Your search keyword '"Cortical thickness"' showing total 7,135 results

1. Menstrual cycle-driven hormone concentrations co-fluctuate with white and gray matter architecture changes across the whole brain.

Author

Rizor, Elizabeth, Babenko, Viktoriya, Dundon, Neil, Beverly-Aylwin, Renee, Stump, Alexandra, Hayes, Margaret, Herschenfeld-Catalan, Luna, Jacobs, Emily, and Grafton, Scott

Subjects

brain structure, brain volume, cortical thickness, diffusion imaging, hormones, magnetic resonance imaging, menstrual cycle, Humans, Female, White Matter, Adult, Menstrual Cycle, Estradiol, Young Adult, Gray Matter, Luteinizing Hormone, Brain, Follicle Stimulating Hormone, Progesterone, Magnetic Resonance Imaging, Diffusion Magnetic Resonance Imaging

Abstract

Cyclic fluctuations in hypothalamic-pituitary-gonadal axis (HPG-axis) hormones exert powerful behavioral, structural, and functional effects through actions on the mammalian central nervous system. Yet, very little is known about how these fluctuations alter the structural nodes and information highways of the human brain. In a study of 30 naturally cycling women, we employed multidimensional diffusion and T1-weighted imaging during three estimated menstrual cycle phases (menses, ovulation, and mid-luteal) to investigate whether HPG-axis hormone concentrations co-fluctuate with alterations in white matter (WM) microstructure, cortical thickness (CT), and brain volume. Across the whole brain, 17β-estradiol and luteinizing hormone (LH) concentrations were directly proportional to diffusion anisotropy (μFA; 17β-estradiol: β1 = 0.145, highest density interval (HDI) = [0.211, 0.4]; LH: β1 = 0.111, HDI = [0.157, 0.364]), while follicle-stimulating hormone (FSH) was directly proportional to CT (β1 = 0 .162, HDI = [0.115, 0.678]). Within several individual regions, FSH and progesterone demonstrated opposing relationships with mean diffusivity (Diso) and CT. These regions mainly reside within the temporal and occipital lobes, with functional implications for the limbic and visual systems. Finally, progesterone was associated with increased tissue (β1 = 0.66, HDI = [0.607, 15.845]) and decreased cerebrospinal fluid (CSF; β1 = -0.749, HDI = [-11.604, -0.903]) volumes, with total brain volume remaining unchanged. These results are the first to report simultaneous brain-wide changes in human WM microstructure and CT coinciding with menstrual cycle-driven hormone rhythms. Effects were observed in both classically known HPG-axis receptor-dense regions (medial temporal lobe, prefrontal cortex) and in other regions located across frontal, occipital, temporal, and parietal lobes. Our results suggest that HPG-axis hormone fluctuations may have significant structural impacts across the entire brain.

Published

2024

2. White Matter Organization and Cortical Thickness Differ Among Active Duty Service Members With Chronic Mild, Moderate, and Severe Traumatic Brain Injury.

Author

Gimbel, Sarah, Hungerford, Lars, Ettenhofer, Mark, and Twamley, Elizabeth

Subjects

cortical thickness, diffusion tensor imaging (DTI), fractional anisotropy (FA), magnetic resonance imaging (MRI), pothole analysis, traumatic brain injury (TBI), Humans, White Matter, Diffusion Tensor Imaging, Brain, Brain Injuries, Brain Concussion, Brain Injury, Chronic, Brain Injuries, Traumatic

Abstract

Abstract This study compared findings from whole-brain diffusion tensor imaging (DTI) and volumetric magnetic resonance imaging (MRI) among 90 Active Duty Service Members with chronic mild traumatic brain injury (TBI; n = 52), chronic moderate-to-severe TBI (n = 17), and TBI-negative controls (n = 21). Data were collected on a Philips Ingenia 3T MRI with DTI in 32 directions. Results demonstrated that history of TBI was associated with differences in white matter microstructure, white matter volume, and cortical thickness in both mild TBI and moderate-to-severe TBI groups relative to controls. However, the presence, pattern, and distribution of these findings varied substantially depending on the injury severity. Spatially-defined forms of DTI fractional anisotropy (FA) analyses identified altered white matter organization within the chronic moderate-to-severe TBI group, but they did not provide clear evidence of abnormalities within the chronic mild TBI group. In contrast, DTI FA pothole analyses identified widely distributed areas of decreased FA throughout the white matter in both the chronic mild TBI and chronic moderate-to-severe TBI groups. Additionally, decreased white matter volume was found in several brain regions for the chronic moderate-to-severe TBI group compared with the other groups. Greater number of DTI FA potholes and reduced cortical thickness were also related to greater severity of self-reported symptoms. In sum, this study expands upon a growing body of literature using advanced imaging techniques to identify potential effects of brain injury in military Service Members. These findings may differ from work in other TBI populations due to varying mechanisms and frequency of injury, as well as a potentially higher level of functioning in the current sample related to the ability to maintain continued Active Duty status after injury. In conclusion, this study provides DTI and volumetric MRI findings across the spectrum of TBI severity. These results provide support for the use of DTI and volumetric MRI to identify differences in white matter microstructure and volume related to TBI. In particular, DTI FA pothole analysis may provide greater sensitivity for detecting subtle forms of white matter injury than conventional DTI FA analyses.

Published

2024

3. Transcriptomic contributions to a modern cytoarchitectonic parcellation of the human cerebral cortex

Author

King, Leana and Weiner, Kevin S

Subjects

Biomedical and Clinical Sciences, Medical Physiology, Neurosciences, Cancer, Brain Disorders, Digestive Diseases, Liver Disease, Genetics, Liver Cancer, Rare Diseases, Underpinning research, 1.1 Normal biological development and functioning, Neurological, Cortical thickness, Cytoarchitecture, Gradation, Myelination, Transcriptomics, Cognitive Sciences, Developmental Biology, Neurology & Neurosurgery, Medical physiology

Abstract

Transcriptomic contributions to the anatomical, functional, and network layout of the human cerebral cortex (HCC) have become a major interest in cognitive and systems neuroscience. Here, we tested if transcriptomic differences support a modern, algorithmic cytoarchitectonic parcellation of HCC. Using a data-driven approach, we identified a sparse subset of genes that differentially contributed to the cytoarchitectonic parcellation of HCC. A combined metric of cortical thickness and myelination (CT/M ratio), as well as cell density, correlated with gene expression. Enrichment analyses showed that genes specific to the cytoarchitectonic parcellation of the HCC were related to molecular functions such as transmembrane transport and ion channel activity. Together, the relationship between transcriptomics and cytoarchitecture bridges the gap among (i) gradients at the macro-scale (including thickness and myelination), (ii) areas at the meso-scale, and (iii) cell density at the microscale, as well as supports the recently proposed cortical spectrum theory and structural model.

Published

2024

4. Associations Between Family History of Alcohol and/or Substance Use Problems and Frontal Cortical Development From 9 to 13 Years of Age: A Longitudinal Analysis of the ABCD Study

Author

Gonçalves, Priscila Dib, Martins, Silvia S, Gebru, Nioud Mulugeta, Ryan-Pettes, Stacy R, Allgaier, Nicholas, Potter, Alexandra, Thompson, Wesley K, Johnson, Micah E, Garavan, Hugh, Talati, Ardesheer, and Albaugh, Matthew D

Subjects

Biological Psychology, Biomedical and Clinical Sciences, Psychology, Alcoholism, Alcohol Use and Health, Neurosciences, Behavioral and Social Science, Clinical Research, Pediatric, Substance Misuse, Aetiology, 2.3 Psychological, social and economic factors, Mental health, Good Health and Well Being, Adolescence, Alcohol use, Cortical thickness, Family history, Frontal development, Substance use

Abstract

BackgroundPrevious investigations that have examined associations between family history (FH) of alcohol/substance use and adolescent brain development have been primarily cross-sectional. Here, leveraging a large population-based sample of youths, we characterized frontal cortical trajectories among 9- to 13-year-olds with (FH+) versus without (FH-) an FH and examined sex as a potential moderator.MethodsWe used data from 9710 participants in the Adolescent Brain Cognitive Development (ABCD) Study (release 4.0). FH+ was defined as having ≥1 biological parents and/or ≥2 biological grandparents with a history of alcohol/substance use problems (n = 2433). Our primary outcome was frontal cortical structural measures obtained at baseline (ages 9-11) and year 2 follow-up (ages 11-13). We used linear mixed-effects models to examine the extent to which FH status qualified frontal cortical development over the age span studied. Finally, we ran additional interactions with sex to test whether observed associations between FH and cortical development differed significantly between sexes.ResultsFor FH+ (vs. FH-) youths, we observed increased cortical thinning from 9 to 13 years across the frontal cortex as a whole. When we probed for sex differences, we observed significant declines in frontal cortical thickness among boys but not girls from ages 9 to 13 years. No associations were observed between FH and frontal cortical surface area or volume.ConclusionsHaving a FH+ is associated with more rapid thinning of the frontal cortex across ages 9 to 13, with this effect driven primarily by male participants. Future studies will need to test whether the observed pattern of accelerated thinning predicts future substance use outcomes.

