Deciphering laminar-specific neural inputs with line-scanning fMRI

Linking cortical circuit models to human cognition with laminar fMRI

Yang, Jiajia
Huber, Laurentius
Yu, Yinghua
Bandettini, Peter A

September 2021

Laboratory animal research has provided significant knowledge into the function of cortical circuits...

High-resolution CBV-fMRI allows mapping of laminar activity and connectivity of cortical input and output in human M1

Huber, L.
Handwerker, D.
Jangraw, D.
Chen, G.
Hall, A.
Stüber, C.
Gonzalez-Castillo, J.
Ivanov, D.
Marrett, S.
Guidi, M.
Goense, J.
Poser, B.
Bandettini, P.

December 2017

Layer-dependent fMRI allows measurements of information flow in cortical circuits, as afferent and e...

Layer-specific BOLD activation in human V1

Koopmans, Peter J.
Barth, Markus
Norris, David G.

January 2010

The neocortex is known to have a distinct laminar structure which has previously been probed in anim...

Deciphering laminar-specific neural inputs with line-scanning fMRI

Yu, X.
Qian, C.
Chen, D.
Dodd, S.
Koretsky, A.

January 2014

Using a line-scanning method during functional magnetic resonance imaging (fMRI), we obtained high t...

Laminar Specificity of fMRI Onset Times Distinguishes Top Down from Bottom Up Neural Inputs Mediating Cortical Plasiticty

Yu, X.
Qian, C.
Chen , D.
Dodd, S.
Koretsky, A.

April 2013

How to extract specific neural information from fMRI signal remains challenging. Here, we demonstrat...

Multi-Slice LINE-scanning (MS-LINE) method to characterize the laminar specificity and variability in both evoked and resting-state fMRI

Choi, S.
Zeng, H.
Biswal, B.
Rosen, B.
Yu, X.

May 2019

Ultra-high field magnetic field strengths open new possibility for studying the neuronal input/outpu...

Laminar fMRI: Applications for cognitive neuroscience

Lawrence, S.J.
Formisano, E.
Muckli, L.
Lange, F.P. de

January 2019

The cortex is a massively recurrent network, characterized by feedforward and feedback connections b...

Laminar fMRI: applications for cognitive neuroscience

Lawrence, Samuel J.D.
Formisano, Elia
Muckli, Lars
de Lange, Floris P.

August 2019

The cortex is a massively recurrent network, characterized by feedforward and feedback connections b...

Laminar fMRI:applications for cognitive neuroscience

Lawrence, Samuel J D
Formisano, Elia
Muckli, Lars
de Lange, Floris P

August 2019

The cortex is a massively recurrent network, characterized by feedforward and feedback connections b...

Benchmarking laminar fMRI: Neuronal spiking and synaptic activity during top-down and bottom-up processing in the different layers of cortex

Self, Matthew W
van Kerkoerle, Timo
Goebel, R.
Roelfsema, Pieter R

January 2019

High resolution laminar fMRI is beginning to probe responses in the different layers of cortex. What...

Resolving laminar activation in human V1 using ultra-high spatial resolution fMRI at 7T

Kashyap, Sriranga
Ivanov, Dimo
Havlicek, Martin
Sengupta, Shubharthi
Poser, Benedikt A
Uludağ, Kâmil

November 2018

The mesoscopic organization of the human neocortex is of great interest for cognitive neuroscience. ...

Laminar imaging of positive and negative BOLD in human visual cortex at 7 T

Fracasso, Alessio
Luijten, Peter R.
Dumoulin, Serge O.
Petridou, Natalia

January 2018

Deciphering the direction of information flow is critical to understand the brain. Data from non-hum...

Laminar imaging of positive and negative BOLD in human visual cortex at 7T

Fracasso, Alessio
Luijten, Peter R
Dumoulin, Serge O
Petridou, Natalia

January 2018

Deciphering the direction of information flow is critical to understand the brain. Data from non-hum...

Linking cortical circuit models to human cognition with laminar fMRI

Yang, Jiajia
Huber, Laurentius
Yu, Yinghua
Bandettini, Peter A

September 2021

Laboratory animal research has provided significant knowledge into the function of cortical circuits...

High-resolution CBV-fMRI allows mapping of laminar activity and connectivity of cortical input and output in human M1

Huber, L.
Handwerker, D.
Jangraw, D.
Chen, G.
Hall, A.
Stüber, C.
Gonzalez-Castillo, J.
Ivanov, D.
Marrett, S.
Guidi, M.
Goense, J.
Poser, B.
Bandettini, P.

