Arshiya Sangchooli (He/They)
@arshiyasan.bsky.social
🧠 Neuroscientist, PhD candidate, lapsed MD
🇦🇺 Monash (Neural Systems and Behaviour Lab), ex Uni Melbourne
👨🔬MRI processing, tractography, computational modelling, cog-neuro, addiction
ADHD 🌈
English & Persian flavors
🇦🇺 Monash (Neural Systems and Behaviour Lab), ex Uni Melbourne
👨🔬MRI processing, tractography, computational modelling, cog-neuro, addiction
ADHD 🌈
English & Persian flavors
Reposted by Arshiya Sangchooli (He/They)
Huge congrats to a fab team on this massive effort!
Francis Normand
@m-gajwani.bsky.social
@jchrispang.bsky.social
J Cruddas
@arshiyasan.bsky.social
Alex Holmes
@stuartoldham.bsky.social
Peter Robinson
Francis Normand
@m-gajwani.bsky.social
@jchrispang.bsky.social
J Cruddas
@arshiyasan.bsky.social
Alex Holmes
@stuartoldham.bsky.social
Peter Robinson
September 19, 2025 at 8:37 PM
Huge congrats to a fab team on this massive effort!
Francis Normand
@m-gajwani.bsky.social
@jchrispang.bsky.social
J Cruddas
@arshiyasan.bsky.social
Alex Holmes
@stuartoldham.bsky.social
Peter Robinson
Francis Normand
@m-gajwani.bsky.social
@jchrispang.bsky.social
J Cruddas
@arshiyasan.bsky.social
Alex Holmes
@stuartoldham.bsky.social
Peter Robinson
Reposted by Arshiya Sangchooli (He/They)
11
Indeed, if we cluster our primates based exclusively on their behaviour, the main 2 clusters show significantly different brain volume. We can also look at the top types of behaviours that distinguish between clusters: social learning, tool use, extractive foraging, manipulation complexity…
Indeed, if we cluster our primates based exclusively on their behaviour, the main 2 clusters show significantly different brain volume. We can also look at the top types of behaviours that distinguish between clusters: social learning, tool use, extractive foraging, manipulation complexity…
July 27, 2025 at 5:43 PM
11
Indeed, if we cluster our primates based exclusively on their behaviour, the main 2 clusters show significantly different brain volume. We can also look at the top types of behaviours that distinguish between clusters: social learning, tool use, extractive foraging, manipulation complexity…
Indeed, if we cluster our primates based exclusively on their behaviour, the main 2 clusters show significantly different brain volume. We can also look at the top types of behaviours that distinguish between clusters: social learning, tool use, extractive foraging, manipulation complexity…
Reposted by Arshiya Sangchooli (He/They)
5
Concatenating primate brains based solely on their size provides a 1st striking illustration of the importance of mechanical morphogenesis: despite jumping across far branches of the phylogenetic tree, the sequence is largely continuous, hinting at a common underlying organising principle.
Concatenating primate brains based solely on their size provides a 1st striking illustration of the importance of mechanical morphogenesis: despite jumping across far branches of the phylogenetic tree, the sequence is largely continuous, hinting at a common underlying organising principle.
July 27, 2025 at 5:33 PM
5
Concatenating primate brains based solely on their size provides a 1st striking illustration of the importance of mechanical morphogenesis: despite jumping across far branches of the phylogenetic tree, the sequence is largely continuous, hinting at a common underlying organising principle.
Concatenating primate brains based solely on their size provides a 1st striking illustration of the importance of mechanical morphogenesis: despite jumping across far branches of the phylogenetic tree, the sequence is largely continuous, hinting at a common underlying organising principle.