Your search keyword '"Nikkita Khattar"' showing total 18 results

1. Differential associations between apolipoprotein E alleles and cerebral myelin content in normative aging

Author

Curtis Triebswetter, Matthew Kiely, Nikkita Khattar, Luigi Ferrucci, Susan M. Resnick, Richard G. Spencer, and Mustapha Bouhrara

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Mounting evidence indicates that myelin breakdown may represent an early phenomenon in neurodegeneration, including Alzheimer's disease (AD). Understanding the factors influencing myelin synthesis and breakdown will be essential for the development and evaluation of therapeutic interventions. In this work, we assessed associations between genetic variance in apolipoprotein E (APOE) and cerebral myelin content. Quantitative magnetic resonance imaging (qMRI) was performed on a cohort of 92 cognitively unimpaired adults ranging in age from 24 to 94 years. We measured whole-brain myelin water fraction (MWF), a direct measure of myelin content, as well as longitudinal and transverse relaxation rates (R1 and R2), sensitive measures of myelin content, in carriers of the APOE ε4 or APOE ε2 alleles and individuals with the ε33 genotype. Automated brain mapping algorithms and statistical models were used to evaluate the relationships between MWF or relaxation rates and APOE isoforms, accounting for confounding variables including age, sex, and race, in several cerebral structures. Our results indicate that carriers of APOE ε2 exhibited significantly higher myelin content, that is, higher MWF, R1 or R2 values, in most brain regions investigated as compared to noncarriers, while ε4 carriers exhibited trends toward lower myelin content compared to noncarriers. Finally, all qMRI metrics exhibited quadratic, inverted U-shape, associations with age; attributed to the development of myelination from young to middle age followed by progressive loss of myelin afterwards. Sex and race effects on myelination were, overall, nonsignificant. These findings suggest that individual genetic background may influence cerebral myelin maintenance. Although preliminary, this work lays the foundation for further investigations to clarify the relationship between APOE genotype and myelination, which may suggest potential targets in treatment or prevention of AD.

Published

2022

2. Investigation of the association between cerebral iron content and myelin content in normative aging using quantitative magnetic resonance neuroimaging

Author

Nikkita Khattar, Curtis Triebswetter, Matthew Kiely, Luigi Ferrucci, Susan M. Resnick, Richard G. Spencer, and Mustapha Bouhrara

Subjects

Iron, Myelin, Quantitative MRI, Aging, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Myelin loss and iron accumulation are cardinal features of aging and various neurodegenerative diseases. Oligodendrocytes incorporate iron as a metabolic substrate for myelin synthesis and maintenance. An emerging hypothesis in Alzheimer's disease research suggests that myelin breakdown releases substantial stores of iron that may accumulate, leading to further myelin breakdown and neurodegeneration. We assessed associations between iron content and myelin content in critical brain regions using quantitative magnetic resonance imaging (MRI) on a cohort of cognitively unimpaired adults ranging in age from 21 to 94 years. We measured whole-brain myelin water fraction (MWF), a surrogate of myelin content, using multicomponent relaxometry, and whole-brain iron content using susceptibility weighted imaging in all individuals. MWF was negatively associated with iron content in most brain regions evaluated indicating that lower myelin content corresponds to higher iron content. Moreover, iron content was significantly higher with advanced age in most structures, with men exhibiting a trend towards higher iron content as compared to women. Finally, relationship between MWF and age, in all brain regions investigated, suggests that brain myelination continues until middle age, followed by degeneration at older ages. This work establishes a foundation for further investigations of the etiology and sequelae of myelin breakdown and iron accumulation in neurodegeneration and may lead to new imaging markers for disease progression and treatment.

Published

2021

3. Characterization of Age-Related Differences in the Human Choroid Plexus Volume, Microstructural Integrity, and Blood Perfusion Using Multiparameter Magnetic Resonance Imaging

Author

Joseph S. R. Alisch, Matthew Kiely, Curtis Triebswetter, Maryam H. Alsameen, Zhaoyuan Gong, Nikkita Khattar, Josephine M. Egan, and Mustapha Bouhrara

Subjects

choroid plexus, aging, magnetic resonance imaging, relaxometry mapping, diffusion tensor imaging (DTI), Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

