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65. The impact of prenatal alcohol and/or tobacco exposure on brain structure in a large sample of children from a South African birth cohort

Author

Andrew T. Marshall, Stefanie C. Bodison, Kristina A. Uban, Shana Adise, Deborah Jonker, Weslin Charles, Kirsten A. Donald, Eric Kan, Jonathan C. Ipser, Letitia Butler‐Kruger, Babette Steigelmann, Katherine L. Narr, Shantanu H. Joshi, Lucy T. Brink, Hein J. Odendaal, Freda Scheffler, Dan J. Stein, and Elizabeth R. Sowell

Subjects
Psychiatry and Mental health, South Africa, Ethanol, Pregnancy, Prenatal Exposure Delayed Effects, Tobacco, Medicine (miscellaneous), Humans, Brain, Female, Birth Cohort, Toxicology, Child
Abstract

Neuroimaging studies have emphasized the impact of prenatal alcohol exposure (PAE) on brain development, traditionally in heavily exposed participants. However, less is known about how naturally occurring community patterns of PAE (including light to moderate exposure) affect brain development, particularly in consideration of commonly occurring concurrent impacts of prenatal tobacco exposure (PTE).Three hundred thirty-two children (ages 8 to 12) living in South Africa's Cape Flats townships underwent structural magnetic resonance imaging. During pregnancy, their mothers reported alcohol and tobacco use, which was used to evaluate PAE and PTE effects on their children's brain structure. Analyses involved the main effects of PAE and PTE (and their interaction) and the effects of PAE and PTE quantity on cortical thickness, surface area, and volume.After false-discovery rate (FDR) correction, PAE was associated with thinner left parahippocampal cortices, while PTE was associated with smaller cortical surface area in the bilateral pericalcarine, left lateral orbitofrontal, right posterior cingulate, right rostral anterior cingulate, left caudal middle frontal, and right caudal anterior cingulate gyri. There were no PAE × PTE interactions nor any associations of PAE and PTE exposure on volumetrics that survived FDR correction.PAE was associated with reduction in the structure of the medial temporal lobe, a brain region critical for learning and memory. PTE had stronger and broader associations, including with regions associated with executive function, reward processing, and emotional regulation, potentially reflecting continued postnatal exposure to tobacco (i.e., second-hand smoke exposure). These differential effects are discussed with respect to reduced PAE quantity in our exposed group versus prior studies within this geographical location, the deep poverty in which participants live, and the consequences of apartheid and racially and economically driven payment practices that contributed to heavy drinking in the region. Longer-term follow-up is needed to determine potential environmental and other moderators of the brain findings here and assess the extent to which they endure over time.

Published
2022

66. Anterior Default Mode Network and Posterior Insular Connectivity is Predictive of Depressive Symptom Reduction Following Serial Ketamine Infusion - CORRIGENDUM

Author

Benjamin S. C. Wade, Joana Loureiro, Ashish Sahib, Antoni Kubicki, Shantanu H. Joshi, Gerhard Hellemann, Randall T. Espinoza, Roger P. Woods, Eliza Congdon, and Katherine L. Narr

Subjects
Psychiatry and Mental health, Brain Mapping, Depression, Brain, Default Mode Network, Humans, Ketamine, Magnetic Resonance Imaging, Applied Psychology
Published
2022

67. Associations between prenatal alcohol and tobacco exposure and cortical and subcortical brain measures in South African children: a pilot study

Author

Kristina A. Uban, Deborah Jonker, Kirsten A. Donald, Samantha J. Brooks, Stefanie C. Bodison, Eric Kan, Letitia Butler-Kruger, Annerine Roos, Babette Steigelmann, Brigitte Melly, Shana Adise, Andrew Marshall, Katherine L. Narr, Shantanu H. Joshi, Hein J. Odendaal, Elizabeth R. Sowell, and Dan J. Stein

Abstract

ObjectiveThe aim of this pilot study was to assess associations of prenatal alcohol exposure (PAE), prenatal tobacco exposure (PTE), and their interaction and quantity on subsequent cortical and subcortical measures at age 6 years.MethodsMothers with varying levels of alcohol and tobacco exposure at different trimesters during pregnancy were approached when their children (born participating in the Safe Passage Study) were approximately 6 years old. 72 mothers agreed to participate, and 51 children completed brain magnetic resonance imaging (MRI). Brain regions of interest (ROIs) that were significantly associated prior to multiple comparison testing, were examined for associations related to exposure quantity, frequency, and timing (QFT), to explore how patterns of PAE and PTE influence brain outcomes in children. Linear regression was used to identify associations between PAE, PTE, and their interaction with cortical (n = 68 ROIs) and subcortical (n = 40 ROIs) measures.ResultsPrior to correction for multiple comparison testing, both PAE and PTE, as well as their interaction, were associated with a range of cortical and subcortical measures. However, none of these findings survived correction for multiple comparisons. Nevertheless, when exploring quantity of PAE, the total amount of standard drinks consumed during pregnancy and the average number of drinks per drinking day were positively associated with cortical volume in the right fusiform gyrus.ConclusionThese trend results in this pilot study provide preliminary evidence that PAE impacts brain development in unique ways from PTE, and their interactive co-exposure is not a straight forward synergistic or additive effect on the brain.

Published
2022

72. The impact of prenatal alcohol exposure on gray matter volume and cortical surface area of 2 to 3-year-old children in a South African birth cohort

Author

Sivenesi Subramoney, Shantanu H. Joshi, Catherine J. Wedderburn, David Lee, Annerine Roos, Roger P. Woods, Heather J. Zar, Katherine L. Narr, Dan J. Stein, and Kirsten A. Donald

Subjects
Alcohol Drinking, Infant, Newborn, Medicine (miscellaneous), Brain, Toxicology, Magnetic Resonance Imaging, Psychiatry and Mental health, South Africa, Cross-Sectional Studies, Pregnancy, Child, Preschool, Prenatal Exposure Delayed Effects, Humans, Birth Cohort, Female, Gray Matter, Child
Abstract

BACKGROUND: There is a growing literature that demonstrates the effects of prenatal alcohol exposure (PAE) on brain development in school-aged children. Less is known, however, on how PAE impacts the brain early in life. We investigated the effects of PAE and child sex on subcortical gray matter volume, cortical surface area (CSA), cortical volume (CV), and cortical thickness (CT) in children aged 2 to 3 years. METHODS: The sample was recruited as a nested cross-sectional substudy of the Drakenstein Child Health Study. Images from T1-weighted magnetic resonance imaging were acquired on 47 alcohol-exposed and 124 control children (i.e., with no or minimal alcohol exposure), aged 2 to 3 years, some of whom were scanned as neonates. Brain images were processed through automated processing pipelines using FreeSurfer version 6.0. Subcortical and a priori selected cortical regions of interest were compared. RESULTS: Subcortical volume analyses revealed a PAE by child sex interaction for bilateral putamen volumes (Left: p = 0.02; Right: p = 0.01). There was no PAE by child sex interaction effect on CSA, CV, and CT. Analyses revealed an impact of PAE on CSA (p = 0.04) and CV (p = 0.04), but not CT in this age group. Of note, the inferior parietal gyrus CSA was significantly smaller in children with PAE compared to control children. CONCLUSIONS: Findings from this subgroup scanned at age 2 to 3 years build on previously described subcortical volume differences in neonates from this cohort. Findings suggest that PAE persistently affects gray matter development through the critical early years of life. The detectable influence of PAE on brain structure at this early age further highlights the importance of brain imaging studies on the impact of PAE on the young developing brain.

