A computational atlas of the hippocampal formation using ex vivo, ultra-high resolution MRI: Application to adaptive segmentation of in vivo MRI

Iglesias, Juan Eugenio; Augustinack, Jean C.; Nguyen, Khoa Huynh; Player, Christopher M.; Player, Allison; Wright, Michelle F.; Roy, Nicole M.; Frosch, Matthew P.; McKee, Ann C.; Wald, Lawrence L.; Fischl, Bruce; Leemput, Koen Van

doi:10.1016/j.neuroimage.2015.04.042

Cited by 981 publications

(1,197 citation statements)

References 80 publications

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“…Volumetric segmentation was performed with the FreeSurfer image analysis suite Version 6.0, Technical details of these procedures are described in prior publications (Dale, Fischl, & Sereno, 1999; Fischl et al, 2004) including refined software for segmentation of the hippocampus (Iglesias et al, 2015). Overall, this approach provides hippocampal subfield volume measures that more closely align with histological measurements compared to the prior FreeSurfer release or alternative automated segmentation algorithms (Iglesias et al, 2015).…”

Section: Methodsmentioning

confidence: 99%

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Does sleep disruption mediate the effects of childhood maltreatment on brain structure?

Teicher

Ohashi

Khan

et al. 2017

European Journal of Psychotraumatology

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Background: Childhood maltreatment is associated with alterations in morphology of stress susceptible brain regions. Maltreatment is also known to markedly increase risk for psychopathology and to have an enduring disruptive effect on sleep. Objective: To determine whether abnormalities in sleep continuity have effects on brain morphometry and to evaluate the extent to which sleep impairments mediate the effects of maltreatment on brain structure. Method: Maltreatment and Abuse Chronology of Exposure (MACE) scale ratings, actigraph-assessed sleep and 3T MRI were obtained on N = 37 18–19-year-old participants recruited from the community (N = 34 with neuroimaging). Results: Fourteen participants had no history of maltreatment while N = 23 were exposed, on average, to 4.7 types of maltreatment. Multiplicity of maltreatment was strongly associated with reduced sleep efficiency, increased wake after sleep onset time and number/duration of awakenings, which were independent of effects of maltreatment on depression and anxiety. The most important predictors of impaired sleep were exposure to parental non-verbal emotional abuse at 9–10 years of age. Reduced sleep efficiency correlated with reduced grey matter volume in hippocampus including CA1 subfield, molecular layer and dentate gyrus as well as inferior frontal gyrus and insula. Sleep mediated 39–46% of the effects of maltreatment on volume of hippocampal structures and inferior frontal gyrus. Conclusions: Actigraph-assessed sleep is disrupted in maltreated late teens and mediates a significant portion of the effects of maltreatment on hippocampal volume. Studies are needed to assess whether efforts to enhance sleep in maltreated children can pre-empt or ameliorate neurobiological consequences of maltreatment.

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Section: Methodsmentioning

confidence: 99%

“…Overall, this approach provides hippocampal subfield volume measures that more closely align with histological measurements compared to the prior FreeSurfer release or alternative automated segmentation algorithms (Iglesias et al, 2015). …”

Section: Methodsmentioning

confidence: 99%

Does sleep disruption mediate the effects of childhood maltreatment on brain structure?

Teicher

Ohashi

Khan

et al. 2017

European Journal of Psychotraumatology

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“…These structures were manually labeled in 15 ex vivo scans, and a probabilistic atlas of hippocampal anatomy was built from these delineations, in combination with manual segmentations of 39 1 mm T1 scans of the whole brain at the structure level (i.e., whole hippocampus, whole amygdala, etc.). These 39 scans are important to learn the defining image features of the anatomy of the brain structures surrounding the hippocampus (Iglesias et al, 2015).…”

Section: Automated Segmentation Of Hippocampal Subfields (Ashs)mentioning

confidence: 99%

“…Validation: Indirect validation by assessing the ability of the estimated subfield volumes to separate different groups (Iglesias et al, 2015).…”

Section: Automated Segmentation Of Hippocampal Subfields (Ashs)mentioning

confidence: 99%

“…This has been exploited by manual labeling approaches and increasingly also by automated approaches. Of the currently available approaches ASHS (Yushkevich et al, 2015b) and the latest version of Bayesian inference labeling implemented in Freesurfer 6.0 (Iglesias et al, 2015) were chosen for this project because both algorithms are publicly available and are used by the larger research community. The manual labeling protocol developed by Mueller et al (2007) was chosen as manual reference because its limited labeling scheme made it possible to label the over 100 images required for this project within a reasonable amount of time.…”

Section: Introductionmentioning

confidence: 99%

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P2‐231: Systematic Comparison of Different Techniques to Measure Hippocampal Subfield Volumes in ADNI2