Published

2024

5. The Combined Effects of Nicotine and Cannabis on Cortical Thickness Estimates in Adolescents and Emerging Adults

Author

Mejia, Margie Hernandez, Courtney, Kelly E, Wade, Natasha E, Wallace, Alexander, Baca, Rachel E, Shen, Qian, Happer, Joseph Patrick, and Jacobus, Joanna

Subjects

Biological Psychology, Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Psychology, Substance Misuse, Drug Abuse (NIDA only), Neurosciences, Clinical Research, Tobacco, Pediatric, Prevention, Behavioral and Social Science, Cannabinoid Research, 2.2 Factors relating to the physical environment, Neurological, Mental health, Good Health and Well Being, adolescence, young adults, nicotine, cannabis, cortical thickness, Cognitive Sciences, Applied and developmental psychology, Biological psychology

Abstract

Early life substance use, including cannabis and nicotine, may result in deleterious effects on the maturation of brain tissue and gray matter cortical development. The current study employed linear regression models to investigate the main and interactive effects of past-year nicotine and cannabis use on gray matter cortical thickness estimates in 11 bilateral independent frontal cortical regions in 223 16-22-year-olds. As the frontal cortex develops throughout late adolescence and young adulthood, this period becomes crucial for studying the impact of substance use on brain structure. The distinct effects of nicotine and cannabis use status on cortical thickness were found bilaterally, as cannabis and nicotine users both had thinner cortices than non-users. Interactions between nicotine and cannabis were also observed, in which cannabis use was associated with thicker cortices for those with a history of nicotine and tobacco product (NTP) use in three left frontal regions. This study sheds light on the intricate relationship between substance use and brain structure, suggesting a potential modulation of cannabis' impact on cortical thickness by nicotine exposure, and emphasizing the need for further longitudinal research to characterize these interactions and their implications for brain health and development.

Published

2024

6. Successful cognitive aging is associated with thicker anterior cingulate cortex and lower tau deposition compared to typical aging

Author

Pezzoli, Stefania, Giorgio, Joseph, Martersteck, Adam, Dobyns, Lindsey, Harrison, Theresa M, and Jagust, William J

Subjects

Biological Psychology, Psychology, Behavioral and Social Science, Alzheimer's Disease, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Acquired Cognitive Impairment, Aging, Brain Disorders, Neurodegenerative, Neurosciences, Dementia, 1.1 Normal biological development and functioning, Underpinning research, Neurological, Humans, Gyrus Cinguli, Cognitive Aging, tau Proteins, Magnetic Resonance Imaging, Amyloid beta-Peptides, Positron-Emission Tomography, Cognitive Dysfunction, Alzheimer Disease, Alzheimer's disease, amyloid, biomarkers, cortical thickness, exceptional cognitive performance, PET, successful aging, superaging, tau, Clinical Sciences, Geriatrics, Clinical sciences, Biological psychology

Abstract

IntroductionThere is no consensus on either the definition of successful cognitive aging (SA) or the underlying neural mechanisms.MethodsWe examined the agreement between new and existing definitions using: (1) a novel measure, the cognitive age gap (SA-CAG, cognitive-predicted age minus chronological age), (2) composite scores for episodic memory (SA-EM), (3) non-memory cognition (SA-NM), and (4) the California Verbal Learning Test (SA-CVLT).ResultsFair to moderate strength of agreement was found between the four definitions. Most SA groups showed greater cortical thickness compared to typical aging (TA), especially in the anterior cingulate and midcingulate cortices and medial temporal lobes. Greater hippocampal volume was found in all SA groups except SA-NM. Lower entorhinal 18 F-Flortaucipir (FTP) uptake was found in all SA groups.DiscussionThese findings suggest that a feature of SA, regardless of its exact definition, is resistance to tau pathology and preserved cortical integrity, especially in the anterior cingulate and midcingulate cortices.HighlightsDifferent approaches have been used to define successful cognitive aging (SA). Regardless of definition, different SA groups have similar brain features. SA individuals have greater anterior cingulate thickness and hippocampal volume. Lower entorhinal tau deposition, but not amyloid beta is related to SA. A combination of cortical integrity and resistance to tau may be features of SA.

Published

2024

7. Brain structural covariance network features are robust markers of early heavy alcohol use

Author

Ottino‐González, Jonatan, Cupertino, Renata B, Cao, Zhipeng, Hahn, Sage, Pancholi, Devarshi, Albaugh, Matthew D, Brumback, Ty, Baker, Fiona C, Brown, Sandra A, Clark, Duncan B, de Zambotti, Massimiliano, Goldston, David B, Luna, Beatriz, Nagel, Bonnie J, Nooner, Kate B, Pohl, Kilian M, Tapert, Susan F, Thompson, Wesley K, Jernigan, Terry L, Conrod, Patricia, Mackey, Scott, and Garavan, Hugh

Subjects

Biological Psychology, Psychology, Neurosciences, Pediatric, Biomedical Imaging, Women's Health, Underage Drinking, Alcoholism, Alcohol Use and Health, Brain Disorders, Basic Behavioral and Social Science, Behavioral and Social Science, Substance Misuse, Clinical Research, Good Health and Well Being, Young Adult, Adolescent, Child, Humans, Adult, Alcoholism, Cross-Sectional Studies, Magnetic Resonance Imaging, Brain, Connectome, Alcohol, cortical thickness, early marker, graph theory, neurodevelopment, structural covariance networks, Medical and Health Sciences, Psychology and Cognitive Sciences, Substance Abuse, Public health, Clinical and health psychology

Abstract

Background and aimsRecently, we demonstrated that a distinct pattern of structural covariance networks (SCN) from magnetic resonance imaging (MRI)-derived measurements of brain cortical thickness characterized young adults with alcohol use disorder (AUD) and predicted current and future problematic drinking in adolescents relative to controls. Here, we establish the robustness and value of SCN for identifying heavy alcohol users in three additional independent studies.Design and settingCross-sectional and longitudinal studies using data from the Pediatric Imaging, Neurocognition and Genetics (PING) study (n = 400, age range = 14-22 years), the National Consortium on Alcohol and Neurodevelopment in Adolescence (NCANDA) (n = 272, age range = 17-22 years) and the Human Connectome Project (HCP) (n = 375, age range = 22-37 years).CasesCases were defined based on heavy alcohol use patterns or former alcohol use disorder (AUD) diagnoses: 50, 68 and 61 cases were identified. Controls had none or low alcohol use or absence of AUD: 350, 204 and 314 controls were selected.MeasurementsGraph theory metrics of segregation and integration were used to summarize SCN.FindingsMirroring our prior findings, and across the three data sets, cases had a lower clustering coefficient [area under the curve (AUC) = -0.029, P = 0.002], lower modularity (AUC = -0.14, P = 0.004), lower average shortest path length (AUC = -0.078, P = 0.017) and higher global efficiency (AUC = 0.007, P = 0.010). Local efficiency differences were marginal (AUC = -0.017, P = 0.052). That is, cases exhibited lower network segregation and higher integration, suggesting that adjacent nodes (i.e. brain regions) were less similar in thickness whereas spatially distant nodes were more similar.ConclusionStructural covariance network (SCN) differences in the brain appear to constitute an early marker of heavy alcohol use in three new data sets and, more generally, demonstrate the utility of SCN-derived metrics to detect brain-related psychopathology.