Published
2022

73. Prenatal depression exposure alters white matter integrity and neurodevelopment in early childhood

Author

Annerine, Roos, Catherine J, Wedderburn, Jean-Paul, Fouche, Shantanu H, Joshi, Katherine L, Narr, Roger P, Woods, Heather J, Zar, Dan J, Stein, and Kirsten A, Donald

Subjects
Adult, Male, Depression, Infant, Newborn, Brain, Magnetic Resonance Imaging, White Matter, Diffusion Tensor Imaging, Pregnancy, Child, Preschool, Prenatal Exposure Delayed Effects, Anisotropy, Humans, Female
Abstract

Prenatal exposure to maternal depression increases the risk for onset of emotional and behavioral disorders in children. We investigated the effects of exposure to prenatal depression on white matter microstructural integrity at birth and at 2-3 years, and associated neurodevelopment. Diffusion-weighted images were acquired for children of the Drakenstein Child Health Study at 2-4 weeks postpartum (n=70, 47% boys) and at 2-3 years of age (n=60, 58% boys). Tract-Based Spatial Statistics was used to compare, using an ROI based approach, diffusion tensor metrics across groups defined by presence (19 on Beck's Depression Inventory and/or12 on the Edinburgh Postnatal Depression Scale) or absence (below depression thresholds) of depression, and associations with neurodevelopmental measures at age 2-3 years were determined. We did not detect group differences in white matter integrity at neonatal age, but at 2-3 years, children in the exposed group demonstrated higher fractional anisotropy, and lower mean and radial diffusivity in association tracts compared to controls. This was notable in the sagittal stratum (radial diffusivity: p0.01). Altered white matter integrity metrics were also observed in projection tracts, including the corona radiata, which associated with cognitive and motor outcomes in exposed 2-3-year-olds (p0.05). Our findings of widespread white matter alterations in 2-3-year-old children with prenatal exposure to depression are consistent with previous findings, as well as with neuroimaging findings in adults with major depression. Further, we identified novel associations of altered white matter integrity with cognitive development in depression-exposed children, suggesting that these neuroimaging findings may have early functional impact.

Published
2021

74. Neurological pathophysiology of SARS-CoV-2 and pandemic potential RNA viruses: a comparative analysis

Author

Gustavo Garcia, Priya Gyani, Vaithilingaraja Arumugaswami, Sumathi Natesan Subramanian, Sebastian Castillo Cario, Nikhil Chakravarty, Arunachalam Ramaiah, Thrisha Senthilnathan, Prakash Jeysankar, Shantanu H. Joshi, Akash Jeysankar, Estrella Urena, Joseph Ignatius Irudayam, Sophia Paiola, and Helen Lavretsky

Subjects
RNA viruses, viruses, brain, Central nervous system, Biophysics, Anosmia, Reviews, Review, neuropathophysiology, blood–brain barrier, Blood–brain barrier, Biochemistry, SARS‐CoV‐2, Zika virus, COVID‐19, Structural Biology, Viral entry, Pandemic, Genetics, medicine, magnetic resonance imaging, Humans, Molecular Biology, Henipavirus Infections, biology, business.industry, SARS-CoV-2, Zika Virus Infection, Nipah Virus, RNA, COVID-19, Cell Biology, Zika Virus, blood-brain barrier, biology.organism_classification, central nervous system, medicine.anatomical_structure, Blood-Brain Barrier, Immunology, Mutation, Headaches, medicine.symptom, business
Abstract

SARS‐CoV‐2 has infected hundreds of millions of people with over four million dead, resulting in one of the worst global pandemics in recent history. Neurological symptoms associated with COVID‐19 include anosmia, ageusia, headaches, confusion, delirium, and strokes. These may manifest due to viral entry into the central nervous system (CNS) through the blood–brain barrier (BBB) by means of ill‐defined mechanisms. Here, we summarize the abilities of SARS‐CoV‐2 and other neurotropic RNA viruses, including Zika virus and Nipah virus, to cross the BBB into the CNS, highlighting the role of magnetic resonance imaging (MRI) in assessing presence and severity of brain structural changes in COVID‐19 patients. We present new insight into key mutations in SARS‐CoV‐2 variants B.1.1.7 (P681H) and B.1.617.2 (P681R), which may impact on neuropilin 1 (NRP1) binding and CNS invasion. We postulate that SARS‐CoV‐2 may infect both peripheral cells capable of crossing the BBB and brain endothelial cells to traverse the BBB and spread into the brain. COVID‐19 patients can be followed up with MRI modalities to better understand the long‐term effects of COVID‐19 on the brain., Coronaviruses and pandemic‐potential RNA viruses can reach the brain using various mechanisms and thereby induce neurological symptoms. Structural analysis of SARS‐CoV‐2 neuronal entry co‐receptor NRP1 interacting with the Spike protein revealed key mutations among existing variants of concern, which could affect NRP1 binding and SARS‐CoV‐2 spread into the brain. Utilization of MRI modalities would be crucial for tracking viral‐mediated structural changes to the brain.

