Cookies on this website

We use cookies to ensure that we give you the best experience on our website. If you click 'Accept all cookies' we'll assume that you are happy to receive all cookies and you won't see this message again. If you click 'Reject all non-essential cookies' only necessary cookies providing core functionality such as security, network management, and accessibility will be enabled. Click 'Find out more' for information on how to change your cookie settings.

An in-depth look into a collaborative DPAG, Chemistry and Oxford Martin School project pioneering a radical new approach in which the brain is repaired with 3D-printed neural tissues.

None

Cerebral blood flow as a mechanistic framework across neurological disease

Journal article

Patel S. et al, (2026), Discover Neuroscience, 21

Dopamine replacement therapy modulates DDC, prolactin and AOC3 levels in Parkinson’s disease

Journal article

van Hillegondsberg L. et al, (2026), npj Parkinson's Disease

TopoMetry systematically learns and evaluates the latent geometry of single-cell data

Journal article

Sidarta-Oliveira D. et al, (2026), eLife, 13

Pitch selectivity in ferret auditory cortex

Journal article

Tarka VM. et al, (2026), Current Biology

Learning shapes neural geometry in the primate prefrontal cortex.

Journal article

Wójcik MJ. et al, (2026), Nat Neurosci

Dissecting genotype-specific effects of disease-associated genetic variants.

Journal article

Farrow SL. et al, (2026), iScience, 29

Reactive astrocytes mediate toxicity in iPSC derived dopaminergic neurons.

Journal article

Ibarra-Aizpurua N. et al, (2026), NPJ Parkinsons Dis

The seminal proteome of a monandrous fly, Drosophila subobscura.

Journal article

Dean R. et al, (2026), Proc Biol Sci, 293

Hypoxia differentially affects coronary vessel formation during heart development.

Journal article

Payne S. et al, (2026), Cardiovasc Res

Load More

Interviewees

Project Collaborators

Hagan Bayley

Professor of Chemical Biology

HaganBayleyheadshot2.jpg

Linna Zhou

Oxford Martin Fellow

LinnaZhouheadshot.jpg

Funder

oxfordmartinschool.png

 

Related Images

Image shows Day 13, GFAP Tuj1 vGlut1 at top, image below of brain progenitor cells differentiating into neurons and astrocytes 13 days after 3D printing.

Human brain progenitor cells differentiate into neurons and astrocytes 13 days after 3D printing.

Adapted from Zhou et al., Advanced Materials, June 2020

cortexofmutantmouse.jpg

Layer 6 (green) and layer 5 (red) of the cortex of a Pax 6 mutant mouse cerebral cortex.

Adapted from Tuoc et al., Journal of Neuroscience, July 2009

chickbrain.png

Clonally-related cells labelled in a chick brai.

Adapted from García-Moreno et al., Development, April 2014

Related Publications

New insights into the development of the human cerebral cortex.

Journal article

Molnár Z. et al, (2019), J Anat, 235, 432 - 451

High-Resolution Patterned Cellular Constructs by Droplet-Based 3D Printing.

Journal article

Graham AD. et al, (2017), Sci Rep, 7

CLoNe is a new method to target single progenitors and study their progeny in mouse and chick.

Journal article

García-Moreno F. et al, (2014), Development, 141, 1589 - 1598

Selective cortical layering abnormalities and behavioral deficits in cortex-specific Pax6 knock-out mice.

Journal article

Tuoc TC. et al, (2009), J Neurosci, 29, 8335 - 8349

greyline.PNG

Lipid‐Bilayer‐Supported 3D Printing of Human Cerebral Cortex Cells Reveals Developmental Interactions

journalarticlegraphiccropped.PNG

Bayley H. et al, (2020), Advanced Materials

greyline.PNG

A Tissue-Like Printed Material

journalarticlegraphiccropped.PNG

Bayley H. et al, (2013), Science, 340, 6128, 48-52