Your search keyword '"SISCOM"' showing total 13 results

1. The effect of injection time on rates of epileptogenic zone localization using SISCOM and STATISCOM.

Author

Hlauschek G, Sinclair B, Brinkmann B, Fuge J, Kwan P, O'Brien TJ, and Vivash L

Subjects

Australia, Brain diagnostic imaging, Humans, Magnetic Resonance Imaging, Male, Tomography, Emission-Computed, Single-Photon, Electroencephalography, Epilepsies, Partial diagnostic imaging

Abstract

Background: The identification of hyperperfusion on ictal single-photon emission computed tomography (SPECT) scan is a technique for the localization of the epileptogenic zone (EZ) in patients with focal epilepsy undergoing presurgical evaluation. The accuracy of this technique has been improved by subtraction from an interictal image and coregistration with magnetic resonance imaging (MRI) (subtraction ictal SPECT coregistered to MRI (SISCOM)), and subsequently by the development of Statistical Ictal SPECT Co-registered to MRI (STATISCOM) which is reported to further improve localization accuracy by statistically accounting for random variation between images. However, the use of ictal SPECT is limited by the necessity for rapid injection of the radiotracer. The purpose of this study was to investigate the effect of tracer injection time on EZ localization rates using both STATISCOM and SISCOM., Methods: Consecutive patients with drug-resistant focal epilepsy who had an ictal SPECT scan while admitted to the video-electroencephalography (EEG) monitoring unit at the Royal Melbourne Hospital, Victoria, Australia, and a subsequent interictal scan, between 2009 and 2017 were included. The information collected included age, sex, seizure type, epilepsy diagnosis, and injection time. Statistical Ictal SPECT Co-registered to MRI and SISCOM images were generated and reviewed by two blinded reviewers. The rates of potential localization of the EZ, and the agreement with the EEG, were determined for each scan. Localization rates were compared between ictal scans with different radiotracer injection time windows (<30 s, 30-45 s, 45-60 s, 60-90 s, 90-120 s, >120 s)., Results: Seventy patients (male = 32, 16-67 years) were included in the study. Overall agreement between the primary raters was moderate for STATISCOM (k = 0.44) and SISCOM (k = 0.57). The ability of SPECT to localize the potential EZ was 69% (48/70) for STATISCOM and 59% (41/70) for SISCOM. Injection time was not associated with the rate of localizing the potential EZ for STATISCOM (p = 0.64), whereas for SISCOM there was a trend that shorter injection times were associated with better ability to localize the potential EZ (p = 0.06). Agreement between SPECT and video-EEG data was 54% (38/70) for STATISCOM and 39% (27/70) for SISCOM. Statistical Ictal SPECT Co-registered to MRI did not show any difference of agreement across injection time groups (p = 0.42) whereas SISCOM showed better agreement with video-EEG data in the earlier injection time groups (p = 0.02). No differences in agreement between SPECT and video-EEG data were seen between patients with and without MRI lesions for either STATISCOM or SISCOM. Statistical Ictal SPECT Co-registered to MRI showed significantly better agreement for temporal than extratemporal seizures, with no difference of agreement between early (<45 s) and late (>45 s) injections., Conclusion: Statistical Ictal SPECT Co-registered to MRI showed overall higher agreement rates with EZ localization by video-EEG than SISCOM, which was not affected by the injection times. Statistical Ictal SPECT Co-registered to MRI may provide localizing information for "late" injections where visual reads and SISCOM are inconclusive., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published

2021

2. A Novel Noninvasive Approach Based on SPECT and EEG for the Location of the Epileptogenic Zone in Pharmacoresistant Non-Lesional Epilepsy.