Published
2021

75. Association of Maternal and Child Anemia With Brain Structure in Early Life in South Africa

Author

Catherine J. Wedderburn, Jessica E. Ringshaw, Kirsten A. Donald, Shantanu H. Joshi, Sivenesi Subramoney, Jean-Paul Fouche, Jacob A. M. Stadler, Whitney Barnett, Andrea M. Rehman, Nadia Hoffman, Annerine Roos, Katherine L. Narr, Heather J. Zar, and Dan J. Stein

Subjects
Male, Cohort Studies, South Africa, Pregnancy, Child, Preschool, Humans, Infant, Brain, Mothers, Female, Anemia, General Medicine, Child
Abstract

ImportanceAnemia affects millions of pregnant women and their children worldwide, particularly in low- and middle-income countries. Although anemia in pregnancy is a well-described risk factor for cognitive development, the association with child brain structure is poorly understood.ObjectiveTo explore the association of anemia during pregnancy and postnatal child anemia with brain structure in early life.Design, Setting, and ParticipantsThis neuroimaging nested cohort study was embedded within the Drakenstein Child Health Study (DCHS), a population-based birth cohort in South Africa. Pregnant individuals were enrolled into the DCHS between 2012 and 2015 from 2 clinics in a periurban setting. Mother-child pairs were assessed prospectively; follow-up is ongoing. A subgroup of children had brain magnetic resonance imaging (MRI) at age 2 to 3 years from 2015 to 2018. This study focused on the 147 pairs with structural neuroimaging and available hemoglobin data. Data analyses were conducted in 2021 and 2022.ExposuresMothers had hemoglobin measurements during pregnancy, and a subgroup of children had hemoglobin measurements during early life. Anemia was classified as hemoglobin levels less than 11 g/dL based on World Health Organization guidelines; children younger than 6 months were classified using local guidelines.Main Outcomes and MeasuresChild brain volumes of global, subcortical, and corpus callosum structures were quantified using T1-weighted MRI. Linear regression models were used to analyze the associations between maternal and child anemia with child brain volumes, accounting for potential confounders.ResultsOf 147 children (mean [SD] age at MRI, 34 [2] months; 83 [56.5%] male) with high-resolution MRI scans, prevalence of maternal anemia in pregnancy was 31.3% (46 of 147; median [IQR] gestation of measurement: 13 [9-20] weeks). Maternal anemia during pregnancy was significantly associated with smaller volumes of the child caudate bilaterally (adjusted percentage difference, −5.30% [95% CI, −7.01 to −3.59]), putamen (left hemisphere: −4.33% [95% CI, −5.74 to −2.92]), and corpus callosum (−7.75% [95% CI, −11.24 to −4.26]). Furthermore, antenatal maternal hemoglobin levels were also associated with brain volumes in the caudate (left hemisphere: standardized β = 0.15 [95% CI, 0.02 to 0.28]; right hemisphere: β = 0.15 [95% CI, 0.02 to 0.27]), putamen left hemisphere (β = 0.21 [95% CI, 0.07 to 0.35]), and corpus callosum (β = 0.24 [95% CI, 0.09 to 0.39]). Prevalence of child anemia was 52.5% (42 of 80; median [IQR] age of measurement: 8.0 [2.7 to 14.8] months). Child anemia was not associated with brain volumes, nor did it mediate the association of maternal anemia during pregnancy with brain volumes.Conclusions and RelevanceIn this cohort study, anemia in pregnancy was associated with altered child brain structural development. Given the high prevalence of antenatal maternal anemia worldwide, these findings suggest that optimizing interventions during pregnancy may improve child brain outcomes.

Published
2022

76. White matter degradation near cerebral microbleeds is associated with cognitive change after mild traumatic brain injury

Author

Andrei Irimia, Van Ngo, Nikhil N. Chaudhari, Fan Zhang, Shantanu H. Joshi, Anita N. Penkova, Lauren J. O'Donnell, Nasim Sheikh-Bahaei, Xiaoyu Zheng, and Helena C. Chui

Subjects
Male, Aging, Cognition, General Neuroscience, Humans, Neurology (clinical), Geriatrics and Gerontology, White Matter, Magnetic Resonance Imaging, Brain Concussion, Article, Developmental Biology, Cerebral Hemorrhage
Abstract

To explore how cerebral microbleeds (CMBs) accompanying mild traumatic brain injury (mTBI) reflect white matter (WM) degradation and cognitive decline, magnetic resonance images were acquired from 62 mTBI adults (imaged ∼7 days and ∼6 months post-injury) and 203 matched healthy controls. On average, mTBI participants had a count of 2.7 ± 2.6 traumatic CMBs in WM, located 6.1 ± 4.4 mm from cortex. At ∼6-month follow-up, 97% of CMBs were associated with significant reductions (34% ± 11%, qlt; 0.05) in the fractional anisotropy of WM streamlines within ∼1 cm of CMB locations. Male sex and older age were significant risk factors for larger reductions (qlt; 0.05). For CMBs in the corpus callosum, cingulum bundle, inferior and middle longitudinal fasciculi, fractional anisotropy changes were significantly and positively associated with changes in cognitive functions mediated by these structures (qlt; 0.05). Our findings distinguish traumatic from non-traumatic CMBs by virtue of surrounding WM alterations and challenge the assumption that traumatic CMBs are neurocognitively silent. Thus, mTBI with CMB findings can be described as a clinical endophenotype warranting longitudinal cognitive assessment.

Published
2021

77. A CNN and LSTM Network for Eye-Blink Classification from MRI Scanner Monitoring Videos

Author

Ronan, Bennett and Shantanu H, Joshi

Subjects
Brain Mapping, Brain, Humans, Neural Networks, Computer, Prospective Studies, Magnetic Resonance Imaging
Abstract

Eye closure changes brain activity, so eye-blink tracking of subjects undergoing resting-state functional magnetic resonance imaging (fMRI) is relevant for identifying when a subject blinks, falls asleep, or keeps their eyes closed. Existing MRI eye-tracking solutions use commercially available MR-compatible video cameras with tracking software that can fail on low-quality videos. In this paper, we propose a two-stage convolutional recurrent neural network to classify open and closed eyes from frames of MRI eye-tracking videos under variable camera conditions. The model extracts visual features from each video frame using a convolutional neural network based on the Inception-v3 model, then uses a long short-term memory network to incorporate temporal information encoded in the sequence of visual features over time. Our model is implemented in Keras and demonstrated on a dataset of MRI eye-tracking videos from the Human Connectome Project. We manually labelled frames from the dataset for training and evaluation. The network was able to classify eye-blink states with a precision of 0.739 and recall of 0.835 on a previously unseen holdout dataset under varying camera conditions, eye position, and video quality.Clinical relevance- Functional mapping studies in psychiatry and neuro-development which rely on a resting state fMRI protocol may yield divergent results depending on whether the subject keeps their eyes closed or open or whether the subject falls asleep. The clinical relevance of this work is to introduce the eye state (closed or open) in brain imaging studies as a prospective covariate, and as a feature that can potentially control for sleep state as a confounding factor.