The choroid plexus (CP) is an important cerebral structure involved in cerebrospinal fluid production and transport of solutes into the brain. Recent studies have uncovered the involvement of the CP in neurological disorders such as Alzheimer’s disease and multiple sclerosis. However, our understanding of human age-related microstructural and functional changes in the CP with aging and neuropathology is limited. In this cross-sectional study, we investigated age and sex differences in the CP structure and function using advanced quantitative magnetic resonance imaging methodology in a large cohort (n = 155) of cognitively unimpaired individuals over a wide age range between 21 and 94 years. Our analysis included volumetric measurements, relaxometry measures (T1 and T2), diffusion tensor imaging (DTI) measures of fractional anisotropy (FA) and mean diffusivity (MD), as well as measures of cerebral blood flow (CBF). Our results revealed that CP volume was increasing with advancing age. We conjecture that this novel observation is likely attributed to alterations in the CP microstructure or function as well as to ventriculomegaly. Indeed, we also found that CBF was lower with advanced age, while, consistent with previous studies, T1, T2 and MD were higher, and FA was lower with advanced age. We attribute these functional and microstructural differences to a deteriorated CP structural integrity with aging. Furthermore, our relaxometry and DTI measures were found to be associated with differences in blood perfusion revealing lower microstructural integrity with lower CBF. Finally, in agreement with literature, sex-related differences in MD and CBF were statistically significant. This work lays the foundation for ongoing investigation of the involvement of CP in neurodegeneration.

Published

2021

4. Nonlinear associations of neurite density and myelin content with age revealed using multicomponent diffusion and relaxometry magnetic resonance imaging

Author

Wenshu Qian, Nikkita Khattar, Luis E. Cortina, Richard G. Spencer, and Mustapha Bouhrara

Subjects

Myelin water fraction, Axonal density, Normal aging, Quantitative MRI, BMC-mcDESPOT, NODDI, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Most magnetic resonance imaging (MRI) studies investigating the relationship between regional brain myelination or axonal density and aging have relied upon nonspecific methods to probe myelin and axonal content, including diffusion tensor imaging and relaxation time mapping. While these studies have provided pivotal insights into changes in cerebral architecture with aging and pathology, details of the underlying microstructural alterations have not been fully elucidated. In the current study, we used the BMC-mcDESPOT analysis, a direct and specific multicomponent relaxometry method for imaging of myelin water fraction (MWF), a marker of myelin content, and NODDI, an emerging multicomponent diffusion technique, for neurite density index (NDI) imaging, a proxy of axonal density. We investigated age-related differences in MWF and NDI in several white matter brain regions in a cohort of cognitively unimpaired participants over a wide age range. Our results indicate a quadratic, inverted U-shape, relationship between MWF and age in all brain regions investigated, suggesting that myelination continues until middle age followed by a decrease at older ages, in agreement with previous work. We found a similarly complex regional association between NDI and age, with several cerebral structures also exhibiting a quadratic, inverted U-shape, relationship. This novel observation suggests an increase in axonal density until the fourth decade of age followed by a rapid loss at older ages. We also observed that these age-related differences in MWF and NDI vary across different brain regions, as expected. Finally, our study indicates no significant association between MWF and NDI in most cerebral structures investigated, although this association approached significance in a limited number of brain regions, indicating the complementary nature of their information and encouraging further investigation. Overall, we find evidence of nonlinear associations between age and myelin or axonal density in a sample of well-characterized adults, using direct myelin and axonal content imaging methods.

Published

2020

5. Association of cerebral blood flow with myelin content in cognitively unimpaired adults

Author

Luigi Ferrucci, Mustapha Bouhrara, Joseph S R Alisch, Nikkita Khattar, Richard W Kim, Abinand C Rejimon, Luis E Cortina, Wenshu Qian, Susan M Resnick, and Richard G Spencer

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Background Myelin loss and cerebral blood flow (CBF) decline are central features of several neurodegenerative diseases. Myelin maintenance through oligodendrocyte metabolism is an energy-demanding process, so that myelin homeostasis is particularly sensitive to hypoxia, hypoperfusion or ischaemia. However, in spite of its central importance, little is known about the association between blood supply and myelin integrity.Objective To assess associations between cortical and subcortical CBF, and subcortical myelin content, in critical brain white matter regions.Materials and methods MRI was performed on a cohort of 67 cognitively unimpaired adults. Using advanced MRI methodology, we measured whole-brain longitudinal and transverse relaxation rates (R1 and R2), sensitive but non-specific markers of myelin content, and myelin water fraction (MWF), a direct surrogate of myelin content, as well as regional CBF, from each of these participants.Results All quantitative relaxometry metrics were positively associated with CBF in all brain regions evaluated. These associations between MWF or R1 and CBF, and, to a lesser extent, between R2 and CBF, were statistically significant in most brain regions examined, indicating that lower regional cortical or subcortical CBF corresponds to a decrease in local subcortical myelin content. Finally, all relaxometry metrics exhibited a quadratic, inverted U-shaped, association with age; this is attributed to the development of myelination from young to middle age, followed by progressive loss of myelin in later years.Conclusions In this first study examining the association between local blood supply and myelin integrity, we found that myelin content declines with CBF across a wide age range of cognitively normal subjects.

