Your search keyword '"Emi Takahashi"' showing total 55 results

1. Identification of association fibers using ex vivo diffusion tractography in Alexander disease brains

Author

Tadashi Shiohama, Natalie Stewart, Masahito Nangaku, Andre J. W. van der Kouwe, and Emi Takahashi

Subjects

Diffusion Magnetic Resonance Imaging, Diffusion Tensor Imaging, Brain, Humans, Radiology, Nuclear Medicine and imaging, Alexander Disease, Neurology (clinical), White Matter

Abstract

Alexander disease (AxD) is a neurodegenerative disorder caused by heterozygous Glial Fibrillary Acidic Protein mutation. The characteristic structural findings of AxD, such as leukodystrophic features, are well known, while association fibers of AxD remain uninvestigated. The aim of this study was to explore global and subcortical fibers in four brains with AxD using ex vivo diffusion tractography METHODS: High-angular-resolution diffusion magnetic resonance imaging (HARDI) tractography and diffusion-tensor imaging (DTI) tractography were used to evaluate long and short association fibers and compared to histological findings in brain specimens obtained from four donors with AxD and two donors without neurological disorders RESULTS: AxD brains showed impairment of long association fibers, except for the arcuate fasciculus and cingulum bundle, and abnormal trajectories of the inferior longitudinal and fronto-occipital fasciculi on HARDI tractography and loss of multidirectionality in subcortical fibers on DTI tractography. In histological studies, AxD brains showed diffuse low density on Klüver-Barrera and neurofilament staining and sporadic Rosenthal fibers on hematoxylin and eosin staining CONCLUSIONS: This study describes the spatial distribution of degenerations of short and long association fibers in AxD brains using combined tractography and pathological findings.

Published

2022

2. Magnetic resonance imaging demonstrates gyral abnormalities in Tourette syndrome

Author

Bernadette McCann, Melanie Y. Lam, Tadashi Shiohama, Prahar Ijner, Emi Takahashi, and Jacob Levman

Subjects

Adolescent, Developmental Neuroscience, Tics, Humans, Prefrontal Cortex, Child, Magnetic Resonance Imaging, Retrospective Studies, Tourette Syndrome, Developmental Biology

Abstract

Tourette syndrome (TS) is a neurological disorder characterized by involuntary and repetitive movements known as tics. A retrospective analysis of magnetic resonance imaging (MRI) scans from 39 children and adolescents with TS was performed and subsequently compared with MRI scans from 834 neurotypical controls. The purpose of this study was to identify any differences in the regions of motor circuitry in TS to further our understanding of their disturbances in motor control (i.e., motor tics). Measures of volume, cortical thickness, surface area, and surface curvature for specific motor regions were derived from each MRI scan. The results revealed increased surface curvature in the opercular part of the inferior frontal gyrus and the triangular part of the inferior frontal gyrus in the TS group compared with the neurotypical control group. These novel findings offer some of the first evidence for surface curvature differences in motor circuitry regions in TS, which may be associated with known motor and vocal tics.

Published

2022

3. Structural abnormalities in paediatric moyamoya disease revealed by clinical magnetic resonance imaging, regionally distributed relative signal intensities and volumes

Author

Prahar Ijner, Grace Tompkins, Tadashi Shiohama, Emi Takahashi, and Jacob Levman

Subjects

Adult, Cerebral Cortex, Adolescent, Brain, Magnetic Resonance Imaging, Article, Young Adult, ROC Curve, Developmental Neuroscience, Child, Preschool, Humans, Moyamoya Disease, Child, Developmental Biology

Abstract

Moyamoya disease (MMD) is a rare, progressive cerebrovascular disorder, with an unknown aetiology and pathogenesis. It is characterized by steno-occlusive changes at the terminal portion of the internal carotid artery (ICA), which is accompanied by variable development of the basal collaterals called moyamoya vessels. In this study, we investigate the potential for structural T1 magnetic resonance imaging (MRI) to help characterize MMD clinically, with the help of regionally distributed relative signal intensities (RRSIs) and volumes (RRVs). These RRSIs and RRVs provide the ability to characterize aspects of regional brain development and represent an extension to existing automated biomarker extraction technologies. This study included 269 MRI examinations from MMD patients and 993 MRI examinations from neurotypical controls, with regional biomarkers compared between groups with the area under the receiver operating characteristic curve (AUC). Results demonstrate abnormal presentation of RRSIs and RRVs in the insula (15- to 20-year old cohort, left AUC: 0.74, right AUC: 0.71) and the lateral orbitofrontal region (5- to 10-year old cohort, left AUC: 0.67; 15-20 year cohort, left AUC: 0.62, right AUC: 0.65). Results indicate that RRSIs and RRVs may help in characterizing brain development, assist in the assessment of the presentation of the brains of children with MMD and help overcome standardization challenges in multiprotocol clinical MRI. Further investigation of the potential for RRSIs and RRVs in clinical imaging is warranted and supported through the release of open-source software.

Published

2022

4. Cortical thickness in clinical moyamoya disease: A magnetic resonance imaging study

Author

Tadashi Shiohama, Grace Tompkins, Jacob Levman, Prahar Ijner, and Emi Takahashi

Subjects

medicine.medical_specialty, Adolescent, Precuneus, Brain damage, Machine Learning, Young Adult, Developmental Neuroscience, medicine.artery, Humans, Medicine, Moyamoya disease, Child, Retrospective Studies, Cerebral Cortex, medicine.diagnostic_test, business.industry, Cerebral infarction, Infant, Newborn, Cerebrovascular disorder, Infant, Magnetic resonance imaging, medicine.disease, Magnetic Resonance Imaging, medicine.anatomical_structure, Child, Preschool, Radiology, Moyamoya Disease, medicine.symptom, Internal carotid artery, business, Insula, Developmental Biology

Abstract

Moyamoya disease (MMD) is a progressive cerebrovascular disorder, with an unknown pathogenesis and etiology. MMD is characterized by steno-occlusive changes at the terminal portion of the internal carotid artery (ICA), which is accompanied by variable development of the basal collaterals, also known as moyamoya vessels. Patients with MMD show variable patterns of brain damage, and may experience recurrent multiple transient ischemic attacks, intracranial bleeding, and cerebral infarction. In this study, we investigate the potential for structural T1 magnetic resonance imaging (MRI) to help characterize abnormal cortical development in MMD clinically, with an analysis of both average and variability of regional cortical thicknesses. This study also included a machine learning analysis to assess the predictive capacity of the cortical thickness abnormalities observed in this research. This study included 993 MRI examinations from neurotypical controls and 269 MRI examinations from MMD patients. Results demonstrate abnormal cortical presentation of the insula, caudate, postcentral, precuneus, and cingulate regions, in agreement with previous literature cortical thickness findings as well as alternative methods such as functional MRI (fMRI) and digital angiography. To the best of our knowledge, this is the first manuscript to report cortical thickness abnormalities in the middle temporal visual area in MMD, and the first study to report on cortical thickness variability abnormalities in MMD.

Published

2021

5. Symptom-Related Differential Neuroimaging Biomarkers in Children with Corpus Callosum Abnormalities

Author

Alpen Ortug, Rodney Sadberry, Arthur Rezayev, Emi Takahashi, Tadashi Shiohama, Yurui Guo, and Jacob Levman

Subjects

medicine.medical_specialty, Cognitive Neuroscience, Neuroimaging, Corpus callosum, Gastroenterology, 050105 experimental psychology, Lateralization of brain function, Corpus Callosum, White matter, 03 medical and health sciences, Cellular and Molecular Neuroscience, Dysgenesis, Muscle tone, Epilepsy, 0302 clinical medicine, Internal medicine, Humans, Medicine, 0501 psychology and cognitive sciences, Child, Gyrification, Retrospective Studies, business.industry, 05 social sciences, Brain, medicine.disease, Magnetic Resonance Imaging, White Matter, medicine.anatomical_structure, Child, Preschool, Original Article, Abnormality, business, Biomarkers, 030217 neurology & neurosurgery

Abstract

We aimed to identify symptom-related neuroimaging biomarkers for patients with dysgenesis of the corpus callosum (dCC) by summarizing neurological symptoms reported in clinical evaluations and correlating them with retrospectively collected structural/diffusion brain magnetic resonance imaging (MRI) measures from 39 patients/controls (mean age 8.08 ± 3.98). Most symptoms/disorders studied were associated with CC abnormalities. Total brain (TB) volume was related to language, cognition, muscle tone, and metabolic/endocrine abnormalities. Although white matter (WM) volume was not related to symptoms studied, gray matter (GM) volume was related to cognitive, behavioral, and metabolic/endocrine disorders. Right hemisphere (RH) cortical thickness (CT) was linked to language abnormalities, while left hemisphere (LH) CT was linked to epilepsy. While RH gyrification index (GI) was not related to any symptoms studied, LH GI was uniquely related to cognitive disorders. Between patients and controls, GM volume and LH/RH CT were significantly greater in dCC patients, while WM volume and LH/RH GI were significantly greater in controls. TB volume and diffusion indices for tissue microstructures did not show differences between the groups. In summary, our brain MRI-based measures successfully revealed differential links to many symptoms. Specifically, LH GI abnormality can be a predictor for dCC patients, which is uniquely associated with the patients' symptom. In addition, patients with CC abnormalities had normal TB volume and overall tissue microstructures, with potentially deteriorated mechanisms to expand/fold the brain, indicated by GI.

Published

2021

6. Community-based surveillance of infectious diseases: a systematic review of drivers of success

Author

Catherine R. McGowan, Emi Takahashi, Laura Romig, Kathryn Bertram, Ayesha Kadir, Rachael Cummings, and Laura J. Cardinal

Subjects

Communication, Health Policy, Public Health, Environmental and Occupational Health, Humans, Communicable Diseases, Disease Outbreaks

Abstract

IntroductionCommunity-based surveillance may improve early detection and response to disease outbreaks by leveraging the capacity of community members to carry out surveillance activities within their communities. In 2021, the WHO published a report detailing the evidence gaps and research priorities around community-centred approaches to health emergencies. In response, we carried out a systematic review and narrative synthesis of the evidence describing the drivers of success of community-based surveillance systems.MethodsWe included grey literature and peer-reviewed sources presenting empirical findings of the drivers of success of community-based surveillance systems for the detection and reporting of infectious disease-related events. We searched for peer-reviewed literature via MEDLINE, EMBASE, Global Health, SCOPUS and ReliefWeb. We carried out grey literature searches using Google Search and DuckDuckGo. We used an evaluation quality checklist to assess quality.ResultsNineteen sources (17 peer-reviewed and 2 grey literature) met our inclusion criteria. Included sources reported on community-based surveillance for the detection and reporting of a variety of diseases in 15 countries (including three conflict settings). The drivers of success were grouped based on factors relating to: (1) surveillance workers, (2) the community, (3) case detection and reporting, (4) and integration.DiscussionThe drivers of success were found to map closely to principles of participatory community engagement with success factors reflecting high levels of acceptability, collaboration, communication, local ownership, and trust. Other factors included: strong supervision and training, a strong sense of responsibility for community health, effective engagement of community informants, close proximity of surveillance workers to communities, the use of simple and adaptable case definitions, quality assurance, effective use of technology, and the use of data for real-time decision-making. Our findings highlight strategies for improving the design and implementation of community-based surveillance. We suggest that investment in participatory community engagement more broadly may be a key surveillance preparedness activity.PROSPERO registration numberCRD42022303971.

Published

2022

7. Cortical thickness abnormalities in attention deficit hyperactivity disorder revealed by structural magnetic resonance imaging: Newborns to young adults

Author

Jacob Levman, Cynthia Forgeron, Tadashi Shiohama, Patrick MacDonald, Natalie Stewart, Ashley Lim, Lindsay Berrigan, and Emi Takahashi

Subjects

Adult, Brain Mapping, Magnetic Resonance Spectroscopy, Adolescent, Infant, Newborn, Infant, Brain, Magnetic Resonance Imaging, Young Adult, Developmental Neuroscience, Attention Deficit Disorder with Hyperactivity, Child, Preschool, Humans, Child, Developmental Biology

Abstract

Attention deficit hyperactivity disorder (ADHD) is a neurodevelopmental condition for which we have an incomplete understanding, and so brain imaging methods, such as magnetic resonance imaging (MRI), may be able to assist in characterising and understanding the presentation of the brain in an ADHD population. Statistical and computational methods were used to compare participants with ADHD and neurotypical controls at a variety of developmental stages to assess detectable abnormal neurodevelopment potentially associated with ADHD and to assess our ability to diagnose and characterise the condition from real-world clinical MRI examinations. T1-weighted structural MRI examinations (n = 993; 0-31 years old [YO]) were obtained from neurotypical controls, and 637 examinations were obtained from patients with ADHD (0-26 YO). Measures of average (mean) regional cortical thickness were acquired, alongside the first reporting of regional cortical thickness variability (as assessed with the standard deviation [SD]) in ADHD. A comparison between the inattentive and combined (inattentive and hyperactive) subtypes of ADHD is also provided. A preliminary independent validation was also performed on the publicly available ADHD200 dataset. Relative to controls, subjects with ADHD had, on average, lowered SD of cortical thicknesses and increased mean thicknesses across several key regions potentially linked with known symptoms of ADHD, including the precuneus and supramarginal gyrus.