Author

Batista García-Ramó K, Sanchez Catasus CA, Morales Chacón L, Aguila Ruiz A, Sánchez Corneaux A, Rojas López P, and Bosh Bayard J

Subjects

Adolescent, Adult, Female, Humans, Magnetic Resonance Imaging, Male, Predictive Value of Tests, Retrospective Studies, Drug Resistant Epilepsy diagnostic imaging, Drug Resistant Epilepsy surgery, Electroencephalography, Tomography, Emission-Computed, Single-Photon

Abstract

Background and objectives : The aim of this study is to propose a methodology that combines non-invasive functional modalities electroencephalography (EEG) and single photon emission computed tomography (SPECT) to estimate the location of the epileptogenic zone (EZ) for the presurgical evaluation of patients with drug-resistant non-lesional epilepsy. Materials and Methods : This methodology consists of: (i) Estimation of ictal EEG source imaging (ESI); (ii) application of the subtraction of ictal and interictal SPECT co-registered with MRI (SISCOM) methodology; and (iii) estimation of ESI but using the output of the SISCOM as a priori information for the estimation of the sources. The methodology was implemented in a case series as an example of the application of this novel approach for the presurgical evaluation. A gold standard and a coincidence analysis based on measures of sensitivity and specificity were used as a preliminary assessment of the proposed methodology to localize EZ. Results : In patients with good postoperative evolution, the estimated EZ presented a spatial coincidence with the resection site represented by high values of sensitivity and specificity. For the patient with poor postoperative evolution, the methodology showed a partial incoherence between the estimated EZ and the resection site. In cases of multifocal epilepsy, the method proposed spatially extensive epileptogenic zones. Conclusions : The results of the case series provide preliminary evidence of the methodology's potential to epileptogenic zone localization in non-lesion drug-resistant epilepsy. The novelty of the article consists in estimating the sources of ictal EEG using SISCOM result as a prior for the inverse solution. Future studies are necessary in order to validate the described methodology. The results constitute a starting point for further studies in order to support the clinical reliability of the proposed methodology and advocate for their implementation in the presurgical evaluation of patients with intractable non-lesional epilepsy.

Published

2019

3. High density scalp EEG in frontal lobe epilepsy.

Author

Feyissa AM, Britton JW, Van Gompel J, Lagerlund TL, So E, Wong-Kisiel LC, Cascino GC, Brinkman BH, Nelson CL, Watson R, and Worrell GA

Subjects

Adult, Brain diagnostic imaging, Brain physiopathology, Brain surgery, Drug Resistant Epilepsy diagnostic imaging, Drug Resistant Epilepsy surgery, Epilepsy, Frontal Lobe diagnostic imaging, Epilepsy, Frontal Lobe surgery, Female, Follow-Up Studies, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Neurophysiological Monitoring, Preoperative Care, Retrospective Studies, Scalp, Tomography, Emission-Computed, Single-Photon, Treatment Outcome, Drug Resistant Epilepsy diagnosis, Drug Resistant Epilepsy physiopathology, Electroencephalography methods, Epilepsy, Frontal Lobe diagnosis, Epilepsy, Frontal Lobe physiopathology

Abstract

Purpose: Localization of seizures in frontal lobe epilepsy using the 10-20 system scalp EEG is often challenging because neocortical seizure can spread rapidly, significant muscle artifact, and the suboptimal spatial resolution for seizure generators involving mesial frontal lobe cortex. Our aim in this study was to determine the value of visual interpretation of 76 channel high density EEG (hdEEG) monitoring (10-10 system) in patients with suspected frontal lobe epilepsy, and to evaluate concordance with MRI, subtraction ictal SPECT co-registered to MRI (SISCOM), conventional EEG, and intracranial EEG (iEEG)., Methods: We performed a retrospective cohort study of 14 consecutive patients who underwent hdEEG monitoring for suspected frontal lobe seizures. The gold standard for localization was considered to be iEEG. Concordance of hdEEG findings with MRI, subtraction ictal SPECT co-registered to MRI (SISCOM), conventional 10-20 EEG, and iEEG as well as correlation of hdEEG localization with surgical outcome were examined., Results: hdEEG localization was concordant with iEEG in 12/14 and was superior to conventional EEG 3/14 (p<0.01) and SISCOM 3/12 (p<0.01). hdEEG correctly lateralized seizure onset in 14/14 cases, compared to 9/14 (p=0.04) cases with conventional EEG. Seven patients underwent surgical resection, of whom five were seizure free., Conclusions: hdEEG monitoring should be considered in patients with suspected frontal epilepsy requiring localization of epileptogenic brain. hdEEG may assist in developing a hypothesis for iEEG monitoring and could potentially augment EEG source localization., (Published by Elsevier B.V.)

