TY - JOUR
T1 - The spatial relationship between the MRI lesion and intraoperative electrocorticography in focal epilepsy surgery
AU - Straumann, Sven
AU - Schaft, Eline
AU - Noordmans, Herke Jan
AU - Dankbaar, Jan Willem
AU - Otte, Willem M
AU - van Steenis, Josee
AU - Smits, Paul
AU - Zweiphenning, Willemiek
AU - van Eijsden, Pieter
AU - Gebbink, Tineke
AU - Mariani, Luigi
AU - Van't Klooster, Maryse A
AU - Zijlmans, Maeike
N1 - Funding Information:
E.S., M.Z. and M.A.v.K. are supported by the H2020 European Research Council, starting grant no. 803880.
Publisher Copyright:
© 2022 The Author(s). Published by Oxford University Press on behalf of the Guarantors of Brain.
PY - 2022
Y1 - 2022
N2 - MRI and intraoperative electrocorticography are often used in tandem to delineate epileptogenic tissue in resective surgery for focal epilepsy. Both the resection of the MRI lesion and tissue with high rates of electrographic discharges on electrocorticography, e.g. spikes and high-frequency oscillations (80-500 Hz), lead to a better surgical outcome. How MRI and electrographic markers are related, however, is currently unknown. The aim of this study was to find the spatial relationship between MRI lesions and spikes/high-frequency oscillations. We retrospectively included 33 paediatric and adult patients with lesional neocortical epilepsy who underwent electrocorticography-tailored surgery (14 females, median age = 13.4 years, range = 0.6-47.0 years). Mesiotemporal lesions were excluded. We used univariable linear regression to find correlations between pre-resection spike/high-frequency oscillation rates on an electrode and its distance to the MRI lesion. We tested straight lines to the centre and the edge of the MRI lesion, and the distance along the cortical surface to determine which of these distances best reflects the occurrence of spikes/high-frequency oscillations. We conducted a moderator analysis to investigate the influence of the underlying pathology type and lesion volume on our results. We found spike and high-frequency oscillation rates to be spatially linked to the edge of the MRI lesion. The underlying pathology type influenced the spatial relationship between spike/high-frequency oscillation rates and the MRI lesion (
P
spikes < 0.0001,
P
ripples < 0.0001), while the lesion volume did not (
P
spikes = 0.64,
P
ripples = 0.89). A higher spike rate was associated with a shorter distance to the edge of the lesion for cavernomas [
F(1,64) = -1.37,
P < 0.0001,
η
2 = 0.22], focal cortical dysplasias [
F(1,570) = -0.25,
P < 0.0001,
η
2 = 0.05] and pleomorphic xanthoastrocytomas [
F(1,66) = -0.18,
P = 0.01,
η
2 = 0.09]. In focal cortical dysplasias, a higher ripple rate was associated with a shorter distance [
F(1,570) = -0.35,
P < 0.0001,
η
2 = 0.05]. Conversely, low-grade gliomas showed a positive correlation; the further an electrode was away from the lesion, the higher the rate of spikes [
F(1,75) = 0.65,
P < 0.0001,
η
2 = 0.37] and ripples [
F(1,75) = 2.67,
P < 0.0001,
η
2 = 0.22]. Pathophysiological processes specific to certain pathology types determine the spatial relationship between the MRI lesion and electrocorticography results. In our analyses, non-tumourous lesions (focal cortical dysplasias and cavernomas) seemed to intrinsically generate spikes and high-frequency oscillations, particularly at the border of the lesion. This advocates for a resection of this tissue. Low-grade gliomas caused epileptogenicity in the peritumoural tissue. Whether a resection of this tissue leads to a better outcome is unclear. Our results suggest that the underlying pathology type should be considered when intraoperative electrocorticography is interpreted.
AB - MRI and intraoperative electrocorticography are often used in tandem to delineate epileptogenic tissue in resective surgery for focal epilepsy. Both the resection of the MRI lesion and tissue with high rates of electrographic discharges on electrocorticography, e.g. spikes and high-frequency oscillations (80-500 Hz), lead to a better surgical outcome. How MRI and electrographic markers are related, however, is currently unknown. The aim of this study was to find the spatial relationship between MRI lesions and spikes/high-frequency oscillations. We retrospectively included 33 paediatric and adult patients with lesional neocortical epilepsy who underwent electrocorticography-tailored surgery (14 females, median age = 13.4 years, range = 0.6-47.0 years). Mesiotemporal lesions were excluded. We used univariable linear regression to find correlations between pre-resection spike/high-frequency oscillation rates on an electrode and its distance to the MRI lesion. We tested straight lines to the centre and the edge of the MRI lesion, and the distance along the cortical surface to determine which of these distances best reflects the occurrence of spikes/high-frequency oscillations. We conducted a moderator analysis to investigate the influence of the underlying pathology type and lesion volume on our results. We found spike and high-frequency oscillation rates to be spatially linked to the edge of the MRI lesion. The underlying pathology type influenced the spatial relationship between spike/high-frequency oscillation rates and the MRI lesion (
P
spikes < 0.0001,
P
ripples < 0.0001), while the lesion volume did not (
P
spikes = 0.64,
P
ripples = 0.89). A higher spike rate was associated with a shorter distance to the edge of the lesion for cavernomas [
F(1,64) = -1.37,
P < 0.0001,
η
2 = 0.22], focal cortical dysplasias [
F(1,570) = -0.25,
P < 0.0001,
η
2 = 0.05] and pleomorphic xanthoastrocytomas [
F(1,66) = -0.18,
P = 0.01,
η
2 = 0.09]. In focal cortical dysplasias, a higher ripple rate was associated with a shorter distance [
F(1,570) = -0.35,
P < 0.0001,
η
2 = 0.05]. Conversely, low-grade gliomas showed a positive correlation; the further an electrode was away from the lesion, the higher the rate of spikes [
F(1,75) = 0.65,
P < 0.0001,
η
2 = 0.37] and ripples [
F(1,75) = 2.67,
P < 0.0001,
η
2 = 0.22]. Pathophysiological processes specific to certain pathology types determine the spatial relationship between the MRI lesion and electrocorticography results. In our analyses, non-tumourous lesions (focal cortical dysplasias and cavernomas) seemed to intrinsically generate spikes and high-frequency oscillations, particularly at the border of the lesion. This advocates for a resection of this tissue. Low-grade gliomas caused epileptogenicity in the peritumoural tissue. Whether a resection of this tissue leads to a better outcome is unclear. Our results suggest that the underlying pathology type should be considered when intraoperative electrocorticography is interpreted.
KW - MRI
KW - electrocorticography
KW - epilepsy surgery
KW - high-frequency oscillations
KW - spikes
UR - http://www.scopus.com/inward/record.url?scp=85144787567&partnerID=8YFLogxK
U2 - 10.1093/braincomms/fcac302
DO - 10.1093/braincomms/fcac302
M3 - Article
C2 - 36519154
SN - 2632-1297
VL - 4
JO - Brain communications
JF - Brain communications
IS - 6
M1 - fcac302
ER -