News Release

Simulation mimics how the brain grows neurons, paving the way for future disease treatments

Peer-Reviewed Publication

University of Surrey

Neuron simulation

image: 

The neuron on the left is simulated, and the one on the right-hand side is real. 

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Credit: University of Surrey/ BioDynaMo

A new computer simulation of how our brains develop and grow neurons has been built by scientists from the University of Surrey. Along with improving our understanding of how the brain works, researchers hope that the models will contribute to neurodegenerative disease research and, someday, stem cell research that helps regenerate brain tissue. 

The research team used a technique called Approximate Bayesian Computation (ABC), which helps fine-tune the model by comparing the simulation with real neuron growth. This process ensures that the artificial brain accurately reflects how neurons grow and form connections in real life. 

The simulation was tested using neurons from the hippocampus—a critical region of the brain involved in memory retention. The team found that their system successfully mimicked the growth patterns of real hippocampal neurons, showing the potential of this technology to simulate brain development in fine detail. 

Dr Roman Bauer from the University of Surrey's School of Computer Science and Electronic Engineering said: 

“How our brain works is still one of the greatest mysteries in science. With this simulation, and the rapid advancements in artificial intelligence, we’re getting closer to understanding how neurons grow and communicate. We hope that one day this work could lead to better treatments for devastating diseases like Alzheimer’s or Parkinson’s—changing lives for millions.” 

 The accuracy of the model is closely tied to the quality of the data used to calibrate it. If the real-life neuron data is limited or incomplete, the precision of the simulation may decrease. While the current model has shown impressive results in replicating the growth of specific neurons, such as hippocampal pyramidal cells, further adjustments may be needed to accurately simulate other types of neurons or regions of the brain. 

  

The computer simulation is built from the BioDynaMo software, which Dr Bauer co-developed. The software supports scientists to easily create, run, and visualise multi-dimensional agent-based simulations, be they biological, sociological, ecological or financial. 

The research has been published in the Journal of Mathematical Biology
 

[ENDS] 

 

  • Duswald, T., Breitwieser, L., Thorne, T. et al. Calibration of stochastic, agent-based neuron growth models with approximate Bayesian computation. J. Math. Biol. 89, 50 (2024). https://doi.org/10.1007/s00285-024-02144-2 

  • A free-to-use video of the simulation can be found here. Another video can be found here

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