Published

2017

4. Subtraction Ictal SPECT coregistered to MRI (SISCOM) as a guide in localizing childhood epilepsy.

Author

Foiadelli, Thomas, Lagae, Lieven, Goffin, Karolien, Theys, Tom, De Amici, Mara, Sacchi, Lucia, Van Loon, Johannes, Savasta, Salvatore, and Jansen, Katrien

Subjects

CHILDHOOD epilepsy, ELECTROENCEPHALOGRAPHY, SINGLE-photon emission computed tomography, EPILEPSY surgery, MEDICATION therapy management, SEIZURES (Medicine), UNIVERSITY hospitals

Abstract

Objective: To assess feasibility and efficacy of subtraction ictal SPECT coregistered to MRI (SISCOM) for epilepsy localization in children who are candidates for resective surgery. Methods: We retrospectively reviewed all patients ≤16 years with drug‐resistant epilepsy screened for epilepsy surgery in the University Hospital of Leuven from January 2009 to January 2018. Fifty‐eight hospitalizations for ictal SPECT and 51 SISCOM analyses in 44 patients were included. Mean age was 9.1 years. Hospitalizations for SISCOM were analyzed in terms of multiple variables affecting feasibility and efficacy. The localization of SISCOM was compared with the localization of the presumed epileptogenic zone (PEZ) as determined by video‐EEG. Results: SISCOM was feasible in terms of chronic medication management, rescue antiepileptic therapy during hospitalization, and operative timings. Radiotracer injection occurred within 30 seconds from seizure onset in 91.4% of the patients. ictal SPECT imaging was performed within two hours from injection in 100% of the patients (mean: 40 minutes). SISCOM was able to localize the PEZ in 51.0% (26/51) and to additionally lateralize the PEZ in 17.6% (9/51), achieving better localizations than ictal SPECT, FDG‐PET, and MRI (P <.01). SISCOM was useful to localize the PEZ in 25% of patients with poorly localizing video‐EEG and in 27.8% of MRI‐negative cases. The occurrence of habitual seizures during injection for ictal SPECT and the temporal localization of the PEZ both correlated with a better SISCOM localization (P <.05). 36.4% (16/44) patients were finally selected for resective surgery, with a 87.5% seizure‐free rate at 12 months. A localizing SISCOM was associated with seizure freedom in 66.7% and with a Engel I‐II in 75.0% of our patients. Significance: SISCOM is a reliable tool to localize the epileptogenic zone in clinical practice and is both feasible and useful in children, adding precious presurgical information especially in patients with noninformative MRI or a poorly localizing video‐EEG. [ABSTRACT FROM AUTHOR]

Published

2020

5. Accuracy of arterial spin labeling magnetic resonance imaging (MRI) perfusion in detecting the epileptogenic zone in patients with drug-resistant neocortical epilepsy: comparison with electrophysiological data, structural MRI, SISCOM and FDG-PET.

Author

Sierra ‐ Marcos, A., Carreño, M., Setoain, X., López ‐ Rueda, A., Aparicio, J., Donaire, A., and Bargalló, N.

Subjects

*EPILEPSY, *MAGNETIC resonance imaging, *ELECTROENCEPHALOGRAPHY, *SINGLE-photon emission computed tomography, *HYPERPERFUSION, *ELECTROPHYSIOLOGY

Abstract

Background and purpose: Locating the epileptogenic zone (EZ) in patients with neocortical epilepsy presents major challenges. Our aim was to assess the accuracy of arterial spin labeling (ASL), an emerging non-invasive magnetic resonance imaging (MRI) perfusion technique, to locate the EZ in patients with drug-resistant neocortical epilepsy. Methods: Twenty-five consecutive patients with neocortical epilepsy referred to our epilepsy unit for pre-surgical evaluation underwent a standardized assessment including video-electroencephalography (EEG) monitoring, structural MRI, subtraction ictal single-photon emission computed tomography coregistered to MRI (SISCOM) and fluorodeoxyglucose positron emission tomography (FDG-PET) studies. An ASL sequence was included in the MRI studies. Areas of hypoperfusion or hyperperfusion on ASL were classified into 15 anatomic-functional cortical regions; these regional cerebral blood flow maps were compared with the EZ determined by the other tests and the strength of concordance was assessed with the kappa coefficient. Results: Of the 25 patients [16 (64%) women; mean age 32.4 (±13.8) years], 18 (72%) had lesions on structural MRI. ASL abnormalities were seen in 15 (60%) patients (nine hypoperfusion, six hyperperfusion). ASL had a very good concordance with FDG-PET (k = 0.84), a good concordance with structural MRI (k = 0.76), a moderate concordance with video-EEG monitoring (k = 0.53) and a fair concordance with SISCOM (k = 0.28). Conclusion: Arterial spin labeling might help to confirm the location and extent of the EZ in the pre-surgical workup of patients with drug-resistant neocortical epilepsy. [ABSTRACT FROM AUTHOR]