Published

2020

6. Quantitative age-dependent differences in human brainstem myelination assessed using high-resolution magnetic resonance mapping

Author

Mustapha Bouhrara, Luis E. Cortina, Abinand C. Rejimon, Nikkita Khattar, Christopher Bergeron, Janet Bergeron, Denise Melvin, Linda Zukley, and Richard G. Spencer

Subjects

Brainstem, Myelin water fraction, MRI, Normal aging, BMC-mcDESPOT, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Previous in-vivo magnetic resonance imaging (MRI)-based studies of age-related differences in the human brainstem have focused on volumetric morphometry. These investigations have provided pivotal insights into regional brainstem atrophy but have not addressed microstructural age differences. However, growing evidence indicates the sensitivity of quantitative MRI to microstructural tissue changes in the brain. These studies have largely focused on the cerebrum, with very few MR investigations addressing age-dependent differences in the brainstem, in spite of its central role in the regulation of vital functions. Several studies indicate early brainstem alterations in a myriad of neurodegenerative diseases and dementias. The paucity of MR-focused investigations is likely due in part to the challenges imposed by the small structural scale of the brainstem itself as well as of substructures within, requiring accurate high spatial resolution imaging studies. In this work, we applied our recently developed approach to high-resolution myelin water fraction (MWF) mapping, a proxy for myelin content, to investigate myelin differences with normal aging within the brainstem. In this cross-sectional investigation, we studied a large cohort (n = 125) of cognitively unimpaired participants spanning a wide age range (21–94 years) and found a decrease in myelination with age in most brainstem regions studied, with several regions exhibiting a quadratic association between myelin and age. We believe that this study is the first investigation of MWF differences with normative aging in the adult brainstem. Further, our results provide reference MWF values.

Published

2020

7. Rapid whole-brain high-resolution myelin water fraction mapping from extremely under-sampled magnetic resonance imaging data using deep neural network

Author

Zhaoyuan Gong, Nikkita Khattar, Matthew Kiely, Curtis Triebswetter, and Mustapha Bouhrara

Abstract

Changes in myelination are a cardinal feature of brain development and the pathophysiology of several cerebral diseases, including multiple sclerosis and dementias. Advanced magnetic resonance imaging (MRI) methods have been developed to probe myelin content through the measurement of myelin water fraction (MWF). However, the prolonged data acquisition and post-processing times of current MWF mapping methods pose substantial hurdles to their clinical implementation. Recently, fast steady-state MRI sequences have been implemented to produce high spatial resolution whole-brain MWF mapping within ∼ 20 min. Despite the subsequent significant advances in the inversion algorithm to derive MWF maps from steady-state MRI, the high-dimensional nature of such inversion does not permit further reduction of the acquisition time by data under-sampling. In this work, we present an unprecedented reduction in the computation (∼ 30 s) and the acquisition time (∼ 7 min) required for whole-brain high-resolution MWF mapping through a new Neural Network (NN)-based approach, named: Relaxometry of Extremely Under-SamplEd Data (NN-REUSED). Our analyses demonstrate virtually similar accuracy and precision in derived MWF values using the NN-REUSED approach as compared to results derived from the fully-sampled reference method. The reduction in the acquisition and computation times represents a breakthrough toward clinically practical MWF mapping.

Published

2023

8. Maturation and degeneration of the human brainstem across the adult lifespan

Author

Nikkita Khattar, Mustapha Bouhrara, Luis E. Cortina, Abinand C. Rejimon, Samuel Ajamu, Richard G. Spencer, and Defne Cezayirli

Subjects

Adult, Male, Longevity, Degeneration (medical), Biology, Direct measure, brainstem, Cohort Studies, Myelin, Young Adult, relaxation rates, medicine, Humans, myelin water fraction, Myelin Sheath, Aged, Aged, 80 and over, Sex Characteristics, Age differences, aging, Outcome measures, Age Factors, Water, Cell Biology, Middle Aged, diffusion tensor imaging, medicine.anatomical_structure, Linear Models, Myelin water fraction, Female, Brainstem, Neuroscience, Diffusion MRI, Research Paper, Brain Stem

