We are still hiring for our computational focus lab coordinator position!

If you have a computational / software engineering background and are looking for more research experience before applying to graduate school, this would be a great fit.

Read more about our lab here!
www.vislearnlab.org

I’m looking forward to continuing my research in developmental NeuroAI. If you are hiring in this area, I would love to hear from you.

It has been such a privilege to be part of the Foundcog team and the @trinityneuro.bsky.social community. I’m incredibly grateful to Rhodri for this opportunity, and to @clionaod.bsky.social, @annatruzzi.bsky.social and the wider team for their contributions, support, and all the fun along the way.

Delighted to share that I successfully defended my PhD thesis 'A Window into the Infant’s Visual World: Through a NeuroAI Lens' at @tcddublin.bsky.social, supervised by @rhodricusack.bsky.social. We used awake infant fMRI and deep neural networks to understand how infants perceive the visual world.

Why You Can’t Remember Being a Toddler This form of amnesia is almost universal, but has long been overlooked.

Why can't you remember being a toddler? Or can you?

Nice feature in Time of our lab's work on infantile amnesia at @tcddublin.bsky.social

Also of the labs of @sarahdpower.bsky.social at MPI Berlin, @franklandlab.bsky.social at Sick Kids, and Nick Turk-Browne at Yale.

time.com/7380496/why-...

Thank you very much to Guarantors of Brain for funding this travel and to CNS for the Graduate Student Award!

I will be presenting my poster D109 from 8-10 am this morning. Here is how it would look to a 2-month-old infant from a viewing distance of 1 m! If you are curious about our work, please stop by to learn more.

I am very excited to be presenting our work using awake infant fMRI and developmentally inspired deep neural networks to better understand the visual features that the developing brain encodes infants view objects at #CNS2026 in Vancouver this week!

What and how do babies see? Rhodri Cusack discusses early visual development.
Come to the session for the pics of babies (like the one below of baby watching "infant IMAX") and stay for the great science!
@rhodricusack.bsky.social
#CNS2026 2/

Tasks include watching movies, like Moana, while tracking brain development every 2 weeks
A limitation of the work is that it's so far an n of 1, Ellis' daughter
#CNS2026 7/
@camerontellis.bsky.social

Infant brain categorizes common objects by two months of age Brain activity patterns in the ventral visual cortex appear to distinguish images across 12 categories, including birds and trees, fMRI scans suggest.

The Transmitter writes about @clionaod.bsky.social's work with
@ainedineen.bsky.social, @annatruzzi.bsky.social, Graham King, @lorinanaci.bsky.social, Keelin Harrison, Enna-Louise D'Arcy, Jessica White, @chiarac.bsky.social, Tamrin Holloway, Anna Kravchenko, @diedrichsenjorn.bsky.social!

Infant brain categorizes common objects by two months of age Brain activity patterns in the ventral visual cortex appear to distinguish images across 12 categories, including birds and trees, fMRI scans suggest.

Functional MRI scans of more than 100 2-month-old infants suggest that they are capable of distinguishing among a variety of different objects. The findings challenge perceptions of cognitive development as a gradual process.

By @helenak.bsky.social

www.thetransmitter.org/cognitive-ne...

This is figure 2, which shows visual representations from infancy to adulthood.

Human babies may be able to visually categorize different objects earlier than previously thought, even at two months of age, according to research in Nature #Neuroscience. go.nature.com/4tcQOu3 🧪

Infants have rich visual categories in ventrotemporal cortex at 2 months of age - Nature Neuroscience Using infant fMRI, the authors show that, by 2 months of age, representations in high-level visual cortex encode visual categories that align with deep neural networks, and lateral object-selective regions are later to develop.

Human babies may be able to visually categorize different objects earlier than previously thought, even at two months of age, according to research published in Nature Neuroscience. The results challenge our understanding of visual development in infancy:

#Neuroscience #Neuroskyence 🧠

Deep learning in fetal, infant, and toddler neuroimaging research Artificial intelligence (AI) is increasingly being integrated into everyday tasks and work environments. However, its adoption in medical image analys…

This paper was an awesome collaborative effort of a @fitngin.bsky.social working group. It provides a detailed review of how DNNs can be used to support dev neuro research

@lauriebayet.bsky.social and I wrote the network modeling section about how DNNs can be used to test developmental theories 🧵

Functional Magnetic Resonance Imaging in Awake Infants: Insights From More Than 750 Scanning Sessions Functional magnetic resonance imaging (fMRI) in awake infants has the potential to reveal how the early developing brain gives rise to cognition and behavior. However, awake infant fMRI poses signifi....

