region of the dorsal attention network and ventral visual sensory cortex [frontal-sensory synchrony (FSS)] significantly correlates with greater task performance. Then, in a double-blind, randomized controlled study in healthy adults, we implement closed-loop neurofeedback (NF) of the anticipatory α FSS signal over 10 d of training. We refer to this closed-loop experimental approach of rapid NF integrated within a cognitive task as cognitive NF (cNF). We show that cNF results in significant trial-by-trial modulation of the anticipatory α FSS measure during training, concomitant plasticity of stimulus-evoked α/θ responses, as well as transfer of benefits to response time (RT) improvements on a standard test of sustained attention. In a third study, we implement cNF training in children with attention deficit hyperactivity disorder (ADHD), replicating trial-by-trial modulation of the anticipatory α FSS signal as well as significant improvement of sustained attention RTs. These first findings demonstrate the basic mechanisms and translational utility of rapid cognitive-task-integrated NF.SIGNIFICANCE STATEMENT When humans prepare to attend to incoming sensory information, neural oscillations in the α band (8-14 Hz) undergo desynchronization under the control of prefrontal cortex. Here, in an attention study with electroencephalography, we first show that frontal-sensory synchrony (FSS) of α oscillations during attentive preparation significantly correlates with task performance. Then, in a randomized controlled study in healthy adults, we show that neurofeedback (NF) training of this α FSS signal within the attention task is feasible. We show that this rapid cognitive NF (cNF) approach engenders plasticity of stimulus-evoked neural responses, and improves performance on a standard test of sustained attention. In a final study, we implement cNF in children with attention deficit hyperactivity disorder (ADHD), replicating the improvement of sustained attention found in adults.

Published

2021

13. Cognitive and Neural Correlates of Loneliness and Wisdom during Emotional Bias.

Author

Grennan, Gillian, Balasubramani, Pragathi Priyadharsini, Alim, Fahad, Zafar-Khan, Mariam, Lee, Ellen E, Jeste, Dilip V, and Mishra, Jyoti

Subjects

Basic Behavioral and Social Science, Behavioral and Social Science, Neurosciences, Mental Health, Mind and Body, Underpinning research, 1.2 Psychological and socioeconomic processes, Mental health, Adolescent, Adult, Aged, Aged, 80 and over, Cognition, Electroencephalography, Emotions, Female, Happiness, Humans, Loneliness, Male, Middle Aged, Photic Stimulation, Reaction Time, Thinking, Young Adult, emotion bias, temporo-parietal junction, insula, EEG, happiness, social threat, Psychology, Cognitive Sciences, Experimental Psychology

Abstract

Loneliness and wisdom have opposing impacts on health and well-being, yet their neuro-cognitive bases have never been simultaneously investigated. In this study of 147 healthy human subjects sampled across the adult lifespan, we simultaneously studied the cognitive and neural correlates of loneliness and wisdom in the context of an emotion bias task. Aligned with the social threat framework of loneliness, we found that loneliness was associated with reduced speed of processing when angry emotional stimuli were presented to bias cognition. In contrast, we found that wisdom was associated with greater speed of processing when happy emotions biased cognition. Source models of electroencephalographic data showed that loneliness was specifically associated with enhanced angry stimulus-driven theta activity in the left transverse temporal region of interest, which is located in the area of the temporoparietal junction (TPJ), while wisdom was specifically related to increased TPJ theta activity during happy stimulus processing. Additionally, enhanced attentiveness to threatening stimuli for lonelier individuals was observed as greater beta activity in left superior parietal cortex, while wisdom significantly related to enhanced happy stimulus-evoked alpha activity in the left insula. Our results demonstrate emotion-context driven modulations in cognitive neural circuits by loneliness versus wisdom.

Published

2021

14. Category Salience and Racial Bias in Weapon Identification: A Diffusion Modeling Approach

Author

Todd, Andrew R, Johnson, David J, Lassetter, Bethany, Neel, Rebecca, Simpson, Austin J, and Cesario, Joseph

Subjects

Biological Psychology, Social and Personality Psychology, Psychology, Behavioral and Social Science, Basic Behavioral and Social Science, Clinical Research, Adolescent, Black or African American, Age Factors, Decision Support Techniques, Facial Recognition, Female, Firearms, Humans, Male, Racism, Reaction Time, Social Perception, Stereotyping, Weapons, White People, Young Adult, diffusion decision model, intergroup bias, social categorization, stereotyping, weapon identification task, Marketing, Cognitive Sciences, Social Psychology, Cognitive and computational psychology, Social and personality psychology

Abstract

Stereotypes linking Black Americans with guns can have life-altering outcomes, making it important to identify factors that shape such weapon identification biases and how they do so. We report 6 experiments that provide a mechanistic account of how category salience affects weapon identification bias elicited by male faces varying in race (Black, White) and age (men, boys). Behavioral analyses of error rates and response latencies revealed that, when race was salient, faces of Black versus White males (regardless of age) facilitated the classification of objects as guns versus tools. When a category other than race was salient, racial bias in behavior was reduced, though not eliminated. In Experiments 1-4, racial bias was weaker when participants attended to a social category besides race (i.e., age). In Experiments 5 and 6, racial bias was weaker when participants attended to an applicable, yet nonsubstantive category (i.e., the color of a dot on the face). Across experiments, process analyses using diffusion models revealed that, when race was salient, seeing Black versus White male faces led to an initial bias to favor the "gun" response. When a category besides race (i.e., age, dot color) was salient, racial bias in the relative start point was reduced, though not eliminated. These results suggest that the magnitude of racial bias in weapon identification may differ depending on what social category is salient. The collective findings also highlight the utility of diffusion modeling for elucidating how category salience shapes processes underlying racial biases in behavior. (PsycInfo Database Record (c) 2021 APA, all rights reserved).

Published

2021

15. Reward-driven attention alters perceived salience

Author

Qin, Nan, Gu, Ruolei, Xue, Jingming, Chen, Chuansheng, and Zhang, Mingxia

Subjects

Clinical Research, Neurosciences, Eye Disease and Disorders of Vision, Basic Behavioral and Social Science, Behavioral and Social Science, 2.3 Psychological, social and economic factors, Aetiology, Mental health, Adolescent, Adult, Attention, Female, Humans, Male, Reaction Time, Reward, Visual Perception, Young Adult, reward-driven attention, low-level, visual perception, perceived contrast, Medical and Health Sciences, Psychology and Cognitive Sciences, Experimental Psychology

Abstract

Many studies have revealed that reward-associated features capture attention. Neurophysiological evidence further suggests that this reward-driven attention effect modulates visual processes by enhancing low-level visual salience. However, no behavioral study to date has directly examined whether reward-driven attention changes how people see. Combining the two-phase paradigm with a psychophysical method, the current study found that compared with nonsalient cues associated with lower reward, the nonsalient cues associated with higher reward captured more attention, and increased the perceived contrast of the subsequent stimuli. This is the first direct behavioral evidence of the effect of reward-driven attention on low-level visual perception.

Published

2021

16. Automated recognition of spontaneous facial expression in individuals with autism spectrum disorder: parsing response variability

Author

Bangerter, Abigail, Chatterjee, Meenakshi, Manfredonia, Joseph, Manyakov, Nikolay V, Ness, Seth, Boice, Matthew A, Skalkin, Andrew, Goodwin, Matthew S, Dawson, Geraldine, Hendren, Robert, Leventhal, Bennett, Shic, Frederick, and Pandina, Gahan

Subjects

Biomedical and Clinical Sciences, Biological Psychology, Clinical Sciences, Neurosciences, Psychology, Autism, Brain Disorders, Intellectual and Developmental Disabilities (IDD), Mental Health, Mental health, Adolescent, Adult, Algorithms, Autism Spectrum Disorder, Case-Control Studies, Child, Child, Preschool, Clinical Trials as Topic, Emotions, Facial Expression, Female, Humans, Male, Middle Aged, Models, Theoretical, Multicenter Studies as Topic, Photic Stimulation, Reaction Time, Recognition, Psychology, Young Adult, Autism spectrum disorder, Emotional regulation, Facial expression, Impulsive behavior, Clinical sciences, Biological psychology

Abstract

BackgroundReduction or differences in facial expression are a core diagnostic feature of autism spectrum disorder (ASD), yet evidence regarding the extent of this discrepancy is limited and inconsistent. Use of automated facial expression detection technology enables accurate and efficient tracking of facial expressions that has potential to identify individual response differences.MethodsChildren and adults with ASD (N = 124) and typically developing (TD, N = 41) were shown short clips of "funny videos." Using automated facial analysis software, we investigated differences between ASD and TD groups and within the ASD group in evidence of facial action unit (AU) activation related to the expression of positive facial expression, in particular, a smile.ResultsIndividuals with ASD on average showed less evidence of facial AUs (AU12, AU6) relating to positive facial expression, compared to the TD group (p < .05, r = - 0.17). Using Gaussian mixture model for clustering, we identified two distinct distributions within the ASD group, which were then compared to the TD group. One subgroup (n = 35), termed "over-responsive," expressed more intense positive facial expressions in response to the videos than the TD group (p < .001, r = 0.31). The second subgroup (n = 89), ("under-responsive"), displayed fewer, less intense positive facial expressions in response to videos than the TD group (p < .001; r = - 0.36). The over-responsive subgroup differed from the under-responsive subgroup in age and caregiver-reported impulsivity (p < .05, r = 0.21). Reduced expression in the under-responsive, but not the over-responsive group, was related to caregiver-reported social withdrawal (p < .01, r = - 0.3).LimitationsThis exploratory study does not account for multiple comparisons, and future work will have to ascertain the strength and reproducibility of all results. Reduced displays of positive facial expressions do not mean individuals with ASD do not experience positive emotions.ConclusionsIndividuals with ASD differed from the TD group in their facial expressions of positive emotion in response to "funny videos." Identification of subgroups based on response may help in parsing heterogeneity in ASD and enable targeting of treatment based on subtypes.Trial registrationClinicalTrials.gov, NCT02299700. Registration date: November 24, 2014.