Abstract

Brainstem tissue microstructural properties change across the adult lifespan. However, studies elucidating the biological processes that govern brainstem maturation and degeneration in-vivo are lacking. In the present work, conducted on a large cohort of 140 cognitively unimpaired subjects spanning a wide age range of 21 to 94 years, we implemented a multi-parameter approach to characterize the sex- and age differences. In addition, we examined regional correlations between myelin water fraction (MWF), a direct measure of myelin content, and diffusion tensor imaging indices, and transverse and longitudinal relaxation rates to evaluate whether these metrics provide information complementary to MWF. We observed region-dependent differences in myelin content and axonal density with age and found that both exhibit an inverted U-shape association with age in several brainstem substructures. We emphasize that the microstructural differences captured by our distinct MRI metrics, along with their weak associations with MWF, strongly indicate the potential of using these outcome measures in a multi-parametric approach. Furthermore, our results support the gain-predicts-loss hypothesis of tissue maturation and degeneration in the brainstem. Indeed, our results indicate that myelination follows a temporally symmetric time course across the adult life span, while axons appear to degenerate significantly more rapidly than they mature.

Published

2021

9. Sex and age-related differences in cerebral blood flow investigated using pseudo-continuous arterial spin labeling magnetic resonance imaging

Author

Mustapha Bouhrara, Richard W Kim, Wenshu Qian, Joseph S R Alisch, Luigi Ferrucci, Richard G. Spencer, Abinand C. Rejimon, Susan M. Resnick, Nikkita Khattar, and Luis E. Cortina

Subjects

Adult, Male, Aging, medicine.medical_specialty, cerebral blood flow, Central nervous system, White matter, Myelin, Sex Factors, Internal medicine, medicine, Humans, Dementia, Gray Matter, Aged, Aged, 80 and over, medicine.diagnostic_test, business.industry, Age Factors, Magnetic resonance imaging, Cell Biology, Middle Aged, medicine.disease, arterial spin labeling, Magnetic Resonance Imaging, White Matter, Healthy Volunteers, Oligodendrocyte, medicine.anatomical_structure, Cerebral blood flow, Cerebrovascular Circulation, Cardiology, Female, business, Perfusion, Research Paper, MRI, circulatory and respiratory physiology

Abstract

Adequate cerebral blood flow (CBF) is essential to a healthy central nervous system (CNS). Previous work suggests that CBF differs between men and women, and declines with age and certain pathologies, but a highly controlled systematic study across a wide age range, and incorporating white matter (WM) regions, has not been undertaken. Here, we investigate age- and sex-related differences in CBF in gray matter (GM) and WM regions in a cohort (N = 80) of cognitively unimpaired individuals over a wide age range. In agreement with literature, we find that GM regions exhibited lower CBF with age. In contrast, WM regions exhibited higher CBF with age in various cerebral regions. We attribute this new finding to increased oligodendrocyte metabolism to maintain myelin homeostasis in the setting of increased myelin turnover with age. Further, consistent with prior studies, we found that CBF was higher in women than in men in all brain structures investigated. Our work provides new insights into the effects of age and sex on CBF. In addition, our results provide reference CBF values for the standard ASL protocol recommended by the ISMRM Perfusion Study Group and the European ASL in Dementia consortium. Thus, these results provide a foundation for further investigations of CNS perfusion in a variety of settings, including aging, cerebrovascular diseases, and dementias.

Published

2021

10. Age‐related estimates of aggregate g ‐ratio of white matter structures assessed using quantitative magnetic resonance neuroimaging

Author

Luigi Ferrucci, Christopher M. Bergeron, Denise Melvin, Wenshu Qian, Richard W Kim, Linda Zukley, Mustapha Bouhrara, Nikkita Khattar, Richard G. Spencer, and Susan M. Resnick

Subjects

Adult, Male, Aging, Human Development, Population, Neuroimaging, Context (language use), Biology, quantitative MRI, 050105 experimental psychology, White matter, Young Adult, 03 medical and health sciences, Myelin, 0302 clinical medicine, medicine, Humans, 0501 psychology and cognitive sciences, Radiology, Nuclear Medicine and imaging, education, Research Articles, Aged, Aged, 80 and over, education.field_of_study, Radiological and Ultrasound Technology, medicine.diagnostic_test, 05 social sciences, Neurodegeneration, Age Factors, aggregate g‐ratio, Magnetic resonance imaging, Middle Aged, medicine.disease, Magnetic Resonance Imaging, White Matter, Axons, Middle age, normal aging, medicine.anatomical_structure, Neurology, Female, Neurology (clinical), Anatomy, Neuroscience, 030217 neurology & neurosurgery, Research Article