December 2017

Layer-dependent fMRI allows measurements of information flow in cortical circuits, as afferent and e...

Layer-specific BOLD activation in human V1

Koopmans, Peter J.
Barth, Markus
Norris, David G.

January 2010

The neocortex is known to have a distinct laminar structure which has previously been probed in anim...

Deciphering laminar-specific neural inputs with line-scanning fMRI

Yu, X.
Qian, C.
Chen, D.
Dodd, S.
Koretsky, A.

January 2014

Using a line-scanning method during functional magnetic resonance imaging (fMRI), we obtained high t...

Laminar Specificity of fMRI Onset Times Distinguishes Top Down from Bottom Up Neural Inputs Mediating Cortical Plasiticty

Yu, X.
Qian, C.
Chen , D.
Dodd, S.
Koretsky, A.

April 2013

How to extract specific neural information from fMRI signal remains challenging. Here, we demonstrat...

Multi-Slice LINE-scanning (MS-LINE) method to characterize the laminar specificity and variability in both evoked and resting-state fMRI

Choi, S.
Zeng, H.
Biswal, B.
Rosen, B.
Yu, X.

May 2019

Ultra-high field magnetic field strengths open new possibility for studying the neuronal input/outpu...

Laminar fMRI: Applications for cognitive neuroscience

Lawrence, S.J.
Formisano, E.
Muckli, L.
Lange, F.P. de

January 2019

The cortex is a massively recurrent network, characterized by feedforward and feedback connections b...

Laminar fMRI: applications for cognitive neuroscience

Lawrence, Samuel J.D.
Formisano, Elia
Muckli, Lars
de Lange, Floris P.

August 2019

The cortex is a massively recurrent network, characterized by feedforward and feedback connections b...

Laminar fMRI:applications for cognitive neuroscience

Lawrence, Samuel J D
Formisano, Elia
Muckli, Lars
de Lange, Floris P

August 2019

The cortex is a massively recurrent network, characterized by feedforward and feedback connections b...

Benchmarking laminar fMRI: Neuronal spiking and synaptic activity during top-down and bottom-up processing in the different layers of cortex

Self, Matthew W
van Kerkoerle, Timo
Goebel, R.
Roelfsema, Pieter R

January 2019

High resolution laminar fMRI is beginning to probe responses in the different layers of cortex. What...

Resolving laminar activation in human V1 using ultra-high spatial resolution fMRI at 7T

Kashyap, Sriranga
Ivanov, Dimo
Havlicek, Martin
Sengupta, Shubharthi
Poser, Benedikt A
Uludağ, Kâmil

November 2018

The mesoscopic organization of the human neocortex is of great interest for cognitive neuroscience. ...

Laminar imaging of positive and negative BOLD in human visual cortex at 7 T

Fracasso, Alessio
Luijten, Peter R.
Dumoulin, Serge O.
Petridou, Natalia

January 2018

Deciphering the direction of information flow is critical to understand the brain. Data from non-hum...

Laminar imaging of positive and negative BOLD in human visual cortex at 7T

Fracasso, Alessio
Luijten, Peter R
Dumoulin, Serge O
Petridou, Natalia

January 2018

Deciphering the direction of information flow is critical to understand the brain. Data from non-hum...

Linking cortical circuit models to human cognition with laminar fMRI

Yang, Jiajia
Huber, Laurentius
Yu, Yinghua
Bandettini, Peter A

September 2021

Laboratory animal research has provided significant knowledge into the function of cortical circuits...

High-resolution CBV-fMRI allows mapping of laminar activity and connectivity of cortical input and output in human M1

Huber, L.
Handwerker, D.
Jangraw, D.
Chen, G.
Hall, A.
Stüber, C.
Gonzalez-Castillo, J.
Ivanov, D.
Marrett, S.
Guidi, M.
Goense, J.
Poser, B.
Bandettini, P.

December 2017

Layer-dependent fMRI allows measurements of information flow in cortical circuits, as afferent and e...

Layer-specific BOLD activation in human V1

Koopmans, Peter J.
Barth, Markus
Norris, David G.

January 2010

The neocortex is known to have a distinct laminar structure which has previously been probed in anim...

Deciphering laminar-specific neural inputs with line-scanning fMRI

Abstract

Extracted data

Deciphering laminar-specific neural inputs with line-scanning fMRI

Abstract

Extracted data

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