Published
2021

78. Ketamine’s modulation of cerebro-cerebellar circuitry during response inhibition in major depression

Author

Benjamin Wade, Joana Loureiro, Roger P. Woods, Megha Vasavada, Eliza Congdon, Katherine L. Narr, Antoni Kubicki, Shantanu H. Joshi, Gerhard Hellemann, Amber M. Leaver, Randall Espinoza, and Ashish Sahib

Subjects
Oncology, Male, medicine.medical_specialty, Cerebellum, PPI, Cognitive Neuroscience, Computer applications to medicine. Medical informatics, R858-859.7, Cerebro, Internal medicine, medicine, Humans, Radiology, Nuclear Medicine and imaging, Ketamine, Large-scale networks, Response-inhibition, RC346-429, Depression (differential diagnoses), Depressive Disorder, Major, business.industry, Depression, Cognition, Regular Article, medicine.disease, Magnetic Resonance Imaging, Functional imaging, medicine.anatomical_structure, Neurology, nervous system, Major depressive disorder, Antidepressant, Female, Neurology. Diseases of the nervous system, Neurology (clinical), business, medicine.drug
Abstract

Highlights • Ketamine modulates cerebellar connectivity during response inhibition in depression. • Cerebellar–frontoparietal/sensory connectivity decreases in ketamine remitters. • Cerebellar-frontoparietal/salience connectivity predicts treatment outcome. • Cerebro-cerebellar loops serve as treatment biomarkers in major depression., Patients with major depressive disorder (MDD) exhibit impaired control of cognitive and emotional systems, including deficient response selection and inhibition. Though these deficits are typically attributed to abnormal communication between macro-scale cortical networks, altered communication with the cerebellum also plays an important role. Yet, how the circuitry between the cerebellum and large-scale functional networks impact treatment outcome in MDD is not understood. We thus examined how ketamine, which elicits rapid therapeutic effects in MDD, modulates cerebro-cerebellar circuitry during response-inhibition using a functional imaging NoGo/Go task in MDD patients (N = 46, mean age: 39.2, 38.1% female) receiving four ketamine infusions, and healthy controls (N = 32, mean age:35.2, 71.4% female). We fitted psychophysiological-interaction (PPI) models for a functionally-derived cerebellar-seed and extracted average PPI in three target functional networks, frontoparietal (FPN), sensory-motor (SMN) and salience (SN) networks. Time and remission status were then evaluated for each of the networks and their network-nodes. Follow-up tests examined whether PPI-connectivity differed between patient remitter/non-remitters and controls. Results showed significant decreases in PPI-connectivity after ketamine between the cerebellum and FPN (p

Published
2021

79. Central white matter integrity alterations in 2-3-year-old children following prenatal alcohol exposure

Author

Roger P. Woods, Shantanu H. Joshi, Catherine J. Wedderburn, Annerine Roos, Heather J. Zar, Kirsten A. Donald, Katherine L. Narr, Sivenesi Subramoney, Dan J. Stein, and Jean-Paul Fouche

Subjects
Male, animal structures, Uncinate fasciculus, Physiology, White matter integrity, Development, Toxicology, Article, White matter, 03 medical and health sciences, 0302 clinical medicine, Pregnancy, Fractional anisotropy, medicine, Humans, Pharmacology (medical), Prenatal tobacco exposure, 030212 general & internal medicine, Risk factor, Pharmacology, business.industry, Fornix, Brain, White Matter, Psychiatry and Mental health, Stria terminalis, medicine.anatomical_structure, Diffusion Tensor Imaging, Child, Preschool, Prenatal Exposure Delayed Effects, Corticospinal tract, Prenatal alcohol exposure, Anisotropy, Female, Nerve Net, business, 030217 neurology & neurosurgery, Diffusion MRI
Abstract

Highlights • Prenatal alcohol exposure alters white matter integrity in 2–3-year-old children. • Effects of prenatal alcohol exposure on white matter integrity persist. • Co-exposure of alcohol and tobacco amplify white matter alterations in motor tracts., Background Prenatal alcohol exposure (PAE) remains a potentially preventable, but pervasive risk factor to neurodevelopment. Yet, evidence is lacking on the impact of alcohol on brain development in toddlers. This study aimed to investigate the impact of PAE on brain white matter integrity in 2–3-year-old children. Methods Children (n = 83, 30–37 months old) of the Drakenstein Child Health Study birth cohort, underwent diffusion MRI on a 3 T Siemens scanner during natural sleep. Parameters were extracted in children with PAE (n = 25, 56 % boys) and unexposed controls (n = 58, 62 % boys) using Tract-based Spatial Statistics, and compared by group. The contribution of maternal tobacco smoking to white matter differences was also explored. Results Children with PAE had altered fractional anisotropy, radial diffusivity and axial diffusivity in brain stem, limbic and association tracts compared to unexposed controls. Notably lower fractional anisotropy was found in the uncinate fasciculus, and lower mean and radial diffusivity were found in the fornix stria terminalis and corticospinal tract (FDR corrected p < 0.05). There was a significant interaction effect of PAE and prenatal tobacco exposure which lowered mean, radial and axial diffusivity in the corticospinal tract significantly in the PAE group but not controls. Conclusion Widespread altered white matter microstructural integrity at 2–3 years of age is consistent with findings in neonates in the same and other cohorts, indicating persistence of effects of PAE through early life. Findings also highlight that prenatal tobacco exposure impacts the association of PAE on white matter alterations, amplifying effects in tracts underlying motor function.

Published
2021

83. Cognitive Correlates of Hippocampal Atrophy and Ventricular Enlargement in Adults with or without Mild Cognitive Impairment

Author

Dimitar V. Zlatev, Jonathan Pierce, Anna E. Blanken, Shai Porat, Shantanu H. Joshi, David Avila, Kristy S. Hwang, Liana G. Apostolova, Naira Goukasian, Sona Hurtz, and Ellen Woo

Subjects
medicine.medical_specialty, Cognitive Neuroscience, lcsh:Geriatrics, Memory performance, Structural magnetic resonance imaging, lcsh:RC346-429, Imaging, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, medicine, Effects of sleep deprivation on cognitive performance, Cognitive impairment, lcsh:Neurology. Diseases of the nervous system, Hippocampal atrophy, 030214 geriatrics, business.industry, Mild cognitive impairment, Cognition, Alzheimer's disease, Psychiatry and Mental health, lcsh:RC952-954.6, Ventricular enlargement, Cardiology, business, Alzheimer’s disease, 030217 neurology & neurosurgery, Research Article, MRI
Abstract

We analyzed structural magnetic resonance imaging data from 58 cognitively normal and 101 mild cognitive impairment subjects. We used a general linear regression model to study the association between cognitive performance with hippocampal atrophy and ventricular enlargement using the radial distance method.Bilateral hippocampal atrophy was associated with baseline and longitudinal memory performance. Left hippocampal atrophy predicted longitudinal decline in visuospatial function. The multidomain ventricular analysis did not reveal any significant predictors.