Abstract

The g‐ratio, defined as the inner‐to‐outer diameter of a myelinated axon, is associated with the speed of nerve impulse conduction, and represents an index of axonal myelination and integrity. It has been shown to be a sensitive and specific biomarker of neurodevelopment and neurodegeneration. However, there have been very few magnetic resonance imaging studies of the g‐ratio in the context of normative aging; characterizing regional and time‐dependent cerebral changes in g‐ratio in cognitively normal subjects will be a crucial step in differentiating normal from abnormal microstructural alterations. In the current study, we investigated age‐related differences in aggregate g‐ratio, that is, g‐ratio averaged over all fibers within regions of interest, in several white matter regions in a cohort of 52 cognitively unimpaired participants ranging in age from 21 to 84 years. We found a quadratic, U‐shaped, relationship between aggregate g‐ratio and age in most cerebral regions investigated, suggesting myelin maturation until middle age followed by a decrease at older ages. As expected, we observed that these age‐related differences vary across different brain regions, with the frontal lobes and parietal lobes exhibiting slightly earlier ages of minimum aggregate g‐ratio as compared to more posterior structures such as the occipital lobes and temporal lobes; this agrees with the retrogenesis paradigm. Our results provide evidence for a nonlinear association between age and aggregate g‐ratio in a sample of adults from a highly controlled population. Finally, sex differences in aggregate g‐ratio were observed in several cerebral regions, with women exhibiting overall lower values as compared to men; this likely reflects the greater myelin content in women's brain, in agreement with recent investigations., Using quantitative MRI, we investigated age‐related differences in aggregate g‐ratio in several white matter regions in a cohort of 52 cognitively unimpaired participants ranging in age from 21 to 84 years. We found a quadratic, U‐shaped, relationship between aggregate g‐ratio and age in most cerebral regions investigated. Sex differences were also observed in several cerebral regions.

Published

2021

11. Evidence of association between obesity and lower cerebral myelin content in cognitively unimpaired adults

Author

Luigi Ferrucci, Nikkita Khattar, Susan M. Resnick, Mustapha Bouhrara, Palchamy Elango, and Richard G. Spencer

Subjects

Adult, Male, Aging, medicine.medical_specialty, Endocrinology, Diabetes and Metabolism, Medicine (miscellaneous), 030209 endocrinology & metabolism, Brain mapping, Article, Body Mass Index, White matter, Young Adult, 03 medical and health sciences, Myelin, 0302 clinical medicine, Internal medicine, medicine, Humans, Obesity, 030212 general & internal medicine, Myelin Sheath, Aged, Aged, 80 and over, Nutrition and Dietetics, medicine.diagnostic_test, business.industry, Brain, Magnetic resonance imaging, Middle Aged, Magnetic Resonance Imaging, White Matter, Middle age, Oligodendrocyte, Endocrinology, medicine.anatomical_structure, Female, Animal studies, Waist Circumference, business, Body mass index

Abstract

Background: Myelin loss is a central feature of several neurodegenerative diseases, including Alzheimer’s disease (AD). In animal studies, a link has been established between obesity and impairment of oligodendrocyte maturation, the cells that produce and maintain myelin. Although clinical magnetic resonance imaging (MRI) studies have revealed microstructural alterations of cerebral white matter tissue in subjects with obesity, no specific myelin vs. obesity correlation studies have been performed in humans using a direct myelin content metric. Objectives: To assess the association between obesity and myelin integrity in cerebral white matter using advanced MRI methodology for myelin content imaging. Methods: Studies were performed in the clinical unit of the National Institute on Aging on a cohort of 119 cognitively unimpaired adults. Using advanced MRI methodology, we measured whole-brain myelin water fraction (MWF), a marker of myelin content. Automated brain mapping algorithms and statistical models were used to evaluate the relationships between MWF and obesity, measured using the body mass index (BMI) or waist circumference (WC), in various white matter brain regions. Results: MWF was negatively associated with BMI or WC in all brain regions evaluated. These associations, adjusted for sex, ethnicity, and age, were statistically significant in most brain regions examined (p < 0.05), with higher BMI or WC corresponding to lower myelin content. Finally, in agreement with previous work, MWF exhibited a quadratic, inverted U-shaped, association with age; this is attributed to the process of myelination from youth through middle age, followed by demyelination afterward. Conclusions: These findings suggest that obesity was significantly associated with white matter integrity, and in particular myelin content. We expect that this work will lay the foundation for further investigations to clarify the nature of myelin damage in neurodegeneration, including AD, and the effect of lifestyle factors such as diet and physical activity on myelination.

