PET/MR User's Meeting: Technical challenges Feb 05, 2020 10:30 AM - 03:00 PM — Henry Wellcome Auditorium, 183 Euston Road, London
Scottish Ophthalmic Imaging Society meeting Feb 14, 2020 09:30 AM - 05:00 PM — Royal Society of Edinburgh, 22-26 George Street, Edinburgh
Scottish+ Radiotherapy Physics Meeting 2020 Feb 21, 2020 09:30 AM - 05:00 PM — Scottish Health Service Centre , Western General Hospital, Edinburgh
2nd Scottish Ultrasound Annual Scientific Meeting Feb 28, 2020 10:00 AM - 05:00 PM — Collins Building, University of Strathclyde
Technology Innovations for Healthcare Mar 12, 2020 09:00 AM - 05:00 PM — Royal College of Physicians, Edinburgh

eLearning

SINAPSE experts from around Scotland have developed ten online modules designed to explain medical imaging. They are freely available and are intended for non-specialists.


Edinburgh Imaging Academy at the University of Edinburgh offers the following online programmes through a virtual learning environment:

Neuroimaging for Research MSc/Dip/Cert

Imaging MSc/Dip/Cert

PET-MR Principles & Applications Cert

Applied Medical Image Analysis Cert

Online Short Courses

SINAPSE Image of the Month: Mobile EEG to study real world memory

April 2019 SINAPSE Image of the Month

April2019

Courtesy of Dr Joanne Park, this image shows results from mobile EEG recordings in the first study to capture known neural correlates of episodic memory in real world settings. EEG was recorded with a mobile system while study participants followed a pre-defined route around a building at the University of Stirling, stopping at unique locations to study specific objects which they were instructed to associate with the environmental context. Upon completing the route in which object-location pairs were encountered, participants then followed the same route for a second time, and at each location they were shown an object as a test stimulus and asked to indicate whether a) they had previously viewed that object at the same location, b) they had previously viewed that object at a different location, or c) that it was a new object they had not previously seen.

Over the mobile EEG event-related potential waveforms, shaded boxes highlight the time window 300-500ms after test stimulus presentation in the top row, in which an early mid-frontal old/new effect (FN400) traditionally associated with familiarity was observed, and the time window 500-800ms after test stimulus presentation in the bottom row, in which a late posterior negativity (LPN) often linked to reconstructive processes in memory retrieval was observed.  The pair of topographic maps at the left illustrate these neural correlates of retrieval when the test stimulus was an object previously encountered in the same location [recognition ‘hit’ = Same Source Correct]; the pair of topographic maps at the right, when the test stimulus was an object previously encountered in a different location [recognition ‘hit’ = Different Source Correct]. Environmental context was found to influence the FN400 effect, which was sustained longer for objects shown at retrieval in a different location than where initially encountered.

This study demonstrates that event-related potentials associated with episodic memory in prior lab-based work can be detected in real word settings using mobile EEG, and that these neural correlates show sensitivity to real world environments that only mobile EEG is able to identify.

 

The image is taken from a recent study published in NeuroImage:

Park JL & Donaldson DI. Detecting the neural correlates of episodic memory with mobile EEG: Recollecting objects in the real world. NeuroImage 2019; 193:1-9.