Published

2022

8. Quantitative analyses of high‐angular resolution diffusion imaging (HARDI)‐derived long association fibers in children with sensorineural hearing loss

Author

Jacob Levman, Brianna Chew, Emi Takahashi, and Tadashi Shiohama

Subjects

medicine.medical_specialty, Hearing Loss, Sensorineural, Uncinate fasciculus, Audiology, Article, Corpus Callosum, 03 medical and health sciences, 0302 clinical medicine, Developmental Neuroscience, Fractional anisotropy, Fasciculus, otorhinolaryngologic diseases, medicine, Humans, Arcuate fasciculus, Cingulum (brain), Inferior longitudinal fasciculus, Child, 030304 developmental biology, 0303 health sciences, biology, business.industry, Fornix, medicine.disease, biology.organism_classification, White Matter, Diffusion Tensor Imaging, medicine.anatomical_structure, Ear, Inner, Anisotropy, Sensorineural hearing loss, Nerve Net, business, 030217 neurology & neurosurgery, Developmental Biology

Abstract

Sensorineural hearing loss (SNHL) is the most common developmental sensory disorder due to a loss of function within the inner ear or its connections to the brain. While successful intervention for auditory deprivation with hearing amplification and cochlear implants during a sensitive early developmental period can improve spoken-language outcomes, SNHL patients can suffer several cognitive dysfunctions including executive function deficits, visual cognitive impairment, and abnormal visual dominance in speaking perception even after successful intervention. To evaluate whether long association fibers are involved in the pathogenesis of impairment on the extra-auditory cognitive process in SNHL participants, we quantitatively analyzed high-angular resolution diffusion imaging (HARDI) tractography-derived fibers in participants with SNHL. After excluding cases with congenital disorders, perinatal brain damage, or premature birth, we enrolled 17 participants with SNHL aged under 10 years old. Callosal pathways (CP) and six types of cortico-cortical association fibers (arcuate fasciculus [AF], inferior longitudinal fasciculus [ILF], inferior fronto-occipital fasciculus [IFOF], uncinate fasciculus [UF], cingulum fasciculus [CF], and fornix [Fx]) in both hemispheres were identified and visualized. The ILF and IFOF were partly undetected in three profound SNHL participants. Compared to age- and gender-matched neurotypical controls (NC), decreased volumes, increased lengths, and high apparent diffusion coefficient (ADC) values without difference in fractional anisotropy (FA) values were identified in multiple types of fibers in the SNHL group. The impairment of long association fibers in SNHL may partly be related to the association of cognitive dysfunction with SNHL.

Published

2020

9. Preoperative and postoperative high angular resolution diffusion imaging tractography of cerebellar pathways in posterior fossa tumors

Author

Alpen Ortug, Neslihan Yuzbasioglu, Nejat Akalan, Jacob Levman, and Emi Takahashi

Subjects

Histology, Diffusion Tensor Imaging, Diffusion Magnetic Resonance Imaging, Adolescent, Child, Preschool, Cerebellum, Humans, Infratentorial Neoplasms, General Medicine, Anatomy, Child, Retrospective Studies

Abstract

This study aimed to utilize high angular resolution diffusion magnetic resonance imaging (HARDI) tractography in the mapping of the pathways of the cerebellum associated with posterior fossa tumors (infratentorial neoplasms) and to determine whether it is useful for preoperative and postoperative evaluation. Retrospective data from 30 patients (age 2-16 yr) with posterior fossa tumor (17 low grade, 13 high grade) and 30 age-sex-matched healthy controls were used. Structural and diffusion-weighted images were collected at a 3-tesla scanner. Tractography was performed using Diffusion Toolkit software, Q-ball model, FACT algorithm, and angle threshold of 45 degrees. Manually assessed regions of interest were placed to identify reconstructed fiber pathways passing through the superior, medial, and inferior cerebellar peduncles for the preoperative, postoperative, and healthy control groups. Fractional anisotropy (FA), apparent diffusion coefficient (ADC), and track volume measures were obtained and analyzed. Statistically significant differences were found between the preop/postop, preop/control, and postop/control comparisons for the volume of the tracts in both groups. Displacement and disruption of the pathways seemed to differ in relation to the severity of the tumor. The loss of pathways after the operation was associated with selective resection during surgery due to tumor infiltration. There were no FA differences but significantly higher ADC in low-grade tumors, and no difference in both FA and ADC in high-grade tumors. The effects of posterior fossa tumors on cerebellar peduncles and reconstructed pathways were successfully evaluated by HARDI tractography. The technique appears to be useful not only for preoperative but also for postoperative evaluation. United States Department of Health & Human Services National Institutes of Health (NIH) - USA

Published

2022

10. Structural magnetic resonance imaging demonstrates volumetric brain abnormalities in down syndrome: Newborns to young adults

Author

Bernadette McCann, Tadashi Shiohama, Prahar Ijner, Emi Takahashi, Nicole Bäumer, Allissa MacDonald, Jacob Levman, Liam Cogger, and Melanie Y. Lam

Subjects

Cognitive Neuroscience, Down syndrome, Computer applications to medicine. Medical informatics, R858-859.7, Perirhinal, Cuneus, White matter, Clinical, Young Adult, Supramarginal gyrus, Perirhinal cortex, medicine, Entorhinal Cortex, Humans, Radiology, Nuclear Medicine and imaging, Prospective Studies, Volumetrics, RC346-429, Paracentral lobule, Retrospective Studies, medicine.diagnostic_test, Postcentral gyrus, business.industry, Infant, Newborn, Brain, Magnetic resonance imaging, Regular Article, Entorhinal cortex, Entorhinal, Magnetic Resonance Imaging, medicine.anatomical_structure, Neurology, Neurology. Diseases of the nervous system, Neurology (clinical), business, Nuclear medicine

Abstract

Highlights • Volumetric abnormalities detected in the perirhinal, entorhinal memory regions. • Volumetric abnormalities detected in key additional brain regions. • Extensive clinical validation of previous Down Syndrome findings included. • Perirhinal and entorhinal involvement in Alzheimer’s etiology hypothesized., Down syndrome (DS) is a genetic disorder caused by the presence of an extra full or partial copy of chromosome 21 and characterized by intellectual disability. We hypothesize that performing a retrospective analysis of 73 magnetic resonance imaging (MRI) examinations of participants with DS (aged 0 to 22 years) and comparing them to a large cohort of 993 brain MRI examinations of neurotypical participants (aged 0 to 32 years), will assist in better understanding what brain differences may explain phenotypic developmental features in DS, as well as to provide valuable confirmation of prospective literature findings clinically. Measurements for both absolute volumes and volumes corrected as a percentage of estimated total intracranial volume (%ETIV) were extracted from each examination. Our results presented novel findings such as volume increases (%ETIV) in the perirhinal cortex, entorhinal cortex, choroid plexus, and Brodmann’s areas (BA) 3a, 3b, and 44, as well as volume decreases (%ETIV) in the white matter of the cuneus, the paracentral lobule, the postcentral gyrus, and the supramarginal gyrus. We also confirmed volumetric brain abnormalities previously discussed in the literature. Findings suggest the presence of volumetric brain abnormalities in DS that can be detected clinically with MRI.

Published

2021

11. Small Nucleus Accumbens and Large Cerebral Ventricles in Infants and Toddlers Prior to Receiving Diagnoses of Autism Spectrum Disorder

Author

Jose Luis Alatorre Warren, Alika K. Maunakea, Jacob Levman, Tadashi Shiohama, Briana Valli, Susan Faja, Emi Takahashi, Keita Tsujimura, and Alpen Ortug

Subjects

Pediatrics, medicine.medical_specialty, Autism Spectrum Disorder, Cognitive Neuroscience, Nucleus accumbens, behavioral disciplines and activities, Nucleus Accumbens, Cerebral Ventricles, 03 medical and health sciences, Cellular and Molecular Neuroscience, Epilepsy, 0302 clinical medicine, mental disorders, medicine, Humans, Global developmental delay, Prospective Studies, Anterior cingulate cortex, 030304 developmental biology, Retrospective Studies, 0303 health sciences, medicine.diagnostic_test, business.industry, Brain morphometry, Infant, Newborn, Infant, Magnetic resonance imaging, medicine.disease, Magnetic Resonance Imaging, medicine.anatomical_structure, Autism spectrum disorder, Child, Preschool, Orbitofrontal cortex, Original Article, business, 030217 neurology & neurosurgery, Biomarkers

Abstract

Early interventions for autism spectrum disorder (ASD) are increasingly available, while only 42–50% of ASD children are diagnosed before 3 years old (YO). To identify neuroimaging biomarkers for early ASD diagnosis, we evaluated surface- and voxel-based brain morphometry in participants under 3YO who were later diagnosed with ASD. Magnetic resonance imaging data were retrospectively obtained from patients later diagnosed with ASD at Boston Children’s Hospital. The ASD participants with comorbidities such as congenital disorder, epilepsy, and global developmental delay/intellectual disability were excluded from statistical analyses. Eighty-five structural brain magnetic resonance imaging images were collected from 81 participants under 3YO and compared with 45 images from 45 gender- and age-matched nonautistic controls (non-ASD). Using an Infant FreeSurfer pipeline, 236 regionally distributed measurements were extracted from each scan. By t-tests and linear mixed models, the smaller nucleus accumbens and larger bilateral lateral, third, and fourth ventricles were identified in the ASD group. Vertex-wise t-statistical maps showed decreased thickness in the caudal anterior cingulate cortex and increased thickness in the right medial orbitofrontal cortex in ASD. The smaller bilateral accumbens nuclei and larger cerebral ventricles were independent of age, gender, or gestational age at birth, suggesting that there are MRI-based biomarkers in prospective ASD patients before they receive the diagnosis and that the volume of the nucleus accumbens and cerebral ventricles can be key MRI-based early biomarkers to predict the emergence of ASD.

Published

2021

12. High Angular Resolution Diffusion MRI Reveals Conserved and Deviant Programs in the Paths that Guide Human Cortical Circuitry

Author

Avilash Das, Christine J. Charvet, Deselyn J. Tindall-Burgess, Guangping Dai, Emi Takahashi, Tara Kane, Jae W. Song, and Priya Kabaria

Subjects

Period (gene), Cognitive Neuroscience, Gestational Age, Biology, Corpus callosum, Corpus Callosum, Fetal Development, Mice, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Cortex (anatomy), Neural Pathways, medicine, Animals, Humans, Cingulum (brain), 030304 developmental biology, Cerebral Cortex, Mr tractography, 0303 health sciences, Fetus, Human brain, Commissure, Macaca mulatta, Diffusion Magnetic Resonance Imaging, Diffusion Tensor Imaging, medicine.anatomical_structure, Original Article, Neuroscience, 030217 neurology & neurosurgery, Diffusion MRI, Tractography

Abstract

Diffusion magnetic resonance (MR) tractography represents a novel opportunity to investigate conserved and deviant developmental programs between humans and other species such as mice. To that end, we acquired high angular resolution diffusion MR scans of mice [embryonic day (E) 10.5 to postnatal week 4] and human brains [gestational week (GW) 17–30] at successive stages of fetal development to investigate potential evolutionary changes in radial organization and emerging pathways between humans and mice. We compare radial glial development as well as commissural development (e.g., corpus callosum), primarily because our findings can be integrated with previous work. We also compare corpus callosal growth trajectories across primates (i.e., humans and rhesus macaques) and rodents (i.e., mice). One major finding is that the developing cortex of humans is predominated by pathways likely associated with a radial glial organization at GW 17–20, which is not as evident in age-matched mice (E 16.5, 17.5). Another finding is that, early in development, the corpus callosum follows a similar developmental timetable in primates (i.e., macaques and humans) as in mice. However, the corpus callosum grows for an extended period of time in primates compared with rodents. Taken together, these findings highlight deviant developmental programs underlying the emergence of cortical pathways in the human brain.

Published

2019

13. The left lateral occipital cortex exhibits decreased thickness in children with sensorineural hearing loss

Author

Jacob Levman, Tadashi Shiohama, Jeremy McDavid, and Emi Takahashi

Subjects

Male, Cerebellum, medicine.medical_specialty, Hearing Loss, Sensorineural, Vision Disorders, Audiology, Decreased thickness, Article, Functional Laterality, 03 medical and health sciences, 0302 clinical medicine, Developmental Neuroscience, Cortex (anatomy), Basal ganglia, otorhinolaryngologic diseases, medicine, Brain mri, Humans, Child, 030304 developmental biology, Cerebral Cortex, 0303 health sciences, Cerebrum, business.industry, Brain, medicine.disease, Magnetic Resonance Imaging, medicine.anatomical_structure, Child, Preschool, Female, Sensorineural hearing loss, Occipital Lobe, business, 030217 neurology & neurosurgery, Developmental Biology, Lateral occipital cortex

Abstract

Patients with sensorineural hearing loss (SNHL) tend to show language delay, executive functioning deficits, and visual cognitive impairment, even after intervention with hearing amplification and cochlear implants, which suggest altered brain structures and functions in SNHL patients. In this study, we investigated structural brain MRI in 30 children with SNHL (18 mild to moderate [M-M] SNHL and 12 moderately severe to profound [M-P] SNHL) by comparing gender- and age-matched normal controls (NC). Region-based analyses did not show statistically significant differences in volumes of the cerebrum, basal ganglia, cerebellum, and the ventricles between SNHL and NC. On surface-based analyses, the global and lobar cortical surface area, thickness, and volumes were not statistically significantly different between SNHL and NC participants. Regional surface areas, cortical thicknesses, and cortical volumes were statistically significantly smaller in M-P SNHL compared to NC in the left middle occipital cortex, and left inferior occipital cortex after a correction for multiple comparisons using random field theory (p < 0.02). These regions were identified as areas known to be related to high level visual cognition including the human middle temporal area, lateral occipital area, occipital face area, and V8. The observed regional decreased thickness in M-P SNHL may be associated with dysfunctions of visual cognition in SNHL detectable in a clinical setting.