Published

2021

12. Adult brain aging investigated using BMC-mcDESPOT–based myelin water fraction imaging

Author

Richard G. Spencer, Susan M. Resnick, Luis E. Cortina, Christopher M. Bergeron, Abinand C. Rejimon, Luigi Ferrucci, Mustapha Bouhrara, and Nikkita Khattar

Subjects

Male, 0301 basic medicine, Aging, Biology, Article, 03 medical and health sciences, Myelin, 0302 clinical medicine, Nuclear magnetic resonance, Body Water, medicine, Humans, Magnetization transfer, Brain aging, Myelin Sheath, Aged, Aged, 80 and over, medicine.diagnostic_test, General Neuroscience, Brain, Magnetic resonance imaging, Magnetic Resonance Imaging, Middle age, Large sample, 030104 developmental biology, medicine.anatomical_structure, Female, Myelin water fraction, Neurology (clinical), Geriatrics and Gerontology, 030217 neurology & neurosurgery, Developmental Biology, Diffusion MRI

Abstract

The relationship between regional brain myelination and aging has been the subject of intense study, with magnetic resonance imaging perhaps the most effective modality for elucidating this. However, most of these studies have used nonspecific methods to probe myelin content, including diffusion tensor imaging, magnetization transfer ratio, and relaxation times. In the present study, we used the BMC-mcDESPOT analysis, a direct and specific method for imaging of myelin water fraction (MWF), a surrogate of myelin content. We investigated age-related differences in MWF in several brain regions in a large cohort of cognitively unimpaired participants, spanning a wide age range. Our results indicate a quadratic, inverted U-shape, relationship between MWF and age in all brain regions investigated, suggesting that myelination continues until middle age followed by decreases at older ages. We also observed that these age-related differences vary across different brain regions, as expected. Our results provide evidence for nonlinear associations between age and myelin in a large sample of well-characterized adults, using a direct myelin content imaging method.

Published

2020

13. Characterization of Age-Related Differences in the Human Choroid Plexus Volume, Microstructural Integrity, and Blood Perfusion Using Multiparameter Magnetic Resonance Imaging

Author

Curtis Triebswetter, Matthew Kiely, Maryam H. Alsameen, Zhaoyuan Gong, Nikkita Khattar, Joseph S R Alisch, Josephine M. Egan, and Mustapha Bouhrara

Subjects

Relaxometry, choroid plexus, medicine.diagnostic_test, business.industry, Cognitive Neuroscience, aging, Magnetic resonance imaging, Neurosciences. Biological psychiatry. Neuropsychiatry, relaxometry mapping, medicine.disease, diffusion tensor imaging (DTI), Cerebrospinal fluid, Nuclear magnetic resonance, Cerebral blood flow, Fractional anisotropy, Medicine, magnetic resonance imaging, Choroid plexus, business, Diffusion MRI, Ventriculomegaly, RC321-571, Neuroscience, Original Research

Abstract

The choroid plexus (CP) is an important cerebral structure involved in cerebrospinal fluid production and transport of solutes into the brain. Recent studies have uncovered the involvement of the CP in neurological disorders such as Alzheimer’s disease and multiple sclerosis. However, our understanding of human age-related microstructural and functional changes in the CP with aging and neuropathology is limited. In this cross-sectional study, we investigated age and sex differences in the CP structure and function using advanced quantitative magnetic resonance imaging methodology in a large cohort (n = 155) of cognitively unimpaired individuals over a wide age range between 21 and 94 years. Our analysis included volumetric measurements, relaxometry measures (T1 and T2), diffusion tensor imaging (DTI) measures of fractional anisotropy (FA) and mean diffusivity (MD), as well as measures of cerebral blood flow (CBF). Our results revealed that CP volume was increasing with advancing age. We conjecture that this novel observation is likely attributed to alterations in the CP microstructure or function as well as to ventriculomegaly. Indeed, we also found that CBF was lower with advanced age, while, consistent with previous studies, T1, T2 and MD were higher, and FA was lower with advanced age. We attribute these functional and microstructural differences to a deteriorated CP structural integrity with aging. Furthermore, our relaxometry and DTI measures were found to be associated with differences in blood perfusion revealing lower microstructural integrity with lower CBF. Finally, in agreement with literature, sex-related differences in MD and CBF were statistically significant. This work lays the foundation for ongoing investigation of the involvement of CP in neurodegeneration.