Published

2024

8. Toward Understanding Autism Heterogeneity: Identifying Clinical Subgroups and Neuroanatomical Deviations.

Author

Meijer, Jente, Hebling Vieira, Bruno, Elleaume, Camille, Baranczuk-Turska, Zofia, Langer, Nicolas, and Floris, Dorothea L.

Abstract

Autism spectrum disorder ("autism") is a neurodevelopmental condition characterized by substantial behavioral and neuroanatomical heterogeneity. This poses significant challenges to understanding its neurobiological mechanisms and developing effective interventions. Identifying phenotypically more homogeneous subgroups and shifting the focus from average group differences to individuals is a promising approach to addressing heterogeneity. In the present study, we aimed to parse clinical and neuroanatomical heterogeneity in autism by combining clustering of clinical features with normative modeling based on neuroanatomical measures (cortical thickness [CT] and subcortical volume) within the Autism Brain Imaging Data Exchange data sets (N autism = 861, N nonautistic individuals [N NAI] = 886, age range = 5–64). First, model-based clustering was applied to autistic symptoms as measured by the Autism Diagnostic Observation Schedule to identify clinical subgroups of autism (N autism = 499). Next, we ran normative modeling on CT and subcortical parcellations (N autism = 690, N NAI = 744) and examined whether clinical subgrouping resulted in increased neurobiological homogeneity within the subgroups compared to the entire autism group by comparing their spatial overlap of neuroanatomical deviations. We further investigated whether the identified subgroups improved the accuracy of autism classification based on the neuroanatomical deviations using supervised machine learning with cross-validation. Results yielded two clinical subgroups primarily differing in restrictive and repetitive behaviors (RRBs). Both subgroups showed increased homogeneity in localized deviations with the high-RRB subgroup showing increased volume deviations in the cerebellum and the low-RRB subgroup showing decreased CT deviations predominantly in the postcentral gyrus and fusiform cortex. Nevertheless, substantial within-group heterogeneity remained highlighted by the lack of improvement of the classifier's performance when distinguishing between the subgroups and NAI. Future research should aim to further reduce heterogeneity incorporating additional neuroanatomical clustering in even larger samples. This will eventually pave the way for more tailored behavioral interventions and improving clinical outcomes. General Scientific Summary: Autism is characterized by pronounced behavioral and neurobiological heterogeneity. This study suggests that reducing this heterogeneity at the clinical level by employing subgrouping also results in more similar neuroanatomical profiles in the identified clinical subgroups. Although we could demonstrate that clinical subgrouping reduces neuroanatomical heterogeneity, simultaneously, there remained substantial heterogeneity potentially pointing toward multiple pathways resulting in high restrictive and repetitive behaviors and neurobiological subgroups with similar clinical phenotypes. [ABSTRACT FROM AUTHOR]

Published

2024

9. Individual differences in internalizing symptoms in late childhood: A variance decomposition into cortical thickness, genetic and environmental differences.

Author

Tandberg, Anneli D., Dahl, Andreas, Norbom, Linn B., Westlye, Lars T., Ystrom, Eivind, Tamnes, Christian K., and Eilertsen, Espen M.

Subjects

*INTERNALIZING behavior, *CEREBRAL cortical thinning, *NATURE & nurture, *ECOLOGICAL genetics, *INDIVIDUAL differences

Abstract

The brain undergoes extensive development during late childhood and early adolescence. Cortical thinning is a prominent feature of this development, and some researchers have suggested that differences in cortical thickness may be related to internalizing symptoms, which typically increase during the same period. However, research has yielded inconclusive results. We utilized a new method that estimates the combined effect of individual differences in vertex‐wise cortical thickness on internalizing symptoms. This approach allows for many small effects to be distributed across the cortex and avoids the necessity of correcting for multiple tests. Using a sample of 8763 children aged 8.9 to 11.1 from the ABCD study, we decomposed the total variation in caregiver‐reported internalizing symptoms into differences in cortical thickness, additive genetics, and shared family environmental factors and unique environmental factors. Our results indicated that individual differences in cortical thickness accounted for less than 0.5% of the variation in internalizing symptoms. In contrast, the analysis revealed a substantial effect of additive genetics and family environmental factors on the different components of internalizing symptoms, ranging from 06% to 48% and from 0% to 34%, respectively. Overall, while this study found a minimal association between cortical thickness and internalizing symptoms, additive genetics, and familial environmental factors appear to be of importance for describing differences in internalizing symptoms in late childhood. Research Highlights: We utilized a new method for modelling the total contribution of vertex‐wise individual differences in cortical thickness to internalizing symptoms in late childhood.The total contribution of individual differences in cortical thickness accounted for <0.5% of the variance in internalizing symptoms.Additive genetics and shared family environmental variation accounted for 17% and 34% of the variance in internalizing symptoms, respectively.Our results suggest that cortical thickness is not an important indicator for internalizing symptoms in childhood, whereas genetic and environmental differences have a substantial impact. [ABSTRACT FROM AUTHOR]

Published

2024

10. Association between air pollution exposure and brain cortical thickness throughout the lifespan: A systematic review.

Author

Yuan, Aurora, Halabicky, Olivia, and Liu, Jianghong

Subjects

*AIR pollutants, *BRAIN cortical thickness, *MAGNETIC resonance imaging, *PARTICULATE matter, *PREFRONTAL cortex, *AIR pollution

Abstract

• 12 studies have examined links between air pollutants and cortical thickness. • PM 2.5 was the most studied pollutant and impactful on decreasing cortical thickness. • Some studies reported both regional increasing and decreasing cortical thickness. • Further research is needed examining life course pollution and cortical thickness. Increasing research has focused on the impact of air pollution on brain health. As the prevalence of air pollution is increasing alongside other environmental harms, the importance of studying the effects of these changes on human health has become more significant. Additionally, gaining insight into how air pollution exposure, measured at different points in the lifespan, can affect brain structure is critical, as this could be a precursor to cognitive decline later in life. The purpose of this review was to synthesize the literature on the association between air pollutant exposure and cortical thickness, a structural change with known associations with later cognition and neurodegenerative disease. After screening, twelve studies were included in this systematic review. Across a majority of studies, results suggest significant associations between increasing air pollution exposure and decreases in cortical thickness, primarily in areas such as prefrontal cortex, precuneus, and temporal regions of the brain. These results did differ somewhat between age groups and different air pollutants, with the most prominent results being found with exposure to PM 2.5 , the smallest particulate matter size included in the review. In the future, it is important to continue studying cortical thickness as it is essential to brain functioning and can be influential in disease progression. Furthermore, conducting more longitudinal studies in which air pollution is measured as a cumulation throughout the lifespan would help elucidate when exposure is most impactful and when brain structural changes become observable. [ABSTRACT FROM AUTHOR]

Published

2024

11. Longitudinal evidence for a mutually reinforcing relationship between white matter hyperintensities and cortical thickness in cognitively unimpaired older adults.

