From neurovascular coupling to neurovascular cascade: A study on neural, autonomic and vascular transients in attention

V. Bari; P. Calcagnile; E. Molteni; R. Re; D. Contini; L. Spinelli; M. Caffini; A. Torricelli; R. Cubeddu; S. Cerutti; A. M. Bianchi

doi:10.1088/0967-3334/33/8/1379

From neurovascular coupling to neurovascular cascade: A study on neural, autonomic and vascular transients in attention

V. Bari, P. Calcagnile, E. Molteni, R. Re, D. Contini, L. Spinelli, M. Caffini, A. Torricelli, R. Cubeddu, S. Cerutti, A. M. Bianchi

IRCCS Policlinico San Donato

Research output: Contribution to journal › Article › peer-review

Abstract

Mental processes bring about neural, vascular and autonomic changes in the brain cortex. Due to the different nature of these modifications, their onsets show no synchrony and time dynamics is often strongly dissimilar. After acquiring data from a group of 16 subjects, we estimated temporal correlation between task and signals in order to assess possible influences induced by an attentive task on electroencephalographic (EEG), heart rate variability (HRV), oxy- and deoxy-haemoglobin concentration signals. We also investigated correlations and time delays between couples of different biological signals. This allowed for the isolation of a subgroup of subjects showing similar tracks. Cardiac frequency and deoxy-haemoglobin signals displayed a strong positive correlation with the task design, while EEG alpha rhythm and oxygenation showed a negative correlation. Neural electrical response was nearly instantaneous with respect to the task progression, and autonomic response showed a mean delay of about 15s and a slower hemodynamic response (mean delay above 20s) was finally induced. Globally, the task elicited a cascade of responses, in which delays can be quantified.

Original language	English
Pages (from-to)	1379-1397
Number of pages	19
Journal	Physiological Measurement
Volume	33
Issue number	8
DOIs	https://doi.org/10.1088/0967-3334/33/8/1379
Publication status	Published - Aug 2012

Keywords

divided attention
EEG
hemodynamic response
neurovascular coupling
NIRS

ASJC Scopus subject areas

Biophysics
Physiology
Physiology (medical)

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10.1088/0967-3334/33/8/1379

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abstract = "Mental processes bring about neural, vascular and autonomic changes in the brain cortex. Due to the different nature of these modifications, their onsets show no synchrony and time dynamics is often strongly dissimilar. After acquiring data from a group of 16 subjects, we estimated temporal correlation between task and signals in order to assess possible influences induced by an attentive task on electroencephalographic (EEG), heart rate variability (HRV), oxy- and deoxy-haemoglobin concentration signals. We also investigated correlations and time delays between couples of different biological signals. This allowed for the isolation of a subgroup of subjects showing similar tracks. Cardiac frequency and deoxy-haemoglobin signals displayed a strong positive correlation with the task design, while EEG alpha rhythm and oxygenation showed a negative correlation. Neural electrical response was nearly instantaneous with respect to the task progression, and autonomic response showed a mean delay of about 15s and a slower hemodynamic response (mean delay above 20s) was finally induced. Globally, the task elicited a cascade of responses, in which delays can be quantified.",

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AU - Bari, V.

AU - Calcagnile, P.

AU - Molteni, E.

AU - Re, R.

AU - Contini, D.

AU - Spinelli, L.

AU - Caffini, M.

AU - Torricelli, A.

AU - Cubeddu, R.

AU - Cerutti, S.

AU - Bianchi, A. M.

PY - 2012/8

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N2 - Mental processes bring about neural, vascular and autonomic changes in the brain cortex. Due to the different nature of these modifications, their onsets show no synchrony and time dynamics is often strongly dissimilar. After acquiring data from a group of 16 subjects, we estimated temporal correlation between task and signals in order to assess possible influences induced by an attentive task on electroencephalographic (EEG), heart rate variability (HRV), oxy- and deoxy-haemoglobin concentration signals. We also investigated correlations and time delays between couples of different biological signals. This allowed for the isolation of a subgroup of subjects showing similar tracks. Cardiac frequency and deoxy-haemoglobin signals displayed a strong positive correlation with the task design, while EEG alpha rhythm and oxygenation showed a negative correlation. Neural electrical response was nearly instantaneous with respect to the task progression, and autonomic response showed a mean delay of about 15s and a slower hemodynamic response (mean delay above 20s) was finally induced. Globally, the task elicited a cascade of responses, in which delays can be quantified.

AB - Mental processes bring about neural, vascular and autonomic changes in the brain cortex. Due to the different nature of these modifications, their onsets show no synchrony and time dynamics is often strongly dissimilar. After acquiring data from a group of 16 subjects, we estimated temporal correlation between task and signals in order to assess possible influences induced by an attentive task on electroencephalographic (EEG), heart rate variability (HRV), oxy- and deoxy-haemoglobin concentration signals. We also investigated correlations and time delays between couples of different biological signals. This allowed for the isolation of a subgroup of subjects showing similar tracks. Cardiac frequency and deoxy-haemoglobin signals displayed a strong positive correlation with the task design, while EEG alpha rhythm and oxygenation showed a negative correlation. Neural electrical response was nearly instantaneous with respect to the task progression, and autonomic response showed a mean delay of about 15s and a slower hemodynamic response (mean delay above 20s) was finally induced. Globally, the task elicited a cascade of responses, in which delays can be quantified.

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KW - hemodynamic response

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KW - NIRS

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From neurovascular coupling to neurovascular cascade: A study on neural, autonomic and vascular transients in attention

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Keywords

ASJC Scopus subject areas

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