Published

2020

17. Adaptiveness in proactive control engagement in children and adults

Author

Chevalier, Nicolas, Meaney, Julie Anne, Traut, Hilary Joy, and Munakata, Yuko

Subjects

Clinical Research, Pediatric, Adolescent, Adult, Child, Evoked Potentials, Executive Function, Female, Humans, Male, Reaction Time, Reproducibility of Results, Young Adult, Cognitive control, Executive function, Proactive control, Event-related potentials, Pupillometry, Children, Clinical Sciences, Neurosciences, Cognitive Sciences

Abstract

Age-related progress in cognitive control reflects more frequent engagement of proactive control during childhood. As proactive preparation for an upcoming task is adaptive only when the task can be reliably predicted, progress in proactive control engagement may rely on more efficient use of contextual cue reliability. Developmental progress may also reflect increasing efficiency in how proactive control is engaged, making this control mode more advantageous with age. To address these possibilities, 6-year-olds, 9-year-olds, and adults completed three versions of a cued task-switching paradigm in which contextual cue reliability was manipulated. When contextual cues were reliable (but not unreliable or uninformative), all age groups showed greater pupil dilation and a more pronounced (pre)cue-locked posterior positivity associated with faster response times, suggesting adaptive engagement of proactive task selection. However, adults additionally showed a larger contingent negative variation (CNV) predicting a further reduction in response times with reliable cues, suggesting motor preparation in adults but not children. Thus, early developing use of contextual cue reliability promotes adaptiveness in proactive control engagement from early childhood; yet, less efficient motor preparation in children makes this control mode overall less advantageous in childhood than adulthood.

Published

2020

18. Sex-Related Differences in the Relationship Between β-Amyloid and Cognitive Trajectories in Older Adults

Author

Lindbergh, Cutter A, Casaletto, Kaitlin B, Staffaroni, Adam M, La Joie, Renaud, Iaccarino, Leonardo, Edwards, Lauren, Tsoy, Elena, Elahi, Fanny, Walters, Samantha M, Cotter, Devyn, You, Michelle, Apple, Alexandra C, Asken, Breton, Neuhaus, John, Rexach, Jessica E, Wojta, Kevin J, Rabinovici, Gil, Kramer, Joel H, and Network, Hillblom Aging

Subjects

Biological Psychology, Psychology, Neurodegenerative, Aging, Dementia, Alzheimer's Disease, Behavioral and Social Science, Acquired Cognitive Impairment, Neurosciences, Clinical Research, Brain Disorders, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Neurological, Good Health and Well Being, Aged, Aged, 80 and over, Amyloid beta-Peptides, Aniline Compounds, Apolipoprotein E4, Cognition, Ethylene Glycols, Executive Function, Female, Genotype, Heterozygote, Humans, Male, Memory, Episodic, Middle Aged, Neuropsychological Tests, Positron-Emission Tomography, Radiopharmaceuticals, Reaction Time, Sex Characteristics, aging, Alzheimer's disease, cognition, memory, positron emission tomography, Hillblom Aging Network, Cognitive Sciences, Experimental Psychology, Biological psychology, Cognitive and computational psychology

Abstract

Objective: We aimed to test the hypothesis that elevated neocortical β-amyloid (Aβ), a hallmark feature of Alzheimer's disease (AD), predicts sex-specific cognitive trajectories in clinically normal older adults, with women showing greater risk of decline than men. Method: Florbetapir Aβ positron emission tomography (PET) was acquired in 149 clinically normal older adults (52% female, Mage = 74). Participants underwent cognitive testing at baseline and during annual follow-up visits over a timespan of up to 5.14 years. Mixed-effects regression models evaluated whether relations between baseline neocortical Standardized Uptake Value Ratio (SUVR) and composite scores of episodic memory, executive functioning, and processing speed were moderated by sex (male/female) and apolipoprotein E (APOE) status (ε4 carrier/noncarrier). Results: Higher baseline SUVR was associated with longitudinal decline in episodic memory in women (b = -1.32, p < .001) but not men (b = -0.30, p = .28). Female APOE ε4 carriers with elevated SUVR showed particularly precipitous declines in episodic memory (b = -4.33, p < .001) whereas other cognitive domains were spared. SUVR did not predict changes in executive functioning or processing speed, regardless of sex (ps >.63), though there was a main effect of SUVR on processing speed (b = 2.50, p = .003). Conclusions: Clinically normal women with elevated Aβ are more vulnerable to episodic memory decline than men. Understanding sex-related differences in AD, particularly in preclinical stages, is crucial for guiding precision medicine approaches to early detection and intervention. (PsycInfo Database Record (c) 2020 APA, all rights reserved).

Published

2020

19. Decline in kidney function over the course of adulthood and cognitive function in midlife.

Author

Sedaghat, Sanaz, Sorond, Farzaneh, Yaffe, Kristine, Sidney, Stephen, Kramer, Holly J, Jacobs, David R, Launer, Lenore J, and Carnethon, Mercedes R

Subjects

Biomedical and Clinical Sciences, Neurosciences, Clinical Sciences, Behavioral and Social Science, Cardiovascular, Aging, Clinical Research, Kidney Disease, Renal and urogenital, Good Health and Well Being, Adult, Albumins, Cardiovascular Diseases, Cognition, Cognitive Dysfunction, Creatinine, Executive Function, Female, Glomerular Filtration Rate, Humans, Kidney Failure, Chronic, Kidney Function Tests, Longitudinal Studies, Male, Middle Aged, Neuropsychological Tests, Prospective Studies, Reaction Time, Risk Factors, Young Adult, Cognitive Sciences, Neurology & Neurosurgery, Clinical sciences

Abstract

ObjectiveTo test the hypothesis that end-stage renal disease (ESRD) risk exposure during young adulthood is related to worse cognitive performance in midlife.MethodsWe included 2,604 participants from the population-based Coronary Artery Risk Development in Young Adults (CARDIA) Study (mean age 35 years, 54% women, 45% Black). Estimated glomerular filtration rate and albumin-to-creatinine ratio were measured every 5 years at year (Y) 10 through Y30. At each visit, moderate/high risk of ESRD according to the Kidney Disease: Improving Global Outcomes guidelines (estimated glomerular filtration rate 30 mg/g) was defined, totaled over examinations, and categorized into 0 episodes, 1 episode, and >1 episodes of ESRD risk. At Y30, participants underwent global and multidomain cognitive assessment. We used analysis of covariance to assess the association of ESRD risk categories with cognitive function, controlling for cardiovascular risk factors.ResultsOver the course of 20 years, 427 participants (16% of the study population) had ≥1 episodes of ESRD risk exposure. Individuals with more risk episodes had lower composite cognitive function (p < 0.001), psychomotor speed (p < 0.001), and executive function (p = 0.007). All these associations were independent of sociodemographic status and cardiovascular risk factors.ConclusionsIn this population-based longitudinal study, we show that episodes of decline in kidney function over the young-adulthood course are associated with worse cognitive performance at midlife. Preserving kidney function in young age needs to be investigated as a potential strategy to preserve cognitive function in midlife.

Published

2020

20. Sustained attention and vigilance deficits associated with HIV and a history of methamphetamine dependence

Author

Pocuca, Nina, Young, Jared W, MacQueen, David A, Letendre, Scott, Heaton, Robert K, Geyer, Mark A, Perry, William, Grant, Igor, Minassian, Arpi, and Center, the Translational Methamphetamine AIDS Research

Subjects

Medical Microbiology, Biomedical and Clinical Sciences, Immunology, Brain Disorders, Methamphetamine, Substance Misuse, Infectious Diseases, HIV/AIDS, Neurosciences, Drug Abuse (NIDA only), Clinical Research, 6.1 Pharmaceuticals, Evaluation of treatments and therapeutic interventions, Infection, Good Health and Well Being, Adult, Amphetamine-Related Disorders, Attention, Central Nervous System Stimulants, Cognition, Female, HIV Infections, Humans, Male, Middle Aged, Neurocognitive Disorders, Reaction Time, Viral Load, Young Adult, Human immunodeficiency virus, Sustained attention, Vigilance, Continuous performance test, Translational Methamphetamine AIDS Research Center, Medical and Health Sciences, Psychology and Cognitive Sciences, Substance Abuse, Biochemistry and cell biology, Pharmacology and pharmaceutical sciences, Epidemiology

Abstract

BackgroundHuman immunodeficiency virus (HIV)-associated neurocognitive disorders persist in the era of antiretroviral therapy. One factor that is elevated among persons with HIV (PWH) and independently associated with neurocognitive impairment is methamphetamine dependence (METH). Such dependence may further increase cognitive impairment among PWH, by delaying HIV diagnosis (and thus, antiretroviral therapy initiation), which has been posited to account for persistent cognitive impairment among PWH, despite subsequent treatment-related viral load suppression (VLS;

Published

2020

21. People with schizophrenia do not show the normal benefits of social versus nonsocial attentional cues.

Author

Catalano, Lauren T, Green, Michael F, Wynn, Jonathan K, and Lee, Junghee

Subjects

Humans, Social Behavior, Motivation, Cues, Social Perception, Attention, Reaction Time, Neuropsychological Tests, Schizophrenic Psychology, Fixation, Ocular, Adult, Middle Aged, Female, Male, Young Adult, Behavioral and Social Science, Schizophrenia, Mental Health, Brain Disorders, Clinical Research, Serious Mental Illness, Mental health, schizophrenia, social orienting, gaze cueing, social attention, social motivation, Neurosciences, Psychology, Cognitive Sciences, Experimental Psychology

Abstract

ObjectiveSchizophrenia is associated with impairments in social motivation. Social attention has been proposed as an underlying mechanism for social motivation. However, studies in schizophrenia have rarely examined social attention, and none of these studies examined the effects with rapidly presented stimuli.MethodThe current study examined whether individuals with schizophrenia have reduced social attention and whether reduced social attention was related to social motivation deficits (measured with the Clinical Assessment Interview for Negative Symptoms) and decreased social functioning (Role Functioning Scale). Thirty-seven outpatients with schizophrenia and 29 healthy participants completed a gaze cueing task with directional social cues (eye gaze) and nonsocial cues (arrows) at varying stimulus onset asynchronies.ResultsAs predicted, schizophrenia participants had reduced social attention relative to nonsocial attention, compared with healthy participants. Healthy participants were quicker to respond to social cues than nonsocial cues, but schizophrenia participants did not exhibit this same pattern. Schizophrenia participants showed higher accuracy when targets appeared in the same location as a directional cue (i.e., congruency) for nonsocial, but not social, cues. Contrary to expectations, reduced social attention was not significantly correlated with clinically rated social motivation deficits or decreased social functioning in the schizophrenia group.ConclusionThese findings provide evidence for social attention deficits in schizophrenia, but without a clear mapping of its influence on social motivation. (PsycInfo Database Record (c) 2020 APA, all rights reserved).

