fMRI
Recent articles
To understand the brain as a network organ, we must image cortical layers
Human neuroscience research has largely overlooked this spatial scale—which bridges cells and brain areas. But new advances in functional MRI technology are changing that.

To understand the brain as a network organ, we must image cortical layers
Human neuroscience research has largely overlooked this spatial scale—which bridges cells and brain areas. But new advances in functional MRI technology are changing that.
Exclusive: Recruitment issues jeopardize ambitious plan for human brain atlas
A lack of six new brain donors may stop the project from meeting its goal to pair molecular and cellular data with the functional organization of the cortex.

Exclusive: Recruitment issues jeopardize ambitious plan for human brain atlas
A lack of six new brain donors may stop the project from meeting its goal to pair molecular and cellular data with the functional organization of the cortex.
During decision-making, brain shows multiple distinct subtypes of activity
Person-to-person variability in brain activity might represent meaningful differences in cognitive processes, rather than random noise.

During decision-making, brain shows multiple distinct subtypes of activity
Person-to-person variability in brain activity might represent meaningful differences in cognitive processes, rather than random noise.
Too much or too little brain synchrony may underlie autism subtypes
Functional connectivity differences in autism mouse models point to two subtypes that correspond to patterns seen in some people with the condition.

Too much or too little brain synchrony may underlie autism subtypes
Functional connectivity differences in autism mouse models point to two subtypes that correspond to patterns seen in some people with the condition.
Functional MRI can do more than you think
Recent technological advances provide a range of new and different information about brain physiology. But taking full advantage of these gains depends on collaboration between engineers and neuroscientists.

Functional MRI can do more than you think
Recent technological advances provide a range of new and different information about brain physiology. But taking full advantage of these gains depends on collaboration between engineers and neuroscientists.
To make a meaningful contribution to neuroscience, fMRI must break out of its silo
We need to develop research programs that link phenomena across levels, from genes and molecules to cells, circuits, networks and behavior.

To make a meaningful contribution to neuroscience, fMRI must break out of its silo
We need to develop research programs that link phenomena across levels, from genes and molecules to cells, circuits, networks and behavior.
What infant fMRI is revealing about the developing mind
Cognitive neuroscientists have finally clocked how to perform task-based functional MRI experiments in awake babies—long known for their inability to lie still or take direction. Next, they aim to watch cognition take shape and settle a debate about our earliest memories—with one group publishing a big clue today.

What infant fMRI is revealing about the developing mind
Cognitive neuroscientists have finally clocked how to perform task-based functional MRI experiments in awake babies—long known for their inability to lie still or take direction. Next, they aim to watch cognition take shape and settle a debate about our earliest memories—with one group publishing a big clue today.
Thanks to new technologies, neuroscientists have more direct access to the human brain than ever before
Model systems continue to offer us tremendous insight, but it’s time for basic researchers to train their sights on the human brain. If I were starting my career today, I would focus on human neurobiology.

Thanks to new technologies, neuroscientists have more direct access to the human brain than ever before
Model systems continue to offer us tremendous insight, but it’s time for basic researchers to train their sights on the human brain. If I were starting my career today, I would focus on human neurobiology.
Cell ‘fingerprints’ identify distinct cortical networks
These networks align with different assemblages of cells, a finding that could reveal how cellular diversity influences brain function, according to a new study.

Cell ‘fingerprints’ identify distinct cortical networks
These networks align with different assemblages of cells, a finding that could reveal how cellular diversity influences brain function, according to a new study.
In case you missed it: Standout news stories from 2024
These five stories—on the pregnant brain, a failed imaging method and more—top our list of some of the most notable neuroscience research findings this year.

In case you missed it: Standout news stories from 2024
These five stories—on the pregnant brain, a failed imaging method and more—top our list of some of the most notable neuroscience research findings this year.
Explore more from The Transmitter
Astrocytes sense neuromodulators to orchestrate neuronal activity and shape behavior
Astrocytes serve as crucial mediators of neuromodulatory processes previously attributed to direct communication between neurons, four new studies show.

Astrocytes sense neuromodulators to orchestrate neuronal activity and shape behavior
Astrocytes serve as crucial mediators of neuromodulatory processes previously attributed to direct communication between neurons, four new studies show.
Authors correct image errors in Neuron paper that challenged microglia-to-neuron conversion
The issue with the supplementary figures likely does not change the conclusions of the paper, according to an outside expert.

Authors correct image errors in Neuron paper that challenged microglia-to-neuron conversion
The issue with the supplementary figures likely does not change the conclusions of the paper, according to an outside expert.
Building a climate neuroscience subfield: Q&A with Angie Michaiel
Michaiel, a program officer at the Kavli Foundation, shares what it took to cultivate research on the relationship between climate change and the nervous system.

Building a climate neuroscience subfield: Q&A with Angie Michaiel
Michaiel, a program officer at the Kavli Foundation, shares what it took to cultivate research on the relationship between climate change and the nervous system.