Published

2021

14. Association of cerebral blood flow with myelin content in cognitively unimpaired adults

Author

Mustapha Bouhrara, Joseph S R Alisch, Wenshu Qian, Nikkita Khattar, Richard G. Spencer, Luigi Ferrucci, Abinand C. Rejimon, Richard W Kim, Susan M. Resnick, and Luis E. Cortina

Subjects

Relaxometry, medicine.medical_specialty, cerebral blood flow, Ischemia, 030218 nuclear medicine & medical imaging, lcsh:RC321-571, 03 medical and health sciences, Myelin, 0302 clinical medicine, Internal medicine, Medicine, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Original Research, business.industry, Hypoxia (medical), medicine.disease, Middle age, Oligodendrocyte, myelin, medicine.anatomical_structure, Endocrinology, Neurology, Cerebral blood flow, nervous system, Myelin maintenance, Neurology (clinical), medicine.symptom, business, 030217 neurology & neurosurgery, MRI

Abstract

BackgroundMyelin loss and cerebral blood flow (CBF) decline are central features of several neurodegenerative diseases. Myelin maintenance through oligodendrocyte metabolism is an energy-demanding process, so that myelin homeostasis is particularly sensitive to hypoxia, hypoperfusion or ischaemia. However, in spite of its central importance, little is known about the association between blood supply and myelin integrity.ObjectiveTo assess associations between cortical and subcortical CBF, and subcortical myelin content, in critical brain white matter regions.Materials and methodsMRI was performed on a cohort of 67 cognitively unimpaired adults. Using advanced MRI methodology, we measured whole-brain longitudinal and transverse relaxation rates (R1 and R2), sensitive but non-specific markers of myelin content, and myelin water fraction (MWF), a direct surrogate of myelin content, as well as regional CBF, from each of these participants.ResultsAll quantitative relaxometry metrics were positively associated with CBF in all brain regions evaluated. These associations between MWF or R1 and CBF, and, to a lesser extent, between R2 and CBF, were statistically significant in most brain regions examined, indicating that lower regional cortical or subcortical CBF corresponds to a decrease in local subcortical myelin content. Finally, all relaxometry metrics exhibited a quadratic, inverted U-shaped, association with age; this is attributed to the development of myelination from young to middle age, followed by progressive loss of myelin in later years.ConclusionsIn this first study examining the association between local blood supply and myelin integrity, we found that myelin content declines with CBF across a wide age range of cognitively normal subjects.

Published

2020

15. Four-angle method for practical ultra-high-resolution magnetic resonance mapping of brain longitudinal relaxation time and apparent proton density

Author

Nikkita Khattar, Abinand C. Rejimon, Luis E. Cortina, Richard G. Spencer, and Mustapha Bouhrara

Subjects

Adult, Male, Biomedical Engineering, Biophysics, Imaging phantom, Article, 030218 nuclear medicine & medical imaging, Time, 03 medical and health sciences, Acceleration, Young Adult, 0302 clinical medicine, Nuclear magnetic resonance, Neuroimaging, medicine, Image Processing, Computer-Assisted, Humans, Radiology, Nuclear Medicine and imaging, Physics, Reproducibility, Brain Mapping, medicine.diagnostic_test, Phantoms, Imaging, Resolution (electron density), Brain, Reproducibility of Results, Magnetic resonance imaging, Human brain, Middle Aged, Magnetic Resonance Imaging, medicine.anatomical_structure, Electromagnetic coil, Female, Protons, 030217 neurology & neurosurgery, Algorithms

Abstract

Changes in longitudinal relaxation time (T(1)) and proton density (PD) are sensitive indicators of microstructural alterations associated with various central nervous system diseases as well as brain maturation and aging. In this work, we introduce a new approach for rapid and accurate high-resolution (HR) or ultra HR (UHR) mapping of T(1) and apparent PD (APD) of the brain with correction of radiofrequency field, B(1), inhomogeneities. The four-angle method (FAM) uses four spoiled-gradient recalled-echo (SPGR) images acquired at different flip angles (FA) and short repetition times (TRs). The first two SPGR images are acquired at low-spatial resolution and used to accurately map the active B(1)(+) field with the recently introduced steady-state double angle method (SS-DAM). The estimated B(1)(+) map is used in conjunction with the two other SPGR images, acquired at HR or UHR, to map T(1) and APD. The method is evaluated with numerical, phantom, and in-vivo imaging measurements. Furthermore, we investigated imaging acceleration methods to further shorten the acquisition time. Our results indicate that FAM provides an accurate method for simultaneous HR or UHR mapping of T(1) and APD in human brain in clinical high-field MRI. Derived parameter maps without B(1)(+)correction suffer from large inaccuracies, but that this issue is well-corrected through use of the SS-DAM. Furthermore, the use of the SPGR imaging, with short TR and phased-array coil acquisition permits substantial imaging acceleration and enables robust HR or UHR T(1) and APD mapping in a clinically acceptable time frame with whole brain coverage obtained in less than 2 min or 5 min. The method exhibits high reproducibility and benefits from the use of the conventional SPGR sequence, available in all preclinical and clinical MRI machines, and very simple modelling addressing a critical outstanding issue in neuroimaging.

