|Tel||+44 (0) 1865 618634|
BSc, MSc, PhD
BBSRC AFL Fellow
- Somerville College Fulford Junior Research Fellow
The neural and computational basis of learning and decision-making
My research is focussed on understanding the mechanisms in the human brain that underpin learning and decision-making. Most of my research is focussed on investigating how statistical information about costs (such as risk, uncertainty or effort) and benefits (such as financial rewards) are processed in the brain, particularly when we are interacting with other people.
I use a combination of cognitive neuroscience methods, such as functional Magnetic Resonance Imaging (fMRI), in conjunction with computational modelling approaches. These techniques allow me to explore basic science questions in healthy adults. I also explore individual differences in clinical and sub-clinical populations to understand more about how decision-making processes can differ in disorders of motivation and social cognition. Currently I am involved in two main projects:
- Effort, apathy and reward – Examining the relationship between individual differences in apathy and how rewards are processed, when incurring physical or cognitive costs.
- Social decision-making – Examining the processing of rewards in the cingulate cortex during social interactions, and examining the functional and connectional properties of this area in the autistic spectrum.
Apps MA. et al, (2016), Neuron, 90, 692 - 707
Apps MA. et al, (2015), J Neurosci, 35, 2904 - 2913
Apps MA. and Tsakiris M., (2013), Nat Commun, 4
Apps MA. and Ramnani N., (2014), J Neurosci, 34, 6190 - 6200
Ang Y-S. et al, (2017), PLoS One
Balsters JH. et al, (2017), Brain, 140, 235 - 246
Ainley V. et al, (2016), Philosophical Transactions of the Royal Society of London: Biological Sciences
Farmer H. et al, (2016), Eur J Neurosci, 44, 2191 - 2201
Lockwood PL. et al, (2016), Proc Natl Acad Sci U S A, 113, 9763 - 9768