Author

Bernal, Jose, Menze, Inga, Yakupov, Renat, Peters, Oliver, Hellmann-Regen, Julian, Freiesleben, Silka Dawn, Priller, Josef, Spruth, Eike Jakob, Altenstein, Slawek, Schneider, Anja, Fliessbach, Klaus, Wiltfang, Jens, Schott, Björn H., Jessen, Frank, Rostamzadeh, Ayda, Glanz, Wenzel, Incesoy, Enise I., Buerger, Katharina, Janowitz, Daniel, and Ewers, Michael

Abstract

Background: For over three decades, the concomitance of cortical neurodegeneration and white matter hyperintensities (WMH) has sparked discussions about their coupled temporal dynamics. Longitudinal studies supporting this hypothesis nonetheless remain scarce. Methods: We applied global and regional bivariate latent growth curve modelling to determine the extent to which WMH and cortical thickness were interrelated over a four-year period. For this purpose, we leveraged longitudinal MRI data from 451 cognitively unimpaired participants (DELCODE; median age 69.71 [IQR 65.51, 75.50] years; 52.32% female). Participants underwent MRI sessions annually over a four-year period (1815 sessions in total, with roughly four MRI sessions per participant). We adjusted all models for demographics and cardiovascular risk. Results: Our findings were three-fold. First, larger WMH volumes were linked to lower cortical thickness (σ = -0.165, SE = 0.047, Z = -3.515, P < 0.001). Second, individuals with higher WMH volumes experienced more rapid cortical thinning (σ = -0.226, SE = 0.093, Z = -2.443, P = 0.007), particularly in temporal, cingulate, and insular regions. Similarly, those with lower initial cortical thickness had faster WMH progression (σ = -0.141, SE = 0.060, Z = -2.336, P = 0.009), with this effect being most pronounced in temporal, cingulate, and insular cortices. Third, faster WMH progression was associated with accelerated cortical thinning (σ = -0.239, SE = 0.139, Z = -1.710, P = 0.044), particularly in frontal, occipital, and insular cortical regions. Conclusions: Our study suggests that cortical thinning and WMH progression could be mutually reinforcing rather than parallel, unrelated processes, which become entangled before cognitive deficits are detectable. Trial registration: German Clinical Trials Register (DRKS00007966, 04/05/2015). [ABSTRACT FROM AUTHOR]

Published

2024

12. Disparities in structural brain imaging in older adults from rural communities in Southern Nevada.

Author

Xiaowei Zhuang, Cordes, Dietmar, Caldwell, Jessica Z. K., Bender, Andrew R., and Miller, Justin B.

Subjects

HEALTH services accessibility, INDEPENDENT living, DATA analysis, STATISTICAL significance, RESEARCH funding, BRAIN, MAGNETIC resonance imaging, ANALYSIS of covariance, DESCRIPTIVE statistics, RURAL population, RURAL conditions, METROPOLITAN areas, COMMUNICATION, STATISTICS, HEALTH equity, CONFIDENCE intervals, DATA analysis software, NEIGHBORHOOD characteristics, REGRESSION analysis, OLD age

Abstract

Introduction: Identifying the associations between rural-living or neighborhood disadvantage and neurobiology may clarify rural-urban disparities in older adults with cognitive impairment related to Alzheimer's disease. Methods: We examined rural-urban differences and neighborhood disadvantages in brain cortical thickness (CT) measures among 71 rural and 87 urban-dwelling older adults. Analysis of covariance was used to test each FreeSurfer-derived CT measures' associations with rural-urban living, clinical impairment status, and their interactions. Post-hoc linear regressions were used to test the association between CT measures and neighborhood disadvantage index. Results: Rural-dwelling older adults had thinner cortices in temporal and inferior frontal regions compared to urban participants, especially among clinically normal participants, where the thinner temporal cortex further correlated with higher neighborhood disadvantage. Conversely, rural participants had thicker cortices in superior frontal, parietal and occipital regions. Discussion: Our results suggest a complex interplay between community contexts and neurobiology. For memory-related regions, rural-living and neighborhood disadvantage might be negatively associated with subjects' brain structures. [ABSTRACT FROM AUTHOR]

Published

2024

13. Starting the pill during adolescence: Age of onset and duration of use influence morphology of the hippocampus and ventromedial prefrontal cortex.

Author

Brouillard, Alexandra, Davignon, Lisa‐Marie, Vachon‐Presseau, Étienne, Roy, Mathieu, and Marin, Marie‐France

Subjects

*PREFRONTAL cortex, *ORAL contraceptives, *AGE of onset, *BRAIN anatomy, *NEURAL development, *ADOLESCENCE

Abstract

From adolescence, women become more likely to experience fear dysregulation. Oral contraceptives (OCs) can modulate the brain regions involved in fear processes. OCs are generally used for years and often initiated during adolescence, a sensitive period where certain brain regions involved in the fear circuitry are still undergoing important reorganization. It remains unknown whether OC use during adolescence may induce long‐lasting changes in the fear circuitry. This study aimed to examine whether age of onset moderated the relationship between duration of use and fear‐related brain structures. We collected structural MRI data in 98 healthy adult women (61 current users, 37 past users) and extracted grey matter volumes (GMV) and cortical thickness (CT) of key regions of the fear circuitry. Non‐linear multiple regressions revealed interaction effects between age of onset and quadratic duration of use on GMV of the right hippocampus and right ventromedial prefrontal cortex (vmPFC). Among women who initiated OCs earlier in adolescence, a short duration of use was associated with smaller hippocampal GMV and thicker vmPFC compared to a longer duration of use. For both GMV and CT of the right vmPFC, women with an early OC onset had more grey matter at a short duration of use than those with a later onset. Our results suggest that OC use earlier in adolescence may induce lasting effects on structural correlates of fear learning and its regulation. These findings support further investigation into the timing of OC use to better comprehend how OCs could disrupt normal brain development processes. [ABSTRACT FROM AUTHOR]

Published

2024

14. Clinical application of sparse canonical correlation analysis to detect genetic associations with cortical thickness in Alzheimer's disease.

Author

Bo-Hyun Kim, Sang Won Seo, Yu Hyun Park, JiHyun Kim, Hee Jin Kim, Hyemin Jang, Jihwan Yun, Mansu Kim, and Jun Pyo Kim

Subjects

LOCUS (Genetics), SINGLE nucleotide polymorphisms, KOREANS, POSITRON emission tomography, ALZHEIMER'S disease

Abstract

Introduction: Alzheimer's disease (AD) is a progressive neurodegenerative disease characterized by cerebral cortex atrophy. In this study, we used sparse canonical correlation analysis (SCCA) to identify associations between single nucleotide polymorphisms (SNPs) and cortical thickness in the Korean population. We also investigated the role of the SNPs in neurological outcomes, including neurodegeneration and cognitive dysfunction. Methods: We recruited 1125 Korean participants who underwent neuropsychological testing, brain magnetic resonance imaging, positron emission tomography, and microarray genotyping. We performed group-wise SCCA in Aβ negative (-) and Aβ positive (+) groups. In addition, we performed mediation, expression quantitative trait loci, and pathway analyses to determine the functional role of the SNPs. Results: We identified SNPs related to cortical thickness using SCCA in Ab negative and positive groups and identified SNPs that improve the prediction performance of cognitive impairments. Among them, rs9270580 was associated with cortical thickness by mediating Ab uptake, and three SNPs (rs2271920, rs6859, rs9270580) were associated with the regulation of CHRNA2, NECTIN2, and HLA genes. Conclusion: Our findings suggest that SNPs potentially contribute to cortical thickness in AD, which in turn leads to worse clinical outcomes. Our findings contribute to the understanding of the genetic architecture underlying cortical atrophy and its relationship with AD. [ABSTRACT FROM AUTHOR]

Published

2024

15. Parietal memory network and memory encoding versus retrieval impairments in PD‐MCI patients: A hippocampal volume and cortical thickness study.

Author

Sahin, Serhat, Velioglu, Halil Aziz, Yulug, Burak, Bayraktaroglu, Zubeyir, Yildirim, Suleyman, and Hanoglu, Lutfu

Abstract

Objective: The pathophysiology behind memory impairment in Parkinson's Disease Mild Cognitive Impairment (PD‐MCI) is unclear. This study aims to investigate the hippocampal and cortical atrophy patterns in PD‐MCI patients with different types of memory impairments, categorized as Retrieval Failure (RF) and Encoding Failure (EF). Methods: The study included 16 healthy controls (HC) and 34 PD‐MCI patients, divided into RF (N = 18) and EF (N = 16) groups based on their Verbal Memory Processes Test (VMPT) scores, including spontaneous recall, recognition, and Index of Sensitivity to Cueing (ISC). Hippocampal subfields and cortical thicknesses were measured using the FreeSurfer software for automatic segmentation. Results: Compared to the HC group, the EF group exhibited significant atrophy in the left lateral occipital region and the right caudal middle frontal, superior temporal, and inferior temporal regions (p⟨0.05). The RF group displayed significant atrophy in the left lateral occipital, middle temporal, and precentral regions, as well as the right pars orbitalis and superior frontal regions (p⟨0.05). Hippocampal subfield analysis revealed distinct volume differences between HC‐EF and RF‐EF groups, with significant reductions in the CA1, CA3, and CA4 subregions in the EF group, but no differences between HC and RF groups (p > 0.05). Conclusion: Gray matter atrophy patterns differ in PD‐MCI patients with encoding and retrieval memory impairments. The significant hippocampal atrophy in the EF group, particularly in the CA subregions, highlights its potential role in disease progression and memory decline. Additionally, the convergence of atrophy in the lateral occipital cortex across both RF and EF groups suggests the involvement of the Parietal Memory Network (PMN) in PD‐related memory impairment. [ABSTRACT FROM AUTHOR]