Published

2020

22. Interplay between persistent activity and activity-silent dynamics in the prefrontal cortex underlies serial biases in working memory

Author

Barbosa, Joao, Stein, Heike, Martinez, Rebecca L, Galan-Gadea, Adrià, Li, Sihai, Dalmau, Josep, Adam, Kirsten CS, Valls-Solé, Josep, Constantinidis, Christos, and Compte, Albert

Subjects

Biomedical and Clinical Sciences, Biological Psychology, Cognitive and Computational Psychology, Neurosciences, Psychology, Brain Disorders, 1.1 Normal biological development and functioning, Underpinning research, 1.2 Psychological and socioeconomic processes, Neurological, Adolescent, Adult, Animals, Electroencephalography, Female, Humans, Macaca mulatta, Male, Memory, Short-Term, Neurons, Prefrontal Cortex, Reaction Time, Saccades, Spatial Memory, Transcranial Magnetic Stimulation, Young Adult, Cognitive Sciences, Neurology & Neurosurgery, Biological psychology

Abstract

Persistent neuronal spiking has long been considered the mechanism underlying working memory, but recent proposals argue for alternative 'activity-silent' substrates. Using monkey and human electrophysiology data, we show here that attractor dynamics that control neural spiking during mnemonic periods interact with activity-silent mechanisms in the prefrontal cortex (PFC). This interaction allows memory reactivations, which enhance serial biases in spatial working memory. Stimulus information was not decodable between trials, but remained present in activity-silent traces inferred from spiking synchrony in the PFC. Just before the new stimulus, this latent trace was reignited into activity that recapitulated the previous stimulus representation. Importantly, the reactivation strength correlated with the strength of serial biases in both monkeys and humans, as predicted by a computational model that integrates activity-based and activity-silent mechanisms. Finally, single-pulse transcranial magnetic stimulation applied to the human PFC between successive trials enhanced serial biases, thus demonstrating the causal role of prefrontal reactivations in determining working-memory behavior.

Published

2020

23. Functional Localization of an Attenuating Filter within Cortex for a Selective Detection Task in Mice

Author

Aruljothi, Krithiga, Marrero, Krista, Zhang, Zhaoran, Zareian, Behzad, and Zagha, Edward

Subjects

Basic Behavioral and Social Science, Neurosciences, Behavioral and Social Science, Underpinning research, 1.1 Normal biological development and functioning, Neurological, Animals, Attention, Female, Male, Mice, Motor Cortex, Physical Stimulation, Reaction Time, Somatosensory Cortex, Touch Perception, Vibrissae, attenuating filter, neocortex, sensorimotor, sensory selection, somatosensory, widefield imaging, Medical and Health Sciences, Psychology and Cognitive Sciences, Neurology & Neurosurgery

Abstract

An essential feature of goal-directed behavior is the ability to selectively respond to the diverse stimuli in one's environment. However, the neural mechanisms that enable us to respond to target stimuli while ignoring distractor stimuli are poorly understood. To study this sensory selection process, we trained male and female mice in a selective detection task in which mice learn to respond to rapid stimuli in the target whisker field and ignore identical stimuli in the opposite, distractor whisker field. In expert mice, we used widefield Ca2+ imaging to analyze target-related and distractor-related neural responses throughout dorsal cortex. For target stimuli, we observed strong signal activation in primary somatosensory cortex (S1) and frontal cortices, including both the whisker region of primary motor cortex (wMC) and anterior lateral motor cortex (ALM). For distractor stimuli, we observed strong signal activation in S1, with minimal propagation to frontal cortex. Our data support only modest subcortical filtering, with robust, step-like attenuation in distractor processing between mono-synaptically coupled regions of S1 and wMC. This study establishes a highly robust model system for studying the neural mechanisms of sensory selection and places important constraints on its implementation.SIGNIFICANCE STATEMENT Responding to task-relevant stimuli while ignoring task-irrelevant stimuli is critical for goal-directed behavior. However, the neural mechanisms involved in this selection process are poorly understood. We trained mice in a detection task with both target and distractor stimuli. During expert performance, we measured neural activity throughout cortex using widefield imaging. We observed responses to target stimuli in multiple sensory and motor cortical regions. In contrast, responses to distractor stimuli were abruptly suppressed beyond sensory cortex. Our findings localize the sites of attenuation when successfully ignoring a distractor stimulus and provide essential foundations for further revealing the neural mechanism of sensory selection and distractor suppression.

Published

2020

24. Proactive Control in Adolescents and Young Adults With Autism Spectrum Disorder: Unimpaired but Associated With Symptoms of Depression

Author

Krug, Marie K, Elliott, Matthew V, Gordon, Andrew, Hogeveen, Jeremy, and Solomon, Marjorie

Subjects

Biological Psychology, Cognitive and Computational Psychology, Psychology, Autism, Intellectual and Developmental Disabilities (IDD), Pediatric, Behavioral and Social Science, Depression, Neurosciences, Clinical Research, Brain Disorders, Mental Health, 2.1 Biological and endogenous factors, 2.3 Psychological, social and economic factors, Aetiology, Mental health, Adolescent, Autism Spectrum Disorder, Child, Cognition, Executive Function, Female, Humans, Male, Reaction Time, Stroop Test, Young Adult, autism spectrum disorder, cognitive control, proactive control, adolescence, depression

Abstract

Although autism spectrum disorder (ASD) is characterized by deficits in cognitive control, our previous work has shown that preparatory, goal-directed cognitive processing (proactive control) may be preserved in children with ASD. We investigated whether proactive control is intact in adolescents and young adults with ASD, as well as how symptoms of ASD (repetitive behaviors) and psychopathology (Depressive, Anxiety, and Attention-Deficit/Hyperactivity Problems) are related to proactive control. Participants were adolescents and young adults with ASD (N = 44) and typical development (TD; N = 44). Proactive control was assessed using a picture-word Stroop paradigm where participants named animals depicted in drawings while ignoring a superimposed written animal word. Interference effects (reaction time (RT) differences between more difficult incongruent trials, where animal pictures and words prompted different responses, and simpler congruent trials, where animal pictures and words prompted the same response) were calculated for two versions of the Stroop Task: a mostly congruent (MC) block, where the majority of trials were congruent, and a mostly incongruent (MI) block, where most trials were incongruent. Proactive control was calculated as the reduction in interference in the MI block in comparison to the MC block. Proactive control did not differ between groups, indicating that proactive control is not impaired in adolescents and young adults with ASD. In ASD, depression symptoms were associated with reduced proactive control. Future research should investigate the effects of interventions targeting depression as well as interventions targeting proactive control processes in individuals with ASD and comorbid depression. (PsycInfo Database Record (c) 2020 APA, all rights reserved).

Published

2020

25. The architecture of working memory: Features from multiple remembered objects produce parallel, coactive guidance of attention in visual search.

Author

Bahle, Brett, Thayer, Daniel, Mordkoff, J, and Hollingworth, Andrew

Subjects

Adolescent, Adult, Attention, Cues, Female, Humans, Male, Memory, Short-Term, Mental Recall, Neuropsychological Tests, Reaction Time, Visual Perception, Young Adult

Abstract

Theories of working memory (WM) differ in their claims about the number of items that can be maintained in a state that directly interacts with other, ongoing cognitive operations (termed the focus of attention). A similar debate has arisen in the literature on visual working memory (VWM), focused on the number of items that can simultaneously interact with attentional priority. In 3 experiments, we used a redundancy-gain paradigm to provide a comprehensive test of the latter question. Participants searched for 2 cued features (e.g., a color and a shape) within a search array. The cued feature values changed on a trial-by-trial basis, requiring VWM. The target (when present) could match 1 of the cued features (single-target trials) or both cued features (redundant-target trials). We tested whether response time distributions contained a substantial proportion of trials with redundant-target responses that were faster than predicted by 2 independent guidance processes operating in parallel (i.e., violations of the race-model inequality). Violations are consistent with a coactive architecture in which both cued values guide attention in parallel and sum on the priority map. Robust violations were observed in all cases predicted by the hypothesis that multiple items in VWM can guide attention simultaneously, and these results were inconsistent with the hypothesis that guidance is limited to a single item simultaneously. When considered in the larger context of the literature on VWM and attention, the present results are consistent with a model of WM architecture in which the focus of attention can maintain multiple, independent representations. (PsycInfo Database Record (c) 2020 APA, all rights reserved).