Published

2019

14. Inhibitory Effects of Phenylpropanoid Derivatives from Oenanthe javanica on Antigen-Stimulated Degranulation in RBL-2H3 Cells

Author

Emi Takahashi, Ruka Iwahana, Yoshinobu Ishikawa, Toshihiro Murata, Tatsuo Katagiri, Yuko Sakamoto, Mizuki Abe, and Kenroh Sasaki

Subjects

food.ingredient, Stereochemistry, Pharmaceutical Science, 01 natural sciences, Lignans, Analytical Chemistry, HeLa, Lactones, chemistry.chemical_compound, food, Drug Discovery, Oenanthe javanica, Animals, Humans, Dicarboxylic Acids, Mast Cells, Cytotoxicity, Pharmacology, Lignan, Phenylpropionates, Phenylpropanoid, biology, 010405 organic chemistry, Chemistry, Organic Chemistry, Degranulation, Absolute configuration, Sugar Acids, biology.organism_classification, 0104 chemical sciences, 010404 medicinal & biomolecular chemistry, Complementary and alternative medicine, Oenanthe, Molecular Medicine, Acid hydrolysis, HeLa Cells

Abstract

Two diacyldaucic acids (1 and 2), an α,β-unsaturated γ-lactone-type lignan (3) and its derivatives (4-6), and 12 known compounds were isolated from a traditional East Asian vegetable, Oenanthe javanica. The absolute configuration of 1 was validated by obtaining (+)-osbeckic acid through acid hydrolysis. The absolute configurations of 3-5 were determined by comparing their experimental and computed ECD data. The conclusion was supported by applying the phenylglycine methyl ester method to 3. Compound 6 was obtained as an interconverting mixture of isomers in a 3:1 trans- cis ratio. Several water-soluble components (1, 3, and 6) showed concentration-dependent inhibitory effects on antigen-stimulated degranulation in RBL-2H3 cells without producing any direct cytotoxicity against RBL-2H3 or HeLa cells.

Published

2019

15. Asymmetric Insular Connectomics Revealed by Diffusion Magnetic Resonance Imaging Analysis of Healthy Brain Development

Author

Emi Takahashi, Katarina Zumwalt, Lana Vasung, Jacob Levman, Ashley Lim, Liam Cogger, Zihang Fang, and Patrick MacDonald

Subjects

Adult, Male, Connectomics, Brain development, Adolescent, genetic structures, media_common.quotation_subject, behavioral disciplines and activities, Functional Laterality, 050105 experimental psychology, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Neural Pathways, Connectome, Image Processing, Computer-Assisted, medicine, Humans, 0501 psychology and cognitive sciences, Diffusion (business), Child, media_common, Cerebral Cortex, medicine.diagnostic_test, General Neuroscience, 05 social sciences, Brain, Infant, Magnetic resonance imaging, Original Articles, Diffusion Magnetic Resonance Imaging, Child, Preschool, Data Interpretation, Statistical, Anisotropy, Female, Consciousness, Psychology, Neuroscience, Insula, psychological phenomena and processes, 030217 neurology & neurosurgery

Abstract

The insula has been implicated in playing important roles in various brain functions including consciousness, homeostasis, perception, self-awareness, language processing, and interpersonal experience. Abnormalities of the insula have been observed in patients suffering from addiction, deteriorating language function, anorexia, and emotional dysregulation. We analyzed typical development of insular connections in a large-scale pediatric population using 642 magnetic resonance imaging examinations. Interpreting large quantities of acquired data is one of the major challenges in connectomics. This article focuses its analysis on the connectivity observed between the insula and many other regions throughout the brain and performs a hemispheric asymmetry analysis comparing localized connectome measurements. Results demonstrate asymmetries in the pathways connecting the insula to the superior temporal region, pars opercularis, etc. that may be representative of language lateralization in the brain. Results also demonstrate multiple fiber pathways that exhibit hemispheric dominance in tract length and an inverted hemispheric dominance in tract counts, implying the presence of asymmetric lateralization of some of the brain's insular pathways. This study illustrates the investigative potential of performing connectomics-style analyses in a clinical context across a large population of children as part of routine imaging, demonstrating the feasibility of using current technologies to perform regionally focused clinical connectivity studies.

Published

2019

16. Clinically detectable structural abnormalities in pediatric-onset multiple sclerosis: A large-scale magnetic resonance imaging analysis

Author

Patrick MacDonald, Lindsay Berrigan, Jacob Levman, Emi Takahashi, Allissa MacDonald, and Avilash Das

Subjects

Adult, Male, medicine.medical_specialty, Multiple Sclerosis, Adolescent, Pediatric onset, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Developmental Neuroscience, Perirhinal cortex, medicine, Image Processing, Computer-Assisted, Humans, Cortical surface, Child, 030304 developmental biology, Retrospective Studies, Cerebral Cortex, 0303 health sciences, medicine.diagnostic_test, business.industry, Multiple sclerosis, Infant, Newborn, Infant, Magnetic resonance imaging, medicine.disease, Magnetic Resonance Imaging, Hippocampal atrophy, medicine.anatomical_structure, Soft tissue contrast, Child, Preschool, Female, Radiology, business, 030217 neurology & neurosurgery, Developmental Biology, Neuroanatomy

Abstract

Background Multiple Sclerosis is characterized by neural demyelination. Structural magnetic resonance imaging (MRI) provides soft tissue contrast, which forms the basis of techniques for extracting regional biomarkers across a participant's brain. Objectives To investigate the clinical presentation of multiple sclerosis in a large-scale MRI analysis that includes thorough consideration of extractable structural measurements (average and variability of regional cortical thicknesses, cortical surface measurements and volumes). Methods We performed a large-scale retrospective analysis of 370 T1 structural volumetric MRIs from 64 participants with multiple sclerosis and compared them with a large cohort of neurotypical participants, consisting of 993 MRIs from 988 participants. Regionally distributed measurements of cortical thickness (average and standard deviation) were extracted along with surface area, surface curvature and volumetric measurements. Results The largest observed finding involved regionally distributed reductions in average cortical thickness, with the parahippocampal region exhibiting the largest effect size, a finding that may be linked with known hippocampal atrophy in multiple sclerosis. Group-wise differences were also observed in terms of distributed volume, surface area and surface curvature measurements. Conclusions Participants with pediatric onset multiple sclerosis present clinically with a variety of structural abnormalities, including perirhinal cortex thickness abnormalities not previously reported in the literature.

Published

2020

17. Brain morphological analysis in PTEN hamartoma tumor syndrome

Author

Lana Vasung, Jacob Levman, Emi Takahashi, and Tadashi Shiohama

Subjects

0301 basic medicine, Male, Pathology, medicine.medical_specialty, Autism Spectrum Disorder, Uncinate fasciculus, 030105 genetics & heredity, Article, Corpus Callosum, 03 medical and health sciences, 0502 economics and business, Fractional anisotropy, Genetics, medicine, Polymicrogyria, PTEN, Humans, Megalencephaly, 050207 economics, Child, Gyrification, Genetics (clinical), 050208 finance, biology, business.industry, 05 social sciences, Brain morphometry, Macrocephaly, PTEN Phosphohydrolase, Brain, medicine.disease, Magnetic Resonance Imaging, White Matter, 030104 developmental biology, biology.protein, Anisotropy, Female, medicine.symptom, business, Hamartoma Syndrome, Multiple, Tractography, Diffusion MRI

Abstract

Phosphatase and tensin homolog (PTEN) hamartoma tumor syndrome (PHTS) is a spectrum of hereditary cancer syndromes caused by germline mutations in PTEN. PHTS has been recently gathering interest, because of its high rate of neurological comorbidities including macrocephaly, autism spectrum disorder, and intellectual dysfunction. However, detailed brain morphology and connectivity of PHTS remain unclear. This is the first quantitative magnetic resonance imaging (MRI) study to report brain structure and fiber pathways in PHTS. METHODS: The 16 structural T1-weighted and 9 diffusion-weighted MR images at 3 Tesla scanners from 12 PHTS patients and gender- and age-matched neurotypical controls were used for structural and high-angular resolution diffusion MRI (HARDI) tractography analyses. RESULTS: Mega-corpus callosum was observed in 75%, polymicrogyria in 33%, periventricular white matter lesions in 83%, and heterotopia in 17% of the PHTS participants. While gyrification index and hemispheric cortical thickness showed no significant differences between the two groups, significantly increased global and regional brain volumes, and regionally thicker cortices in the patients with PHTS were observed. HARDI tractography showed increased volume and length of callosal pathways, and length of the bilateral inferior longitudinal fasciculi (ILF), bilateral inferior frontooccipital fasciculi, and right uncinated fasciculus. The fractional anisotropy and apparent diffusion coefficient (ADC) values of brain pathways were not significantly different between groups, except for an increase in ADC of the left ILF in PHTS. CONCLUSION: Our results showed, for the first time, an association between specific brain regions/pathways and PTEN mutations.

Published

2020

18. Regional volumetric abnormalities in pediatric autism revealed by structural magnetic resonance imaging

Author

Patrick MacDonald, Emi Takahashi, Ashley Lim, Lana Vasung, Jacob Levman, Bryan Ewenson, Albert M. Galaburda, Natalie Stewart, and Sean Rowley

Subjects

Adult, Male, 0301 basic medicine, medicine.medical_specialty, Adolescent, Audiology, Structural magnetic resonance imaging, Repetitive behavior, Young Adult, 03 medical and health sciences, Typically developing, Age Distribution, 0302 clinical medicine, Developmental Neuroscience, Image Processing, Computer-Assisted, medicine, Retrospective analysis, Humans, Autistic Disorder, Child, medicine.diagnostic_test, business.industry, Infant, Newborn, Brain, Infant, Magnetic resonance imaging, medicine.disease, Magnetic Resonance Imaging, 030104 developmental biology, medicine.anatomical_structure, ROC Curve, Child, Preschool, Autism, Female, business, 030217 neurology & neurosurgery, Developmental Biology, Neuroanatomy

Abstract

Autism is a group of complex neurodevelopmental disorders characterized by impaired social interaction, restricted and repetitive behavior. We performed a large-scale retrospective analysis of 1,996 structural magnetic resonance imaging (MRI) examinations of the brain from 1,769 autistic and neurologically typically developing patients (aged 0-32 years), and extracted regional volumetric measurements distributed across 463 brain regions of each patient. The youngest autistic patients (2.5 years) were diagnosed after imaging and identified retrospectively. Our study demonstrates corpus callosum volumetric abnormalities among autistic patients that are associated with brain overgrowth in early childhood (0-5 years old), followed by a shift towards known decreased volumes in later ages. Results confirm known increases in ventricular volumes among autistic populations and extends those findings to increased volumes of the choroid plexus. Our study also demonstrates distributed volumetric abnormalities among autistic patients that affect a variety of key regional white and grey matter areas of the brain potentially associated with known symptoms of autism.

Published

2018

19. Neuronal Migration and Axonal Pathways Linked to Human Fetal Insular Development Revealed by Diffusion MR Tractography

Author

Emi Takahashi and Avilash Das

Subjects

Adult, 0301 basic medicine, Cognitive Neuroscience, Inferior frontal gyrus, Gestational Age, Sensory system, Biology, Insular cortex, behavioral disciplines and activities, Fetal Development, White matter, 03 medical and health sciences, Cellular and Molecular Neuroscience, Nerve Fibers, 0302 clinical medicine, Cell Movement, Pregnancy, Cortex (anatomy), Neural Pathways, medicine, Humans, Operculum (brain), Cerebral Cortex, Neurons, Original Articles, Magnetic Resonance Imaging, White Matter, Axons, Diffusion Tensor Imaging, 030104 developmental biology, medicine.anatomical_structure, nervous system, Female, Insula, Neuroscience, psychological phenomena and processes, 030217 neurology & neurosurgery, Tractography

Abstract

The insula is a multimodal sensory integration structure that, in addition to serving as a gateway between somatosensory areas and limbic structures, plays a crucial role in autonomic nervous system function. While anatomical studies following the development of the insula have been conducted, currently, no studies have been published in human fetuses tracking the development of neuronal migration or of white matter tracts in the cortex. In this study, we aimed to follow the neuronal migration and subsequent maturation of axons in and around the insula in human fetal ages. Using high-angular resolution diffusion magnetic resonance imaging tractography, major white matter pathways to/from the insula and its surrounding operculum were identified at a number of time points during human gestation. Pathways likely linked to neuronal migration from the ventricular zone to the inferior frontal gyrus, superior temporal region, and the insular cortex were detected in the earliest gestational age studied (15 GW). Tractography reveals neuronal migration to areas surrounding the insula occurred at different time points. These results, in addition to demonstrating key time points for neuronal migration, suggest that neurons and axonal fiber pathways underlying the insula and its surrounding gyri mature differentially despite their relationship during cortical folding.