Published

2024

16. Altered Subcortical Brain Volume and Cortical Thickness Related to Insulin Resistance in Type 2 Diabetes Mellitus.

Author

Cao, Zidong, Ge, Limin, Lu, Weiye, Zhao, Kui, Chen, Yuna, Sun, Zhizhong, Qiu, Wenbin, Yue, Xiaomei, Li, Yifan, and Qiu, Shijun

Abstract

Purpose: The objective of this study is to examine the alterations in subcortical brain volume and cortical thickness among individuals diagnosed with Type 2 diabetes mellitus (T2DM) through the application of morphometry techniques and, additionally, to investigate the potential association between these modifications and insulin resistance (IR). Materials and methods: The present cross‐sectional study comprised a total of 121 participants (n = 48 with healthy controls [HCs] and n = 73 with T2DM) who were recruited and underwent a battery of cognitive testing and structural magnetic resonance imaging (MRI). FreeSurfer was used to process the MRI data. Analysis of covariance compared discrepancies in cortical thickness and subcortical brain volume between T2DM and HCs, adjusting for the potential confounding effects of gender, age, education, and body mass index (BMI). Exploratory partial correlations investigated links between IR and brain structure in T2DM participants. Results: Compared with HCs, individuals with T2DM demonstrated a cortical thickness decrease in the right caudal middle frontal gyrus, right pars opercularis, left precentral gyrus, and bilateral superior frontal gyrus. Furthermore, this study for T2DM found that the severity of IR was inversely related to the volume of the left putamen and left hippocampus, as well as the thickness of the left pars orbitalis, left pericalcarine, right entorhinal area, and right rostral anterior cingulate gyrus. Conclusion: The evidence for structural brain changes in T2DM was observed, and alterations in cortical thickness were concentrated in the frontal lobes. Correlations between IR and frontal cortical thinning may serve as a potential neuroimaging marker of T2DM and lead to various diabetes‐related brain complications. [ABSTRACT FROM AUTHOR]

Published

2024

17. Brain Iron in signature regions relating to cognitive aging in older adults: the Taizhou Imaging Study.

Author

Li, Rui, Fan, Yi‑Ren, Wang, Ying-Zhe, Lu, He‑Yang, Li, Pei-Xi, Dong, Qiang, Jiang, Yan-Feng, Chen, Xing-Dong, and Cui, Mei

Subjects

*COGNITIVE aging, *MONTREAL Cognitive Assessment, *MAGNETIC resonance imaging, *CEREBRAL atrophy, *OLDER people

Abstract

Background: Recent magnetic resonance imaging (MRI) studies have established that brain iron accumulation might accelerate cognitive decline in Alzheimer's disease (AD) patients. Both normal aging and AD are associated with cerebral atrophy in specific regions. However, no studies have investigated aging- and AD-selective iron deposition-related cognitive changes during normal aging. Here, we applied quantitative susceptibility mapping (QSM) to detect iron levels in cortical signature regions and assessed the relationships among iron, atrophy, and cognitive changes in older adults. Methods: In this Taizhou Imaging Study, 770 older adults (mean age 62.0 ± 4.93 years, 57.5% women) underwent brain MRI to measure brain iron and atrophy, of whom 219 underwent neuropsychological tests nearly every 12 months for up to a mean follow-up of 2.68 years. Global cognition was assessed using the Mini-Mental State Examination (MMSE) and Montreal Cognitive Assessment (MoCA). Domain-specific cognitive scores were obtained from MoCA subscore components. Regional analyses were performed for cortical regions and 2 signature regions where atrophy affected by aging and AD only: Aging (AG) -specific and AD signature meta-ROIs. The QSM and cortical morphometry means of the above ROIs were also computed. Results: Significant associations were found between QSM levels and cognitive scores. In particular, after adjusting for cortical thickness of regions of interest (ROIs), participants in the upper tertile of the cortical and AG-specific signature QSM exhibited worse ZMMSE than did those in the lower tertile [ β = -0.104, p = 0.026; β = -0.118, p = 0.021, respectively]. Longitudinal analysis suggested that QSM values in all ROIs might predict decline in ZMoCA and key domains such as attention and visuospatial function (all p < 0.05). Furthermore, iron levels were negatively correlated with classic MRI markers of cortical atrophy (cortical thickness, gray matter volume, and local gyrification index) in total, AG-specific signature and AD signature regions (all p < 0.05). Conclusion: AG- and AD-selective iron deposition was associated with atrophy and cognitive decline in elderly people, highlighting its potential as a neuroimaging marker for cognitive aging. [ABSTRACT FROM AUTHOR]

Published

2024

18. Blood‐derived microRNAs are related to cognitive domains in the general population.

Author

Melas, Konstantinos, Talevi, Valentina, Imtiaz, Mohammed Aslam, Etteldorf, Rika, Estrada, Santiago, Krüger, Dennis M., Pena‐Centeno, Tonatiuh, Aziz, N. Ahmad, Fischer, André, and Breteler, Monique M. B.

Abstract

INTRODUCTION: Blood‐derived microRNAs (miRNAs) are potential candidates for detecting and preventing subclinical cognitive dysfunction. However, replication of previous findings and identification of novel miRNAs associated with cognitive domains, including their relation to brain structure and the pathways they regulate, are still lacking. METHODS: We examined blood‐derived miRNAs and miRNA co‐expression clusters in relation to cognitive domains, structural magnetic resonance imaging measures, target gene expression, and genetic variants in 2869 participants of a population‐based cohort. RESULTS: Five previously identified and 14 novel miRNAs were associated with cognitive domains. Eleven of these were also associated with cortical thickness and two with hippocampal volume. Multi‐omics analysis showed that certain identified miRNAs were genetically influenced and regulated genes in pathways like neurogenesis and synapse assembly. DISCUSSION: We identified miRNAs associated with cognitive domains, brain regions, and neuronal processes affected by aging and neurodegeneration, making them promising candidate blood‐based biomarkers or therapeutic targets of subclinical cognitive dysfunction. Highlights: We investigated the association of blood‐derived microRNAs with cognitive domains.Five previously identified and 14 novel microRNAs were associated with cognition.Eleven cognition‐related microRNAs were also associated with cortical thickness.Identified microRNAs were linked to genes associated with neuronal functions.Results provide putative biomarkers or therapeutic targets of cognitive aging. [ABSTRACT FROM AUTHOR]

Published

2024

19. High Blood Pressure Is Associated With Lower Brain Volume and Cortical Thickness in Healthy Young Adults.

Author

Won, Junyeon, Ashley, John, Cardim, Danilo, Vongpatanasin, Wanpen, and Zhang, Rong

Subjects

BRAIN cortical thickness, YOUNG adults, MAGNETIC resonance imaging, HYPERTENSION, MIDDLE-aged persons

Abstract

BACKGROUND High blood pressure (BP) in middle-aged and older adults is associated with lower brain volume and cortical thickness assessed with structural magnetic resonance imaging (MRI). However, little evidence is available on young adults. We investigated the associations of high BP with brain volumes and cortical thickness in healthy young adults. METHODS This cross-sectional study included 1,095 young adults (54% women, 22–37 years) from the Human Connectome Project (HCP) who self-reported not having a history of hypertension or taking antihypertensive medications. Brachial systolic (SBP) and diastolic BP (DBP) were measured with a semi-automatic or manual sphygmomanometer during study visits. Structural MRI was used to measure gray matter (GM) and white matter (WM) volume and mean cortical thickness. Associations of BP and hypertension stage with total and regional brain volumes and cortical thickness were analyzed using linear regression and analysis of covariance (ANCOVA) after adjusting for age, sex, education years, body mass index (BMI), smoking, alcohol consumption history, zygosity, and total intracranial volume. RESULTS SBP and DBP were (mean ± SD) 123.6 ± 14.2 and 76.5 ± 10.6 mm Hg, respectively, (n  = 1,095). High DBP was associated with lower total GM (P  = 0.012), cortical GM (P  = 0.004), subcortical GM (P  = 0.012), and total WM volumes (P  = 0.031). High SBP and DBP were associated with lower regional cortical volume and cortical thickness. CONCLUSIONS These findings suggest that high BP may have deleterious effects on brain health at the early stage of adulthood. [ABSTRACT FROM AUTHOR]

Published

2024

20. Transcriptional Patterns of Brain Structural Covariance Network Abnormalities Associated With Suicidal Thoughts and Behaviors in Major Depressive Disorder.