Published

2016

6. Clinical Usefulness of SISCOM-SPM Compared to Visual Analysis to Locate the Epileptogenic Zone

Author

Clarissa L. Yasuda, Allan O. Santos, Fernando Cendes, Celso Dario Ramos, Edna Marina de Souza, Marina K. M. Alvim, Mariana C. L. Lima, Bárbara Juarez Amorim, Elba C S C Etchbehere, S.Q. Brunetto, Sebastian Ortiz-De la Rosa, and Carla Oliveira Young

Subjects

SPM, Perfusion scanning, Electroencephalography, Statistical parametric mapping, lcsh:RC346-429, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, medicine, Ictal, Image analysis, lcsh:Neurology. Diseases of the nervous system, seizures, medicine.diagnostic_test, business.industry, brain perfusion, fungi, Subtraction, Small sample, SISCOM, Brief Research Report, Epileptogenic zone, Neurology, SPECT, epilepsy, Neurology (clinical), Nuclear medicine, business, 030217 neurology & neurosurgery

Abstract

Introduction: Subtraction of ictal-interictal SPECT co-registered to MRI (SISCOM) is a quantification tool that can improve the sensitivity and specificity of the epileptogenic zone (EZ) localization. Commercially available image analysis software packages for SISCOM are costly, and Statistical Parametric Mapping (SPM) could be an alternative free software for the definition of the EZ. There are only a few studies that compare SISCOM using SPM (SISCOM-SPM) with visual analysis. Aim: To compare SISCOM-SPM vs. visual analysis for localization of the EZ in patients with pharmacoresistant focal epilepsies. Materials and methods: We evaluated all our patients with focal epilepsies that underwent ictal and interictal SPECT. We defined the reference standard to locate the EZ by pathology and follow-up (in patients submitted to surgery), or seizure semiology, serial EEG, long-term video-EEG, 18F-FDG PET/CT, and MRI (in patients who were not operated). We compared the location of the EZ by visual analysis of SPECT images and by SISCOM-SPM to the reference standard and classified as concordant, discordant, or partially concordant. Results: We included 23 patients. Visual analysis was concordant with the EZ reference standard in only 13 patients (56.5%), while SISCOM-SPM was concordant in 18 cases (78.3%), providing a 21.8% increase in the location of EZ. However, this difference was not significant due to the small sample size (p = 0.0856). Conclusion: Our preliminary results demonstrate that, in clinical practice, SISCOM-SPM has the potential to add information that might help localize the EZ compared to visual analysis. SISCOM-SPM has a lower cost than other commercially available SISCOM software packages, which is an advantage for developing countries. Studies with more patients are necessary to confirm our findings.

Published

2020

7. Functional neuroimaging in startle epilepsy: Involvement of a mesial frontoparietal network.

Author

Fernández, Santiago, Donaire, Antonio, Maestro, Iratxe, Seres, Eulalia, Setoain, Xavier, Bargalló, Nuria, Rumià, Jordi, Boget, Teresa, Falcón, Carles, and Carreño, Mar

Subjects

*BRAIN imaging, *PARIETAL lobe, *FRONTAL lobe, *ELECTROENCEPHALOGRAPHY, *SPASMS, *FRONTOPARIETAL network