Published

2017

20. Brain Wiring and Supragranular-Enriched Genes Linked to Protracted Human Frontal Cortex Development

Author

Emi Takahashi, Christine J. Charvet, Jasmine P. Hendy, and Andre van der Kouwe

Subjects

Cognitive Neuroscience, Biology, SYT2, White matter, Synapse, 03 medical and health sciences, Cellular and Molecular Neuroscience, Mice, 0302 clinical medicine, Neuroimaging, Species Specificity, Cortex (anatomy), Gene expression, Neural Pathways, medicine, Animals, Humans, Gene, 030304 developmental biology, 0303 health sciences, Brain Mapping, VAMP1, Phenotype, Frontal Lobe, medicine.anatomical_structure, Diffusion Tensor Imaging, Cerebral cortex, Original Article, Transcriptome, Neuroscience, 030217 neurology & neurosurgery

Abstract

The human frontal cortex is unusually large compared with many other species. The expansion of the human frontal cortex is accompanied by both connectivity and transcriptional changes. Yet, the developmental origins generating variation in frontal cortex circuitry across species remain unresolved. Nineteen genes, which encode filaments, synapse, and voltage-gated channels (e.g., NEFH, SYT2, VAMP1) are especially enriched in the supragranular layers of the cerebral cortex in humans relative to mice. The increased expression of these genes suggests enhanced cortico-cortical projections emerging from layer III in humans. We confirm that the expression of these supragranular-enriched genes is preferentially expressed in frontal cortex layer III in humans relative to mice. We demonstrate a concomitant expansion in cortico-cortical pathways projecting within the frontal cortex white matter in humans with diffusion MR tractography. To identify developmental sources of such variation, we compare frontal cortical white matter growth and developmental trajectories of transcriptional profiles of supragranular-enriched genes in humans and mice. We also use temporal changes in gene expression during postnatal development to control for variation in developmental schedules across species. The growth of the frontal cortex white matter and transcriptional profiles of supragranular genes are both protracted in humans relative to the timing of other transformations. These findings demonstrate that an expansion of projections emerging from the human frontal cortex is achieved by extending the duration of cortical circuitry development. Integrating RNA sequencing with neuroimaging level phenotypes is an effective strategy to assess deviations in developmental programs leading to variation in connections across species.

Published

2019

21. Quantitative brain morphological analysis in CHARGE syndrome

Author

Jacob Levman, Tadashi Shiohama, Emi Takahashi, and Jeremy McDavid

Subjects

Male, Adolescent, Heart malformation, Cognitive Neuroscience, Neuroimaging, lcsh:Computer applications to medicine. Medical informatics, 050105 experimental psychology, lcsh:RC346-429, 03 medical and health sciences, CHARGE syndrome, Young Adult, 0302 clinical medicine, Image Interpretation, Computer-Assisted, Medicine, Humans, 0501 psychology and cognitive sciences, Radiology, Nuclear Medicine and imaging, Child, Gyrification, lcsh:Neurology. Diseases of the nervous system, business.industry, Putamen, 05 social sciences, Brain morphometry, Brain, Regular Article, Anatomy, medicine.disease, Magnetic Resonance Imaging, Diffusion Tensor Imaging, Neurology, lcsh:R858-859.7, Female, Neurology (clinical), Brainstem, CHARGE Syndrome, business, 030217 neurology & neurosurgery, Diffusion MRI, Tractography

Abstract

CHARGE syndrome (CS) is a rare congenital syndrome characterized by coloboma, heart anomaly, choanal atresia, retardation of growth and development, and genital and ear anomalies. While several neuroimaging studies have revealed abnormalities such as hypoplasia of the semicircular canal, olfactory nerve, cerebellum, and brainstem, no quantitative analysis of brain morphology in CS has been reported. We quantitatively investigated brain morphology in CS participants using structural magnetic resonance imaging (MRI) (N = 10, mean age 14.7 years old) and high-angular resolution diffusion MRI (HARDI) tractography (N = 8, mean age 19.4 years old) comparing with gender- and age-matched controls. Voxel-based analyses revealed decreased volume of the bilateral globus pallidus (left and right; p = 0.021 and 0.029), bilateral putamen (p = 0.016 and 0.011), left subthalamic nucleus (p = 0.012), bilateral cerebellum (p = 1.5 × 10−6 and 1.2 × 10−6), and brainstem (p = 0.031), and the enlargement of the lateral ventricles (p = 0.011 and 0.0031) bilaterally in CS. Surface-based analysis revealed asymmetrically increased cortical thickness in the right hemisphere (p = 0.013). The group-wise differences observed in global cortical volume, gyrification index, and left cortical thickness were not statistically significant. HARDI tractography revealed reduced volume, elongation, and higher ADC values in multiple fiber tracts in patients in CS compared to the controls, but FA values were not statistically significantly different between the two groups. Facial features are known to be asymmetric in CS, which has been recognized as an important symptom in CS. Our results revealed that the cortex in CS has an asymmetric appearance similar to the facial features. In addition, the signal pattern of high ADC with statistically unchanged FA values of tractography pathways indicated the presence of other pathogenesis than vasogenic edema or myelination dysfunction in developmental delay in CS. Keywords: CHARGE syndrome, Structural brain MRI, HARDI

Published

2019

22. Ex Vivo Fetal Brain MRI: Recent Advances, Challenges, and Future Directions

Author

Emi Takahashi, Lana Vasung, Tadashi Shiohama, Borjan Gagoski, Jacob Levman, and Christine J. Charvet

Subjects

Brain development, Cognitive Neuroscience, Mri studies, 050105 experimental psychology, Article, Fetal brain, Fetal Development, 03 medical and health sciences, 0302 clinical medicine, Fetus, medicine, Humans, 0501 psychology and cognitive sciences, medicine.diagnostic_test, business.industry, 05 social sciences, Brain, Magnetic resonance imaging, Human brain, Magnetic Resonance Imaging, medicine.anatomical_structure, Neurology, Autopsy, business, Neuroscience, 030217 neurology & neurosurgery, Ex vivo, Tractography

Abstract

During early development, the fetal brain undergoes dynamic morphological changes. These changes result from neurogenic events, such as neuronal proliferation, migration, axonal elongation, retraction, and myelination. The duration and intensity of these events vary across species. Comparative assessments of these neurogenic events give us insight into evolutionary changes and the complexity of human brain development. Recent advances in magnetic resonance imaging (MRI), especially ex vivo MRI, permit characterizing and comparing fetal brain development across species. Comparative ex vivo MRI studies support the detection of species-specific differences that occur during early brain development. In this review, we provide a comprehensive overview of ex vivo MRI studies that characterize early brain development in humans, monkeys, cats, as well as rats/mice. Finally, we discuss the current advantages and limitations of ex vivo fetal brain MRI.

Published

2019

23. Structural magnetic resonance imaging demonstrates abnormal cortical thickness in Down syndrome: Newborns to young adults

Author

Emi Takahashi, Natalie Stewart, Nicole Bäumer, Tadashi Shiohama, Jacob Levman, Ashley Lim, Liam Cogger, Allissa MacDonald, and Patrick MacDonald

Subjects

Adult, Male, Down syndrome, medicine.medical_specialty, Adolescent, Cognitive Neuroscience, Audiology, lcsh:Computer applications to medicine. Medical informatics, 050105 experimental psychology, lcsh:RC346-429, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Intellectual disability, medicine, Humans, 0501 psychology and cognitive sciences, Radiology, Nuclear Medicine and imaging, Young adult, Child, lcsh:Neurology. Diseases of the nervous system, Retrospective Studies, Cerebral Cortex, medicine.diagnostic_test, business.industry, Postcentral gyrus, 05 social sciences, Infant, Newborn, Infant, Magnetic resonance imaging, Regular Article, medicine.disease, Magnetic Resonance Imaging, medicine.anatomical_structure, Neurology, Child, Preschool, Cohort, lcsh:R858-859.7, Female, Neurology (clinical), Down Syndrome, business, 030217 neurology & neurosurgery, Neurotypical, Neuroanatomy

Abstract

Down syndrome (DS) is a genetic disorder caused by an extra copy of all or part of chromosome 21 and is characterized by intellectual disability. We performed a retrospective analysis of 47 magnetic resonance imaging (MRI) examinations of participants with DS (aged 5 to 22 years) and compared them with a large cohort of 854 brain MRIs obtained from neurotypical participants (aged 5 to 32 years) with the objective of assessing the clinical presentation of Down syndrome, towards better understanding the neurological development associated with the condition. An additional cohort of 26 MRI exams from patients with DS and 139 exams from neurotypical participants (aged 0–5 years) are included as part of a supplementary analysis. Regionally distributed cortical thickness measurements, including average measurements as well as standard deviations (intra-regional cortical thickness variability) were extracted from each examination. The largest effect sizes observed were associated with increased average cortical thickness in the postcentral gyrus with specific abnormalities observed in Brodmann's areas 1 and 3b in DS, which was observed across all age ranges. We also observed strong effect sizes associated with decreased cortical thickness variability in the lateral orbitofrontal gyrus, the postcentral gyrus and more in DS participants. Findings suggest regionally irregular gray matter development in DS that can be detected with MRI. Keywords: Down syndrome, Cortical thickness, Development, Neuroanatomy, Variability

Published

2019

24. Evolution of Brain Connections: Integrating Diffusion MR Tractography With Gene Expression Highlights Increased Corticocortical Projections in Primates

Author

Christine J. Charvet, Priya Kabaria, Arthi Palani, and Emi Takahashi

Subjects

Cognitive Neuroscience, Biology, Neurofilament Heavy Polypeptide, Cellular and Molecular Neuroscience, Mice, Species Specificity, Neurofilament Proteins, Cortex (anatomy), Gene expression, Neural Pathways, medicine, Connectome, Animals, Humans, Cerebral Cortex, Mr tractography, Callithrix, Human brain, Original Articles, biology.organism_classification, Biological Evolution, Macaca mulatta, Diffusion imaging, medicine.anatomical_structure, Diffusion Tensor Imaging, Neuroscience, Diffusion MRI

Abstract

Diffusion MR tractography permits investigating the 3D structure of cortical pathways as interwoven paths across the entire brain. We use high-resolution scans from diffusion spectrum imaging and high angular resolution diffusion imaging to investigate the evolution of cortical pathways within the euarchontoglire (i.e., primates, rodents) lineage. More specifically, we compare cortical fiber pathways between macaques (Macaca mulatta), marmosets (Callithrix jachus), and rodents (mice, Mus musculus). We integrate these observations with comparative analyses of Neurofilament heavy polypeptide (NEFH) expression across the cortex of mice and primates. We chose these species because their phylogenetic position serves to trace the early evolutionary history of the human brain. Our comparative analysis from diffusion MR tractography, cortical white matter scaling, and NEFH expression demonstrates that the examined primates deviate from mice in possessing increased long-range cross-cortical projections, many of which course across the anterior to posterior axis of the cortex. Our study shows that integrating gene expression data with diffusion MR data is an effective approach in identifying variation in connectivity patterns between species. The expansion of corticocortical pathways and increased anterior to posterior cortical integration can be traced back to an extension of neurogenetic schedules during development in primates.

Published

2018

25. Structural Magnetic Resonance Imaging-Based Brain Morphology Study in Infants and Toddlers With Down Syndrome: The Effect of Comorbidities

Author

Tadashi Shiohama, Nicole Bäumer, Jacob Levman, and Emi Takahashi

Subjects

Male, Down syndrome, medicine.medical_specialty, Comorbidity, Article, Cohort Studies, 03 medical and health sciences, Epilepsy, 0302 clinical medicine, Developmental Neuroscience, 030225 pediatrics, Internal medicine, Intellectual disability, medicine, Electronic Health Records, Humans, Gray Matter, medicine.diagnostic_test, business.industry, Brain morphometry, Brain, Infant, Magnetic resonance imaging, medicine.disease, Magnetic Resonance Imaging, Neurology, Child, Preschool, Pediatrics, Perinatology and Child Health, Cardiology, Female, Neurology (clinical), Down Syndrome, Trisomy, business, Chromosome 21, 030217 neurology & neurosurgery, Neurotypical, Brain Stem

Abstract

OBJECTIVE: Down syndrome (DS) is the most prevalent chromosomal disorder characterized by intellectual disability, multiple organ anomalies, generalized muscular hypotonia, and characteristic physical features. The presence of congenital cardiac disease, infantile spasms, and congenital hypothyroidism that are often observed in DS patients have contributed to brain morphologic changes. The aim of this study was to evaluate brain morphologic characteristics during infant and toddler ages in patients with DS using structural brain magnetic resonance images (MRI). METHODS: Structural brain T1-weighted MRI from DS participants with complete chromosome 21 trisomy (n=20; 1.6 ± 0.6 [mean±standard deviation] years old) were analyzed with FreeSurfer. The measurements were compared to those of 60 gender- and age-matched neurotypical controls with Cohen’s d statistic and unpaired t-test with the false discovery rate correction for multiple comparisons, and analyzed by univariate general linear model with the following DS-associated medical comorbidities: congenital cardiac disease, infantile spasms, and hypothyroidism. RESULTS: We identified 27 candidate measurements with large effect sizes (absolute d >0.8) and statistically significant differences (p < 6.9 × 10–3). Among them, decreased volumes in bilateral cerebellar gray matter (GM), right cerebellar white matter, brainstem, and cortical abnormalities in the right superior temporal, right rostral anterior cingulate, and left rostral middle frontal gyrus, independent of comorbid effects. Only bilateral cerebellar GM volumes and brainstem volume showed differences between DS and healthy groups during infancy. CONCLUSION: These results suggest that cerebellar GM and brainstem may represent the primary regions affected by the presence of an additional copy of chromosome 21.