Published

2020

26. Increased Influence of a Previously Attended Feature in People With Schizophrenia

Author

Leonard, Carly J, Robinson, Benjamin M, Hahn, Britta, Gold, James M, and Luck, Steven J

Subjects

Biological Psychology, Cognitive and Computational Psychology, Psychology, Clinical Research, Mental Health, Behavioral and Social Science, Schizophrenia, Brain Disorders, Neurosciences, Mental health, Adult, Attention, Cognition, Female, Humans, Male, Memory, Short-Term, Middle Aged, Neuropsychological Tests, Reaction Time, Schizophrenic Psychology, Visual Perception, priming, attention, schizophrenia, Cognitive Sciences, Clinical Psychology, Applied and developmental psychology, Clinical and health psychology, Cognitive and computational psychology

Abstract

Everyday functioning requires the appropriate allocation of visual attention, which is achieved through multiple mechanisms of attentional guidance. Traditional theories have focused on top-down and bottom-up factors, but implicit learning from recent experience ("selection history") also has a substantial impact on attentional allocation. The present experiment examined the influence of intertrial priming on attentional guidance in people with schizophrenia and matched control subjects. Participants searched for a color pop-out target, which switched randomly between a red target among blue distractors and a blue target among red distractors. We found that performance on the current trial was more influenced by the previous-trial target color in people with schizophrenia than in control subjects. Moreover, this implicit priming effect was greater in individuals with lower working memory capacity (as measured in a separate task). These results suggest that intertrial priming has an exaggerated impact on attentional guidance in people with schizophrenia and that this is associated with other aspects of impaired cognition. Overall, these results are consistent with the hyperfocusing hypothesis, which proposes that a single underlying attentional abnormality may explain a range of atypical effects across perception, attention, and cognition in schizophrenia. (PsycInfo Database Record (c) 2020 APA, all rights reserved).

Published

2020

27. People with schizophrenia show enhanced cognitive costs of maintaining a single item in working memory

Author

Gold, James M, Bansal, Sonia, Gaspar, John M, Chen, Shuo, Robinson, Benjamin M, Hahn, Britta, and Luck, Steven J

Subjects

Biological Psychology, Cognitive and Computational Psychology, Biomedical and Clinical Sciences, Psychology, Schizophrenia, Neurosciences, Mental Health, Behavioral and Social Science, Brain Disorders, Clinical Research, 2.1 Biological and endogenous factors, Aetiology, Mental health, Adult, Attention, Case-Control Studies, Cognition, Cognitive Dysfunction, Female, Humans, Male, Memory Disorders, Memory, Short-Term, Middle Aged, Photic Stimulation, Reaction Time, Schizophrenic Psychology, Young Adult, Cognitive impairment, reaction time, working memory, Public Health and Health Services, Psychiatry, Clinical sciences, Biological psychology, Clinical and health psychology

Abstract

BackgroundWorking memory (WM) deficits are seen as a core deficit in schizophrenia, implicated in the broad cognitive impairment seen in the illness. Here we examine the impact of WM storage of a single item on the operation of other cognitive systems.MethodsWe studied 37 healthy controls (HCS) and 43 people with schizophrenia (PSZ). Each trial consisted of a sequence of two potential target stimuli, T1 and T2. T1 was a letter presented for 100 ms. After delays of 100-800 ms, T2 was presented. T2 was a 1 or a 2 and required a speeded response. In one condition, subjects were instructed to ignore T1 but respond to T2. In another condition, they were required to report T1 after making their speeded response to T2 (i.e. to make a speeded T2 response while holding T1 in WM).ResultsPSZ were dramatically slowed at responding to T2 when T1 was held in WM. A repeated measures ANOVA yielded main effects of group, delay, and condition with a group by condition interaction (p's < 0.001). Across delays, the slowing of the T2 response when required to hold T1 in memory, relative to ignoring T1, was nearly 3 times higher in PSZ than HCS (633 v. 219 ms).ConclusionsWhereas previous studies have focused on reduced storage capacity, the present study found that PSZ are impaired at performing tasks while they are successfully maintaining a single item in WM. This may play a role in the broad cognitive impairment seen in PSZ.

Published

2020

28. Safety, tolerability, pharmacokinetics, and pharmacodynamics of low dose lysergic acid diethylamide (LSD) in healthy older volunteers

Author

Family, Neiloufar, Maillet, Emeline L, Williams, Luke TJ, Krediet, Erwin, Carhart-Harris, Robin L, Williams, Tim M, Nichols, Charles D, Goble, Daniel J, and Raz, Shlomi

Subjects

Prevention, Neurosciences, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Clinical Research, Acquired Cognitive Impairment, Clinical Trials and Supportive Activities, Dementia, Aging, Neurodegenerative, Alzheimer's Disease, Brain Disorders, Evaluation of treatments and therapeutic interventions, 6.1 Pharmaceuticals, Administration, Oral, Aged, Cognition, Cross-Over Studies, Dose-Response Relationship, Drug, Double-Blind Method, Female, Hallucinogens, Healthy Volunteers, Humans, Lysergic Acid Diethylamide, Male, Middle Aged, Proprioception, Reaction Time, 5-HT2A, Alzheimer’s, CNS, Clinical trial, Immune system, Inflammation, Neurodegenerative disease, Psychedelics, Serotonin, Medical and Health Sciences, Psychology and Cognitive Sciences, Psychiatry

Abstract

Research has shown that psychedelics, such as lysergic acid diethylamide (LSD), have profound anti-inflammatory properties mediated by 5-HT2A receptor signaling, supporting their evaluation as a therapeutic for neuroinflammation associated with neurodegenerative disease.ObjectiveThis study evaluated the safety, tolerability, pharmacokinetics, and pharmacodynamics of orally repeated administration of 5 μg, 10 μg, and 20 μg LSD in older healthy individuals. In the current paper, we present safety, tolerability, pharmacokinetics, and pharmacodynamic measures that relate to safety, tolerability, and dose response.MethodsThis was a phase 1 double-blind, placebo-controlled, randomized study. Volunteers were randomly assigned to 1 of 4 dose groups (5 μg, 10 μg, 20 μg LSD, and placebo), and received their assigned dose on six occasions (i.e., every 4 days).ResultsForty-eight older healthy volunteers (mean age = 62.9 years) received placebo (n = 12), 5 μg (n = 12), 10 μg (n = 12), or 20 μg (n = 12) LSD. LSD plasma levels were undetectable for the 5 μg group and peak blood plasma levels for the 10 μg and 20 μg groups occurred at 30 min. LSD was well tolerated, and the frequency of adverse events was no higher than for placebo. Assessments of cognition, balance, and proprioception revealed no impairment.ConclusionsOur results suggest safety and tolerability of orally administered 5 μg, 10 μg, and 20 μg LSD every fourth day over a 21-day period and support further clinical development of LSD for the treatment and prevention of Alzheimer's disease (AD).

Published

2020

29. Flexible weighting of target features based on distractor context

Author

Lee, Jeongmi and Geng, Joy J

Subjects

Biological Psychology, Psychology, Adult, Attentional Bias, Color Perception, Cues, Female, Humans, Learning, Male, Orientation, Spatial, Probability, Reaction Time, Visual Perception, Young Adult, Attention, Selective, Theoretical and Computational Models, Visual search, Attention: Selective, Attention, Cognitive Sciences, Experimental Psychology, Biological psychology, Cognitive and computational psychology

Abstract

Models of attention posit that attentional priority is established by summing the saliency and relevancy signals from feature-selective maps. The dimension-weighting account further hypothesizes that information from each feature-selective map is weighted based on expectations of how informative each dimension will be. In the current studies, we investigated the question of whether attentional biases to the features of a conjunction target (color and orientation) differ when one dimension is expected to be more diagnostic of the target. In a series of color-orientation conjunction search tasks, observers saw an exact cue for the upcoming target, while the probability of distractors sharing a target feature in each dimension was manipulated. In one context, distractors were more likely to share the target color, and in another, distractors were more likely to share the target orientation. The results indicated that despite an overall bias toward color, attentional priority to each target feature was flexibly adjusted according to distractor context: RT and accuracy performance was better when the diagnostic feature was expected than unexpected. This occurred both when the distractor context was learned implicitly and explicitly. These results suggest that feature-based enhancement can occur selectively for the dimension expected to be most informative in distinguishing the target from distractors.

Published

2020

30. The influence of nicotine metabolic rate on working memory over 6 hours of abstinence from nicotine

Author

Nardone, Natalie, Shahid, Marian, Strasser, Andrew A, Dempsey, Delia A, and Benowitz, Neal L

Subjects

Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Behavioral and Social Science, Substance Misuse, Tobacco, Clinical Research, Tobacco Smoke and Health, Prevention, Drug Abuse (NIDA only), Neurosciences, Basic Behavioral and Social Science, Good Health and Well Being, Adult, Cigarette Smoking, Cognition, Female, Humans, Magnetic Resonance Spectroscopy, Male, Memory, Short-Term, Middle Aged, Nicotine, Prospective Studies, Reaction Time, Smoking Cessation, Time Factors, Young Adult, Nicotine metabolite ratio, NMR, Smoking, Working memory, Neurology & Neurosurgery, Pharmacology and pharmaceutical sciences

Abstract

BackgroundA faster rate of nicotine metabolism has been associated with smoking more cigarettes, greater nicotine withdrawal symptoms, and lower smoking quit rates. However, the association between nicotine metabolic rate (NMR) and cognitive functioning during withdrawal has not been determined.MethodsWe compared cognitive function in 121 fast or slow nicotine metabolizers after smoking, and at 3 and 6 h of nicotine abstinence. Cognitive functioning was assessed using N-back working memory tests with outcomes of accuracy and processing speed. Participants smoked two cigarettes and then abstained from smoking for 6 h. N-back tests were administered after smoking (0 h) and at 3 and 6 h of nicotine abstinence.ResultsAn effect of processing speed was found over time on the 2-back, in that participants had significantly longer average reaction times when the stimuli presented did not match the target letter. NMR was not significantly associated with the processing speed change over time. Within-race differences in working memory were evident in that Caucasian fast metabolizers had significantly poorer accuracy and processing speed.ConclusionsMinimal change in working memory over 6 h of nicotine abstinence was observed. Overall, NMR was not significantly associated with the change in processing speed, however Caucasian fast metabolizers displayed poorer accuracy and processing speed at discrete time points.