Author

Qin, Kun, Li, Huiru, Zhang, Huawei, Yin, Li, Wu, Baolin, Pan, Nanfang, Chen, Taolin, Roberts, Neil, Sweeney, John A., Huang, Xiaoqi, Gong, Qiyong, and Jia, Zhiyun

Subjects

*BRAIN cortical thickness, *MAGNETIC resonance imaging, *SUICIDAL ideation, *SUICIDE prevention, *MENTAL depression, *PARTIAL least squares regression

Abstract

Although brain structural covariance network (SCN) abnormalities have been associated with suicidal thoughts and behaviors (STBs) in individuals with major depressive disorder (MDD), previous studies have reported inconsistent findings based on small sample sizes, and underlying transcriptional patterns remain poorly understood. Using a multicenter magnetic resonance imaging dataset including 218 MDD patients with STBs, 230 MDD patients without STBs, and 263 healthy control participants, we established individualized SCNs based on regional morphometric measures and assessed network topological metrics using graph theoretical analysis. Machine learning methods were applied to explore and compare the diagnostic value of morphometric and topological features in identifying MDD and STBs at the individual level. Brainwide relationships between STBs-related connectomic alterations and gene expression were examined using partial least squares regression. Group comparisons revealed that SCN topological deficits associated with STBs were identified in the prefrontal, anterior cingulate, and lateral temporal cortices. Combining morphometric and topological features allowed for individual-level characterization of MDD and STBs. Topological features made a greater contribution to distinguishing between patients with and without STBs. STBs-related connectomic alterations were spatially correlated with the expression of genes enriched for cellular metabolism and synaptic signaling. These findings revealed robust brain structural deficits at the network level, highlighting the importance of SCN topological measures in characterizing individual suicidality and demonstrating its linkage to molecular function and cell types, providing novel insights into the neurobiological underpinnings and potential markers for prediction and prevention of suicide. [ABSTRACT FROM AUTHOR]

Published

2024

21. Structural brain characteristics of epilepsy patients with comorbid migraine without aura.

Author

Zhang, Shujiang, Liu, Wenyu, Li, Jinmei, and Zhou, Dong

Subjects

*MIGRAINE aura, *FUSIFORM gyrus, *BRAIN cortical thickness, *CINGULATE cortex, *TEMPORAL lobe

Abstract

Migraine is a common bi-directional comorbidity of epilepsy, indicating potential complex interactions between the two conditions. However, no previous studies have used brain morphology analysis to assess possible interactions between epilepsy and migraine. Voxel-based morphometry (VBM), surface-based morphometry (SBM), and structural covariance networks (SCNs) can be used to detect morphological changes with high accuracy. We recruited 30 individuals with epilepsy and comorbid migraine without aura (EM), along with 20 healthy controls (HC) and 30 epilepsy controls (EC) without migraine. We used VBM, SBM, and SCN analysis to compare differences in gray matter volume, cortical thickness, and global level and local level graph theory indexes between the EM, EC, and HC groups to investigate structural brain changes in the EM patients. VBM analysis showed that the EM group had gray matter atrophy in the right temporal pole compared with the HC group (p < 0.001, false discovery rate correction [FDR]). Furthermore, the headache duration in the EM group was negatively correlated with the gray matter volume of the right temporal pole (p < 0.05). SBM analysis showed cortical atrophy in the left insula, left posterior cingulate gyrus, left postcentral gyrus, left middle temporal gyrus, and left fusiform gyrus in the EM compared with the HC group (p < 0.001, family wise error correction). We found a positive correlation between headache frequency and the cortical thickness of the left middle temporal gyrus (p < 0.05). SCN analysis revealed no differences in global parameters between the three groups. The area under the curve (AUC) of the nodal betweenness centrality in the right postcentral gyrus was lower in the EM group compared with the HC group (p < 0.001, FDR correction), and the AUC of the nodal degree in the right fusiform gyrus was lower in the EM group compared with the EC group (p < 0.001, FDR correction). We found clear differences in brain structure in the EM patients compared with the HC group. Accordingly, migraine episodes may influence brain structure in epilepsy patients. Conversely, abnormal brain structure may be an important factor in the development of epilepsy with comorbid migraine without aura. Further studies are needed to investigate the role of brain structure in individuals with epilepsy and comorbid migraine without aura. [ABSTRACT FROM AUTHOR]

Published

2024

22. Neurosustainability.

Author

Khalil, Mohamed Hesham

Subjects

ENVIRONMENTAL enrichment, COGNITION disorders, HUMAN evolution, MENTAL health, NEUROPLASTICITY

Abstract

While the human brain has evolved extraordinary abilities to dominate nature, modern living has paradoxically trapped it in a contemporary "cage" that stifles neuroplasticity. Within this modern environment lurk unseen natural laws with power to sustain the human brain's adaptive capacities - if consciously orchestrated into the environments we design. For too long our contemporary environments have imposed an unyielding static state, while still neglecting the brain's constant adaptive nature as it evolves to dominate the natural world with increasing sophistication. The theory introduced in this article aims to go back in nature without having to go back in time, introducing and expounding Neurosustainability as a novel paradigm seeing beyond the contemporary confines to architect environments and brains in parallel. Its integrated neuroevidenced framework proposes four enrichment scopes--spatial, natural, aesthetic, and social--each holding multifaceted attributes promising to sustain regions like the hippocampus, cortex and amygdala. Neurosustainability aims to liberate the quintessential essence of nature to sustain and enhance neuroplastic processes through a cycle that begins with design and extends through epigenetic changes. This paradigm shift aims to foster cognitive health and wellness by addressing issues like stress, depression, anxiety and cognitive decline common in the contemporary era thereby offering a path toward a more neurosustainable era aiming to nurture the evolution of the human brain now and beyond. [ABSTRACT FROM AUTHOR]

Published

2024

23. Comparative analysis of cortical anatomy in male participants with internet gaming disorder or tobacco use disorder: Insights from normative modeling.

Author

Ma, Xuefeng, Jiang, Anhang, Dai, Junhong, Li, Shuang, Chen, Hongan, Xie, Yong, Wang, Shizhen, Yang, Bo, Wang, Lingxiao, and Dong, Guang-Heng

Subjects

*GAMING disorder, *NICOTINE addiction, *KRIGING, *MAGNETIC resonance imaging, *TOBACCO use

Abstract

Research on individual differences in brain structural features of internet gaming disorder (IGD) and established addictions such as tobacco use disorder (TUD) is currently limited. This study utilized normative modeling to analyze the cortical thickness (CT) development patterns of male patients with IGD and TUD, aiming to provide further insights into whether IGD qualifies as an addiction. Surface-based brain morphometry (SBM) was used to calculate CT from T1-weighted magnetic resonance imaging data of 804 male participants (665 healthy individuals, 68 IGD and 71 TUD). Gaussian process regression was employed to generate normative models of CT development. Deviation maps were produced to depict deviations of IGD and TUD participants from the typical developmental patterns. Both addiction groups exhibited widespread cortical thinning, particularly in regions such as the bilateral temporal pole and medial orbitofrontal cortex. The TUD group demonstrated a higher degree of individualization and limited spatial overlap compared to the IGD group. Opposite trends in CT changes were observed between the two groups in the bilateral pericalcarine cortex and pars triangularis. These findings regarding the similarities and differences between IGD and TUD provide support for the idea that IGD shares common features with substance-related addictions and contribute to a deeper understanding of the neural mechanisms underlying IGD. [ABSTRACT FROM AUTHOR]

Published

2024

24. The association between adverse childhood experiences and alterations in brain volume and cortical thickness in adults with alcohol use disorder.

