Fig. 2. Similarity of CWL and EEG signals before and after CWL-based correction

First Steps to Using Carbon Wire Loops to Correct for Artifacts in simultaneous EEG-fMRI

by Lars Hausfeld, PhD Department of Cognitive Neuroscience, Maastricht University, Maastricht Brain Imaging Centre (M-BIC) The Netherlands Abstract The simultaneous acquisition of EEG and fMRI signals promises linked datasets with high temporal and spatial resolution, respectively. To make optimal use of the data from this advanced acquisition scheme, the attenuation of artifacts in EEG signals…

Figure 1: Single carbon wire loop and set of 5 braided together.

Carbon Wire Loops in EEG-fMRI studies of interictal epileptic activity

by Nicolas von Ellenrieder, PhD, Andreas Koupparis, MD, Natalja Zazubovits and Jean Gotman, PhD Gotman Lab EEG, Imaging, and Epilepsy McGill University, Montréal, QC (Canada) At the Montreal Neurological Institute and Hospital, we work with combined EEG and fMRI acquisition to study epileptic patients to determine the brain region responsible for the generation of seizures…

BrainCap MR with Carbon Wire Loops

Coming soon: Carbon Wire Loops for the BrainCap MR

by Dr. Tracy Warbrick Application Specialist EEG-fMRI (Brain Products) Standard MR-related artifact correction methods are sufficient for most applications, however, data susceptible to motion artifact can be more challenging. So, we are very pleased to announce that we will be introducing carbon wire loops (CWLs) for the BrainCap MR to help with handling motion-related artifact.…