Abstract

Summary Purpose: Startle epilepsy is a rare form of epilepsy with seizures triggered by unexpected stimuli. Previous studies have suggested the participation of several brain regions, such as the supplementary motor area (SMA) or the mesial aspect of the frontal and parietal lobes in the generation of startle epilepsy. However, how these brain regions interact with each other during seizures remains largely unknown. The aim of this study was to get insight into brain structures involved in startle-induced seizures using an approach with functional neuroimaging. Methods: Four patients with startle epilepsy secondary to unexpected sounds were studied. All of them underwent a presurgical evaluation including ictal-single-emission computed tomography/subtraction ictal SPECT coregistered to MRI (magnetic resonance imaging) (SPECT/SISCOM). We searched for areas with ictal changes of perfusion higher than two standard deviations (2 SD) above the reference. In one patient, a fluorodeoxyglucose-positron emission tomography (FDG-PET) and an ictal electroencephalography-functional MRI (EEG-fMRI) were also performed. In this patient, the results of FDG-PET and sequential analysis of EEG-fMRI were compared to SISCOM. Key Findings: All the patients had their typical startle-induced seizures, consistent with bilateral asymmetric tonic seizures. Ictal-EEG pattern was located over the mesial centroparietal region in all of them. In three of four patients, a significant hyperperfusion over the mesial frontocentral region was seen, involving the SMA, the perirolandic region, and the precuneus. In one patient, who had a congenital bilateral perisylvian polymicrogyria, it was located over the lateral perirolandic region. 18F-FDG-PET results in the patient in whom it was done, were concordant with SISCOM findings. Ictal EEG-fMRI showed an initial activation located over the precuneus, SMA, cingulate gyrus, and the precentral/perirolandic area. Significance: By using a functional neuroimaging approach we have found that startle-induced seizures could be generated by the interaction of a frontoparietal network located over the mesial surface of the brain. [ABSTRACT FROM AUTHOR]

Published

2011

8. Influence of subtraction ictal SPECT on surgical management in focal epilepsy of indeterminate localization: A prospective study

Author

Tan, K. Meng, Britton, Jeffrey W., Buchhalter, Jeffrey R., Worrell, Gregory A., Lagerlund, Terrence D., Shin, Cheolsu, Cascino, Gregory D., Meyer, Fredric B., and So, Elson L.

Subjects

*PEOPLE with epilepsy, *MAGNETIC resonance imaging, *DECISION making, *POSITRON emission tomography, *ELECTROENCEPHALOGRAPHY, *TREATMENT of epilepsy

Abstract

Summary: The impact of functional imaging tests on the decision-making and planning process for epilepsy surgery has never been prospectively assessed. We prospectively evaluated 50 consecutively eligible patients whose noninvasive evaluations showed nonlocalized findings and determined how their SISCOM (subtraction ictal SPECT [single photon emission computed tomography] co-registered to MRI [magnetic resonance imaging]) data altered consensus decisions for epilepsy surgery. At an epilepsy surgery conference where each patient was discussed, consensus decisions were documented after a standardized presentation of data from the noninvasive evaluation (SISCOM findings initially were excluded). Consensus decisions were again documented after presentation of SISCOM data. Consensus decisions changed for 10 of 32 patients (31%) with localizing SISCOM results, whereas the decision changed in only 1 of 18 patients (6%) with nonlocalizing SISCOM results (P <.05). Changes in consensus decisions were as follows: (1) intracranial electrode implantation (IEI) was obviated and resective surgery was recommended (n =2); (2) resective surgery or further evaluation for patients initially not considered surgical candidates (n =2); (3) IEI in patients for whom it was not recommended initially (n =3); (4) increased IEI coverage (n =3); and (5) antiepileptic drug trial or vagal nerve stimulation was recommended instead of IEI (n =1). For some patients whose noninvasive evaluations did not clearly localize a surgical focus, SISCOM data can have a major impact on decisions to recommend resective epilepsy surgery or IEI. [Copyright &y& Elsevier]

Published

2008

9. Ictal Perfusion Patterns Associated with Single MRI-Visible Focal Dysplastic Lesions: Implications for the Noninvasive Delineation of the Epileptogenic Zone.

