Simultaneous trimodal PET-MR-EEG imaging: Do EEG caps generate artefacts in PET images?
Ravichandran RajkumarElena Rota KopsJörg MaulerLutz TellmannChristoph LercheHans HerzogN Jon ShahIrene NeunerPublished in: PloS one (2017)
Trimodal simultaneous acquisition of positron emission tomography (PET), magnetic resonance imaging (MRI), and electroencephalography (EEG) has become feasible due to the development of hybrid PET-MR scanners. To capture the temporal dynamics of neuronal activation on a millisecond-by-millisecond basis, an EEG system is appended to the quantitative high resolution PET-MR imaging modality already established in our institute. One of the major difficulties associated with the development of simultaneous trimodal acquisition is that the components traditionally used in each modality can cause interferences in its counterpart. The mutual interferences of MRI components and PET components on PET and MR images, and the influence of EEG electrodes on functional MRI images have been studied and reported on. Building on this, this study aims to investigate the influence of the EEG cap on the quality and quantification of PET images acquired during simultaneous PET-MR measurements. A preliminary transmission scan study on the ECAT HR+ scanner, using an Iida phantom, showed visible attenuation effect due to the EEG cap. The BrainPET-MR emission images of the Iida phantom with [18F]Fluordeoxyglucose, as well as of human subjects with the EEG cap, did not show significant effects of the EEG cap, even though the applied attenuation correction did not take into account the attenuation of the EEG cap itself.
Keyphrases
- positron emission tomography
- computed tomography
- contrast enhanced
- functional connectivity
- resting state
- pet ct
- magnetic resonance imaging
- working memory
- pet imaging
- high resolution
- deep learning
- magnetic resonance
- convolutional neural network
- optical coherence tomography
- image quality
- endothelial cells
- diffusion weighted imaging
- dual energy
- mass spectrometry
- brain injury
- blood brain barrier
- cerebral ischemia