Published

2018

26. Surface- and voxel-based brain morphologic study in Rett and Rett-like syndrome with MECP2 mutation

Author

Emi Takahashi, Jacob Levman, and Tadashi Shiohama

Subjects

Microcephaly, Cerebellum, Pathology, medicine.medical_specialty, congenital, hereditary, and neonatal diseases and abnormalities, Adolescent, Methyl-CpG-Binding Protein 2, Rett syndrome, Article, MECP2, White matter, 03 medical and health sciences, 0302 clinical medicine, Developmental Neuroscience, medicine, Rett Syndrome, Humans, Child, Gyrification, 030304 developmental biology, 0303 health sciences, business.industry, Brain morphometry, Brain, Infant, medicine.disease, Magnetic Resonance Imaging, medicine.anatomical_structure, Phenotype, Child, Preschool, Mutation, Female, business, 030217 neurology & neurosurgery, Developmental Biology, Congenital disorder

Abstract

Rett syndrome (RTT) is a rare congenital disorder which in most cases (95%) is caused by methyl-CpG binding protein 2 (MECP2) mutations. RTT is characterized by regression in global development, epilepsy, autistic features, acquired microcephaly, habitual hand clapping, loss of purposeful hand skills, and autonomic dysfunctions. Although the literature has demonstrated decreased volumes of the cerebrum, cerebellum, and the caudate nucleus in RTT patients, surface-based brain morphology including cortical thickness and cortical gyrification analyses are lacking in RTT. We present quantitative surface- and voxel-based morphological measurements in young children with RTT and Rett-like syndrome (RTT-l) with MECP2 mutations. The 8 structural T1-weighted MR images were obtained from 7 female patients with MECP2 mutations (3 classic RTT, 2 variant RTT, and 2 RTT-l) (mean age 5.2 [standard deviation 3.3] years old). Our analyses demonstrated decreased total volumes of the cerebellum in RTT/RTT-l compared to gender- and age-matched controls (t (22)=-2.93, p = .008, Cohen’s d = 1.27). In contrast, global cerebral cortical surface areas, global/regional cortical thicknesses, the degree of global gyrification, and global/regional gray and white matter volumes were not statistically significantly different between the two groups. Our findings, as well as literature findings, suggest that early brain abnormalities associated with RTT/RTT-l (with MECP2 mutations) can be detected as regionally decreased cerebellar volumes. Decreased cerebellar volume may be helpful for understanding the etiology of RTT/RTT-l.

Published

2018

27. Development of human white matter fiber pathways: From newborn to adult ages

Author

Rongpin Wang, Emi Takahashi, Ashley R. Lim, Molly Wilkinson, Andrew H. Cohen, and Patrick MacDonald

Subjects

Adult, Male, Adolescent, Uncinate fasciculus, Article, Functional Laterality, 050105 experimental psychology, Corpus Callosum, White matter, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Developmental Neuroscience, Neural Pathways, Fasciculus, Fractional anisotropy, medicine, Humans, Cingulum (brain), 0501 psychology and cognitive sciences, Inferior longitudinal fasciculus, Child, biology, 05 social sciences, Fornix, Brain, Infant, Anatomy, biology.organism_classification, White Matter, Diffusion Tensor Imaging, medicine.anatomical_structure, Child, Preschool, Anisotropy, Female, Psychology, Neuroscience, 030217 neurology & neurosurgery, Developmental Biology, Tractography

Abstract

Major long-range white matter pathways (cingulum, fornix, uncinate fasciculus [UF], inferior fronto-occipital fasciculus [IFOF], inferior longitudinal fasciculus [ILF], thalamocortical [TC], and corpus callosal [CC] pathways) were identified in eighty-three healthy humans ranging from newborn to adult ages. We tracked developmental changes using high-angular resolution diffusion MR tractography. Fractional anisotropy (FA), apparent diffusion coefficient, number, length, and volume were measured in pathways in each subject. Newborns had fewer, and more sparse, pathways than those of the older subjects. FA, number, length, and volume of pathways gradually increased with age and reached a plateau between 3 and 5 years of age. Data were further analyzed by normalizing with mean adult values as well as with each subject's whole brain values. Comparing subjects of 3 years old and under to those over 3 years old, the studied pathways showed differential growth patterns. The CC, bilateral cingulum, bilateral TC, and the left IFOF pathways showed significant growth both in volume and length, while the bilateral fornix, bilateral ILF and bilateral UF showed significant growth only in volume. The TC and CC took similar growth patterns with the whole brain. FA values of the cingulum and IFOF, and the length of ILF showed leftward asymmetry. The fornix, ILF and UF occupied decreased space compared to the whole brain during development with higher FA values, likely corresponding to extensive maturation of the pathways compared to the mean whole brain maturation. We believe that the outcome of this study will provide an important database for future reference.

Published

2016

28. Structural and Functional Connectivity Changes Beyond Visual Cortex in a Later Phase of Visual Perceptual Learning

Author

Yuka Sasaki, Emi Takahashi, Takeo Watanabe, Dongho Kim, Dong-Wha Kang, Yong-Hwan Kim, Matthew S. Cain, and Li Hung Chang

Subjects

0301 basic medicine, Adult, Male, Visual perception, Phase (waves), lcsh:Medicine, Article, Visual processing, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Cognition, Fractional anisotropy, medicine, Humans, Learning, Inferior longitudinal fasciculus, lcsh:Science, 10. No inequality, skin and connective tissue diseases, Visual Cortex, Neurons, Brain Mapping, Multidisciplinary, Neuronal Plasticity, Functional connectivity, lcsh:R, Magnetic Resonance Imaging, White Matter, 030104 developmental biology, Visual cortex, medicine.anatomical_structure, Visual Perception, Anisotropy, lcsh:Q, Female, sense organs, Psychology, Neuroscience, 030217 neurology & neurosurgery

Abstract

The neural mechanisms of visual perceptual learning (VPL) remain unclear. Previously we found that activation in the primary visual cortex (V1) increased in the early encoding phase of training, but returned to baseline levels in the later retention phase. To examine neural changes during the retention phase, we measured structural and functional connectivity changes using MRI. After weeks of training on a texture discrimination task, the fractional anisotropy of the inferior longitudinal fasciculus, a major tract connecting visual and anterior areas, was increased, as well as the functional connectivity between V1 and anterior regions mediated by the ILF. These changes were strongly correlated with behavioral performance improvements. These results suggest a two-phase model of VPL in which localized functional changes in V1 in the encoding phase of training are followed by changes in both structural and functional connectivity in ventral visual processing, perhaps leading to the long-term stabilization of VPL.

Published

2018

29. A Sorting Statistic with Application in Neurological Magnetic Resonance Imaging of Autism

Author

Anne L. Martel, Emi Takahashi, Natalie Stewart, Ashley Lim, Cynthia Forgeron, Jacob Levman, and Patrick MacDonald

Subjects

0301 basic medicine, Adult, lcsh:Medical technology, Adolescent, Article Subject, Computer science, Gaussian, Biomedical Engineering, Normal Distribution, Health Informatics, Neuroimaging, Constructive, Normal distribution, 03 medical and health sciences, symbols.namesake, Young Adult, 0302 clinical medicine, Statistics, Feature (machine learning), Image Processing, Computer-Assisted, Electronic Health Records, Humans, Autistic Disorder, Child, Statistic, Retrospective Studies, lcsh:R5-920, Data collection, Models, Statistical, Data Collection, Sorting, Infant, Newborn, Estimator, Brain, Infant, Magnetic Resonance Imaging, Healthy Volunteers, 030104 developmental biology, lcsh:R855-855.5, Child, Preschool, symbols, Surgery, lcsh:Medicine (General), 030217 neurology & neurosurgery, Algorithms, Biotechnology, Research Article

Abstract

Effect size refers to the assessment of the extent of differences between two groups of samples on a single measurement. Assessing effect size in medical research is typically accomplished with Cohen’s d statistic. Cohen’s d statistic assumes that average values are good estimators of the position of a distribution of numbers and also assumes Gaussian (or bell-shaped) underlying data distributions. In this paper, we present an alternative evaluative statistic that can quantify differences between two data distributions in a manner that is similar to traditional effect size calculations; however, the proposed approach avoids making assumptions regarding the shape of the underlying data distribution. The proposed sorting statistic is compared with Cohen’s d statistic and is demonstrated to be capable of identifying feature measurements of potential interest for which Cohen’s d statistic implies the measurement would be of little use. This proposed sorting statistic has been evaluated on a large clinical autism dataset from Boston Children’s Hospital, Harvard Medical School, demonstrating that it can potentially play a constructive role in future healthcare technologies.

Published

2018

30. Bilateral thalamocortical abnormalities in focal cortical dysplasia

Author

Emi Takahashi, Henry A. Feldman, Arthur Rezayev, and Jacob Levman

Subjects

Adult, Male, Adolescent, Thalamus, 030218 nuclear medicine & medical imaging, White matter, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Fractional anisotropy, Image Processing, Computer-Assisted, Medicine, Effective diffusion coefficient, Humans, Child, Molecular Biology, Neocortex, business.industry, General Neuroscience, Infant, Cortical dysplasia, medicine.disease, Magnetic Resonance Imaging, Malformations of Cortical Development, medicine.anatomical_structure, Diffusion Magnetic Resonance Imaging, Diffusion Tensor Imaging, nervous system, Dysplasia, Child, Preschool, Female, Neurology (clinical), business, Nuclear medicine, 030217 neurology & neurosurgery, Developmental Biology, Diffusion MRI

Abstract

Background and purpose Focal cortical dysplasia (FCD), a congenital malformation of the neocortex and one of the most common causes of medication resistant epilepsy in pediatric populations, can be studied noninvasively by diffusion tensor imaging (DTI). The present study aimed to quantify changes in the thalamus and thalamocortical pathways with respect to fractional anisotropy (FA), apparent diffusion coefficient (ADC), volume, and other common measures. Materials and methods The study quantified data collected from pediatric patients with a prior diagnosis of FCD; 75 patients (35 females, 10.1 ± 6.5 years) for analysis of thalamic volume and 68 patients (32 females, 10.2 ± 6.4 years) for DTI analysis. DTI scans were taken at 3 Tesla MRI scanners (30 diffusion gradient directions; b = 1000 s/mm2 and 5 non diffusion-weighted measurements). DTI tractography was performed using the FACT algorithm with an angle threshold of 45 degrees. Manually delineated ROIs were used to compare the hemisphere containing the dysplasia to the contralateral hemisphere and controls. Results A significant decrease in the volume of the FCD hemisphere thalamus was detected as compared to the contralateral hemisphere. In comparison to controls, there was an observed reduction in tract volume, length, count, FA of thalami, and FA of thalamocortical pathways in FCD patients. FCD patients had higher odds of exhibiting high ADC in both the thalamus and thalamocortical pathways. Conclusion The data implied a widespread reduction in structural connectivity of the thalamocortical network. MRI analysis suggests a potential influence of FCD on thalamic volume.