Author

Türkmen, Cagdas, Tan, Haoye, Gerhardt, Sarah, Bougelet, Emilie, Bernardo, Maria, Machunze, Noah, Grauduszus, Yasmin, Sicorello, Maurizio, Demirakca, Traute, Kiefer, Falk, and Vollstädt‐Klein, Sabine

Subjects

*ALCOHOLISM, *PREFRONTAL cortex, *ADVERSE childhood experiences, *BRAIN cortical thickness, *FRONTAL lobe

Abstract

Background: Previous studies have established a connection between adverse childhood experiences (ACE) and alcohol use disorder (AUD), both of which are associated with alterations in grey matter volume (GMV) and cortical thickness (CT). The current study aimed to assess the neurobiological impact of ACE specifically in the context of AUD, as well as the role of maltreatment type (i.e., abuse or neglect) and timing. Methods: Structural MRI data were collected from 35 adults with AUD (mean age: 40; 31% female) and 28 healthy controls (mean age: 36; 61% female). ACE were assessed retrospectively using the Childhood Trauma Questionnaire, and the Maltreatment and Abuse Chronology interview. Global and regional GMV and CT were estimated using voxel‐ and surface‐based morphometry. Results: Relative to the healthy controls, the AUD group had significantly reduced CT in the left inferior frontal gyrus, left circular sulcus of the insula and subcentral gyrus and sulci (cluster C1), and in the central sulcus and precentral gyrus (cluster C2). Within the AUD group, a reduction of CT in cluster C1 was significantly associated with higher severity of ACE and AUD. Type and timing analyses revealed a significant association between higher levels of abuse at ages 13 to 15 and reduced CT in cluster C1 within the AUD group. Conclusions: In adults with AUD, abuse experienced during early adolescence is associated with reduced CT in regions involved in inhibitory control, indicating the potential relevance of cognitive pathways in the association between ACE and AUD. Longitudinal studies are needed to confirm and expand upon current findings. [ABSTRACT FROM AUTHOR]

Published

2024

25. Baseline brain volume predicts home-based transcranial direct current stimulation effects on inattention in adults with attention-deficit/hyperactivity disorder.

Author

Rodrigues da Silva, Pedro Henrique, Leffa, Douglas T., Luethi, Matthias S., Silva, Roberta F., Ferrazza, Carolina Prietto, Picon, Felipe Almeida, Grevet, Eugenio Horacio, Bau, Claiton Henrique Dotto, Rovaris, Diego Luiz, Razza, Lais B., Caumo, Wolnei, Camprodon, Joan A., Rohde, Luis Augusto Paim, and Brunoni, André R.

Subjects

*PREFRONTAL cortex, *BRAIN cortical thickness, *ATTENTION-deficit hyperactivity disorder, *BRAIN stimulation, *TRANSCRANIAL direct current stimulation, *ELECTRIC currents

Abstract

Home-based transcranial direct current stimulation (Hb-tDCS) is a non-invasive brain stimulation technique that utilizes low-intensity electric currents delivered via scalp electrodes to modulate brain activity. It holds significant promise for addressing inattention in adults with attention-deficit/hyperactivity disorder (ADHD). However, its effectiveness varies among individuals, and predicting outcomes remains uncertain, partially due to the influence of individual differences in ADHD-related brain anatomy. We analyzed data from a subsample, composed by twenty-nine adult patients with ADHD, of the Treatment of Inattention Symptoms in Adult Patients with ADHD (TUNED) trial. Fourteen patients underwent active anodal right cathodal left dorsolateral prefrontal cortex (DLPFC) Hb-tDCS for 4 weeks and fifteen received sham-related tDCS intervention. Inattention outcome was evaluated at both baseline and endpoint (4th week). Baseline structural measures of the DLPFC, anterior cingulate cortex (ACC) and subcortical structures, previously associated with ADHD, were quantified. Several linear mixed models, with a three-way interaction between the fixed predictors brain volume or thickness, time, and treatment were calculated. Multiple comparison corrections were applied using the Benjamini-Hochberg method. Baseline volume of the left DLPFC regions middle frontal gyrus (t (25) = 3.33, p-adjusted = 0.045, Cohen's d = 1.33, 95% CI = [0.45, 2.19]), inferior frontal gyrus (orbital part) (t (25) = 3.10, p-adjusted = 0.045, Cohen's d = 1.24, 95% CI = [0.37, 2.08]), and of the left ACC supragenual (t (25) = 3.15, p-adjusted = 0.045, Cohen's d = 1.26, 95% CI = [0.39, 2.11]) presented significant association with the inattentive score improvement only in the active tDCS group. More specifically, the smaller these regions were, the more the symptoms improved following anodal right cathodal left DLPFC Hb-tDCS . Hb-tDCS was associated with greater improvement in brain areas related to attention regulation. Brain MRI can be potentially used to predict clinical response to tDCS in ADHD adults. [ABSTRACT FROM AUTHOR]

Published

2024

26. Hypothalamic MRI-derived microstructure is associated with neurocognitive aging in humans.

Author

Aleksic, Sandra, Fleysher, Roman, Weiss, Erica F., Tal, Noa, Darby, Timothy, Blumen, Helena M., Vazquez, Juan, Ye, Kenny Q., Gao, Tina, Siegel, Shira M., Barzilai, Nir, Lipton, Michael L., and Milman, Sofiya

Subjects

*DIFFUSION magnetic resonance imaging, *AGING, *OLDER people

Abstract

The hypothalamus regulates homeostasis across the lifespan and is emerging as a regulator of aging. In murine models, aging-related changes in the hypothalamus, including microinflammation and gliosis, promote accelerated neurocognitive decline. We investigated relationships between hypothalamic microstructure and features of neurocognitive aging, including cortical thickness and cognition, in a cohort of community-dwelling older adults (age range 65–97 years, n=124). Hypothalamic microstructure was evaluated with two magnetic resonance imaging diffusion metrics: mean diffusivity (MD) and fractional anisotropy (FA), using a novel image processing pipeline. Hypothalamic MD was cross-sectionally positively associated with age and it was negatively associated with cortical thickness. Hypothalamic FA, independent of cortical thickness, was cross-sectionally positively associated with neurocognitive scores. An exploratory analysis of longitudinal neurocognitive performance suggested that lower hypothalamic FA may predict cognitive decline. No associations between hypothalamic MD, age, and cortical thickness were identified in a younger control cohort (age range 18–63 years, n=99). To our knowledge, this is the first study to demonstrate that hypothalamic microstructure is associated with features of neurocognitive aging in humans. • In animal models, aging-related changes in the hypothalamus drive brain aging. • The role of the hypothalamus in neurocognitive aging in humans is unknown. • We show that hypothalamic microstructure is altered with aging in older adults. • Hypothalamic microstructure is associated with cortical thickness and cognition. [ABSTRACT FROM AUTHOR]

Published

2024

27. The relationship between cortical thickness and white matter hyperintensities in mid to late life.

Author

Jiménez-Balado, Joan, Habeck, Christian, Stern, Yaakov, and Eich, Teal

Subjects

*WHITE matter (Nerve tissue), *CEREBRAL cortical thinning, *PARIETAL lobe, *MIDDLE age, *COGNITION disorders

Abstract

White matter hyperintensities (WMH) are associated with cortical thinning. Although they are primarily detected in older participants, these lesions can appear in younger and midlife individuals. Here, we tested whether WMH are associated with cortical thinning in relatively younger (26–50 years) and relatively older (58–84) participants who were free of dementia, and how these associations are moderated by WMH localization. WMH were automatically quantified and categorized according to the localization of three classes of white matter tracts: association, commissural and projection fibers. Mediation analyses were used to infer whether differences in cortical thickness between younger and older participants were explained by WMH. Our results revealed that total WMH explained between 20.6 % and 65.5 % of the effect of age on cortical thickness in AD-signature regions including the lateral temporal lobes and supramarginal gyrus, among others. This mediation was slightly stronger for projection WMH, although it was still significant for association and commissural WMH. These results suggest that there is an interplay between vascular and AD causes of cognitive impairment that starts at younger ages. • White matter hyperintensities (WMH) are apparent in middle-age. • WMH correlate with cortical thickness, especially in younger adults. • WMH explain up to 65.6 % of age-related cortical thickness differences. • The effect of WMH on atrophy starts during the mid-life. [ABSTRACT FROM AUTHOR]

Published

2024

28. Gender and age differences in the associations between cortical thickness and hand osteoarthritis severity: data from the Osteoarthritis Initiative.

