Difference between revisions of "NIRS-EEG lab"

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Latest revision as of 10:21, 15 March 2024

Scientific supervisor is Marc van Wanrooij

to technical info

Introduction

Location of NIRS-EEG Lab

With this measuring instrument it is possible to measure brain activity with a high temporal resolution (EEG) in combination with a reasonable (sub-cm) spatial resolution (NIRS). These measurements are non-invasive, not harmful or damaging for the subject and completely silent. Almost anyone can undergo the NIRS-EEG measurement without stress. During the measurements, we can offer visual stimuli (varying from simple lights to movie material) as well as aural stimuli (varying from very simple tones to complex sounds such as speech or music) and study the reactions of the brain in these different conditions. Additionally, we provide the data-analysis and presentation.

The measurements can especially be used for patients with an implant, such as a cochlear implant, hearing aid instruments, or a bone conduction stimulator. Companies producing such implants could gain more insight into the manner in which their products steer brain activity. Audiological centers can use this technique for the same reasons.

The NIRS-EEG lab is part of Radboud Research Facilities: Radboud Research Facilities ›Facilities ›Neurology and Motion ›NIRS-EEG

Experiment information

  • If you wanna book the NIRS-EEG Lab, please use Qreserve.
  • Please, take notes in the lab journal about experiments that have been run
  • Use protocols for your study/experiments/pilots

SAGA

SAGA software user package can be downloaded from the SAGA website.

Prepared NIRS experiments

  • Basic finger tapping experiment (blocked)
  • Mapping experiments (blocked)
  • Auditory oddball experiment (tones, event-related)

Prepared EEG experiments

  • Frequency oddball
  • Spatial oddball

Basic NIRS analysis

Besides Marc's scripts for all steps during NIRS data analysis, you can start using the fieldtrip toolbox http://www.fieldtriptoolbox.org/development/nirs. Here is a general pipeline of what you may wanna do with your NIRS data.

  • read raw data (.oxy3) recorded with the oxymon
  • read trigger information from AD channels
  • define your trial (pre- and poststimulus interval, event code)
  • apply a filter
  • segment continuous data into trials (epoching)
  • convert data, i.e. changes in optical density to concentration changes
  • average data per condition/event
  • perform baseline correction
  • plot single channels or a whole grid
  • More things to do/program: do a reference channel subtraction, plot a topomap

Basic EEG analysis (event-related averaging)

Acquired data using the Polybench Software (TMSI) can be read into Matlab using tms_read(Filename.Poly5) provided by TMSI. Further analysis could for example be run with Fieldtrip (http://www.fieldtriptoolbox.org) or EEGLab (http://sccn.ucsd.edu/eeglab/).

  • reformat raw data structure to be compatible with the output of fieldtrip preprocessing
  • readout trigger/event information from the trigger channel
  • define your trial (pre- and poststimulus interval, event code)
  • segment continuous data into trials (epoching)
  • detect and remove artifacts
  • filtering
  • average data per condition/event
  • correct baseline
  • prepare channel layout once depending on the used electrode cap (for correct plotting)
  • plot single channels, all channels, or topographic distribution (for a specified time interval)