Abstract
Electrical source imaging (ESI) aims at reconstructing the electrical brain activity from
measurements of the electric field on the scalp. Even though the localization of single focal
sources should be relatively straightforward, different methods provide diverse solutions due
to the different underlying assumptions. Furthermore, their input parameter(s) further affects
the solution provided by each method, making localization even more challenging. In addition,
validations and comparisons are typically performed either on synthetic data or through
post-operative outcomes, in both cases with considerable limitations.
We use an in-vivo high-density EEG dataset recorded during intracranial single pulse
electrical stimulation, in which the true sources are substantially dipolar and their locations
are known. We compare ten different ESI methods under multiple choices of input
parameters, to assess the accuracy of the best reconstruction, as well as the impact of the
parameters on the localization performance.
Best reconstructions often fall within 1 cm from the true source, with more accurate
methods outperforming less accurate ones by 1 cm, on average. Expectedly, dipolar methods
tend to outperform distributed methods. Sensitivity to input parameters varies widely
between methods. Depth weighting played no role for three out of six methods implementing
it. In terms of regularization parameters, for several distributed methods SNR=1 unexpectedly
turned out to be the best choice among the tested ones.
Our data show similar levels of accuracy of ESI techniques when applied to
"conventional" (32 channels) and dense (64, 128, 256 channels) EEG recordings.
Overall findings reinforce the importance that ESI may have in the clinical context,
especially when applied to identify the surgical target in potential candidates for epilepsy
surgery.
Anno
2021
Autori IAC
Tipo pubblicazione
Altri Autori
Annalisa Pascarella, Ezequiel Mikulan, Federica Sciacchitano, Simone Sarasso, Annalisa Rubino ,
Ivana Sartorie, Francesco Cardinale , Flavia Zauli , Pietro Avanzini, Lino Nobili, Andrea Pigorini,
Alberto Sorrentino,
Ivana Sartorie, Francesco Cardinale , Flavia Zauli , Pietro Avanzini, Lino Nobili, Andrea Pigorini,
Alberto Sorrentino,