The Laboratory of Amit Etkin, MD PhD at Stanford University is currently accepting applications for a postdoctoral fellow focused on sophisticated analyses of electroencephalography (EEG) data. The focus of this position is on understanding brain network function using a variety of EEG methods, relating EEG to functional magnetic resonance imaging (fMRI), and application of connectivity methods in EEG. Additionally, work will focus on analysis of concurrent transcranial magnetic stimulation (TMS) and EEG data to understand neural circuit causal mechanisms. A particular emphasis will be larger-scale application of these tools and data types to treatment outcome prediction and development of clinic-translatable biomarkers
Duties will also include manuscript preparation, presentation of findings at conferences, and contribution to the preparation of grants. Laboratory and Stanford resources include research-dedicated 3T and 7T MRI scanners, simultaneous EEG/fMRI, multiple high density EEG setups, and concurrent transcranial magnetic stimulation (TMS)/fMRI and concurrent TMS/EEG setups.
The successful applicant will have a PhD in Engineering, Statistics, Computer Science, Neuroscience, Neurophysiology, Psychology, or related fields. Experience with EEG data analysis is required. Additionally, strong quantitative skills and a programming background are important.
Additional Salary Information: Salary commensurate with experience
The overarching aim of the Etkin lab is to understand the neural basis of emotional disorders and their treatment, and to leverage this knowledge to develop novel treatment interventions. Our work is organized around the study of the neuroscience of emotion and cognitive regulation, as well as neural circuit function, in healthy subjects and individuals with a range of psychiatric disorders. Studi...es aimed at understanding the neurobiology of anxiety, depression, and post-traumatic stress, as well as their treatment, addresses:(a) which domains of neural/mental functions are involved, (b) how different existing treatment approaches yield their effects on the brain, and (c) whether emerging tools for mapping and modulating neural circuits can remediate brain abnormalities that may not be affected by current treatments.