Tom Bullock scite author profile

Traits associated with autism and social anxiety were assessed in a UK student population (n = 1325) using the Autism-spectrum Quotient and the Liebowitz Social Anxiety Scale. Clinically relevant levels of autistic traits were observed in 3.3% of the cohort; 10.1% of the cohort reported clinically relevant levels of social anxiety; 1.8% of the cohort met clinically relevant cut-offs for both conditions. There was a significant positive correlation between scores on the two scales (r = .51); students with high levels of autistic traits were more likely to report increased social anxiety than those with average or low levels of autistic traits. Level of social anxiety was best predicted by autistic traits associated with social skill, attention switching and communication, accounting for 33% of the variance in social anxiety scores. Social skill was a better predictor of social anxiety in males than females; attention switching ability was a better predictor of social anxiety in females than males. Students with high levels of autistic traits displayed heightened anxiety to situations and activities necessary for the successful completion of their degree. Implications for student well-being and attainment are discussed.

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Acute Exercise Modulates Feature-selective Responses in Human Cortex

Bullock

Elliott

Serences

et al. 2017

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An organism's current behavioral state influences ongoing brain activity. Nonhuman mammalian and invertebrate brains exhibit large increases in the gain of feature-selective neural responses in sensory cortex during locomotion, suggesting that the visual system becomes more sensitive when actively exploring the environment. This raises the possibility that human vision is also more sensitive during active movement. To investigate this possibility, we used an inverted encoding model technique to estimate feature-selective neural response profiles from EEG data acquired from participants performing an orientation discrimination task. Participants (n = 18) fixated at the center of a flickering (15 Hz) circular grating presented at one of nine different orientations and monitored for a brief shift in orientation that occurred on every trial. Participants completed the task while seated on a stationary exercise bike at rest and during low- and high-intensity cycling. We found evidence for inverted-U effects; such that the peak of the reconstructed feature-selective tuning profiles was highest during low-intensity exercise compared with those estimated during rest and high-intensity exercise. When modeled, these effects were driven by changes in the gain of the tuning curve and in the profile bandwidth during low-intensity exercise relative to rest. Thus, despite profound differences in visual pathways across species, these data show that sensitivity in human visual cortex is also enhanced during locomotive behavior. Our results reveal the nature of exercise-induced gain on feature-selective coding in human sensory cortex and provide valuable evidence linking the neural mechanisms of behavior state across species.

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Acute exercise and aerobic fitness influence selective attention during visual search

Bullock

Giesbrecht

2014

Front. Psychol.

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Successful goal directed behavior relies on a human attention system that is flexible and able to adapt to different conditions of physiological stress. However, the effects of physical activity on multiple aspects of selective attention and whether these effects are mediated by aerobic capacity, remains unclear. The aim of the present study was to investigate the effects of a prolonged bout of physical activity on visual search performance and perceptual distraction. Two groups of participants completed a hybrid visual search flanker/response competition task in an initial baseline session and then at 17-min intervals over a 2 h 16 min test period. Participants assigned to the exercise group engaged in steady-state aerobic exercise between completing blocks of the visual task, whereas participants assigned to the control group rested in between blocks. The key result was a correlation between individual differences in aerobic capacity and visual search performance, such that those individuals that were more fit performed the search task more quickly. Critically, this relationship only emerged in the exercise group after the physical activity had begun. The relationship was not present in either group at baseline and never emerged in the control group during the test period, suggesting that under these task demands, aerobic capacity may be an important determinant of visual search performance under physical stress. The results enhance current understanding about the relationship between exercise and cognition, and also inform current models of selective attention.

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Assessing the risks of haemolysis as an adverse reaction following the transfusion of ABO incompatible plasma-containing components - A scoping review

McCullagh¹,

Cardigan²,

Brunskill³

et al. 2022

Blood Reviews

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Dual Process Coding of Recalled Locations in Human Oscillatory Brain Activity

2019

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A mental representation of the location of an object can be constructed using sensory information selected from the environment and information stored internally. Human electrophysiological evidence indicates that behaviorally relevant locations, regardless of the source of sensory information, are represented in alpha-band oscillations suggesting a shared process. Here, we present evidence from human subjects of either sex for two distinct alpha-band-based processes that separately support the representation of location, exploiting sensory evidence sampled either externally or internally.

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StressNet: Detecting Stress in Thermal Videos

Kumar

Iftekhar

Goebel

et al. 2021

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Effects of changes in end‐tidal PO ₂ and PCO ₂ on neural responses during rest and sustained attention

Bullock

Giesbrecht

Beaudin

et al. 2021

Physiological Reports

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Impairments of cognitive function during alterations in arterial blood gases (e.g., high‐altitude hypoxia) may result from the disruption of neurovascular coupling; however, the link between changes in arterial blood gases, cognition, and cerebral blood flow (CBF) is poorly understood. To interrogate this link, we developed a multimodal empirical strategy capable of monitoring neural correlates of cognition and CBF simultaneously. Human participants performed a sustained attention task during hypoxia, hypercapnia, hypocapnia, and normoxia while electroencephalographic (EEG) activity and CBF (middle and posterior cerebral arteries; transcranial Doppler ultrasound) were simultaneously measured. The protocol alternated between rest and engaging in a visual target detection task that required participants to monitor a sequence of brief‐duration colored circles and detect infrequent, longer duration circles (targets). The target detection task was overlaid on a large, circular checkerboard that provided robust visual stimulation. Spectral decomposition and event‐related potential (ERP) analyses were applied to the EEG data to investigate spontaneous and task‐specific fluctuations in neural activity. There were three main sets of findings: (1) spontaneous alpha oscillatory activity was modulated as a function of arterial CO2 (hypocapnia and hypercapnia), (2) task‐related neurovascular coupling was disrupted by all arterial blood gas manipulations, and (3) changes in task‐related alpha and theta band activity and attenuation of the P3 ERP component amplitude were observed during hypocapnia. Since alpha and theta are linked with suppression of visual processing and executive control and P3 amplitude with task difficulty, these data suggest that transient arterial blood gas changes can modulate multiple stages of cognitive information processing.

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Tom Bullock

Multiple stages of information processing are modulated during acute bouts of exercise

The distribution of and relationship between autistic traits and social anxiety in a UK student population

Acute Exercise Modulates Feature-selective Responses in Human Cortex

Acute exercise and aerobic fitness influence selective attention during visual search

Assessing the risks of haemolysis as an adverse reaction following the transfusion of ABO incompatible plasma-containing components - A scoping review

Dual Process Coding of Recalled Locations in Human Oscillatory Brain Activity

StressNet: Detecting Stress in Thermal Videos

Effects of changes in end‐tidal PO ₂ and PCO ₂ on neural responses during rest and sustained attention

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Tom Bullock

Multiple stages of information processing are modulated during acute bouts of exercise

The distribution of and relationship between autistic traits and social anxiety in a UK student population

Acute Exercise Modulates Feature-selective Responses in Human Cortex

Acute exercise and aerobic fitness influence selective attention during visual search

Assessing the risks of haemolysis as an adverse reaction following the transfusion of ABO incompatible plasma-containing components - A scoping review

Dual Process Coding of Recalled Locations in Human Oscillatory Brain Activity

StressNet: Detecting Stress in Thermal Videos

Effects of changes in end‐tidal PO 2 and PCO 2 on neural responses during rest and sustained attention

Contact Info

Product

Resources

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Effects of changes in end‐tidal PO ₂ and PCO ₂ on neural responses during rest and sustained attention