Jude F. Mitchell scite author profile

Regulation of circadian period in humans was thought to differ from that of other species, with the period of the activity rhythm reported to range from 13 to 65 hours (median 25.2 hours) and the period of the body temperature rhythm reported to average 25 hours in adulthood, and to shorten with age. However, those observations were based on studies of humans exposed to light levels sufficient to confound circadian period estimation. Precise estimation of the periods of the endogenous circadian rhythms of melatonin, core body temperature, and cortisol in healthy young and older individuals living in carefully controlled lighting conditions has now revealed that the intrinsic period of the human circadian pacemaker averages 24.18 hours in both age groups, with a tight distribution consistent with other species. These findings have important implications for understanding the pathophysiology of disrupted sleep in older people.

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Spatial Attention Decorrelates Intrinsic Activity Fluctuations in Macaque Area V4

Mitchell

Sundberg

Reynolds

2009

Neuron

682

114

805

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Summary Attention typically amplifies neuronal responses evoked by task-relevant stimuli, while attenuating responses to task-irrelevant distracters. In this context, visual distracters constitute an external source of noise that is diminished to improve attended signal quality. Activity that is internal to the cortex itself, stimulus independent ongoing correlated fluctuations in firing, might also act as task-irrelevant noise. To examine this, we recorded from area V4 of macaques performing an attention-demanding task. The firing of neurons to identically repeated stimuli was highly variable. Much of this variability originates from ongoing low frequency (<5 Hz) fluctuations in rate correlated across the neuronal population. When attention is directed to a stimulus inside a neuron’s receptive field these correlated fluctuations in rate were reduced. This attention-dependent reduction of ongoing cortical activity improves the signal to noise ratio of pooled neural signals substantially more than attention-dependent increases in firing rate.

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Differential Attention-Dependent Response Modulation across Cell Classes in Macaque Visual Area V4

Mitchell

Sundberg

Reynolds

2007

Neuron

624

111

719

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The cortex contains multiple cell types, but studies of attention have not distinguished between them, limiting understanding of the local circuits that transform attentional feedback into improved visual processing. Parvalbumin-expressing inhibitory interneurons can be distinguished from pyramidal neurons based on their briefer action potential durations. We recorded neurons in area V4 as monkeys performed an attention-demanding task. We find that the distribution of action potential durations is strongly bimodal. Neurons with narrow action potentials have higher firing rates and larger attention-dependent increases in absolute firing rate than neurons with broad action potentials. The percentage increase in response is similar across the two classes. We also find evidence that attention increases the reliability of the neuronal response. This modulation is more than two-fold stronger among putative interneurons. These findings lead to the surprising conclusion that the strongest attentional modulation occurs among local interneurons that do not transmit signals between areas.

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Jude F. Mitchell

Stability, Precision, and Near-24-Hour Period of the Human Circadian Pacemaker

Spatial Attention Decorrelates Intrinsic Activity Fluctuations in Macaque Area V4

Differential Attention-Dependent Response Modulation across Cell Classes in Macaque Visual Area V4

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