Published
2019

84. Mechanisms of Antidepressant Response to Electroconvulsive Therapy Studied With Perfusion Magnetic Resonance Imaging

Author

Randall Espinoza, Roger P. Woods, Benjamin Wade, Amber M. Leaver, Katherine L. Narr, Megha Vasavada, and Shantanu H. Joshi

Subjects
Adult, Male, 0301 basic medicine, medicine.medical_specialty, Time Factors, medicine.medical_treatment, Hippocampus, Hippocampal formation, behavioral disciplines and activities, Article, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Electroconvulsive therapy, Internal medicine, mental disorders, Neuroplasticity, medicine, Humans, Electroconvulsive Therapy, Biological Psychiatry, Depressive Disorder, Major, medicine.diagnostic_test, Depression, business.industry, Functional Neuroimaging, Brain, Magnetic Resonance Imaging, Antidepressive Agents, 030104 developmental biology, medicine.anatomical_structure, nervous system, Cerebral blood flow, Cardiology, Antidepressant, Female, Functional magnetic resonance imaging, business, Biomarkers, Magnetic Resonance Angiography, 030217 neurology & neurosurgery, Motor cortex
Abstract

Background Converging evidence suggests that electroconvulsive therapy (ECT) induces neuroplasticity in patients with severe depression, though how this relates to antidepressant response is less clear. Arterial spin-labeled functional magnetic resonance imaging tracks absolute changes in cerebral blood flow (CBF) linked with brain function and offers a potentially powerful tool when observing neurofunctional plasticity with functional magnetic resonance imaging. Methods Using arterial spin-labeled functional magnetic resonance imaging, we measured global and regional CBF associated with clinically prescribed ECT and therapeutic response in patients (n = 57, 30 female) before ECT, after two treatments, after completing an ECT treatment “index” (∼4 weeks), and after long-term follow-up (6 months). Age- and sex-matched control subjects were also scanned twice (n = 36, 19 female), ∼4 weeks apart. Results Patients with lower baseline global CBF were more likely to respond to ECT. Regional CBF increased in the right anterior hippocampus in all patients irrespective of clinical outcome, both after 2 treatments and after ECT index. However, hippocampal CBF increases postindex were more pronounced in nonresponders. ECT responders exhibited CBF increases in the dorsomedial thalamus and motor cortex near the vertex ECT electrode, as well as decreased CBF within lateral frontoparietal regions. Conclusions ECT induces functional neuroplasticity in the hippocampus, which could represent functional precursors of ECT-induced increases in hippocampal volume reported previously. However, excessive functional neuroplasticity within the hippocampus may not be conducive to positive clinical outcome. Instead, our results suggest that although hippocampal plasticity may contribute to antidepressant response in ECT, balanced plasticity in regions relevant to seizure physiology including thalamocortical networks may also play a critical role.

Published
2019

86. Diffeomorphic Alignment of Along-Tract Diffusion Profiles from Tractography

Author

Antoni Kubicki, Katherine L. Narr, Roger P. Woods, David S. Lee, Shantanu H. Joshi, and Ashish Sahib

Subjects
education.field_of_study, business.industry, Intraclass correlation, Population, Pattern recognition, Correlation, Spatial variability, Artificial intelligence, Image warping, Diffusion (business), business, education, Mathematics, Tractography, Interpolation
Abstract

Along-tract diffusion measure profiles from white matter fiber tracts have been widely analyzed in population studies of neurodevelopment and disease. An implicit assumption in performing inter-subject comparisons is a one-to-one correspondence of the profiles across subjects. Further, the profiles may also exhibit noise and spatial variability due to misregistration, tractography algorithms, interpolation methods, or inter-subject differences in the population. We present an approach to minimize the variability in the shape of along-tract diffusion profiles by performing diffeomorphic alignment across the tracts as well as across the population. The method represents the tract profiles as configuration functions and defines an objective function to align configurations by minimizing over both global and local warping functions. Following alignment, we show decrease in variability using the measures of coefficient of variability and intraclass correlation coefficients. We also introduce a new measure of inter-tract correlation, obtained by correlation of diffusion profiles between a pair of tracts of interest. We demonstrate our methods in a population of healthy individuals as well as show reliability analysis in subjects scanned twice.

Published
2021

87. Alignment of Tractography Streamlines Using Deformation Transfer via Parallel Transport

Author

Antoni Kubicki, Elvis Nunez, Andrew Lizarraga, David S. Lee, Katherine L. Narr, Ashish Sahib, and Shantanu H. Joshi

Subjects
education.field_of_study, Parallel transport, Computer science, Population, Deformation (meteorology), 01 natural sciences, White matter, 010104 statistics & probability, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Bundle, Metric (mathematics), medicine, Tangent vector, 0101 mathematics, education, Algorithm, 030217 neurology & neurosurgery, Tractography
Abstract

We present a geometric framework for aligning white matter fiber tracts. By registering fiber tracts between brains, one expects to see overlap of anatomical structures that often provide meaningful comparisons across subjects. However, the geometry of white matter tracts is highly heterogeneous, and finding direct tract-correspondence across multiple individuals remains a challenging problem. We present a novel deformation metric between tracts that allows one to compare tracts while simultaneously obtaining a registration. To accomplish this, fiber tracts are represented by an intrinsic mean along with the deformation fields represented by tangent vectors from the mean. In this setting, one can determine a parallel transport between tracts and then register corresponding tangent vectors. We present the results of bundle alignment on a population of 43 healthy adult subjects.

Published
2021

88. Modularity and heterochrony in the evolution of the ceratopsian dinosaur frill

Author

Shantanu H. Joshi, Peter J. Makovicky, Joan Garcia-Porta, Albert Prieto-Márquez, and Mark A. Norell

Subjects
0106 biological sciences, Taphonomy, Heterochrony, Evolution, Triceratops, Modularity, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, lcsh:QH540-549.5, evolution, heterochrony, Taxonomic rank, Irish elk, Peramorphosis, Ecology, Evolution, Behavior and Systematics, modularity, 030304 developmental biology, Nature and Landscape Conservation, Original Research, Morphometrics, 0303 health sciences, Ecology, biology, morphometrics, dinosaur, biology.organism_classification, Dinosaur, Taxon, Evolutionary biology, lcsh:Ecology
Abstract

The fossil record provides compelling examples of heterochrony at macroevolutionary scales such as the peramorphic giant antlers of the Irish elk. Heterochrony has also been invoked in the evolution of the distinctive cranial frill of ceratopsian dinosaurs such as Triceratops. Although ceratopsian frills vary in size, shape, and ornamentation, quantitative analyses that would allow for testing hypotheses of heterochrony are lacking. Here, we use geometric morphometrics to examine frill shape variation across ceratopsian diversity and within four species preserving growth series. We then test whether the frill constitutes an evolvable module both across and within species, and compare growth trajectories of taxa with ontogenetic growth series to identify heterochronic processes. Evolution of the ceratopsian frill consisted primarily of progressive expansion of its caudal and caudolateral margins, with morphospace occupation following taxonomic groups. Although taphonomic distortion represents a complicating factor, our data support modularity both across and within species. Peramorphosis played an important role in frill evolution, with acceleration operating early in neoceratopsian evolution followed by progenesis in later diverging cornosaurian ceratopsians. Peramorphic evolution of the ceratopsian frill may have been facilitated by the decoupling of this structure from the jaw musculature, an inference that predicts an expansion of morphospace occupation and higher evolutionary rates among ceratopsids as indeed borne out by our data. However, denser sampling of the meager record of early‐diverging taxa is required to test this further., We find support for peramorphic evolution of the frill of ceratopsian dinosaurs, likely facilitated by the decoupling of this structure from jaw musculature.