Published

2019

16. Cerebral Microstructure in Aging Using Advanced Quantitative MRI

Author

Mustapha Bouhrara, Luigi Ferrucci, Joseph S R Alisch, Richard G. Spencer, Susan M. Resnick, Richard H. Kim, Wenshu Qian, and Nikkita Khattar

Subjects

Abstracts, Health (social science), Materials science, nervous system, Session 7105 (Symposium), AcademicSubjects/SOC02600, Life-span and Life-course Studies, Microstructure, Health Professions (miscellaneous), Biomedical engineering

Abstract

White matter (WM) maintenance through oligodendrocyte metabolism is an energy-intensive process. Myelin homeostasis is sensitive to hypoxia, ischemia, or hypoperfusion. Besides substrate delivery, adequate cerebral blood flow (CBF) is crucial for removal of metabolic byproducts such as iron. While some data show decreased myelin content and CBF with aging, the association between CBF and myelination is unknown. Further, breakdown of oligodendrocyte and iron may potentiate myelin loss through oxidative mechanisms. Whether iron deposition is related to myelination is unclear. Using advanced MRI methodology, we investigated associations between CBF deficits, myelin loss, and iron deposition in cognitively normal individuals. We found significant association between i) CBF deficits and myelin loss (N=67,age24-88), ii) myelin loss and iron accumulation (N=92,age21-94), and iii) CBF deficits and iron accumulation (N=35,age22-88) in critical brain structures. This work may lay the foundation for further investigations of age-related WM degeneration and markers to differentiate normal from abnormal alterations.

Published

2020

17. Effects of Lisinopril on Arterial Stiffness, Cerebral Blood Flow and Cortical Thickness in Hypertensive Dahl‐S Rats

Author

Ondrej Juhasz, Mustapha Bouhrara, Nikkita Khattar, Peter R. Rapp, Olga V. Fedorova, Yulia Grigorova, Rachel Fenner, Samuel Ajamu, Richard G. Spencer, Edward G. Lakatta, and Kenneth W. Fishbein

Subjects

medicine.medical_specialty, business.industry, Lisinopril, medicine.disease, Biochemistry, Cerebral blood flow, Internal medicine, Genetics, medicine, Arterial stiffness, Cardiology, business, Molecular Biology, Biotechnology, medicine.drug

Published

2020

18. Subcellular Peptide Localization in Single Identified Neurons by Capillary Microsampling Mass Spectrometry

Author

Ildikó Kemenes, Akos Vertes, Linwen Zhang, Nikkita Khattar, György Kemenes, Zita Zrínyi, and Zsolt Pirger

Subjects

0301 basic medicine, Intracellular Space, lcsh:Medicine, Neuropeptide, Lymnaea stagnalis, Peptide, Mass Spectrometry, Article, 03 medical and health sciences, Interneurons, medicine, Animals, Amino Acid Sequence, FMRFamide, lcsh:Science, Peptide sequence, Lymnaea, Neurons, chemistry.chemical_classification, Neurotransmitter Agents, Multidisciplinary, biology, lcsh:R, Neuropeptides, Alternative splicing, biology.organism_classification, Cell biology, 030104 developmental biology, medicine.anatomical_structure, chemistry, Cytoplasm, lcsh:Q, Single-Cell Analysis, Peptides, Nucleus, Subcellular Fractions

Abstract

Single cell mass spectrometry (MS) is uniquely positioned for the sequencing and identification of peptides in rare cells. Small peptides can take on different roles in subcellular compartments. Whereas some peptides serve as neurotransmitters in the cytoplasm, they can also function as transcription factors in the nucleus. Thus, there is a need to analyze the subcellular peptide compositions in identified single cells. Here, we apply capillary microsampling MS with ion mobility separation for the sequencing of peptides in single neurons of the mollusk Lymnaea stagnalis, and the analysis of peptide distributions between the cytoplasm and nucleus of identified single neurons that are known to express cardioactive Phe-Met-Arg-Phe amide-like (FMRFamide-like) neuropeptides. Nuclei and cytoplasm of Type 1 and Type 2 F group (Fgp) neurons were analyzed for neuropeptides cleaved from the protein precursors encoded by alternative splicing products of the FMRFamide gene. Relative abundances of nine neuropeptides were determined in the cytoplasm. The nuclei contained six of these peptides at different abundances. Enabled by its relative enrichment in Fgp neurons, a new 28-residue neuropeptide was sequenced by tandem MS.

Published

2018