Published

2017

31. Longitudinal Changes in Diffusion Properties in White Matter Pathways of Children With Tuberous Sclerosis Complex

Author

Mustafa Sahin, Paul Mitchell, Emi Takahashi, P. Ellen Grant, Fiona M. Baumer, Rudolph Pienaar, and Jae W. Song

Subjects

Male, Pathology, medicine.medical_specialty, Adolescent, Population, Corpus callosum, Nerve Fibers, Myelinated, Article, White matter, Developmental Neuroscience, Tuberous Sclerosis, Corona radiata, Fractional anisotropy, medicine, Humans, Effective diffusion coefficient, Child, education, education.field_of_study, Brain, Magnetic Resonance Imaging, White Matter, Diffusion Magnetic Resonance Imaging, Diffusion Tensor Imaging, medicine.anatomical_structure, Neurology, Child, Preschool, Pediatrics, Perinatology and Child Health, Anisotropy, Female, Neurology (clinical), Psychology, Tractography, Diffusion MRI

Abstract

Background Abnormal white matter development in patients with tuberous sclerosis complex, a multisystem hamartomatous disorder caused by aberrant neural proliferation and axonal maturation, may be associated with poorer neurocognitive outcomes. The purpose of this study is to identify predictors of longitudinal changes in diffusion properties of white matter tracts in patients with tuberous sclerosis complex. Methods Diffusion magnetic resonance imaging was carried out in 17 subjects with tuberous sclerosis complex (mean age, 7.2 ± 4.4 years) with at least two magnetic resonance imaging scans (mean number of days between scans, 419.4 ± 105.4). There were 10 males; 5 of 17 had autism spectrum disorder and 10 of 17 had epilepsy. Regions of interest were placed to delineate the internal capsule/corona radiata, cingulum, and corpus callosum. The outcomes were mean change in apparent diffusion coefficient and fractional anisotropy. Data were analyzed using Pearson's correlation and multiple linear regression analyses. Results Gender was a significant predictor of mean change in apparent diffusion coefficient in the left internal capsule, right and left cingulum bundles, and corpus callosum and a significant predictor of mean change in fractional anisotropy in the corpus callosum. Epilepsy was a significant predictor of mean change in apparent diffusion coefficient in the left internal capsule. Autism spectrum disorder was not predictive of diffusion changes in any of the studied pathways. Conclusion Clinical variables, including gender and epilepsy, have an effect on the development of white matter pathways. These variables should be taken into consideration when counseling tuberous sclerosis complex patients and in future imaging studies in this population.

Published

2015

32. Multivariate analyses applied to fetal, neonatal and pediatric MRI of neurodevelopmental disorders

Author

Emi Takahashi and Jacob Levman

Subjects

Pediatrics, medicine.medical_specialty, Multivariate analysis, Cognitive Neuroscience, Population, Scientific literature, Review, lcsh:Computer applications to medicine. Medical informatics, complex mixtures, lcsh:RC346-429, Fetal, Epilepsy, Fetus, Neonatal, Machine learning, medicine, Image Processing, Computer-Assisted, Attention deficit hyperactivity disorder, Humans, Radiology, Nuclear Medicine and imaging, education, lcsh:Neurology. Diseases of the nervous system, Pediatric, education.field_of_study, medicine.diagnostic_test, business.industry, Brain, Magnetic resonance imaging, medicine.disease, Magnetic Resonance Imaging, 3. Good health, Neurology, Autism spectrum disorder, Schizophrenia, Neurodevelopmental Disorders, Brain MRI, lcsh:R858-859.7, Neurology (clinical), business

Abstract

Multivariate analysis (MVA) is a class of statistical and pattern recognition methods that involve the processing of data that contains multiple measurements per sample. MVA can be used to address a wide variety of medical neuroimaging-related challenges including identifying variables associated with a measure of clinical importance (i.e. patient outcome), creating diagnostic tests, assisting in characterizing developmental disorders, understanding disease etiology, development and progression, assisting in treatment monitoring and much more. Compared to adults, imaging of developing immature brains has attracted less attention from MVA researchers. However, remarkable MVA research growth has occurred in recent years. This paper presents the results of a systematic review of the literature focusing on MVA technologies applied to neurodevelopmental disorders in fetal, neonatal and pediatric magnetic resonance imaging (MRI) of the brain. The goal of this manuscript is to provide a concise review of the state of the scientific literature on studies employing brain MRI and MVA in a pre-adult population. Neurological developmental disorders addressed in the MVA research contained in this review include autism spectrum disorder, attention deficit hyperactivity disorder, epilepsy, schizophrenia and more. While the results of this review demonstrate considerable interest from the scientific community in applications of MVA technologies in pediatric/neonatal/fetal brain MRI, the field is still young and considerable research growth remains ahead of us., Highlights • Literature review of multivariate brain MRI neurodevelopmental disorders research • Focused on fetal, neonatal and pediatric populations • Neurodevelopmental disorders: autism, ADHD, epilepsy, neuropsychiatric disorders, etc. • Enormous growth in multivariate analyses in recent years, more to come • Multivariate analysis has tremendous potential in developing population applications.

Published

2015

33. Coevolution in the timing of GABAergic and pyramidal neuron maturation in primates

Author

Emi Takahashi, Vinka Knezović, Goran Šimić, Marnin D. Wolfe, Chet C. Sherwood, Barbara L. Finlay, Christine J. Charvet, Mirjana Babić Leko, Mario Vukšić, and Ivica Kostović

Subjects

0301 basic medicine, Ganglionic eminence, Rodent, Neurogenesis, Synaptogenesis, cerebral cortex, development, evolution, GABA, ganglionic eminence, MRI, pyramidal neurons, General Biochemistry, Genetics and Molecular Biology, Neuroscience and Cognition, Biological Coevolution, 03 medical and health sciences, Mice, 0302 clinical medicine, biology.animal, Cortex (anatomy), medicine, Animals, Humans, Primate, GABAergic Neurons, General Environmental Science, General Immunology and Microbiology, biology, Pyramidal Cells, food and beverages, Brain, General Medicine, Rats, 030104 developmental biology, medicine.anatomical_structure, Cerebral cortex, GABAergic, Macaca, General Agricultural and Biological Sciences, Neuroscience, 030217 neurology & neurosurgery

Abstract

The cortex of primates is relatively expanded compared with many other mammals, yet little is known about what developmental processes account for the expansion of cortical subtype numbers in primates, including humans. We asked whether GABAergic and pyramidal neuron production occurs for longer than expected in primates than in mice in a sample of 86 developing primate and rodent brains. We use high-resolution structural, diffusion MR scans and histological material to compare the timing of the ganglionic eminences (GE) and cortical proliferative pool (CPP) maturation between humans, macaques, rats, and mice. We also compare the timing of post-neurogenetic maturation of GABAergic and pyramidal neurons in primates (i.e. humans, macaques) relative to rats and mice to identify whether delays in neurogenesis are concomitant with delayed post-neurogenetic maturation. We found that the growth of the GE and CPP are both selectively delayed compared with other events in primates. By contrast, the timing of post-neurogenetic GABAergic and pyramidal events (e.g. synaptogenesis) are predictable from the timing of other events in primates and in studied rodents. The extended duration of GABAergic and pyramidal neuron production is associated with the amplification of GABAerigc and pyramidal neuron numbers in the human and non-human primate cortex.

Published

2017

34. A pediatric structural MRI analysis of healthy brain development from newborns to young adults

Author

Jacob, Levman, Patrick, MacDonald, Ashley Ruyan, Lim, Cynthia, Forgeron, and Emi, Takahashi

Subjects

Adult, Male, Sex Characteristics, Adolescent, Infant, Newborn, Brain, Infant, Organ Size, Magnetic Resonance Imaging, Functional Laterality, Article, Young Adult, Child, Preschool, Humans, Female, Child, Retrospective Studies

Abstract

Assessment of healthy brain maturation can be useful toward better understanding natural patterns of brain growth and toward the characterization of a variety of neurodevelopmental disorders as deviations from normal growth trajectories. Structural magnetic resonance imaging (MRI) provides excellent soft-tissue contrast, which allows for the assessment of gray and white matter in the developing brain. We performed a large-scale retrospective analysis of 993 pediatric structural brain MRI examinations of healthy subjects (n = 988, aged 0-32 years) imaged clinically at 3 T, and extracted a wide variety of measurements such as white matter volumes, cortical thickness, and gyral curvature localized to subregions of the brain. All extracted structural biomarkers were tested for their correlation with subject age at time of imaging, providing measurements that may assist in the assessment of neurological maturation. Additional analyses were also performed to assess gender-based differences in the brain at a variety of developmental stages, and to assess hemispheric asymmetries. Results add to the literature by analyzing a realistic distribution of healthy participants imaged clinically, a useful cohort toward the investigation and creation of diagnostic tests for a variety of pathologies as aberrations from healthy growth trajectories. The next generation of diagnostic tests will be responsible for identifying pathological conditions from populations of healthy clinically imaged individuals. Hum Brain Mapp 38:5931-5942, 2017. © 2017 Wiley Periodicals, Inc.

Published

2017

35. Development of cerebellar connectivity in human fetal brains revealed by high angular resolution diffusion tractography

Author

P. Ellen Grant, Emiko Hayashi, Jeremy D. Schmahmann, and Emi Takahashi

Subjects

Male, Cerebellum, Cognitive Neuroscience, Biology, Deep cerebellar nuclei, Nerve Fibers, Myelinated, Sensitivity and Specificity, Article, Prenatal Diagnosis, Cortex (anatomy), medicine, Middle cerebellar peduncle, Humans, Diffusion Tractography, Reproducibility of Results, Anatomy, Image Enhancement, Diffusion Tensor Imaging, medicine.anatomical_structure, nervous system, Neurology, Cerebellar cortex, Cerebellar vermis, Female, Neuroscience, Diffusion MRI

Abstract

High angular resolution diffusion imaging (HARDI) tractography has provided insight into major white matter pathways and cortical development in the human fetal cerebrum. Our objective in this study was to further apply HARDI tracography to the developing human cerebellum ranging in fetal and adult stages, to outline in broad strokes the 3-dimensional development of white matter and local gray matter organization in the cerebellum. We imaged intact fixed fetal cerebellum specimens at 17 gestational weeks (W), 21W, 31W, 36W, and 38W along with an adult cerebellum for comparison. At the studied earliest gestational age (17W), coherent pathways that formed the superior, middle, inferior cerebellar peduncles were already detected, but pathways between deep cerebellar nuclei and the cortex were not observed until after 38W. At 36–38W, we identified emerging regional specification of the middle cerebellar peduncle. In the cerebellar cortex, we observed disappearance of radial organization in the sagittal orientation during the studied developmental stages similar to our previous observations in developing cerebral cortex. In contrast, in the axial orientation, cerebellar cortical pathways emerged first sparsely (31W) and then with increased prominence at 36–38W with pathways detected both in the radial and tangential directions to the cortical surface. The cerebellar vermis first contained only tangential pathways to the long axes of folia (17–21W), but pathways parallel to the long axes of folia emerged between 21–31W. Our results show the potential for tractography to image developing cerebellar connectivity using HARDI tractography.

Published

2014

36. Epidemiology and burden of multidrug-resistant bacterial infection in a developing country

Author

Soawapak Hinjoy, Sharon J. Peacock, Nicholas P. J. Day, Vanaporn Wuthiekanun, Maliwan Hongsuwan, Emi Takahashi, Visanu Thamlikitkul, Cherry Lim, and Direk Limmathurotsakul

Subjects

0301 basic medicine, Bacteremia, K. pneumoniae, 0302 clinical medicine, Cost of Illness, Drug Resistance, Multiple, Bacterial, Epidemiology, Global health, 030212 general & internal medicine, Biology (General), 2. Zero hunger, Excess mortality, Cross Infection, Acinetobacter, General Neuroscience, K pneumoniae, General Medicine, Thailand, Hospitals, 3. Good health, Community-Acquired Infections, Medicine, Research Article, medicine.medical_specialty, Staphylococcus aureus, QH301-705.5, Science, 030106 microbiology, Developing country, Microbial Sensitivity Tests, General Biochemistry, Genetics and Molecular Biology, Microbiology, 03 medical and health sciences, Internal medicine, medicine, Humans, In patient, antimicrobial resistant, Developing Countries, Retrospective Studies, Bacteria, General Immunology and Microbiology, business.industry, E. coli, Survival Analysis, Multiple drug resistance, Epidemiology and Global Health, P. aeruginosa, Other, business, Enterococcus

Abstract

Little is known about the excess mortality caused by multidrug-resistant (MDR) bacterial infection in low- and middle-income countries (LMICs). We retrospectively obtained microbiology laboratory and hospital databases of nine public hospitals in northeast Thailand from 2004 to 2010, and linked these with the national death registry to obtain the 30-day mortality outcome. The 30-day mortality in those with MDR community-acquired bacteraemia, healthcare-associated bacteraemia, and hospital-acquired bacteraemia were 35% (549/1555), 49% (247/500), and 53% (640/1198), respectively. We estimate that 19,122 of 45,209 (43%) deaths in patients with hospital-acquired infection due to MDR bacteria in Thailand in 2010 represented excess mortality caused by MDR. We demonstrate that national statistics on the epidemiology and burden of MDR in LMICs could be improved by integrating information from readily available databases. The prevalence and mortality attributable to MDR in Thailand are high. This is likely to reflect the situation in other LMICs. DOI: http://dx.doi.org/10.7554/eLife.18082.001, eLife digest Antimicrobial resistance is a global problem. Each year, an estimated 23,000 deaths in the United States and 25,000 deaths in the European Union are extra deaths caused by bacteria resistant to antibiotics. People in low- and middle-income countries are also using more antibiotics, in part because of rising incomes, lower costs of antibiotics, and a lack of control of antimicrobial usage in the hospitals and over-the-counter sales of the drugs. These factors are thought to be driving the development and spread of bacteria that are resistant to multiple antibiotics in countries such as China, India, Indonesia and Thailand. However, a lack of information makes it difficult to estimate the size of the problem and, then, to track how antimicrobial resistance and multi-drug resistance is changing over time in these and other low- and middle-income countries. Now, by integrating routinely collected data from a range of databases, Lim, Takahashi et al. estimate that around an extra 19,000 deaths are caused by multi-drug resistant bacteria in Thailand each year. Thailand has a population of about 70 million, and so, per capita, this estimate is about 3 to 5 times larger than those for the United States and European Union (which have a populations of about 300 million and 500 million, respectively). Lim, Takahashi et al. also show that more of the bacteria collected from patients are resistant to multiple antimicrobial drugs and that the burden of antimicrobial resistance in Thailand is worsening over time. These findings suggest that more studies with a systematic approach need to be done in other low- and middle-income countries, especially in countries where microbiological laboratories are readily available and routinely used. Further work is also needed to identify where resources and attentions are most needed to effectively fight against antimicrobial resistance in low- and middle-income countries. DOI: http://dx.doi.org/10.7554/eLife.18082.002