Published

2020

31. Automaticity in processing spatial-numerical associations: Evidence from a perceptual orientation judgment task of Arabic digits in frames.

Author

Yu, Shuyuan, Li, Baichen, Zhang, Meng, Gong, Tianwei, Li, Xiaomei, Li, Zhaojun, Gao, Xuefei, Zhang, Shudong, Jiang, Ting, and Chen, Chuansheng

Subjects

Humans, Space Perception, Judgment, Reaction Time, Mathematics, Female, Male, Young Adult, Spatial Processing, General Science & Technology

Abstract

Human adults are faster to respond to small/large numerals with their left/right hand when they judge the parity of numerals, which is known as the SNARC (spatial-numerical association of response codes) effect. It has been proposed that the size of the SNARC effect depends on response latencies. The current study introduced a perceptual orientation task, where participants were asked to judge the orientation of a digit or a frame surrounding the digit. The present study first confirmed the SNARC effect with native Chinese speakers (Experiment 1) using a parity task, and then examined whether the emergence and size of the SNARC effect depended on the response latencies (Experiments 2, 3, and 4) using a perceptual orientation judgment task. Our results suggested that (a) the automatic processing of response-related numerical-spatial information occurred with Chinese-speaking participants in the parity task; (b) the SNARC effect was also found when the task did not require semantic access; and (c) the size of the effect depended on the processing speed of the task-relevant dimension. Finally, we proposed an underlying mechanism to explain the SNARC effect in the perceptual orientation judgment task.

Published

2020

32. Cingulo-hippocampal effective connectivity positively correlates with drug-cue attentional bias in opioid use disorder.

Author

Ma, Liangsuo, Steinberg, Joel L, Bjork, James M, Taylor, Brian A, Arias, Albert J, Terplan, Mishka, Anastasio, Noelle C, Zuniga, Edward A, Lennon, Michael, Cunningham, Kathryn A, and Moeller, F Gerard

Subjects

Brain, Gyrus Cinguli, Hippocampus, Temporal Lobe, Humans, Opioid-Related Disorders, Analgesics, Opioid, Magnetic Resonance Imaging, Brain Mapping, Cognition, Cues, Reaction Time, Female, Male, Stroop Test, Attentional Bias, Attentional bias, Cue reactivity, Dynamic causal modeling, Effective connectivity, Opioid use disorder, Neurosciences, Clinical Research, Brain Disorders, Behavioral and Social Science, Substance Misuse, Basic Behavioral and Social Science, Drug Abuse (NIDA only), Mental health, Clinical Sciences, Cognitive Sciences, Psychiatry

Abstract

Individuals with opioid use disorder (OUD) often relapse when exposed to opioid-related cues. Previous functional magnetic resonance imaging (fMRI) studies have identified neuronal corticolimbic changes related to drug cue reactivity in OUD. However, the corresponding manner in which brain regions interact is still unclear. Effective (directional) connectivity was analyzed using dynamic causal modeling of fMRI data acquired from 27 OUD participants (13 with OUD and 14 with OUD and cocaine use disorder [OUD+CUD]), while performing an opioid-word Stroop task. Participants were shown opioid and neutral words presented in different colors and were instructed to indicate word color but ignore word meaning. The effects of opioid words relative to neutral words on effective connectivity and on behavioral reaction time were defined as modulatory change and attentional bias, respectively. For all the 27 participants, left anterior cingulate cortex (ACC) to right hippocampus effective connectivity exhibited the largest modulatory change, which was positively correlated with attentional bias. The findings for the ACC to hippocampus EC were consistent across OUD and CUD found in a previous study.

Published

2019

33. Decomposing the constituent oscillatory dynamics underlying mismatch negativity generation in schizophrenia: Distinct relationships to clinical and cognitive functioning

Author

Hochberger, WC, Joshi, YB, Zhang, W, Thomas, ML, investigators, the Consortium of Genomics in Schizophrenia, Braff, DL, Swerdlow, NR, and Light, GA

Subjects

Pharmacology and Pharmaceutical Sciences, Medical Physiology, Biomedical and Clinical Sciences, Serious Mental Illness, Neurosciences, Behavioral and Social Science, Schizophrenia, Mental Health, Brain Disorders, Clinical Research, Mental health, Acoustic Stimulation, Adult, Brain, Cognition, Electroencephalography, Evoked Potentials, Female, Humans, Male, Middle Aged, Neuropsychological Tests, Reaction Time, Mismatch negativity, Early auditory information processing, COGS-2, Consortium of Genomics in Schizophrenia (COGS) investigators, Medical and Health Sciences, Psychology and Cognitive Sciences, Experimental Psychology, Medical physiology

Abstract

Abnormalities in early auditory information processing (EAIP) contribute to higher-order deficits in cognition and psychosocial functioning in schizophrenia. A passive auditory oddball paradigm is commonly used to evoke event-related potential (ERP) measures of EAIP reflecting auditory sensory registration and deviance detection, including mismatch negativity (MMN) and P3a responses. MMN and P3a have been extensively studied in healthy subjects and neuropsychiatric patient populations and are increasingly used as translational biomarkers in the development of novel therapeutics. Despite widespread use, relatively few studies have examined the constituent oscillatory elements and the extent to which sensory registration and deviance detection represent distinct or intercorrelated processes. This study aimed to determine the factor structure and clinical correlates of these oscillatory measures in schizophrenia patients (n = 706) and healthy comparison subjects (n = 615) who underwent clinical, cognitive, and functional characterization and EEG testing via their participation in the Consortium of Genomics in Schizophrenia (COGS-2) study. Results revealed significant deficits in theta-band (4-7 Hz) evoked power and phase locking in patients. Exploratory factor analyses of both ERP and oscillatory measures revealed two dissociable factors reflecting sensory registration and deviance detection. While each factor shared a significant correlation with social cognition, the deviance detection factor had a unique relationship to multiple cognitive and clinical domains. Results support the continued advancement of functionally relevant oscillatory measures underlying EAIP in the development of precognitive therapeutics.

Published

2019

34. Goal congruency dominates reward value in accounting for behavioral and neural correlates of value-based decision-making.

Author

Frömer, Romy, Dean Wolf, Carolyn, and Shenhav, Amitai

Subjects

Brain, Choice Behavior, Decision Making, Female, Goals, Humans, Magnetic Resonance Imaging, Male, Neostriatum, Oxygen, Reaction Time, Reward, Young Adult

Abstract

When choosing between options, whether menu items or career paths, we can evaluate how rewarding each one will be, or how congruent it is with our current choice goal (e.g., to point out the best option or the worst one.). Past decision-making research interpreted findings through the former lens, but in these experiments the most rewarding option was always most congruent with the task goal (choosing the best option). It is therefore unclear to what extent expected reward vs. goal congruency can account for choice value findings. To deconfound these two variables, we performed three behavioral studies and an fMRI study in which the task goal varied between identifying the best vs. the worst option. Contrary to prevailing accounts, we find that goal congruency dominates choice behavior and neural activity. We separately identify dissociable signals of expected reward. Our findings call for a reinterpretation of previous research on value-based choice.

Published

2019

35. Mild acute stress improves response speed without impairing accuracy or interference control in two selective attention tasks: Implications for theories of stress and cognition.

Author

Shields, Grant, Rivers, Andrew, Ramey, Michelle, Yonelinas, Andrew, and Trainor, Brian

Subjects

Acute stress, Attention, Motor control, Reaction time, Response speed, Stress severity, Adult, Attention, Cognition, Executive Function, Female, Humans, Hydrocortisone, Male, Neuropsychological Tests, Reaction Time, Saliva, Stress, Psychological, Young Adult

Abstract

Acute stress is generally thought to impair performance on tasks thought to rely on selective attention. This effect has been well established for moderate to severe stressors, but no study has examined how a mild stressor-the most common type of stressor-influences selective attention. In addition, no study to date has examined how stress influences the component processes involved in overall selective attention task performance, such as controlled attention, automatic attentional activation, decision-making, and motor abilities. To address these issues, we randomly assigned 107 participants to a mild acute stress or control condition. As expected, the mild acute stress condition showed a small but significant increase in cortisol relative to the control condition. Following the stressor, we assessed attention with two separate flanker tasks. One of these tasks was optimized to investigate component attentional processes using computational cognitive modeling, whereas the other task employed mouse-tracking to illustrate how response conflict unfolded over time. The results for both tasks showed that mild acute stress decreased response time (i.e., increased response speed) without influencing accuracy or interference control. Further, computational modeling and mouse-tracking analyses indicated that these effects were due to faster motor action execution time for chosen actions. Intriguingly, however, cortisol responses were unrelated to any of the observed effects of mild stress. These results have implications for theories of stress and cognition, and highlight the importance of considering motor processes in understanding the effects of stress on cognitive task performance.

