Research Projects at UCL Queen Square Institute of Neurology

The research project is a vital element for those of you studying an MSc or MRes programme. The data driven projects below are a sample of those that can be completed physically on campus or remotely.

• Analysis of neural data to probe the computations underlying learning, decision-making and/or knowledge representation 
• Bioinformatics analysis of DNA methylation changes in FTDALS 
• Characterizing the midkine-nidogen-2 interaction at the mouse neuromuscular junction. 
• Cognitive assessments of patients with Parkinson’s disease using an online tool 
• Data analysis of LFP of electrophysiology data from non-human primates conducting tasks involving learning and memory 
• Data analysis of the neuronal computations underlying decision-making, working memory and learning 
• Developing a multiplex in situ hybridisation and immunohistochemical (ISH-IHC) assay for detecting a spectrum of mitochondrial DNA (mtDNA) deletions and mtDNA depletion in relation to myofibre oxidative 
• Does participation in an Intensive Comprehensive Aphasia Programme lead to clinically meaningful improvements in patient’s individualised short and medium term goals
• Dynamical causal modelling of the prefrontal cortex during choice.
• Establishing the relationship between the gut microbiome in industrial countries and the incidence of neurodegenerative diseases. 
• Evaluation of Graphene-based electrophysiological probes to detect seizure onset zones. 
• Exploring the relationship cortical atrophy measured with MR and gene expression in neurodegenerative diseases. 
• Functional MRI of Epileptic Discharges Recorded Intracranially A New Modelling Approach. 
• Genetic drivers of dementia in Parkinson’s disease.
•  Hypothalamic volumetry in the FTD spectrum. 
• In situ expression profiling of mitochondrial disease biomarkers FGF21 and GDF15 and OXPHOS defects in diagnostic muscle biopsies from children and adults with mitochondrial disease. 
• Is there method in young peoples apparently random behaviour. 
• Longitudinal analysis of progression of Parkinson’s disease in a large cohort study.
• Modelling of learning and decision-making using reinforcement learning andor artificial neural networks. 
• Norming and validation of a memory APP for use in temporal lobe epilepsy. 
• Outcome of epilepsy patients rejected from epilepsy surgery program. 
• Post-operative memory fMRI in Temporal Lobe Epilepsy. 
• Quantitative fMRI Based on Intrinsic Connectivity Network Atlasing. 
• Single cell sequencing of Alzheimer’s brain samples. 
• Understanding molecular mechanisms that underlie the importance of new risk genes for Alzheimer’s disease and the ageing brain 
• Validating a memory fMRI paradigm for Temporal Lobe Epilepsy . 
• Visual dysfunction to predict cognitive change in Parkinson’s disease.