Early haemodynamic changes observed in patients with epilepsy, in a visual experiment and in simulations (2016)
Authors
Abstract
Objective: The objective of this study was to investigate whether previously reported early blood oxygen level dependent (BOLD) changes in epilepsy could occur as a result of the modelling techniques rather than physiological changes. Methods: EEG-fMRI data were analysed from seven patients with focal epilepsy, six control subjects undergoing a visual experiment, in addition to simulations. In six separate analyses the event timing was shifted by either -9,-6,-3,+3,+6 or +9 s relative to the onset of the interictal epileptiform discharge (IED) or stimulus. Results: The visual dataset and simulations demonstrated an overlap between modelled haemodynamic response function (HRF) at event onset and at ??3 s relative to onset, which diminished at ??6 s. Pre-spike analysis at -6 s improved concordance with the assumed IED generating lobe relative to the standard HRF in 43% of patients. Conclusion: The visual and simulated dataset findings indicate a form of "temporal bleeding", an overlap between the modelled HRF at time 0 and at ??3 s which attenuated at ??6 s. Pre-spike analysis at -6 s may improve concordance. Significance: This form of analysis should be performed at 6 s prior to onset of IED to minimise temporal bleeding effect. The results support the presence of relevant BOLD responses occurring prior to IEDs.
Bibliographic entry
Rollings, D. T., Assecondi, S., Ostwald, D., Porcaro, C., McCorry, D., Bagary, M., Soryal, I., & Bagshaw, A. P. (2016). Early haemodynamic changes observed in patients with epilepsy, in a visual experiment and in simulations. Clinical Neurophysiology, 127, 245-253. doi:10.1016/j.clinph.2015.07.008 (Full text)
Miscellaneous
Publication year | 2016 | |
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Document type: | Article | |
Publication status: | Published | |
External URL: | http://dx.doi.org/10.1016/j.clinph.2015.07.008 View | |
Categories: | ||
Keywords: | eeg-fmriepilepsyhaemodynamic response functionpre-spike responsesimulationsvisual stimulation |