Published

2019

36. Human motor cortical beta bursts relate to movement planning and response errors.

Author

Little, Simon, Bonaiuto, James, Barnes, Gareth, and Bestmann, Sven

Subjects

Motor Cortex, Humans, Beta Rhythm, Cortical Synchronization, Magnetoencephalography, Reaction Time, Evoked Potentials, Movement, Adult, Female, Male, 2.1 Biological and endogenous factors, Aetiology, Biological Sciences, Agricultural and Veterinary Sciences, Medical and Health Sciences, Developmental Biology

Abstract

Motor cortical beta activity (13-30 Hz) is a hallmark signature of healthy and pathological movement, but its behavioural relevance remains unclear. Using high-precision magnetoencephalography (MEG), we show that during the classical event-related desynchronisation (ERD) and event-related synchronisation (ERS) periods, motor cortical beta activity in individual trials (n > 12,000) is dominated by high amplitude, transient, and infrequent bursts. Beta burst probability closely matched the trial-averaged beta amplitude in both the pre- and post-movement periods, but individual bursts were spatially more focal than the classical ERS peak. Furthermore, prior to movement (ERD period), beta burst timing was related to the degree of motor preparation, with later bursts resulting in delayed response times. Following movement (ERS period), the first beta burst was delayed by approximately 100 milliseconds when an incorrect response was made. Overall, beta burst timing was a stronger predictor of single trial behaviour than beta burst rate or single trial beta amplitude. This transient nature of motor cortical beta provides new constraints for theories of its role in information processing within and across cortical circuits, and its functional relevance for behaviour in both healthy and pathological movement.

Published

2019

37. Lower extremity long-latency reflexes differentiate walking function after stroke

Author

Banks, Caitlin L, Little, Virginia L, Walker, Eric R, and Patten, Carolynn

Subjects

Biomedical and Clinical Sciences, Neurosciences, Clinical Research, Brain Disorders, Stroke, Rehabilitation, Adult, Aged, Evoked Potentials, Motor, Female, Humans, Lower Extremity, Male, Middle Aged, Muscle, Skeletal, Reaction Time, Reflex, Reflex, Stretch, Transcranial Magnetic Stimulation, Walking, Long-latency reflex, Transcortical reflex, Reciprocal inhibition, Medical and Health Sciences, Psychology and Cognitive Sciences, Neurology & Neurosurgery

Abstract

The neural mechanisms of walking impairment after stroke are not well characterized. Specifically, there is a need for understanding the mechanisms of impaired plantarflexor power generation in late stance. Here, we investigated the association between two neurophysiologic markers, the long-latency reflex (LLR) response and dynamic facilitation of antagonist motor-evoked responses, and walking function. Fourteen individuals with chronic post-stroke hemiparesis and thirteen healthy controls performed both isometric and dynamic plantarflexion. Transcranial magnetic stimulation (TMS) assessed supraspinal drive to the tibialis anterior. LLR activity was assessed during dynamic voluntary plantarflexion and individuals post-stroke were classified as either LLR present (LLR+) or absent (LLR-). All healthy controls and nine individuals post-stroke exhibited LLRs, while five did not. LLR+ individuals revealed higher clinical scores, walking speeds, and greater ankle plantarflexor power during walking compared to LLR- individuals. LLR- individuals exhibited exaggerated responses to TMS during dynamic plantarflexion relative to healthy controls. The LLR- subset revealed dysfunctional modulation of stretch responses and antagonist supraspinal drive relative to healthy controls and the higher functioning LLR+ individuals post-stroke. These abnormal physiologic responses allow for characterization of individuals post-stroke along a dimension that is clinically relevant and provides additional information beyond standard behavioral assessments. These findings provide an opportunity to distinguish among the heterogeneity of lower extremity motor impairments present following stroke by associating them with responses at the nervous system level.

Published

2019

38. The temporal and spatial constraints of saccade planning to double-step target displacements

Author

Kelly, Shane, Zhou, Weiwei, Bansal, Sonia, Peterson, Matthew S, and Joiner, Wilsaan M

Subjects

Biomedical and Clinical Sciences, Ophthalmology and Optometry, Female, Fixation, Ocular, Humans, Male, Motor Neurons, Reaction Time, Saccades, Spatio-Temporal Analysis, Young Adult, Saccade, Goal, Planning, Spatiotemporal, Double-step, Medical and Health Sciences, Psychology and Cognitive Sciences, Experimental Psychology, Ophthalmology and optometry

Abstract

The double-step paradigm investigates the characteristics of planning and execution when the motor system must rapidly adjust for a new goal location. Studies have provided detailed temporal information based on the duration available for the motor system to prepare a new movement trajectory (here referred to as re-preparation time). However, previous work has largely examined single displacement sizes, limiting the spatiotemporal understanding of movement planning and execution. The lack of a description of this behavioral timecourse across increasing displacement sizes is true for saccades, rapid eye movements that redirect the fovea. Furthermore, during the double-step paradigm, the primary saccade often fails to accurately foveate the final target location and a secondary saccade brings the target onto the fovea. However, it is also unknown how this compensation is concurrently modified with the exposure duration and displacement of the movement goal. Here, we examined the amount of time required to change the initial saccade direction to a new target location for relatively small (20°, 30°, and 40°) and large (60° and 90°) target spatial separations. Interestingly, we found a clear relationship between the saccade direction and the amount of time allowed to redirect the movement; across separations, intermediate saccades occurred when approximately 60-140 ms was available to readjust the movement plan. Additionally, there was a consistent relationship between the timing of the secondary saccade and the re-preparation time across jump sizes, suggesting that concurrent movement correction planning was dependent on the amount of exposure to the final movement goal.

Published

2019

39. Mild acute stress improves response speed without impairing accuracy or interference control in two selective attention tasks: Implications for theories of stress and cognition.

Author

Shields, Grant S, Rivers, Andrew M, Ramey, Michelle M, Trainor, Brian C, and Yonelinas, Andrew P

Subjects

Saliva, Humans, Hydrocortisone, Stress, Psychological, Cognition, Attention, Reaction Time, Neuropsychological Tests, Adult, Female, Male, Young Adult, Executive Function, Acute stress, Motor control, Reaction time, Response speed, Stress severity, Mental Health, Basic Behavioral and Social Science, Behavioral and Social Science, Neurosciences, Mind and Body, Brain Disorders, Clinical Research, Medical and Health Sciences, Psychology and Cognitive Sciences, Psychiatry

Abstract

Acute stress is generally thought to impair performance on tasks thought to rely on selective attention. This effect has been well established for moderate to severe stressors, but no study has examined how a mild stressor-the most common type of stressor-influences selective attention. In addition, no study to date has examined how stress influences the component processes involved in overall selective attention task performance, such as controlled attention, automatic attentional activation, decision-making, and motor abilities. To address these issues, we randomly assigned 107 participants to a mild acute stress or control condition. As expected, the mild acute stress condition showed a small but significant increase in cortisol relative to the control condition. Following the stressor, we assessed attention with two separate flanker tasks. One of these tasks was optimized to investigate component attentional processes using computational cognitive modeling, whereas the other task employed mouse-tracking to illustrate how response conflict unfolded over time. The results for both tasks showed that mild acute stress decreased response time (i.e., increased response speed) without influencing accuracy or interference control. Further, computational modeling and mouse-tracking analyses indicated that these effects were due to faster motor action execution time for chosen actions. Intriguingly, however, cortisol responses were unrelated to any of the observed effects of mild stress. These results have implications for theories of stress and cognition, and highlight the importance of considering motor processes in understanding the effects of stress on cognitive task performance.

Published

2019

40. A large-scale analysis of task switching practice effects across the lifespan

Author

Steyvers, Mark, Hawkins, Guy E, Karayanidis, Frini, and Brown, Scott D

Subjects

Behavioral and Social Science, Aging, Basic Behavioral and Social Science, Clinical Research, 1.2 Psychological and socioeconomic processes, Underpinning research, 1.1 Normal biological development and functioning, Generic health relevance, Mental health, Adult, Aged, Aged, 80 and over, Cognition, Female, Humans, Male, Middle Aged, Psychomotor Performance, Reaction Time, task switching, cognitive control, practice effects, Bayesian modeling, aging effects

Abstract

An important feature of human cognition is the ability to flexibly and efficiently adapt behavior in response to continuously changing contextual demands. We leverage a large-scale dataset from Lumosity, an online cognitive-training platform, to investigate how cognitive processes involved in cued switching between tasks are affected by level of task practice across the adult lifespan. We develop a computational account of task switching that specifies the temporal dynamics of activating task-relevant representations and inhibiting task-irrelevant representations and how they vary with extended task practice across a number of age groups. Practice modulates the level of activation of the task-relevant representation and improves the rate at which this information becomes available, but has little effect on the task-irrelevant representation. While long-term practice improves performance across all age groups, it has a greater effect on older adults. Indeed, extensive task practice can make older individuals functionally similar to less-practiced younger individuals, especially for cognitive measures that focus on the rate at which task-relevant information becomes available.

