Clinical validation of automated hippocampal segmentation in temporal lobe epilepsy

Hadar, Peter N.; Kini, Lohith G.; Coto, Carlos A.; Piskin, Virginie; Callans, Lauren; Chen, Stephanie H.; Stein, Joel M.; Das, Sandhitsu R.; Yushkevich, Paul A.; Davis, Kathryn A.

doi:10.1016/j.nicl.2018.09.032

Cited by 17 publications

(16 citation statements)

References 38 publications

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“…T1w source images were converted to NIfTI format and interpolated up to .25‐mm isotropic resolution. They were then processed using the ASHS software package 34 with the Penn Temporal Lobe Epilepsy T1‐MRI Whole Hippocampus ASHS Atlas 35 to generate ultra‐high‐resolution hippocampal segmentations. Segmentation in the superresolution space captures surface contours that are encoded in the grayscale data of the native resolution images but not visible in native resolution segmentations 29 .…”

Section: Methodsmentioning

confidence: 99%

Loss of hippocampal dentation in hippocampal sclerosis and its relationship to memory dysfunction

et al. 2022

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Summary Objective Hippocampal dentation (HD) is a “toothlike” morphological feature observed on the inferior aspect of the human hippocampus. It has been found that HD varies dramatically in healthy adults and is positively associated with verbal and visual memory. In this work, we evaluate the loss of HD and its association with memory dysfunction in patients with temporal lobe epilepsy (TLE) who have hippocampal sclerosis (HS). Methods Fifty‐eight unilateral HS patients with neuropsychological data were identified from a retrospective database. T1‐weighted magnetization‐prepared rapid acquisition gradient echo images (~1 mm resolution) were upsampled to .25 mm and were processed using ASHS software to obtain ultra‐high‐resolution segmentations and three‐dimensional renderings. Dentes were counted on the epileptic and contralateral sides, and associations were tested between dentation on the epileptic versus contralateral sides and measures of verbal and visuospatial memory with respect to the dominant versus nondominant hemisphere. Results The median number of dentes in epileptic hippocampi was significantly lower than in contralateral hippocampi (p < .0001). Among cases with HS in the dominant hemisphere, verbal memory was significantly correlated with contralateral nondominant hemisphere dentation (r = .43, p = .04). Similarly, among cases of HS in the nondominant hemisphere, visual memory was significantly correlated with contralateral dominant hemisphere dentation (r = .48, p = .04). All other analyses were not significant. Significance This is the first study characterizing dentation in TLE patients with HS and its memory correlates. There is marked loss of dentation in sclerotic hippocampi compared to the unaffected contralateral hippocampi. Material‐specific measures of memory performance are paradoxically correlated with dentation contralateral to the side with HS, suggesting that contralateral functional capacity explains some of the variation in memory across TLE patients. HD is an important variable to consider in understanding memory loss in TLE.

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Section: Methodsmentioning

confidence: 99%

Loss of hippocampal dentation in hippocampal sclerosis and its relationship to memory dysfunction

et al. 2022

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“…7T MPRAGE images from all four patients were linearly registered to the respective CEST maps using Advanced Normalization Tools (ANTs) (Avants, Tustison, Song, et al., 2011). ASHS segmentation (an automated technique for segmenting hippocampal subfields and extra‐hippocampal medial temporal cortices from high‐resolution T2w‐MRI at 7T MRI) was then performed on 7T oblique coronal T2‐weighted imaging acquired perpendicular to the long axis of the hippocampus which resulted in segmentations of bilateral subfields of the hippocampi (Hadar et al., 2018; Shah et al., 2018). The segmentation included subiculum, Cornu Ammonis (CA) 1, 2, and 3 and dentate gyrus (DG).…”

Section: Methodsmentioning

confidence: 99%

“…CA2 and CA3 were not included in the primary analyses because of the lower reliability of these regions, as opposed to the more reliable CA1, DG, and subiculum; this has been previously noted in the ASHS technique and is thought to be potentially due to inherent error and sampling issues involved in gross geometrical approximations of cellular transitions (Schoene‐Bake et al., 2014; Wisse et al., 2016). Overall, ASHS has been both pathologically and clinically validated (Hadar et al., 2018; Wisse et al., 2016). Supplementary analysis of the volumes was conducted on all hippocampal subfields.…”

Section: Methodsmentioning

confidence: 99%

Volumetric glutamate imaging (GluCEST) using 7T MRI can lateralize nonlesional temporal lobe epilepsy: A preliminary study

et al. 2021

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“…More recent work based on nonconventional contrasts, including diffusion 29 and network parameters, [30][31][32] has targeted whole-brain anomalies in patients with MRI-positive TLE. Only 2 previous studies have addressed the lateralization challenge in both MRI-positive and MRI-negative TLE, 33,34 operating on T1-derived volumetry with groups predefined by side and visibility of hippocampal atrophy on MRI. In 1 study, 33 besides the lack of histopathologic confirmation, anatomic structures identifying TLE groups were mainly outside the mesiotemporal lobe, different across groups, and difficult to interpret, particularly in MRI-negative patients.…”

Section: Discussionmentioning

confidence: 99%

MRI-Based Machine Learning Prediction Framework to Lateralize Hippocampal Sclerosis in Patients With Temporal Lobe Epilepsy

et al. 2021

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Objective.MRI fails to reveal hippocampal pathology in 30-50% of temporal lobe epilepsy (TLE) surgical candidates. To address this clinical challenge, we developed an automated MRI-based classifier that lateralizes the side of covert hippocampal pathology in TLE.Methods.We trained a surface-based linear discriminant classifier that uses T1-weighted (morphology) and T2-weighted as well as FLAIR/T1 (intensity) features. The classifier was trained on 60 TLE patients (mean age: 35.6; 58% female) with histologically-verified hippocampal sclerosis (HS). Images were deemed as MRI-negative in 42% of cases based on neuroradiological reading (40% based on hippocampal volumetry). The predictive model automatically labelled patients as left or right TLE. Lateralization accuracy was compared to electro-clinical data, including side of surgery. Accuracy of the classifier was further assessed in two independent TLE cohorts with similar demographics and electro-clinical characteristics (n=57; 58% MRI-negative).Results.The overall lateralization accuracy was 93% (95%; CI 92% - 94%), regardless of HS visibility. In MRI-negative TLE, the combination of T2 and FLAIR/T1 intensities provided the highest accuracy both in the training (84%, area-under-the-curve (AUC): 0.95±0.02) and the validation cohorts (Cohort 1: 90%, AUC: 0.99; Cohort 2: 76%, AUC: 0.94).Conclusion.This prediction model for TLE lateralization operates on readily available conventional MRI contrasts and offers gain in accuracy over visual radiological assessment. The combined contribution of decreased T1- and increased T2-weighted intensities makes the synthetic FLAIR/T1 contrast particularly effective in MRI-negative HS, setting the basis for broad clinical translation.

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Clinical validation of automated hippocampal segmentation in temporal lobe epilepsy

Cited by 17 publications

References 38 publications

Loss of hippocampal dentation in hippocampal sclerosis and its relationship to memory dysfunction

Loss of hippocampal dentation in hippocampal sclerosis and its relationship to memory dysfunction

Volumetric glutamate imaging (GluCEST) using 7T MRI can lateralize nonlesional temporal lobe epilepsy: A preliminary study

MRI-Based Machine Learning Prediction Framework to Lateralize Hippocampal Sclerosis in Patients With Temporal Lobe Epilepsy

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