Published

2016

37. Asymmetry of White Matter Pathways in Developing Human Brains

Author

Paul Mitchell, Emi Takahashi, James Kolasinski, Jae W. Song, Albert M. Galaburda, and P. Ellen Grant

Subjects

Male, Cognitive Neuroscience, Gestational Age, behavioral disciplines and activities, Functional Laterality, White matter, Cellular and Molecular Neuroscience, Fetus, Fractional anisotropy, Fasciculus, medicine, Image Processing, Computer-Assisted, Arcuate fasciculus, Humans, Inferior longitudinal fasciculus, biology, Superior longitudinal fasciculus, Fornix, Age Factors, Infant, Newborn, Brain, Infant, Anatomy, Articles, biology.organism_classification, White Matter, medicine.anatomical_structure, Diffusion Magnetic Resonance Imaging, nervous system, Child, Preschool, Female, Psychology, Neuroscience, Tractography

Abstract

Little is known about the emergence of structural asymmetry of white matter tracts during early brain development. We examined whether and when asymmetry in diffusion parameters of limbic and association white matter pathways emerged in humans in 23 brains ranging from 15 gestational weeks (GW) up to 3 years of age (11 ex vivo and 12 in vivo cases) using high-angular resolution diffusion imaging tractography. Age-related development of laterality was not observed in a limbic connectional pathway (cingulum bundle or fornix). Among the studied cortico-cortical association pathways (inferior longitudinal fasciculus [ILF], inferior fronto-occipital fasciculus, and arcuate fasciculus), only the ILF showed development of age-related laterality emerging as early as the second trimester. Comparisons of ages older and younger than 40 GW revealed a leftward asymmetry in the cingulum bundle volume and a rightward asymmetry in apparent diffusion coefficient and leftward asymmetry in fractional anisotropy in the ILF in ages older than 40 GW. These results suggest that morphometric asymmetry in cortical areas precedes the emergence of white matter pathway asymmetry. Future correlative studies will investigate whether such asymmetry is anatomically/genetically driven or associated with functional stimulation.

Published

2016

38. White and gray matter fiber pathways in autism spectrum disorder revealed by ex vivo diffusion MR tractography

Author

Molly Wilkinson, Rongpin Wang, Emi Takahashi, and Andre van der Kouwe

Subjects

Male, 0301 basic medicine, genetic structures, Autism Spectrum Disorder, high‐angular resolution diffusion imaging, tractography, callosal pathways, behavioral disciplines and activities, Corpus Callosum, 03 medical and health sciences, Behavioral Neuroscience, Typically developing, 0302 clinical medicine, mental disorders, medicine, Humans, Gray Matter, development, Original Research, Cerebral Cortex, Mr tractography, Motor area, ex vivo imaging, Brain, medicine.disease, White Matter, corticopontine pathways, Diffusion tensor imaging tractography, Diffusion imaging, Diffusion Tensor Imaging, 030104 developmental biology, Frontal lobe, Autism spectrum disorder, Case-Control Studies, Child, Preschool, Psychology, Neuroscience, 030217 neurology & neurosurgery, Tractography

Abstract

Introduction The goal of this project was to study the white and gray matter brain pathways of young children with autism spectrum disorder (ASD) and investigate how ASD brains differ from those of typically developing children of the same age. Methods High angular resolution resolution diffusion imaging tractography and diffusion tensor imaging tractography were used to analyze the brains of two 3-year-old children with ASD and two age-matched controls. Results In the ASD brains, the callosal and corticopontine pathways were thinner overall and terminal areas in the cortical gray matter were significantly smaller. The ASD brains had more short-range u-fibers in the frontal lobe compared to the control brains. Gray matter pathways were found disorganized with less coherency in the ASD brain, specifically the lateral aspects of the middle part of the brain including motor areas, and both medial and lateral surfaces of the anterior frontal brain regions. Conclusion These findings show our tractography technique is useful for identifying differences in brain pathways between the ASD and control groups. Given that scanning the brain of 3-year-old children with or even without ASD is challenging, postmortem scanning may offer valuable insights into the connectivity in the brain of young children with ASD.

Published

2016

39. Migration Pathways of Thalamic Neurons and Development of Thalamocortical Connections in Humans Revealed by Diffusion MR Tractography

Author

Molly Wilkinson, Emi Takahashi, Rongpin Wang, and Tara Kane

Subjects

Adult, Ganglionic eminence, Adolescent, Cognitive Neuroscience, Thalamus, Neuronal migration, Sensory system, Biology, 050105 experimental psychology, White matter, 03 medical and health sciences, Cellular and Molecular Neuroscience, Young Adult, 0302 clinical medicine, Imaging, Three-Dimensional, Cell Movement, Neural Pathways, medicine, Humans, 0501 psychology and cognitive sciences, Child, Neurons, Fetus, 05 social sciences, Infant, Newborn, Infant, Original Articles, Posterior segment of eyeball, medicine.anatomical_structure, Diffusion Magnetic Resonance Imaging, Diffusion Tensor Imaging, Child, Preschool, Neuroscience, 030217 neurology & neurosurgery, Tractography

Abstract

The thalamus plays an important role in signal relays in the brain, with thalamocortical (TC) neuronal pathways linked to various sensory/cognitive functions. In this study, we aimed to see fetal and postnatal development of the thalamus including neuronal migration to the thalamus and the emergence/maturation of the TC pathways. Pathways from/to the thalami of human postmortem fetuses and in vivo subjects ranging from newborns to adults with no neurological histories were studied using high angular resolution diffusion MR imaging (HARDI) tractography. Pathways likely linked to neuronal migration from the ventricular zone and ganglionic eminence (GE) to the thalami were both successfully detected. Between the ventricular zone and thalami, more tractography pathways were found in anterior compared with posterior regions, which was well in agreement with postnatal observations that the anterior TC segment had more tract count and volume than the posterior segment. Three different pathways likely linked to neuronal migration from the GE to the thalami were detected. No hemispheric asymmetry of the TC pathways was quantitatively observed during development. These results suggest that HARDI tractography is useful to identify multiple differential neuronal migration pathways in human brains, and regional differences in brain development in fetal ages persisted in postnatal development.

Published

2016

40. [Comparison of Tracheal Intubation Performance between Macintosh Direct Laryngoscope and McGRATH® MAC Video Laryngoscope among Anesthesia Trainees]

Author

Yusuke, Kasuya, Emi, Takahashi, Mirei, Nagai, and Makoto, Ozaki

Subjects

Male, Operating Rooms, Laryngoscopy, Anesthesiology, Intubation, Intratracheal, Humans, Anesthesia, Female, Laryngoscopes, Middle Aged, Respiration, Artificial

Abstract

From April 2013, Macintosh direct laryngoscopes (DL) were replaced by McGRATH® MAC video laryngoscopes (VL), and VL were distributed in all of our operating rooms and used as routine first choice devices. Purpose of this study was to compare the success rate of the first attempt tracheal intubation by the trainees with VL and DL. Incidence of tracheal intubation related injuries were also assessed.We reviewed anesthesia chart database in which tracheal intubations were provided by anesthesia trainees with experience of less than 3 months. Patient demographics, Mallampati classification and tracheal intubation profiles including type of the tracheal tube and devices were recorded.The first attempt success rate was 78.6% with DL and 92.8% with VL (P0.001). More than 2 repeated trial incidence was 5.2% with DL and 1.3% with VL (P0.001). Incidence of mucosal injury was lower with DL than VL.VL notably improved the first success rate of tracheal intubation compared with DL among trainees.

Published

2016

41. [Metoclopramide Induced Acute Dystonia during Intravenous Patient-controlled Analgesia with Droperidol]

Author

Kotoe, Kamata, Emi, Takahashi, Nobutada, Morioka, Keiko, Nakashima, Motoyo, Iwade, and Makoto, Ozaki

Subjects

Adult, Dystonia, Metoclopramide, Acute Disease, Antiemetics, Humans, Analgesia, Patient-Controlled, Droperidol, Female

Abstract

A patient developed acute dystonia following intravenous administration of metocroplamide 20 mg. A 34-year-old woman underwent right hepatectomy, under general anesthesia managed with desflurane, remifentanil, and rocuronium. At the start of surgery, droperidol 1.5 mg was given intravenously for anti-emetic prophylaxis. Operation was completed uneventfully. Intravenous patient-controlled analgesia (i.v.-PCA) with fentanyl, containing droperidol, was selected for postoperative pain management The patient showed a reasonable postoperative course; however, around 15 hours post-operatively, she complained of nausea, although droperidol 2.625 mg had been administrated (maximum dose). Nausea subsequently disappeared following intravenous metocroplamide 20 mg, and i.v.-PCA was terminated. The patient gradually complained of excessive sleepiness. Finally, she showed akinesis and bilateral oculomotor disturbance 140 minutes after metocroplamide administration. However, her vital signs remained stable. Examinations including magnetic resonance imaging, electroencephalogram, and blood test did not show abnormalities. She was diagnosed with acute dystonia. She recovered without medications 300 minutes after the onset of akinesis. She could communicate with her eyes, opening/closing, throughout this episode. The effects of antiemetics acting on different receptors are additive. However, we should remember that coadministration of metocroplamide and butyrophenone induces extrapyramidal signs like acute dystonia. Intraoperative management extending beyond postoperative antiemetic therapy is necessary.

Published

2016

42. Neuroanatomic Connectivity of the Human Ascending Arousal System Critical to Consciousness and Its Disorders

Author

Rebecca D. Folkerth, Emi Takahashi, Thomas Benner, Brian L. Edlow, Guangping Dai, David M. Greer, Hannah C. Kinney, Ona Wu, Steven M. Greenberg, Patricia Ellen Grant, and Lihong Bu

Subjects

Adult, Male, Consciousness, Thalamus, Hypothalamus, Pyramidal Tracts, Article, Pathology and Forensic Medicine, Arousal, Cellular and Molecular Neuroscience, Prosencephalon, Neural Pathways, Cadaver, Image Processing, Computer-Assisted, medicine, Humans, Neurotransmitter Agents, Dissection, food and beverages, General Medicine, Anatomy, Middle Aged, biochemical phenomena, metabolism, and nutrition, carbohydrates (lipids), Neuroanatomy, Diffusion Tensor Imaging, medicine.anatomical_structure, Neurology, Consciousness Disorders, Female, Autopsy, Neurology (clinical), Brainstem, Psychology, Reticular activating system, Neuroscience, Brain Stem, Diffusion MRI, Tractography

Abstract

The ascending reticular activating system (ARAS) mediates arousal, an essential component of human consciousness. Lesions of the ARAS cause coma, the most severe disorder of consciousness. Because of current methodological limitations, including of postmortem tissue analysis, the neuroanatomic connectivity of the human ARAS is poorly understood. We applied the advanced imaging technique of high angular resolution diffusion imaging (HARDI) to elucidate the structural connectivity of the ARAS in 3 adult human brains, 2 of which were imaged postmortem. High angular resolution diffusion imaging tractography identified the ARAS connectivity previously described in animals and also revealed novel human pathways connecting the brainstem to the thalamus, the hypothalamus, and the basal forebrain. Each pathway contained different distributions of fiber tracts from known neurotransmitter-specific ARAS nuclei in the brainstem. The histologically guided tractography findings reported here provide initial evidence for human-specific pathways of the ARAS. The unique composition of neurotransmitter-specific fiber tracts within each ARAS pathway suggests structural specializations that subserve the different functional characteristics of human arousal. This ARAS connectivity analysis provides proof of principle that HARDI tractography may affect the study of human consciousness and its disorders, including in neuropathologic studies of patients dying in coma and the persistent vegetative state.