Published
2021

89. Effects of Maternal and Early-Life Anaemia on Child Brain Development: A South African Birth Cohort Study

Author

Dan J. Stein, Nadia Hoffman, Jacob A M Stadler, Kirsten A. Donald, Heather J. Zar, Andrea M. Rehman, Whitney Barnett, Jessica Ellen Ringshaw, Jean-Paul Fouche, Annerine Roos, Katherine Narr, Shantanu H. Joshi, Catherine J Wedderburn, and Sivenesi Subramoney

Subjects
History, Pregnancy, Pediatrics, medicine.medical_specialty, Brain development, Polymers and Plastics, business.industry, medicine.disease, Industrial and Manufacturing Engineering, Early life, Child health, medicine, Human research, Business and International Management, Risk factor, business, Birth cohort, Biomedical sciences
Abstract

Background: Anaemia affects millions of women and children worldwide, particularly in low- and middle-income countries. Although anaemia in pregnancy is a well-described risk factor for poor child neurodevelopmental outcomes, little is known about the impact on the structural development of the human brain. We explored the relationship between maternal anaemia, child anaemia, and brain structure at 2-3 years of age. Methods: Pregnant women were enrolled into the Drakenstein Child Health Study, a South African population-based birth cohort. Mother-child pairs were followed prospectively and a subgroup of children had magnetic resonance imaging at 2-3 years of age. Mothers had haemoglobin measurements during pregnancy, and a group of children during early life. Linear regression models were used to analyse the effects of maternal and child anaemia on child brain volumes. Findings: Prevalence of maternal anaemia in pregnancy (haemoglobin 0.05). Associations between antenatal anaemia with child putamen and corpus callosum volumes increased in magnitude when adjusting for child anaemia. Interpretation: Maternal anaemia may influence brain development during a critical window with persistent impact. Funding: Gates Foundation, SAMRC, NIH, Wellcome Trust Declaration of Interests: No conflicts of interest. Ethics Approval Statement: The DCHS was approved by the Faculty of Health Sciences, Human Research Ethics Committee (HREC), UCT (401/2009), Stellenbosch University (N12/02/0002), and the Western Cape Provincial Health Research Committee (2011RP45). The neuroimaging sub-study was further approved by the UCT HREC (525/2012).

Published
2021

90. Accounting for symptom heterogeneity can improve neuroimaging models of antidepressant response after electroconvulsive therapy

Author

Shantanu H. Joshi, Benjamin Wade, Randall Espinoza, Gerhard Hellemann, Katherine L. Narr, Leif Oltedal, Christopher C. Abbott, Anders Jorgensen, Udo Dannlowski, Roger P. Woods, and Ronny Redlich

Subjects
Adult, Male, medicine.medical_specialty, medicine.medical_treatment, Neuroimaging, Audiology, behavioral disciplines and activities, electroconvulsive therapy, Machine Learning, Electroconvulsive therapy, Rating scale, Outcome Assessment, Health Care, mental disorders, medicine, Middle frontal gyrus, Humans, symptom heterogeneity, Radiology, Nuclear Medicine and imaging, Depression (differential diagnoses), Research Articles, Aged, Cerebral Cortex, Depressive Disorder, Major, structural neuroimaging, Radiological and Ultrasound Technology, major depressive disorder, business.industry, Anhedonia, Middle Aged, medicine.disease, Magnetic Resonance Imaging, Mood, machine learning, Neurology, Major depressive disorder, Female, Neurology (clinical), Anatomy, medicine.symptom, business, Research Article
Abstract

Depression symptom heterogeneity limits the identifiability of treatment‐response biomarkers. Whether improvement along dimensions of depressive symptoms relates to separable neural networks remains poorly understood. We build on work describing three latent symptom dimensions within the 17‐item Hamilton Depression Rating Scale (HDRS) and use data‐driven methods to relate multivariate patterns of patient clinical, demographic, and brain structural changes over electroconvulsive therapy (ECT) to dimensional changes in depressive symptoms. We included 110 ECT patients from Global ECT‐MRI Research Collaboration (GEMRIC) sites who underwent structural MRI and HDRS assessments before and after treatment. Cross validated random forest regression models predicted change along symptom dimensions. HDRS symptoms clustered into dimensions of somatic disturbances (SoD), core mood and anhedonia (CMA), and insomnia. The coefficient of determination between predicted and actual changes were 22%, 39%, and 39% (all p, Depression symptom heterogeneity limits the identifiability of treatment‐response biomarkers. We developed machine learning models to predict symptom change along latent dimensions of depression following treatment with electroconvulsive therapy in a large, multisite cohort using a combination of neuroimaging, clinical, and demographic predictors. Recovery along homogenous latent symptom dimensions was predicted more accurately than change along standard, more heterogeneous total score measures.

Published
2021

92. Multimodal Data Registration for Brain Structural Association Networks

Author

Roger P. Woods, Benjamin Wade, Shantanu H. Joshi, Ashish Sahib, Katherine L. Narr, Gerhard Hellemann, and David S. Lee

Subjects
0303 health sciences, Geodesic, business.industry, Computer science, Multimodal data, Pattern recognition, Hypersphere, Article, law.invention, 03 medical and health sciences, 0302 clinical medicine, Invertible matrix, law, Artificial intelligence, business, 030217 neurology & neurosurgery, 030304 developmental biology, Shape analysis (digital geometry)
Abstract

We present a method for multimodal brain data registration that aligns shapes of nodal network configurations in an invertible manner. We use ideas from shape analysis to represent an individual subject data configuration as an element on a hypersphere, where geodesics have closed form solutions. The method not only performs inter-subject data registration, but also allows for the construction of a population data template to which all subject data configurations can be registered. Results show compression of data measures and significant reduction in variance after registration. We also observe increased predictive power of regions of interest (ROI) node identification, significant increases in pairwise network connectivity measures, as well as significant increases in canonical correlations with age after registration.