Author

Dupont, Patrick, Van Paesschen, Wim, Palmini, Andre, Ambayi, Rudo, Van Loon, Johannes, Goffin, Jan, Weckhuysen, Sarah, Sunaert, Stefan, Thomas, Bejoy, Demaerel, Philippe, Sciot, Raf, Becker, Albert J., Vanbilloen, Hubert, Mortelmans, Luc, and Van Laere, Koen

Subjects

*ELECTROENCEPHALOGRAPHY, *MAGNETIC resonance imaging, *DYSPLASIA, *PATHOLOGY, *TREATMENT of epilepsy

Abstract

Background: Invasive electroencephalogram (EEG) studies are often considered necessary to localize the epileptogenic zone in partial epilepsies associated with focal dysplastic lesions (FDL). Our aim was to evaluate the relationships between subtraction ictal SPECT coregistered with magnetic resonance imaging (MRI) (SISCOM) hyperperfusion clusters and MRI-visible FDL, and to establish a preliminary algorithm for a noninvasive presurgical evaluation protocol for MRI-visible FDLs in patients with refractory epilepsy. Methods: Fifteen consecutive patients with refractory partial epilepsy and a single MRI-visible FDL underwent a noninvasive presurgical evaluation including SISCOM. Each hyperperfusion cluster was visually analyzed, automatically quantitated, and its distance form the lesion as outlined on the MRI was measured. In patients who underwent surgery, the volumes of resected brain tissue containing the FDL, the SISCOM hyperperfusion cluster, and surrounding regions were assessed on postoperative MRI and correlated with surgical outcome. Results: Fourteen of the 15 patients (93%) showed SISCOM hyperperfusion overlapping with the FDL. The FDL was detected only after reevaluation of the MRI guided by the ictal SPECT in 7 of the 15 patients (47%). Four distinct hyperperfusion patterns were observed, representing different degrees of seizure propagation. Nine patients have been operated on. Five have been seizure-free since surgery and one since a reoperation. The degree of resection of the MRI-visible FDL was the major determinant of surgical outcome. Full resection of the SISCOM hyperperfusion cluster was not required to render a patient seizure-free. Conclusion: Detailed analysis of SISCOM hyperperfusion patterns is a promising tool to detect subtle FDL on MRI and to establish the epileptic nature of these lesions noninvasively. Overlap between the SISCOM hyperperfusion cluster and MRI-visible FDL in a noninvasive presurgical evaluation with concordant data may suffice to proceed to epilepsy surgery aimed at removing the MRI-visible FDL and the part of the hyperperfusion cluster within and immediately surrounding the FDL. [ABSTRACT FROM AUTHOR]

Published

2006

10. Advances in computer-assisted single-photon emission computed tomography (SPECT) for epilepsy surgery in children.

Author

Buchhalter, J.R. and So, E.L.

Subjects

*CHILDHOOD epilepsy, *PEDIATRIC neurology, *TOMOGRAPHY, *ANTICONVULSANTS, *ELECTROENCEPHALOGRAPHY, *EPILEPSY, *BRAIN imaging

Abstract

Epilepsy surgery has emerged as an important option in the treatment of children with epilepsy that is refractory to antiepileptic drug management. The cornerstone of successful surgery is accurate localization of the brain region of seizure onset. Traditional techniques of seizure onset localization, e.g. surface electroencephalography (EEG) recording and magnetic resonance imaging (MRI), allow accurate localization in a significant number of patients. When the focus of seizure onset is not apparent from these non-invasive techniques, other methods of localization, e.g. intracranial EEG recording, may be needed before resection of the focus. Single-photon emission computed tomography (SPECT) is a nuclear medicine blood-flow technique that has been used to identify a region of epileptogenic brain associated with low blood flow in the resting state (interictal SPECT) or increased blood flow at the time of seizure activity (ictal SPECT). This report describes the validation and utility of a computer-assisted method of subtracting the interictal from the ictal SPECT scans and co-registering the difference image on the MRI. This method, called subtraction ictal SPECT co-registered on MRI (SISCOM), is used in guiding the location and the extent of intracranial electrode implantation, or in obviating the need for the implantation in some cases. [ABSTRACT FROM AUTHOR]

Published

2004

11. A Novel Noninvasive Approach Based on SPECT and EEG for the Location of the Epileptogenic Zone in Pharmacoresistant Non-Lesional Epilepsy