Mueller

Yushkevich

Wang

et al. 2016

Alzheimer's & Dementia

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Objective: Subfield-specific measurements provide superior information in the early stages of neurodegenerative diseases compared to global hippocampal measurements. The overall goal was to systematically compare the performance of five representative manual and automated T1 and T2 based subfield labeling techniques in a subset of the ADNI2 population. Methods: The high resolution T2 weighted hippocampal images (T2-HighRes) and the corresponding T1 images from 106 ADNI2 subjects (41 controls, 57 MCI, 8 AD) were processed as follows. A. T1-based: 1. Freesurfer + Large-Diffeomorphic-Metric-Mapping in combination with shape analysis. 2. FreeSurfer 5.1 subfields using invivo atlas. B. T2-HighRes: 1. Model-based subfield segmentation using ex-vivo atlas (FreeSurfer 6.0). 2. T2-based automated multi-atlas segmentation combined with similarity-weighted voting (ASHS). 3. Manual subfield parcellation. Multiple regression analyses were used to calculate effect sizes (ES) for group, amyloid positivity in controls, and associations with cognitive/memory performance for each approach. Results: Subfield volumetry was better than whole hippocampal volumetry for the detection of the mild atrophy differences between controls and MCI (ES: 0.27 vs 0.11). T2-HighRes approaches outperformed T1 approaches for the detection of early stage atrophy (ES: 0.27 vs.0.10), amyloid positivity (ES: 0.11 vs 0.04), and cognitive associations (ES: 0.22 vs 0.19). Conclusions: T2-HighRes subfield approaches outperformed whole hippocampus and T1 subfield approaches. None of the different T2-HghRes methods tested had a clear advantage over the other methods. Each has strengths and weaknesses that need to be taken into account when deciding which one to use to get the best results from subfield volumetry.

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Hippocampal Structures Among Japanese Adolescents Before and After the COVID-19 Pandemic

Cai,

Maikusa,

Zhu

et al. 2024

JAMA Netw Open

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ImportanceFew studies have used a large-sample, longitudinal, population-based cohort study to examine whether the COVID-19 pandemic as a global major life event is associated with structural plasticity of the adolescent hippocampus.ObjectiveTo examine whether Japan's first state of emergency (SoE) during the COVID-19 pandemic was associated with alterations in the macrostructures and microstructures of the hippocampus during its development.Design, Setting, and ParticipantsThe population-neuroscience Tokyo TEEN Cohort study is a prospective cohort study with 4 consecutive waves in Tokyo, Japan. Due to the SoE, data collection was suspended between March 27, 2020, and July 30, 2020. Analyzed data, comprising 1149 brain structural scans obtained from 479 participants, of whom 336 participants had undergone 2 or more scans, were collected between October 2013 and November 2021. Data were analyzed from August 2022 to December 2023.ExposuresJapan’s first SoE (April 7 to May 25, 2020).Main Outcomes and MeasuresHippocampal volume, 12 hippocampal subfield volumes, and 7 microstructural measures of the hippocampus.ResultsA total of 1060 brain scans from 459 participants (214 female participants [47%]) including 246 participants from wave 1 (median [IQR] age, 11.3 [11.1-11.7] years), 358 from wave 2 (median [IQR] age, 13.8 [13.3-14.5] years), 304 from wave 3 (median [IQR] age, 15.9 [15.4-16.5] years), and 152 from wave 4 (median [IQR] age, 17.9 [17.5-18.4] years) were included in the final main analysis. The generalized additive mixed model showed a significant associations of the SoE with the mean hippocampal volume (β = 102.19; 95% CI, 0.61-203.77; P = .049). The generalized linear mixed models showed the main associations of the SoE with hippocampal subfield volume (granule cell and molecular layer of the dentate gyrus: β = 18.19; 95% CI, 2.97-33.41; uncorrected P = .02; CA4: β = 12.75; 95% CI, 0.38-25.12; uncorrected P = .04; hippocampus-amygdala transition area: β = 5.67; 95% CI, 1.18-10.17; uncorrected P = .01), and fractional anisotropy (β = 0.03; 95% CI, 0.00-0.06; uncorrected P = .04).Conclusions and RelevanceAfter the first SoE, a volumetric increase in the hippocampus and trend increase in 3 subfield volumes and microstructural integration of the hippocampus were observed, suggesting that the transient plasticity of the adolescent hippocampus was affected by a major life event along with the typical developmental trajectory.

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A computational atlas of the hippocampal formation using ex vivo, ultra-high resolution MRI: Application to adaptive segmentation of in vivo MRI

Cited by 981 publications

References 80 publications

Does sleep disruption mediate the effects of childhood maltreatment on brain structure?

Does sleep disruption mediate the effects of childhood maltreatment on brain structure?

P2‐231: Systematic Comparison of Different Techniques to Measure Hippocampal Subfield Volumes in ADNI2

Hippocampal Structures Among Japanese Adolescents Before and After the COVID-19 Pandemic

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