Primary Supervisor: Dr Michael Okun, Department of Neuroscience, Psychology and Behaviour
Secondary Supervisor: Dr Jian Liu
PhD project title: Neuronal coupling across spatiotemporal scales and dimensions of cortical population activity
University of Registration: University of Leicester
The human cortex is the most complex known system. It is responsible for a vast range of sensorimotor, decision making, and other cognitive abilities of humans and other mammals. The activity of cortical neuronal networks is organised across multiple spatiotemporal scales, and remains poorly understood. Our laboratory is particularly interested in the relationship between the activity of an individual neuron and of the larger networks within which the neuron is embedded (Lewis, 2015). For example, we have recently compared the coupling between neurons and their local network across an extensive range of timescales, finding major timescale-dependent distinctions, suggestive of different mechanisms regulating cortical activity on different timescales (Okun et al., 2019).
We use recordings using next-generation high-density silicon probes for data collection (Jun et al., 2017) and advanced computational methods for their analysis. There are several computational projects available in the above research area, relying on data we are collecting in the laboratory as part of ongoing projects, as well as on publicly available datasets. The projects are suitable for students with a background in exact sciences or computer science and programming.
- Jun, J.J., Steinmetz, N.A., Siegle, J.H., Denman, D.J., Bauza, M., Barbarits, B., Lee, A.K., Anastassiou, C.A., Andrei, A., Aydın, Ç., et al. (2017). Fully integrated silicon probes for high-density recording of neural activity. Nature 551, 232–236.
- Lewis, S. (2015). Computational neuroscience: Population coupling. Nat Rev Neurosci 16, 313–313.
- Okun, M., Steinmetz, N.A., Lak, A., Dervinis, M., and Harris, K.D. (2019). Distinct Structure of Cortical Population Activity on Fast and Infraslow Timescales. Cereb Cortex 29, 2196–2210.
BBSRC Strategic Research Priority: Understanding The Rules of Life: Neuroscience
Techniques that will be undertaken during the project:
- Processing and visualisation of electrophysiological data, including filtering and spike sorting.
- Advanced programming in high-level modern programming language such as Python and/or MATLAB.
- Advanced statistical and machine learning methods.
- Analysis of large, highly dimensional datasets.
Contact: Dr Michael Okun, University of Leicester