Author

Abel Sanchez Corneaux, Karla Batista García-Ramo, Ángel Águila Ruiz, Carlos Sánchez Catasús, Lilia María Morales Chacón, Jorge Bosh Bayard, and Pedro Rojas Lopez

Subjects

Adult, Male, Drug Resistant Epilepsy, Adolescent, multimodal imaging, Electroencephalography, Single-photon emission computed tomography, Article, 050105 experimental psychology, 03 medical and health sciences, Epilepsy, 0302 clinical medicine, Predictive Value of Tests, Humans, Medicine, 0501 psychology and cognitive sciences, Ictal, Epilepsy surgery, Retrospective Studies, Tomography, Emission-Computed, Single-Photon, lcsh:R5-920, medicine.diagnostic_test, EEG inverse solution, SPECT, SISCOM, epilepsy surgery, business.industry, 05 social sciences, Subtraction, Pattern recognition, General Medicine, Gold standard (test), Epileptogenic zone, medicine.disease, Magnetic Resonance Imaging, 3. Good health, MODEL, Female, Artificial intelligence, business, lcsh:Medicine (General), 030217 neurology & neurosurgery, MRI

Abstract

Background and objectives: The aim of this study is to propose a methodology that combines non-invasive functional modalities electroencephalography (EEG) and single photon emission computed tomography (SPECT) to estimate the location of the epileptogenic zone (EZ) for the presurgical evaluation of patients with drug-resistant non-lesional epilepsy. Materials and Methods: This methodology consists of: (i) Estimation of ictal EEG source imaging (ESI), (ii) application of the subtraction of ictal and interictal SPECT co-registered with MRI (SISCOM) methodology, and (iii) estimation of ESI but using the output of the SISCOM as a priori information for the estimation of the sources. The methodology was implemented in a case series as an example of the application of this novel approach for the presurgical evaluation. A gold standard and a coincidence analysis based on measures of sensitivity and specificity were used as a preliminary assessment of the proposed methodology to localize EZ. Results: In patients with good postoperative evolution, the estimated EZ presented a spatial coincidence with the resection site represented by high values of sensitivity and specificity. For the patient with poor postoperative evolution, the methodology showed a partial incoherence between the estimated EZ and the resection site. In cases of multifocal epilepsy, the method proposed spatially extensive epileptogenic zones. Conclusions: The results of the case series provide preliminary evidence of the methodology&rsquo, s potential to epileptogenic zone localization in non-lesion drug-resistant epilepsy. The novelty of the article consists in estimating the sources of ictal EEG using SISCOM result as a prior for the inverse solution. Future studies are necessary in order to validate the described methodology. The results constitute a starting point for further studies in order to support the clinical reliability of the proposed methodology and advocate for their implementation in the presurgical evaluation of patients with intractable non-lesional epilepsy.

Published

2019

12. FocusDET, a new toolbox for SISCOM analysis. Evaluation of the registration accuracy using monte carlo simulation

Author

Gert Wollny, Xavier Setoain, Maria J. Ledesma, Alejandro F. Frangi, Berta Marti Fuster, Xavier Planes, Carles Falcon, Oscar Esteban, Andres Santos, Javier Pavía, Pablo Aguiar, Cristina Crespo, Sebastià Rubí Sureda, and Domènec Ros

Subjects

Computer science, Neuroscience(all), Monte Carlo method, Brain/*diagnostic imaging, Ictal-Interictal SPECT Analysis by SPM, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Expectation–maximization algorithm, Image Interpretation, Computer-Assisted, Image Processing, Computer-Assisted, Humans, Computer vision, Ictal, Diagnostic Errors, Reconstruction algorithms, Monte Carlo simulation, Voxel size, Tomography, Emission-Computed, Single-Photon, Telecomunicaciones, Epilepsy, business.industry, General Neuroscience, Subtraction, Brain, SISCOM, Electroencephalography, Reconstruction method, Magnetic Resonance Imaging, Subtraction Technique, Registration assessment, Original Article, Electrónica, Artificial intelligence, Epilepsies, Partial, business, Monte Carlo Method, 030217 neurology & neurosurgery, Ordered subsets, Software, Algorithms, Information Systems