Published

2012

43. Emerging Cerebral Connectivity in the Human Fetal Brain: An MR Tractography Study

Author

Patricia Ellen Grant, Rebecca D. Folkerth, Albert M. Galaburda, and Emi Takahashi

Subjects

Ganglionic eminence, Cognitive Neuroscience, Brain mapping, Fetal brain, Cellular and Molecular Neuroscience, Fetus, Neural Pathways, Image Processing, Computer-Assisted, medicine, Humans, Diffusion Tractography, Gyrification, Cerebral Cortex, Brain Mapping, Age Factors, Brain, Articles, Anatomy, Magnetic Resonance Imaging, Diffusion Tensor Imaging, medicine.anatomical_structure, Cerebral cortex, Human fetal, Psychology, Neuroscience, Diffusion MRI

Abstract

Cerebral axonal connections begin to develop before birth during radial migration in each brain area. A number of theories are still actively debated regarding the link between neuronal migration, developing connectivity, and gyrification. Here, we used high angular resolution diffusion tractography on postmortem fetal human brains (postconception week (W) 17–40) to document the regression of radial and tangential organization likely to represent migration pathways and the emergence of corticocortical organization and gyrification. The dominant radial organization at W17 gradually diminished first in dorsal parieto-occipital and later in ventral frontotemporal regions with regional variation: radial organization persisted longer in the crests of gyri than at the depths of sulci. The dominant tangential organization of the ganglionic eminence at W17 also gradually disappeared by term, together with the disappearance of the ganglionic eminence. A few immature long-range association pathways were visible at W17, gradually became evident by term. Short-range corticocortical tracts emerged prior to gyrification in regions where sulci later developed. Our results suggest that the regional regression of radial organization and regional emergence of fetal brain connectivity proceeds in general from posterodorsal to anteroventral with local variations.

Published

2011

44. Dissociated Pathways for Successful Memory Retrieval from the Human Parietal Cortex: Anatomical and Functional Connectivity Analyses

Author

Dae-Shik Kim, Emi Takahashi, and Kenichi Ohki

Subjects

Adult, Male, Cognitive Neuroscience, Precuneus, Posterior parietal cortex, Intraparietal sulcus, Temporal lobe, Cellular and Molecular Neuroscience, Memory, Parietal Lobe, medicine, Humans, Recognition memory, Brain Mapping, medicine.diagnostic_test, Working memory, Parietal lobe, Articles, medicine.anatomical_structure, Mental Recall, Female, Nerve Net, Functional magnetic resonance imaging, Psychology, Neuroscience, Photic Stimulation

Abstract

The parietal cortex has traditionally been implicated in spatial attention and eye-movement processes. Recent functional neuroimaging studies have found that activation in the parietal cortex is related to successful recognition memory. The activated regions consistently include the intraparietal sulcus in the lateral parietal cortex and the precuneus in the medial parietal cortex. However, little is known about the functional differences between lateral and medial parietal cortices in the memory retrieval process. In this study, we examined whether the human lateral and medial parietal lobes have differential anatomical and functional connectivity with the temporal lobe. To this end, we used functional magnetic resonance imaging to constrain the analysis of anatomical connectivity obtained by diffusion tensor imaging (DTI). Both DTI tractography and functional connectivity analysis showed that the lateral parietal region has anatomical and functional connections with the lateral temporal lobe, and the medial parietal region has connections with the medial temporal lobe. These results suggest the existence of segregated lateral and medial parieto-temporal pathways in successful memory retrieval.

Published

2007

45. Diffusion tensor studies dissociated two fronto-temporal pathways in the human memory system

Author

Emi Takahashi, Dae-Shik Kim, and Kenichi Ohki

Subjects

Adult, Male, Cognitive Neuroscience, behavioral disciplines and activities, Brain mapping, Article, Memory, Neural Pathways, medicine, Humans, Prefrontal cortex, Episodic memory, Temporal cortex, Brain Mapping, medicine.diagnostic_test, Long-term memory, Brain, Dorsolateral prefrontal cortex, Diffusion Magnetic Resonance Imaging, medicine.anatomical_structure, nervous system, Neurology, Female, Psychology, Functional magnetic resonance imaging, Neuroscience, Diffusion MRI

Abstract

The human memory system is composed of multiple cognitive processes. Recent functional neuroimaging studies have shown that multiple cortical areas are involved in memory encoding and retrieval. However, the underlying anatomical connections among these memory-related areas in humans remain elusive due to methodological limitations. Diffusion tensor imaging (DTI) is a new technique based on detecting the diffusion of water molecules from magnetic resonance images. DTI allows non-invasive mapping of anatomical connections and gives a comprehensive picture of connectivity throughout the entire brain. By combining functional magnetic resonance imaging (fMRI) and DTI, we show that memory related areas in the left dorso-lateral prefrontal cortex (DLPFC) and the left ventro-lateral prefrontal cortex (VLPFC) each connect with memory related areas in the left temporal cortex. This result suggests there are two pathways between prefrontal cortex and temporal cortex related to the human memory system.

Published

2007

46. Efficient generation of vesicular stomatitis virus (VSV)-pseudotypes bearing morbilliviral glycoproteins and their use in quantifying virus neutralising antibodies

Author

Nicola, Logan, Elizabeth, McMonagle, Angharad A, Drew, Emi, Takahashi, Michael, McDonald, Michael D, Baron, Martin, Gilbert, Sarah, Cleaveland, Daniel T, Haydon, Margaret J, Hosie, and Brian J, Willett

Subjects

viruses, animal diseases, CDV, Cross Reactions, Antibodies, Viral, Antibodies, Neutralizing, Vesicular stomatitis Indiana virus, Article, Peste-des-petits-ruminants virus, Neutralisation, Dogs, HEK293 Cells, Pseudotype, Morbillivirus, Neutralization Tests, Chlorocebus aethiops, Animals, Humans, PPRV, Distemper Virus, Canine, Vero Cells, Viral Fusion Proteins

Abstract

Morbillivirus neutralising antibodies are traditionally measured using either plaque reduction neutralisation tests (PRNTs) or live virus microneutralisation tests (micro-NTs). While both test formats provide a reliable assessment of the strength and specificity of the humoral response, they are restricted by the limited number of viral strains that can be studied and often present significant biological safety concerns to the operator. In this study, we describe the adaptation of a replication-defective vesicular stomatitis virus (VSVΔG) based pseudotyping system for the measurement of morbillivirus neutralising antibodies. By expressing the haemagglutinin (H) and fusion (F) proteins of canine distemper virus (CDV) on VSVΔG pseudotypes bearing a luciferase marker gene, neutralising antibody titres could be measured rapidly and with high sensitivity. Further, by exchanging the glycoprotein expression construct, responses against distinct viral strains or species may be measured. Using this technique, we demonstrate cross neutralisation between CDV and peste des petits ruminants virus (PPRV). As an example of the value of the technique, we demonstrate that UK dogs vary in the breadth of immunity induced by CDV vaccination; in some dogs the neutralising response is CDV-specific while, in others, the neutralising response extends to the ruminant morbillivirus PPRV. This technique will facilitate a comprehensive comparison of cross-neutralisation to be conducted across the morbilliviruses.

Published

2015

47. High-angular resolution diffusion imaging tractography of cerebellar pathways from newborns to young adults

Author

Patricia Ellen Grant, Andrea Righini, Jacob Levman, Ashley R. Lim, Thomas J. Re, and Emi Takahashi

Subjects

Adult, Male, Cerebellum, Inferior cerebellar peduncle, Adolescent, cerebellum, tractography, 050105 experimental psychology, 03 medical and health sciences, Behavioral Neuroscience, Young Adult, 0302 clinical medicine, Neural Pathways, medicine, Middle cerebellar peduncle, Humans, 0501 psychology and cognitive sciences, Child, Retrospective Studies, Original Research, Proprioception, 05 social sciences, Infant, Newborn, Infant, Anatomy, Pons, medicine.anatomical_structure, Superior cerebellar peduncle, Diffusion Tensor Imaging, pediatric, nervous system, Cerebellar peduncle, Child, Preschool, Female, Psychology, Neuroscience, 030217 neurology & neurosurgery, Tractography, MRI

Abstract

Introduction Many neurologic and psychiatric disorders are thought to be due to, or result in, developmental errors in neuronal cerebellar connectivity. In this connectivity analysis, we studied the developmental time-course of cerebellar peduncle pathways in pediatric and young adult subjects. Methods A cohort of 80 subjects, newborns to young adults, was studied on a 3T MR system with 30 diffusion-weighted measurements with high-angular resolution diffusion imaging (HARDI) tractography. Results Qualitative and quantitative results were analyzed for age-based variation. In subjects of all ages, the superior cerebellar peduncle pathway (SCP) and two distinct subpathways of the middle cerebellar peduncle (MCP), as described in previous ex vivo studies, were identified in vivo with this technique: pathways between the rostral pons and inferior-lateral cerebellum (MCPcog), associated predominantly with higher cognitive function, and pathways between the caudal pons and superior-medial cerebellum (MCPmot), associated predominantly with motor function. Discussion Our findings showed that the inferior cerebellar peduncle pathway (ICP), involved primarily in proprioception and balance appears to have a later onset followed by more rapid development than that exhibited in other tracts. We hope that this study may provide an initial point of reference for future studies of normal and pathologic development of cerebellar connectivity.

Published

2015

48. The role of the parahippocampal gyrus in source memory for external and internal events

Author

Yasushi Miyashita, Emi Takahashi, and Kenichi Ohki

Subjects

Adult, Male, Hippocampus, Posterior parietal cortex, Neuropsychological Tests, Functional Laterality, Memory, Parietal Lobe, Reaction Time, medicine, Humans, Verbal Behavior, Event (computing), General Neuroscience, Memoria, Information processing, Cognition, Magnetic Resonance Imaging, Frontal Lobe, medicine.anatomical_structure, Pattern Recognition, Visual, Pattern recognition (psychology), Imagination, Parahippocampal Gyrus, Female, Psychology, Neuroscience, Psychomotor Performance, Parahippocampal gyrus

Abstract

We can discriminate between the memories of real and imagined events. In this study, the traces of the perceived external events and the imagined internal events were investigated in the established paradigm of reality monitoring using event-related fMRI. In the retrieval phase, we found that the left parahippocampal gyrus represented the traces of visually encoded memory. The right inferior parietal cortex was activated when subjects judged that the original event was imagined. We suggest that these traces are used to distinguish what is seen from what is thought during reality monitoring. Furthermore, we found that the incorrect judgments were associated with signal increases in the left frontal operculum, suggesting that this area is a candidate for the monitoring system of contextual information or failure in the retrieval phase.

Published

2002

49. Magnetic Resonance Fiber Tracking in a Neonate with Hemimegalencephaly

Author

Thomas J, Re, Laura, Scarciolla, Emi, Takahashi, Nicola, Specchio, Bruno, Bernardi, and Daniela, Longo

Subjects

Diagnosis, Differential, Male, Diffusion Tensor Imaging, Infant, Newborn, Brain, Humans, Nerve Fibers, Myelinated, White Matter, Infant, Newborn, Diseases, Infant, Premature, Article, Hemimegalencephaly

Abstract

A magnetic resonance diffusion fiber tracking study in neonate diagnosed with left hemisphere hemimegalencephaly is presented. Despite diffuse morphologic deformities identified in conventional imaging, all major pathways were identifiable bilaterally with minor aberrations in vicinity of morphologic lesions.

Published

2014

50. Radial and tangential neuronal migration pathways in the human fetal brain: anatomically distinct patterns of diffusion MRI coherence

Author

Bruce Fischl, P. Ellen Grant, Emi Takahashi, Thomas Benner, James Kolasinski, Lilla Zöllei, and Allison Stevens

Subjects

Models, Anatomic, Pathology, medicine.medical_specialty, Ganglionic eminence, medicine.diagnostic_test, Cognitive Neuroscience, Models, Neurological, Brain, Subventricular zone, Magnetic resonance imaging, Cell migration, Neuropathology, Human brain, Nerve Fibers, Myelinated, Article, Corticogenesis, Diffusion Tensor Imaging, medicine.anatomical_structure, Neurology, Neural Pathways, medicine, Humans, Psychology, Neuroscience, Diffusion MRI

Abstract

Corticogenesis is underpinned by a complex process of subcortical neuroproliferation, followed by highly orchestrated cellular migration. A greater appreciation of the processes involved in human fetal corticogenesis is vital to gaining an understanding of how developmental disturbances originating in gestation could establish a variety of complex neuropathology manifesting in childhood, or even in adult life. Magnetic resonance imaging modalities offer a unique insight into anatomical structure, and increasingly infer information regarding underlying microstructure in the human brain. In this study we applied a combination of high-resolution structural and diffusion-weighted magnetic resonance imaging to a unique cohort of three post-mortem fetal brain specimens, aged between 19 and 22 post-conceptual weeks. Specifically, we sought to assess patterns of diffusion coherence associated with subcortical neuroproliferative structures: the pallial ventricular/subventricular zone and subpallial ganglionic eminence. Two distinct three-dimensional patterns of diffusion coherence were evident: a clear radial pattern originating in ventricular/subventricular zone, and a tangentio-radial patterns originating in ganglionic eminence. These patterns appeared to regress in a caudo-rostral and lateral-ventral to medial-dorsal direction across the short period of fetal development under study. Our findings demonstrate for the first time distinct patterns of diffusion coherence associated with known anatomical proliferative structures. The radial pattern associated with dorsopallial ventricular/subventricular zone and the tangentio-radial pattern associated with subpallial ganglionic eminence are consistent with reports of radial-glial mediated neuronal migration pathways identified during human corticogenesis, supported by our prior studies of comparative fetal diffusion MRI and histology. The ability to assess such pathways in the fetal brain using MR imaging offers a unique insight into three-dimensional trajectories beyond those visualized using traditional histological techniques. Our results suggest that ex-vivo fetal MRI is a potentially useful modality in understanding normal human development and various disease processes whose etiology may originate in aberrant fetal neuronal migration.

Published

2013