Published
2020

93. BRAIN NETWORK CONNECTIVITY FROM MATCHING CORTICAL FEATURE DENSITIES

Author

Dan J. Stein, Catherine J. Wedderburn, Katherine L. Narr, David Lee, Heather J. Zar, Jonathan C Ipser, Kirsten A. Donald, Taykhoom Dalal, Shantanu H. Joshi, Gerhard Hellemann, Sivenesi Subramoney, Annerine Roos, and Roger P. Woods

Subjects
Brain network, Matching (statistics), education.field_of_study, business.industry, Kernel density estimation, Population, Inference, Pattern recognition, Article, Correlation, 03 medical and health sciences, 0302 clinical medicine, 030228 respiratory system, Feature (computer vision), Pairwise comparison, Artificial intelligence, business, education, 030217 neurology & neurosurgery, Mathematics
Abstract

We present a new method for constructing structural inference brain networks from functional measures of cortical features. Instead of averaging vertex-wise cortical features, we propose the use of full functions of spatial densities of measures such as thickness and use two dimensional pairwise correlations between regions to construct population networks. We show increased within group correlations for both healthy controls and toddlers with prenatal alcohol exposure compared to the existing mean-based correlation approach. Further, we also show significant differences in brain connectivity between the healthy controls and the exposed group.

Published
2020

94. Modulation of the functional connectome in major depressive disorder by ketamine therapy

Author

Randall Espinoza, Joana Loureiro, Megha Vasavada, Benjamin Wade, Ashish Sahib, Shantanu H. Joshi, Katherine L. Narr, Eliza Congdon, Antoni Kubicki, Roger P. Woods, and Cole Anderson

Subjects
0303 health sciences, medicine.diagnostic_test, business.industry, Striatum, medicine.disease, 03 medical and health sciences, Psychiatry and Mental health, 0302 clinical medicine, Infusion therapy, Anesthesia, medicine, Antidepressant, Major depressive disorder, Ketamine, Functional magnetic resonance imaging, business, 030217 neurology & neurosurgery, Applied Psychology, Depression (differential diagnoses), Default mode network, 030304 developmental biology, medicine.drug
Abstract

BackgroundSubanesthetic ketamine infusion therapy can produce fast-acting antidepressant effects in patients with major depression. How single and repeated ketamine treatment modulates the whole-brain functional connectome to affect clinical outcomes remains uncharacterized.MethodsData-driven whole brain functional connectivity (FC) analysis was used to identify the functional connections modified by ketamine treatment in patients with major depressive disorder (MDD). MDD patients (N = 61, mean age = 38, 19 women) completed baseline resting-state (RS) functional magnetic resonance imaging and depression symptom scales. Of these patients, n = 48 and n = 51, completed the same assessments 24 h after receiving one and four 0.5 mg/kg intravenous ketamine infusions. Healthy controls (HC) (n = 40, 24 women) completed baseline assessments with no intervention. Analysis of RS FC addressed effects of diagnosis, time, and remitter status.ResultsSignificant differences (p < 0.05, corrected) in RS FC were observed between HC and MDD at baseline in the somatomotor network and between association and default mode networks. These disruptions in FC in MDD patients trended toward control patterns with ketamine treatment. Furthermore, following serial ketamine infusions, significant decreases in FC were observed between the cerebellum and salience network (SN) (p < 0.05, corrected). Patient remitters showed increased FC between the cerebellum and the striatum prior to treatment that decreased following treatment, whereas non-remitters showed the opposite pattern.ConclusionResults support that ketamine treatment leads to neurofunctional plasticity between distinct neural networks that are shown as disrupted in MDD patients. Cortico-striatal-cerebellar loops that encompass the SN could be a potential biomarker for ketamine treatment.

Published
2020

97. Vandermonde Wave Function Ansatz for Improved Variational Monte Carlo

Author

Shantanu H. Joshi, Nicholas Malaya, Brett Leroux, Alberto Acevedo, and Michael J. Curry

Subjects
Matrix (mathematics), Quantum Monte Carlo, Monte Carlo method, Applied mathematics, Slater determinant, Variational Monte Carlo, Particle in a box, Vandermonde matrix, Ansatz, Mathematics
Abstract

Solutions to the Schrodinger equation can be used to predict the electronic structure of molecules and materials and therefore infer their complex physical and chemical properties. Variational Quantum Monte Carlo (VMC) is a technique that can be used to solve the weak form of the Schrodinger equation. Applying VMC to systems with N electrons involves evaluating the determinant of an N by N matrix. The evaluation of this determinant scales as O(N3) and is the main computational cost in the VMC process. In this work, we investigate an alternative VMC technique based on the Vandermonde determinant. The Vandermonde determinant is a product of pairwise differences and so evaluating it scales as O(N2). Therefore, this approach reduces the computational cost by a factor of N. The Vandermonde determinant was implemented in PyTorch and the performance was assessed in approximating the ground state energy of various quantum systems against existing techniques. The performance is evaluated in a variety of systems, starting with the one-dimensional particle in a box, and then considering more complicated atomic systems with multiple particles. The Vandermonde determinant was also implemented in PauliNet, a deep-learning architecture for VMC. The new method is shown to be computationally efficient, and results in a speed-up as large as 5X. In these cases, the new ansatz obtains a reasonable approximation for wavefunctions of atomic systems, but does not reach the accuracy of the Hartree-Fock method that relies on the Slater determinant. It is observed that while the use of neural networks in VMC can result in highly accurate solutions, further work is necessary to determine an appropriate balance between computational time and accuracy.

Published
2020

98. Neuroimaging young children and associations with neurocognitive development in a South African birth cohort study

Author

Jonathan C Ipser, Shunmay Yeung, Heather J. Zar, Andrea M. Rehman, Diana M. Gibb, Frances Robertson, Annerine Roos, Jean-Paul Fouche, Sivenesi Subramoney, Catherine J. Wedderburn, Kirsten A. Donald, Katherine L. Narr, Nynke A. Groenewold, Dan J. Stein, and Shantanu H. Joshi

Subjects
Male, medicine.medical_specialty, Cognitive Neuroscience, Context (language use), Neuroimaging, Cortical surface area, 050105 experimental psychology, Article, Cortical thickness, lcsh:RC321-571, Cohort Studies, 03 medical and health sciences, South Africa, 0302 clinical medicine, Physical medicine and rehabilitation, Child Development, Cognition, medicine, Cognitive development, Humans, 0501 psychology and cognitive sciences, Toddler, Children, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Resting state fMRI, medicine.diagnostic_test, business.industry, 05 social sciences, Brain, Magnetic resonance imaging, Magnetic Resonance Imaging, Neurology, Child, Preschool, Africa, Female, business, Neurocognitive, 030217 neurology & neurosurgery
Abstract