Abstract

Subtraction of Ictal SPECT Co-registered to MRI (SISCOM) is an imaging technique used to localize the epileptogenic focus in patients with intractable partial epilepsy. The aim of this study was to determine the accuracy of registration algorithms involved in SISCOM analysis using FocusDET, a new user-friendly application. To this end, Monte Carlo simulation was employed to generate realistic SPECT studies. Simulated sinograms were reconstructed by using the Filtered BackProjection (FBP) algorithm and an Ordered Subsets Expectation Maximization (OSEM) reconstruction method that included compensation for all degradations. Registration errors in SPECT-SPECT and SPECT-MRI registration were evaluated by comparing the theoretical and actual transforms. Patient studies with well-localized epilepsy were also included in the registration assessment. Global registration errors including SPECT-SPECT and SPECT-MRI registration errors were less than 1.2 mm on average, exceeding the voxel size (3.32 mm) of SPECT studies in no case. Although images reconstructed using OSEM led to lower registration errors than images reconstructed with FBP, differences after using OSEM or FBP in reconstruction were less than 0.2 mm on average. This indicates that correction for degradations does not play a major role in the SISCOM process, thereby facilitating the application of the methodology in centers where OSEM is not implemented with correction of all degradations. These findings together with those obtained by clinicians from patients via MRI, interictal and ictal SPECT and video-EEG, show that FocusDET is a robust application for performing SISCOM analysis in clinical practice.

Published

2013

13. Comparison of various imaging modalities in localization of epileptogenic lesion using epilepsy surgery outcome in pediatric patients

Author

Jeong Tae Kim, Yoon Jin Lee, Hae-Jeong Park, Heung Dong Kim, Joon Soo Lee, Dong Seok Kim, Sun Joon Bai, and Keum Ok Choi

Subjects

Adult, Diagnostic Imaging, Male, medicine.medical_specialty, Adolescent, Concordance, Clinical Neurology, Electroencephalography, Ictal-Interictal SPECT Analysis by SPM, Pediatrics, Neurosurgical Procedures, Temporal lobe, Epilepsy, Young Adult, Fluorodeoxyglucose F18, Outcome Assessment, Health Care, medicine, Humans, Epilepsy surgery, Child, Children, Tomography, Emission-Computed, Single-Photon, Hippocampal sclerosis, Brain Mapping, medicine.diagnostic_test, business.industry, SISCOM, General Medicine, Cortical dysplasia, Middle Aged, medicine.disease, Magnetic Resonance Imaging, Surgery, PET, Neurology, Positron-Emission Tomography, Female, Neurology (clinical), Radiology, business, MRI

Abstract

Purpose We employed the results of imaging modalities from pediatric patients who received successful epilepsy surgery to determine the accuracy of each imaging tool in identifying epileptic zones in youngsters. Methods All Engel class I pediatric patients who received epilepsy surgery between October 2003 and April 2008 were selected. Their pathology, EEG, MRI, PET, and subtraction ictal SPECT coregistered to MRI (SISCOM) results were compared for accuracy in locating the epileptic foci, defined as "area that resulted in seizure ablation after resection". Results Forty-two patients were enrolled (23 temporal lobectomy, 19 extratemporal resections). MRI showed concordance in 84.2% of extratemporal cases, all of which had precise localization of lesions. In temporal cases, lateralization was 91.3% and localization was 82.6%. PET showed a concordance rate of 95.5% and localization was 72.7% for temporal lesions. For extratemporal lesions, concordance was only 68.4%. SISCOM showed concordance in 100% of temporal and 92.3% of extratemporal cases, with localization in 66.7% of temporal and 84.6% of extratemporal cases. Most temporal lobe cases had hippocampal sclerosis, and cortical dysplasia was observed in extratemporal cases. Discussion MRI was invariably reliable in all cases. PET results were as reliable in lateralizing the temporal epileptic area, while its efficacy was lower for extratemporal cases. SISCOM effectively localized lesions in extratemporal cases, but its efficacy was lower in temporal lesions. In cases of conflicting pre-surgical results, MRI, with supplementary data from PET, helped to establish correct decisions in temporal epilepsies, while utilization of SISCOM and MRI data is advised for extratemporal cases.

Published

2008