Published

2019

41. The Quality of Response Time Data Inference: A Blinded, Collaborative Assessment of the Validity of Cognitive Models

Author

Dutilh, Gilles, Annis, Jeffrey, Brown, Scott D, Cassey, Peter, Evans, Nathan J, Grasman, Raoul PPP, Hawkins, Guy E, Heathcote, Andrew, Holmes, William R, Krypotos, Angelos-Miltiadis, Kupitz, Colin N, Leite, Fábio P, Lerche, Veronika, Lin, Yi-Shin, Logan, Gordon D, Palmeri, Thomas J, Starns, Jeffrey J, Trueblood, Jennifer S, van Maanen, Leendert, van Ravenzwaaij, Don, Vandekerckhove, Joachim, Visser, Ingmar, Voss, Andreas, White, Corey N, Wiecki, Thomas V, Rieskamp, Jörg, and Donkin, Chris

Subjects

Adult, Cognition, Female, Humans, Male, Models, Psychological, Models, Statistical, Reaction Time, Reproducibility of Results, Single-Blind Method, Validity, Cognitive modeling, Response Times, Diffusion Model, LBA, Psychology, Cognitive Sciences, Experimental Psychology

Abstract

Most data analyses rely on models. To complement statistical models, psychologists have developed cognitive models, which translate observed variables into psychologically interesting constructs. Response time models, in particular, assume that response time and accuracy are the observed expression of latent variables including 1) ease of processing, 2) response caution, 3) response bias, and 4) non-decision time. Inferences about these psychological factors, hinge upon the validity of the models' parameters. Here, we use a blinded, collaborative approach to assess the validity of such model-based inferences. Seventeen teams of researchers analyzed the same 14 data sets. In each of these two-condition data sets, we manipulated properties of participants' behavior in a two-alternative forced choice task. The contributing teams were blind to the manipulations, and had to infer what aspect of behavior was changed using their method of choice. The contributors chose to employ a variety of models, estimation methods, and inference procedures. Our results show that, although conclusions were similar across different methods, these "modeler's degrees of freedom" did affect their inferences. Interestingly, many of the simpler approaches yielded as robust and accurate inferences as the more complex methods. We recommend that, in general, cognitive models become a typical analysis tool for response time data. In particular, we argue that the simpler models and procedures are sufficient for standard experimental designs. We finish by outlining situations in which more complicated models and methods may be necessary, and discuss potential pitfalls when interpreting the output from response time models.

Published

2019

42. The latency of a visual evoked potential tracks the onset of decision making.

Author

Nunez, Michael D, Gosai, Aishwarya, Vandekerckhove, Joachim, and Srinivasan, Ramesh

Subjects

Brain, Humans, Electroencephalography, Photic Stimulation, Visual Perception, Decision Making, Reaction Time, Evoked Potentials, Visual, Models, Neurological, Female, Male, Decision making, Diffusion models, EEG, Figure-ground segregation, Hierarchical Bayesian methods, Visual evoked potentials, Evoked Potentials, Visual, Models, Neurological, Medical and Health Sciences, Psychology and Cognitive Sciences, Neurology & Neurosurgery

Abstract

Encoding of a sensory stimulus is believed to be the first step in perceptual decision making. Previous research has shown that electrical signals recorded from the human brain track evidence accumulation during perceptual decision making (Gold and Shadlen, 2007; O'Connell et al., 2012; Philiastides et al., 2014). In this study we directly tested the hypothesis that the latency of the N200 recorded by EEG (a negative peak occurring between 150 and 275 ms after stimulus presentation in human participants) reflects the visual encoding time (VET) required for completion of figure-ground segregation before evidence accumulation. We show that N200 latencies vary across individuals, are modulated by external visual noise, and increase response time by x milliseconds when they increase by x milliseconds, reflecting a linear regression slope of 1. Simulations of cognitive decision-making theory show that variation in human response times not related to evidence accumulation (non-decision time; NDT), including VET, are tracked by the fastest response times. Evidence that VET is tracked by N200 latencies was found by fitting a linear model between trial-averaged N200 latencies and the 10th percentiles of response times, a model-independent estimate of NDT. Fitting a novel neuro-cognitive model of decision making also yielded a slope of 1 between N200 latency and model-estimated NDT in multiple visual noise conditions, indicating that N200 latencies track the completion of visual encoding and the onset of evidence accumulation. The N200 waveforms were localized to the cortical surface at distributed temporal and extrastriate locations, consistent with a distributed network engaged in figure-ground segregation of the target stimulus.

Published

2019

43. Examining HPA-axis functioning as a mediator of the relationship between depression and cognition across the adult lifespan

Author

Karstens, Aimee James, Korzun, Inez, Avery, Erich T, Kassel, Michelle T, Keelan, Rachel, Kales, Helen, Abercrombie, Heather, Eisenlohr-Moul, Tory, Langenecker, Scott A, and Weisenbach, Sara

Subjects

Biological Psychology, Clinical and Health Psychology, Psychology, Neurosciences, Aging, Mental Health, Depression, Mind and Body, Clinical Research, Brain Disorders, Behavioral and Social Science, Mental health, Adolescent, Adult, Aged, Aged, 80 and over, Cognition, Depressive Disorder, Major, Executive Function, Female, Humans, Hydrocortisone, Hypothalamo-Hypophyseal System, Longevity, Male, Memory, Middle Aged, Neuropsychological Tests, Pituitary-Adrenal System, Reaction Time, Saliva, Young Adult, cortisol, memory, speeded processing, cognition, HPA-axis, Cognitive Sciences, Experimental Psychology

Abstract

Altered HPA-axis functioning is a hypothesized mechanism for worsened cognition in depression. The current study examines the indirect effects of depression on processing speed, executive functioning, and memory as a function of the HPA-axis. 38 individuals with a depression diagnosis and 50 healthy controls (HCs) aged 18-86 underwent neuropsychological testing and at-home diurnal salivary cortisol collection. Depression was assessed via structured clinical interviews and rating scales. Cognitive composite scores were derived from factor analysis. Daytime cortisol exposure was estimated using area under the curve (AUC). Depression was associated with higher cortisol levels and slower processing speed . A significant suppression effect of AUC was present on the relationship between depression and processing speed. Limitations include the cross-sectional design and limited sample heterogeneity. Though poorly modulated HPA-axis is one proposed mechanism of cognitive alterations in depression, our results did not support this conclusion for processing speed. Alternative mechanisms should be considered to inform interventions to target cognitive alterations in depression.

Published

2019

44. Movement Improves the Quality of Temporal Perception and Decision Making

Author

Wiener, Martin, Zhou, Weiwei, Bader, Farah, and Joiner, Wilsaan M

Subjects

Biological Psychology, Cognitive and Computational Psychology, Psychology, Behavioral and Social Science, Clinical Research, 1.1 Normal biological development and functioning, 1.2 Psychological and socioeconomic processes, Underpinning research, Adult, Decision Making, Female, Humans, Male, Psychomotor Performance, Reaction Time, Time Perception, Young Adult, decision-making, movement, perception, time perception, Neurosciences

Abstract

A critical aspect of behavior is that mobile organisms must be able to precisely determine where and when to move. A better understanding of the mechanisms underlying precise movement timing and action planning is therefore crucial to understanding how we interact with the world around us. Recent evidence suggests that our experience of time is directly and intrinsically computed within the motor system, consistent with the theory of embodied cognition. To investigate the role of the motor system, we tested human subjects (n = 40) on a novel task combining reaching and time estimation. In this task, subjects were required to move a robotic manipulandum to one of two physical locations to categorize a concurrently timed suprasecond. Critically, subjects were divided into two groups: one in which movement during the interval was unrestricted and one in which they were restricted from moving until the stimulus interval had elapsed. Our results revealed a higher degree of precision for subjects in the free-moving group. A further experiment (n = 14) verified that these findings were not due to proximity to the target, counting strategies, bias, or movement length. A final experiment (n = 10) replicated these findings using a within-subjects design, performing a time reproduction task, in which movement during encoding of the interval led to more precise performance. Our findings suggest that time estimation may be instantiated within the motor system as an ongoing readout of timing judgment and confidence.

Published

2019

45. A model of the uncertainty effects in choice reaction time that includes a major contribution from effector selection.

Author

Wright, Charles E, Marino, Valerie F, Chubb, Charles, and Mann, Daniel

Subjects

Humans, Uncertainty, Choice Behavior, Psychomotor Performance, Reaction Time, Models, Psychological, Adult, Female, Male, Hick's law, choice RT, stimulus-response mapping, effector selection, cognitive architecture, Psychology, Cognitive Sciences, Experimental Psychology

Abstract

Hick's law describes the relation between choice reaction time (RT) and the number of stimulus-response alternatives (NA). For over half a century, this uncertainty effect has been ascribed primarily to the time taken to map a stimulus to its associated response. Here, data from 2 experiments suggests that selection of the appropriate effector-the particular body part to make a response-also contributes substantially to the uncertainty effect. This insight is important both for our understanding of basic cognitive architecture and because many classic experiments studying stimulus-response mapping have confounded NA with the number of effectors. Our data also suggest that, when stimuli are spatial and linked to the responses in an intuitively simple layout, the time required for stimulus-response mapping depends minimally on the NA, independent of effector. Experiment 1 demonstrated that in order to account for the complex patterns of uncertainty effects observed when stimulus type (spatial vs. symbolic), response mode (typing, with multiple effectors vs. touching with a single, known effector), and participant population (skilled vs. novice typists) are all manipulated a model is required that includes effector selection, along with stimulus-response mapping, and a proper treatment of stimulus-response repetitions. Using spatial indicator stimuli that minimized the contributions of stimulus-response mapping, Experiment 2 compared 4 effector conditions-the factorial combination of 1 or 3 fingers on one or both hands. The results showed that the increase in the uncertainty effect associated with the number of effectors is negatively accelerated and possibly additive across the variation of hands and fingers. (PsycINFO Database Record (c) 2019 APA, all rights reserved).

Published

2019

46. Altered Brain Activation During Memory Retrieval Precedes and Predicts Conversion to Psychosis in Individuals at Clinical High Risk.