Awake infant fMRI offers a rare window into early brain and cognitive development. In a new paper out now in Infancy, we leverage data from hundreds of infant scans from the Saxe and Turk-Browne Labs to reveal what factors drive scanning success — and how future studies can maximize data retention!

Through the Foundcog project we scanned 100+ infants with awake fMRI. In this Nature Neuroscience paper led by clionaod.bsky.social, we show that, by 2-months, infants’ brains already encode rich representations of object category.

Congratulations Clíona on such beautiful results! 🧠✨

And thank you so much to all of our participants and their families!

1/7 Can infants recognise the world around them? 👶🧠 As part of the FOUNDCOG project, we scanned 134 awake infants using fMRI. Published today in Nature Neuroscience, our research reveals 2-month-old infants already possess complex visual representations in VVC that align with DNNs.

The FIT'NG Trainee Committee is excited to be recruiting new members!

It’s a great way to:
✨ Build your network
✨ Gain leadership experience
✨ Shape programming for trainees across the society

Interested? Fill out our form by September 23rd: tinyurl.com/TraineeCommi...

@mariesantillo.bsky.social shows that 2 month old infant show significant activity in the MD cortex which is different from 9 month olds and independent of visual complexity

Dr. Anna Truzzi shares her fascinating findings on how baby brains exhibit longer timescales using both MRI and EEG!

Cliona O'Doherty present pioneering work relating awake infant fMRI data to adults and computational models of vision, with strong correspondence at 2 months of age!

Exciting new preprint from the lab: “Adopting a human developmental visual diet yields robust, shape-based AI vision”. A most wonderful case where brain inspiration massively improved AI solutions.

Work with @zejinlu.bsky.social @sushrutthorat.bsky.social and Radek Cichy

arxiv.org/abs/2507.03168

Potential role of developmental experience in the emergence of the parvo-magno distinction - Communications Biology Developmentally-driven computational modeling study suggests that early sensory experience shapes distinct neuronal response properties in the visual system, providing a potential account of the emerg...

1/ New paper out in @commsbio.nature.com, led by @marinv.bsky.social: doi.org/10.1038/s420...! Across several past studies, we showed how newborns' degraded vision may benefit human development and inspire more robust deep networks. We have referred to this as Adaptive Initial Degradations (AID).

Fast and robust visual object recognition in young children The visual recognition abilities of preschool children rival those of state-of-the-art artificial intelligence models.

My paper with @stellalourenco.bsky.social ‬is now out in Science Advances!

We found that children have robust object recognition abilities that surpass many ANNs. Models only outperformed kids when their training far exceeded what a child could experience in their lifetime

doi.org/10.1126/scia...

CCN 2025 Satellite Event Background The human visual system is full of optimisations—mechanisms designed to extract the most useful information from a constant stream of incoming data. The field of neuro-AI has made significa...

Not just one, but two fantastic chances to discuss how infant development can inform machine learning and vice-versa at CCN 2025 in Amsterdam!!! Satellite workshop sites.google.com/view/child2m...
and Generative Adversarial Collaboration sites.google.com/ccneuro.org/...

First morning in Brisbane! Looking forward to exploring the city before #OHBM2025 kicks off! Excited to be here to share my research on early MD network engagement in infants. Come chat at poster #1029 🧠🌎

Hippocampal encoding of memories in human infants Humans lack memories for specific events from the first few years of life. We investigated the mechanistic basis of this infantile amnesia by scanning the brains of awake infants with functional magne...

Why do we not remember being a baby? One idea is that the hippocampus, which is essential for episodic memory in adults, is too immature to form individual memories in infancy. We tested this using awake infant fMRI, new in @science.org #ScienceResearch www.science.org/doi/10.1126/...

Don't miss our next FIT'NG Together event this Thursday, April 10th at 12pm EST where we will discuss a new paper on Hippocampal Encoding of Memories in Human Infants (DOI: 10.1126/science.adt7570) with @tristansyates.bsky.social and other authors!

Register for FREE at: tinyurl.com/fitngtogether