Brain images recorded by Karen Froud and students
Brain images recorded by Karen Froud, Associate Professor of Speech and Language Pathology, and her students. Explanations of images are provided by Dr. Froud.
(Click on image for enlarged view)
1. A rendering of scalp-recorded EEG, taken while the subject was completing a visual processing task; superimposed on a 3-D brain model.
2. A magnetoencephalography recording of the brain's response to auditory word processing.
3. Another magnetoencephalography recording of the brain's response to auditory word processing, but in the brain of an adult with schizophrenia (so it looks very different).
4. Brain areas active during a semantic processing task in which several neurotypical adults were shown words and asked to identify which were real words from the English language and which were not. Brain activity was measured using fMRI, and the pictures reflect group averages.
5. A rendering of scalp-recorded EEG in a grammaticality processing task. The circle on the left is the map of activation recorded when this individual read grammatical sentences, and on the right we see the activation associated with ungrammatical sentences. The larger blue area on the right-hand map indicates a greater ELAN response to ungrammatical than to grammatical sentences. (ELAN stands for Early Left Anterior Negativity - a brain component that indexes early, automatic sentence parsing; the brain can tell whether a sentence is ungrammatical much earlier than we are able to consciously process the information contained in a sentence). In this experiment we were contrasting the brain responses of native speakers of Hungarian to those of native speakers of Chinese, to see whether the native Hungarian speakers would process morphological violations in English in the same way as each other (because Hungarian has morphology a lot like English, whereas Chinese does not). We found very different brain responses from the Chinese speakers.
6. A group of Buddhist monks who visited the TC lab to participate in some experiments a couple of years ago. They performed a simple auditory processing task before, during and after meditation, to see if there were effects on the EEG of entering a meditative state. There were significant effects. Much greater coherence in activation across different brain sites was clearly evident during meditation, and higher coherence persisted even after meditation ended.
7. One of my grad students working with the Neuroscan EEG system that we borrowed a couple of years back so that we could provide EEG training for doctors at the pediatric hospital in Phnom Penh. A system had been donated to the hospital, but no one there had any expertise in its operation, so it was sitting unused. Neuroscan lent us their system for a few weeks so that we could provide some direct assistance.
8. A participant ready to have EEG recorded.
9. A former doctoral student in the lab gets ready to run her experiment.
10. The brain response of native speakers of Chinese to grammatical and ungrammatical English sentences. The response is characterized by a greater LAN response to ungrammaticality. LAN stands for Left Anterior negativity; it happens much later in the processing stream than the ELAN, and its presence in the Chinese speakers suggests that their processing of the same kinds of grammaticality violations was not as automatic and rapid as for Hungarian speakers.