In this guide, our users Nina-Alisa Hinz and Dr. Carolina Pletti (Ludwigs-Maximilians-Universität München, Germany) provide a detailed walkthrough showing how to use the R-Net — Brain Products sponge-based electrode system — in studies with infants.
This study investigates whether 4-month-old infants build causal action-effect models, a prerequisite for a sense of agency. Using behavioral and neural measures of violation of expectation, we found evidence for causal models only in a subset of infants. Thus, the sense of agency is beginning to emerge at this age.
Synchronizing video and EEG data streams can be complex. To make this task as easy as possible, allowing you to focus on your research questions, we updated our Video & EEG solution. Continue reading to learn more about how we use high-resolution network cameras, integrated with BrainVision Recorder to provide you with excellent synchronization of your video and EEG recordings.
We are happy to announce that we completed the size range for our sponge-based electrode system and are now offering R-Net sizes from neonates to adults.
Simultaneous EEG-fMRI provides a new insight into the origin of spontaneous neuronal activity in preterm humans
This user research article summaries our publication “Arichi T, Whitehead K, Barone G, Pressler R, Padormo F, Edwards AD, Fabrizi L (2017) Localization of spontaneous bursting neuronal activity in the preterm human brain with simultaneous EEG-fMRI. eLife 6:e27814”.
At the recent OHBM Annual Meeting 2017 in Vancouver, Canada, we presented our newest active electrode system for the first time: the actiCAP slim as our thinnest active electrode yet and the actiCAP snap as the new compatible electrode holder. Together, this system will make your EEG research easier and will extend the benefits of our active electrodes into new research fields.
Slimmer, lighter and even more sturdy. The actiCAP is the go-to solution for reliable and flexible high-quality EEG recording. We kept on improving the design of the actiCAP electrode and today we introduce the biggest step forward for the actiCAP product family: the actiCAP slim!
New video publication on infant EEG. “Novel Experimental and Analytical Approach to the Multimodal Neural Decoding of Intent During Social Interaction in Freely-behaving Human Infants”
A research group from University of Houston presented a novel methodology for the neural decoding of intent from freely-behaving infants during unscripted social interaction with an actor. Neural activity was acquired using actiCAP EEG electrodes. Kinematic data was collected with inertial measurement units and supplemented with synchronized video recording.