Magnetic resonance imaging (MRI) is an indispensable tool for investigating brain development in young children and the neurobiological mechanisms underlying developmental risk and resilience. Sub-Saharan Africa has the highest proportion of children at risk of developmental delay worldwide, yet in this region there is very limited neuroimaging research focusing on the neurobiology of such impairment. Furthermore, paediatric MRI imaging is challenging in any setting due to motion sensitivity. Although sedation and anesthesia are routinely used in clinical practice to minimise movement in young children, this may not be ethical in the context of research. Our study aimed to investigate the feasibility of paediatric multimodal MRI at age 2–3 years without sedation, and to explore the relationship between cortical structure and neurocognitive development at this understudied age in a sub-Saharan African setting. A total of 239 children from the Drakenstein Child Health Study, a large observational South African birth cohort, were recruited for neuroimaging at 2–3 years of age. Scans were conducted during natural sleep utilising locally developed techniques. T1-MEMPRAGE and T2-weighted structural imaging, resting state functional MRI, diffusion tensor imaging and magnetic resonance spectroscopy sequences were included. Child neurodevelopment was assessed using the Bayley-III Scales of Infant and Toddler Development. Following 23 pilot scans, 216 children underwent scanning and T1-weighted images were obtained from 167/216 (77%) of children (median age 34.8 months). Furthermore, we found cortical surface area and thickness within frontal regions were associated with cognitive development, and in temporal and frontal regions with language development (beta coefficient ≥0.20). Overall, we demonstrate the feasibility of carrying out a neuroimaging study of young children during natural sleep in sub-Saharan Africa. Our findings indicate that dynamic morphological changes in heteromodal association regions are associated with cognitive and language development at this young age. These proof-of-concept analyses suggest similar links between the brain and cognition as prior literature from high income countries, enhancing understanding of the interplay between cortical structure and function during brain maturation., Highlights • MRI data are challenging to acquire in the early years of life. • Paediatric MRI without sedation is feasible in sub-Saharan Africa, with 77% success. • The Drakenstein Child Health study has novel MRI data of South African children. • Morphological features of the cortex associate with neurocognitive development. • Structure-cognition relationships in heteromodal association regions at 2–3 years.

Published
2020

99. Broad white matter impairment in multiple system atrophy

Author

Katherine L. Narr, Claire Thalamas, Françoise Ory-Magne, Shantanu H. Joshi, Christine Brefel-Courbon, Anne Pavy-Le-Traon, Owen R. Phillips, Monique Galitzky, Patrice Péran, Natalia del Campo, Olivier Rascol, and Manpreet K. Singh

Subjects
Male, Pathology, medicine.medical_specialty, Fiber tract, multiple system atrophy, 050105 experimental psychology, White matter, 03 medical and health sciences, 0302 clinical medicine, Atrophy, Brain White Matter, stomatognathic system, mental disorders, medicine, Humans, 0501 psychology and cognitive sciences, Radiology, Nuclear Medicine and imaging, Research Articles, Aged, Synucleinopathies, 1109 Neurosciences, 1702 Cognitive Sciences, Radiological and Ultrasound Technology, medicine.diagnostic_test, business.industry, 05 social sciences, Magnetic resonance imaging, Experimental Psychology, Middle Aged, Multiple System Atrophy, medicine.disease, diffusion tensor imaging, Magnetic Resonance Imaging, White Matter, nervous system diseases, medicine.anatomical_structure, Neurology, nervous system, Female, Neurology (clinical), Anatomy, business, Structural imaging, 030217 neurology & neurosurgery, Diffusion MRI, Research Article, MRI
Abstract

Multiple system atrophy (MSA) is a rare neurodegenerative disorder characterized by the widespread aberrant accumulation of α‐synuclein (α‐syn). MSA differs from other synucleinopathies such as Parkinson's disease (PD) in that α‐syn accumulates primarily in oligodendrocytes, the only source of white matter myelination in the brain. Previous MSA imaging studies have uncovered focal differences in white matter. Here, we sought to build on this work by taking a global perspective on whole brain white matter. In order to do this, in vivo structural imaging and diffusion magnetic resonance imaging were acquired on 26 MSA patients, 26 healthy controls, and 23 PD patients. A refined whole brain approach encompassing the major fiber tracts and the superficial white matter located at the boundary of the cortical mantle was applied. The primary observation was that MSA but not PD patients had whole brain deep and superficial white matter diffusivity abnormalities (p, Multiple system atrophy (MSA) differs from other synucleinopathies such as Parkinson's disease (PD) in that α‐synuclein accumulates primarily in oligodendrocytes, the only source of white matter myelination in the brain. In this diffusion tensor imaging study, we observe widespread white matter damage in MSA patients, but not in PD patients, compared to healthy matched controls. Importantly, white matter abnormalities were associated with clinical symptoms, suggesting that white matter impairment may be more central to MSA than previously thought.

Published
2020

100. Modulation of inhibitory control networks relate to clinical response following ketamine therapy in major depression

Author

Joana Loureiro, Antoni Kubicki, Randall Espinoza, Megha Vasavada, Eliza Congdon, Shantanu H. Joshi, Roger P. Woods, Katherine L. Narr, Ashish Sahib, and Benjamin S. C. Wade

Subjects
Adult, Clinical Sciences, Predictive markers, Article, lcsh:RC321-571, Depressive Disorder, Treatment-Resistant, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Clinical Research, medicine, Humans, Psychology, Ketamine, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Biological Psychiatry, Depressive Disorder, Major, Depressive Disorder, Supplementary motor area, medicine.diagnostic_test, business.industry, Depression, Treatment-Resistant, Neurosciences, Major, Evaluation of treatments and therapeutic interventions, Diagnostic markers, SMA, medicine.disease, Antidepressive Agents, 030227 psychiatry, Brain Disorders, Psychiatry and Mental health, Visual cortex, medicine.anatomical_structure, Mental Health, Anesthesia, 6.1 Pharmaceuticals, Neurological, Public Health and Health Services, Antidepressant, Biomarker (medicine), Female, business, Functional magnetic resonance imaging, Treatment-resistant depression, 030217 neurology & neurosurgery, medicine.drug
Abstract

Subanesthetic ketamine is found to induce fast-acting and pronounced antidepressant effects, even in treatment resistant depression (TRD). However, it remains unclear how ketamine modulates neural function at the brain systems-level to regulate emotion and behavior. Here, we examined treatment-related changes in the inhibitory control network after single and repeated ketamine therapy in TRD. Forty-seven TRD patients (mean age = 38, 19 women) and 32 healthy controls (mean age = 35, 18 women) performed a functional magnetic resonance imaging (fMRI) response inhibition task at baseline, and 37 patients completed the fMRI task and symptom scales again 24 h after receiving both one and four 0.5 mg/kg intravenous ketamine infusions. Analyses of fMRI data addressed effects of diagnosis, time, and differences between treatment remitters and non-remitters. Significant decreases in brain activation were observed in the inhibitory control network, including in prefrontal and parietal regions, and visual cortex following serial ketamine treatment, p

Published
2020

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