Author

Cao, Hengyi, McEwen, Sarah C, Chung, Yoonho, Chén, Oliver Y, Bearden, Carrie E, Addington, Jean, Goodyear, Bradley, Cadenhead, Kristin S, Mirzakhanian, Heline, Cornblatt, Barbara A, Carrión, Ricardo E, Mathalon, Daniel H, McGlashan, Thomas H, Perkins, Diana O, Belger, Aysenil, Seidman, Larry J, Thermenos, Heidi, Tsuang, Ming T, van Erp, Theo GM, Walker, Elaine F, Hamann, Stephan, Anticevic, Alan, Woods, Scott W, and Cannon, Tyrone D

Subjects

Clinical Research, Serious Mental Illness, Neurosciences, Mental Health, Schizophrenia, Brain Disorders, 2.1 Biological and endogenous factors, 2.3 Psychological, social and economic factors, Aetiology, Mental health, Adolescent, Adult, Association Learning, Cerebral Cortex, Disease Progression, Female, Functional Neuroimaging, Humans, Longitudinal Studies, Magnetic Resonance Imaging, Male, Mental Recall, Prodromal Symptoms, Psychotic Disorders, Reaction Time, Risk, Young Adult, fMRI, associative memory, memory retrieval, psychosis, clinical high risk, Medical and Health Sciences, Psychology and Cognitive Sciences, Psychiatry

Abstract

Memory deficits are a hallmark of psychotic disorders such as schizophrenia. However, whether the neural dysfunction underlying these deficits is present before the onset of illness and potentially predicts conversion to psychosis is unclear. In this study, we investigated brain functional alterations during memory processing in a sample of 155 individuals at clinical high risk (including 18 subjects who later converted to full psychosis) and 108 healthy controls drawn from the second phase of the North American Prodrome Longitudinal Study (NAPLS-2). All participants underwent functional magnetic resonance imaging with a paired-associate memory paradigm at the point of recruitment and were clinically followed up for approximately 2 years. We found that at baseline, subjects at high risk showed significantly higher activation during memory retrieval in the prefrontal, parietal, and bilateral temporal cortices (PFWE < .035). This effect was more pronounced in converters than nonconverters and was particularly manifested in unmedicated subjects (P < .001). The hyperactivation was significantly correlated with retrieval reaction time during scan in converters (P = .009) but not in nonconverters and controls, suggesting an exaggerated retrieval effort. These findings suggest that hyperactivation during memory retrieval may mark processes associated with conversion to psychosis, and such measures have potential as biomarkers for psychosis prediction.

Published

2019

47. Beta-band activity in medial prefrontal cortex predicts source memory encoding and retrieval accuracy.

Author

Subramaniam, Karuna, Hinkley, Leighton BN, Mizuiri, Danielle, Kothare, Hardik, Cai, Chang, Garrett, Coleman, Findlay, Anne, Houde, John F, and Nagarajan, Srikantan S

Subjects

Prefrontal Cortex, Humans, Magnetic Resonance Imaging, Beta Rhythm, Brain Mapping, Cognition, Memory, Mental Recall, Decision Making, Reaction Time, Adult, Middle Aged, Female, Male, Young Adult

Abstract

Reality monitoring is defined as the ability to distinguish internally self-generated information from externally-derived information. The medial prefrontal cortex (mPFC) is a key brain region subserving reality monitoring and has been shown to be activated specifically during the retrieval of self-generated information. However, it is unclear if mPFC is activated during the encoding of self-generated information into memory. If so, it is important to understand whether successful retrieval of self-generated information critically depends on enhanced neural activity within mPFC during initial encoding of this self-generated information. We used magnetoencephalographic imaging (MEGI) to determine the timing and location of cortical activity during a reality-monitoring task involving self generated contextual source memory encoding and retrieval. We found both during encoding and retrieval of self-generated information, when compared to externally-derived information, mPFC showed significant task induced oscillatory power modulation in the beta-band. During initial encoding of self-generated information, greater mPFC beta-band power reductions occurred within a time window of -700 ms to -500 ms prior to vocalization. This increased activity in mPFC was not observed during encoding of externally-derived information. Additionally, increased mPFC activity during encoding of self-generated information predicted subsequent retrieval accuracy of this self-generated information. Beta-band activity in mPFC was also observed during the initial retrieval of self-generated information within a time window of 300 to 500 ms following stimulus onset and correlated with accurate retrieval performance of self-generated information. Together, these results further highlight the importance of mPFC in mediating the initial generation and awareness of participants' internal thoughts.

Published

2019

48. Biases in processing of mood-congruent facial expressions in depression

Author

Van Vleet, Thomas, Stark-Inbar, Alit, Merzenich, Michael M, Jordan, Joshua T, Wallace, Deanna L, Lee, Morgan B, Dawes, Heather E, Chang, Edward F, and Nahum, Mor

Subjects

Biological Psychology, Psychology, Clinical Research, Behavioral and Social Science, Brain Disorders, Depression, Mind and Body, Mental Health, Mental health, Adult, Affect, Bias, Cognition, Depressive Disorder, Major, Emotions, Facial Expression, Female, Happiness, Humans, Male, Middle Aged, Reaction Time, Young Adult, Major depressive disorder, MDD, Mood disorders, Affect perception, Processing bias, Medical and Health Sciences, Psychology and Cognitive Sciences, Psychiatry, Clinical sciences, Clinical and health psychology

Abstract

Cognitive models of depression suggest that depressed individuals exhibit a tendency to attribute negative meaning to neutral stimuli, and enhanced processing of mood-congruent stimuli. However, evidence thus far has been inconsistent. In this study, we sought to identify both differential interpretation of neutral information as well as emotion processing biases associated with depression. Fifty adult participants completed standardized mood-related questionnaires, a novel immediate mood scale questionnaire (IMS-12), and a novel task, Emotion Matcher, in which they were required to indicate whether pairs of emotional faces show the same expression or not. We found that overall success rate and reaction time on the Emotion Matcher task did not differ as a function of severity of depression. However, more depressed participants had significantly worse performance when presented with sad-neutral face pairs, as well as increased reaction times to happy-happy pairs. In addition, accuracy of the sad-neutral pairs was found to be significantly associated with depression severity in a regression model. Our study provides partial support for the mood-congruent hypothesis, revealing only a potential bias in interpretation of sad and neutral expressions, but not a general deficit in processing of facial expressions. The potential of such bias in serving as a predictor for depression should be further examined in future studies.

Published

2019

49. Cross-Task Contributions of Frontobasal Ganglia Circuitry in Response Inhibition and Conflict-Induced Slowing.

Author

Jahfari, Sara, Ridderinkhof, K Richard, Collins, Anne GE, Knapen, Tomas, Waldorp, Lourens J, and Frank, Michael J

Subjects

Biological Psychology, Psychology, Basic Behavioral and Social Science, Clinical Research, Behavioral and Social Science, Mental health, Adult, Basal Ganglia, Brain Mapping, Conflict, Psychological, Decision Making, Female, Frontal Lobe, Humans, Inhibition, Psychological, Magnetic Resonance Imaging, Male, Neural Pathways, Psychomotor Performance, Reaction Time, Reinforcement, Psychology, Subthalamic Nucleus, Uncertainty, Young Adult, basal ganglia systems, Bayesian hierarchical modeling, fMRI effective and functional connectivity, reinforcement learning, response inhibition, Neurosciences, Cognitive Sciences, Experimental Psychology, Biological psychology, Cognitive and computational psychology

Abstract

Why are we so slow in choosing the lesser of 2 evils? We considered whether such slowing relates to uncertainty about the value of these options, which arises from the tendency to avoid them during learning, and whether such slowing relates to frontosubthalamic inhibitory control mechanisms. In total, 49 participants performed a reinforcement-learning task and a stop-signal task while fMRI was recorded. A reinforcement-learning model was used to quantify learning strategies. Individual differences in lose-lose slowing related to information uncertainty due to sampling, and independently, to less efficient response inhibition in the stop-signal task. Neuroimaging analysis revealed an analogous dissociation: subthalamic nucleus (STN) BOLD activity related to variability in stopping latencies, whereas weaker frontosubthalamic connectivity related to slowing and information sampling. Across tasks, fast inhibitors increased STN activity for successfully canceled responses in the stop task, but decreased activity for lose-lose choices. These data support the notion that fronto-STN communication implements a rapid but transient brake on response execution, and that slowing due to decision uncertainty could result from an inefficient release of this "hold your horses" mechanism.

Published

2019

50. Causal Evidence for the Role of Neuronal Oscillations in Top–Down and Bottom–Up Attention

Author

Riddle, Justin, Hwang, Kai, Cellier, Dillan, Dhanani, Sofia, and D'Esposito, Mark

Subjects

Biological Psychology, Psychology, Eye Disease and Disorders of Vision, Adolescent, Adult, Attention, Beta Rhythm, Brain Mapping, Female, Frontal Lobe, Gamma Rhythm, Humans, Magnetic Resonance Imaging, Male, Parietal Lobe, Reaction Time, Saccades, Spatial Processing, Transcranial Magnetic Stimulation, Visual Fields, Visual Perception, Young Adult, Neurosciences, Cognitive Sciences, Experimental Psychology, Biological psychology, Cognitive and computational psychology

Abstract

Beta and gamma frequency neuronal oscillations have been implicated in top-down and bottom-up attention. In this study, we used rhythmic TMS to modulate ongoing beta and gamma frequency neuronal oscillations in frontal and parietal cortex while human participants performed a visual search task that manipulates bottom-up and top-down attention (single feature and conjunction search). Both task conditions will engage bottom-up attention processes, although the conjunction search condition will require more top-down attention. Gamma frequency TMS to superior precentral sulcus (sPCS) slowed saccadic RTs during both task conditions and induced a response bias to the contralateral visual field. In contrary, beta frequency TMS to sPCS and intraparietal sulcus decreased search accuracy only during the conjunction search condition that engaged more top-down attention. Furthermore, beta frequency TMS increased trial errors specifically when the target was in the ipsilateral visual field for the conjunction search condition. These results indicate that beta frequency TMS to sPCS and intraparietal sulcus disrupted top-down attention, whereas gamma frequency TMS to sPCS disrupted bottom-up, stimulus-driven attention processes. These findings provide causal evidence suggesting that beta and gamma oscillations have distinct functional roles for cognition.

Published

2019