Author

Smith, Stacy E., Driban, Jeffrey B., Eaton, Charles B., Schaefer, Lena F., Miao, Quinley R., Roberts, Mary B., Cauley, Jane A., McAlindon, Timothy E., and Duryea, Jeffrey

Abstract

To evaluate gender differences in the association between metacarpal cortical thickness (T cort)—a surrogate for bone density—and severity of radiographic hand osteoarthritis (HOA) in a longitudinal observational study. Hand radiographs of 3575 participants (2039 F/1536 M) from the Osteoarthritis Initiative were assessed at baseline and 48 months. A reader used a semi-automated software tool to calculate T cort , a measurement of the cortical thickness, for metacarpals 2–4. Average T cort at baseline and change in T cort from baseline to 48 months was determined and stratified by gender and age for 7 5-year age groups. Spearman's rank correlation coefficients were calculated for the association of baseline T cort and 2 measures of baseline HOA severity: the sum of Kellgren-Lawrence (KL) grade and total number of joints with radiographic HOA. Longitudinally, logistic regression was used to assess the relationship of T cort loss to new finger joint radiographic HOA, increase in KL grades, and incident hand pain. Male T cort was higher than females. Significant correlations between T cort and radiographic severity were noted for women but not men, with stronger associations among women >60 years (rho = −0.25; 95% confidence interval (CI) = −0.31 to −0.19). Statistically significant associations were seen between T cort change and radiographic osteoarthritis change among women but not men, with substantial gender differences for T cort change, particularly ages 50 to 70 years (p < 0.01; e.g., T cort change ages 55 to <60: males = −0.182 (0.118), females = −0.219 (0.124)). We found significant HOA-related gender differences in T cort , suggesting the involvement of female bone loss during and after menopause. [ABSTRACT FROM AUTHOR]

Published

2024

29. Evaluation of cortical thickness and volume differences of the cerebellum in Parkinson's cases.

Author

Ocana-Insuasty, Seda, Oz, Nuriye, Karabekir, Hamit Selim, Yildirim, Merve, Karaali, Kamil, Ozkaynak, Sehur Sibel, and Keles-Celik, Nigar

Subjects

PARKINSON'S disease, ALZHEIMER'S disease, PATHOLOGICAL anatomy, MAGNETIC resonance imaging, CEREBRAL atrophy

Abstract

Parkinson's disease (PD) is the most common neurodegenerative disease after Alzheimer's disease. PD causes degenerative changes in the cerebellum. It is known that the cerebellum does not have a symmetrical anatomy and some pathological disorders may cause asymmetric changes in the cerebellum. In this study, our aim is evaluate whether or not cases with PD show age and gender dependent cerebellar changes and cerebellar asymmetry comparing with healthy subjects. We also aimed to depict the probable cortical thickness differences in cases with PD by using a stereological technique. The study evaluated the volumetric assesment of each cortical cerebellar hemisphere and total cerebellum by applying a stereological technique on magnetic resonance images. The age and gender-matched study was composed of 47 adult cases with PD and 47 healthy subjets as control. In the PD group, right and left cerebellar hemisphere volume, total cerebellum volume, and cortical thickness of the right and left cerebellar hemispheres were significantly lower than the control group (p<0.01). Although there was significant cerebellar atrophy and asymmetry in PD cases with age between 40-71, the study showed no statistically significant cerebellar asymmetry in cases over 70 years of age. However, no significant difference was detected depending on gender. Our findings suggest that in PD, cerebellum's cortical thickness and volume decreases. The decrease in the volume and cortical thickness of the cerebellum increases with age, regardless of gender, compared to healthy individuals. However, this difference begins to close with age. [ABSTRACT FROM AUTHOR]

Published

2024

30. Correlation Between Cortical Thickness Abnormalities of the Olfactory Sulcus and Olfactory Identification Disorder and Persistent Auditory Verbal Hallucinations in Chinese Patients With Chronic Schizophrenia.

Author

Ren, Honghong, Li, Zongchang, Li, Jinguang, Zhou, Jun, He, Ying, Li, Chunwang, Wang, Qianjin, Chen, Xiaogang, and Tang, Jinsong

Subjects

CEREBRAL cortex anatomy, CEREBRAL cortex abnormalities, WORD deafness, RESEARCH funding, DATA analysis, NEURAL pathways, SCHIZOPHRENIA, MAGNETIC resonance imaging, SEVERITY of illness index, HALLUCINATIONS, CEREBRAL cortex, STATISTICS, SMELL disorders, NEURORADIOLOGY

Abstract

Background and Hypothesis Persistent auditory verbal hallucinations (pAVHs) and olfactory identification impairment are common in schizophrenia (SCZ), but the neuroimaging mechanisms underlying both pAVHs and olfactory identification impairment are unclear. This study aimed to investigate whether pAVHs and olfactory identification impairment in SCZ patients are associated with changes in cortical thickness. Study Design In this study, cortical thickness was investigated in 78 SCZ patients with pAVHs (pAVH group), 58 SCZ patients without AVHs (non-AVH group), and 83 healthy controls (HC group) using 3T magnetic resonance imaging. The severity of pAVHs was assessed by the Auditory Hallucination Rating Scale. Olfactory identification deficits were assessed using the Odor Stick Identification Test for Japanese (OSIT-J). In addition, the relationship between the severity of pAVHs and olfactory identification disorder and cortical thickness abnormalities was determined. Study Results Significant reductions in cortical thickness were observed in the right medial orbital sulcus (olfactory sulcus) and right orbital sulcus (H-shaped sulcus) in the pAVH group compared to both the non-AVH and HC groups (P  < .003, Bonferroni correction). Furthermore, the severity of pAVHs was found to be negatively correlated with the reduction in cortical thickness in the olfactory sulcus and H-shaped sulcus. Additionally, a decrease in cortical thickness in the olfactory sulcus showed a positive correlation with the OSIT-J scores (P  < .05, false discovery rate correction). Conclusions Cortical thickness abnormalities in the olfactory sulcus may be a common neuroimaging mechanism for pAVHs and olfactory identification deficits in SCZ patients. [ABSTRACT FROM AUTHOR]

Published

2024

31. Brain Iron in signature regions relating to cognitive aging in older adults: the Taizhou Imaging Study

Author

Rui Li, Yi‑Ren Fan, Ying-Zhe Wang, He‑Yang Lu, Pei-Xi Li, Qiang Dong, Yan-Feng Jiang, Xing-Dong Chen, and Mei Cui

Subjects

Aging-specific signature, AD signature, Iron, Atrophy, Cortical thickness, Cognition, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Recent magnetic resonance imaging (MRI) studies have established that brain iron accumulation might accelerate cognitive decline in Alzheimer’s disease (AD) patients. Both normal aging and AD are associated with cerebral atrophy in specific regions. However, no studies have investigated aging- and AD-selective iron deposition-related cognitive changes during normal aging. Here, we applied quantitative susceptibility mapping (QSM) to detect iron levels in cortical signature regions and assessed the relationships among iron, atrophy, and cognitive changes in older adults. Methods In this Taizhou Imaging Study, 770 older adults (mean age 62.0 ± 4.93 years, 57.5% women) underwent brain MRI to measure brain iron and atrophy, of whom 219 underwent neuropsychological tests nearly every 12 months for up to a mean follow-up of 2.68 years. Global cognition was assessed using the Mini-Mental State Examination (MMSE) and Montreal Cognitive Assessment (MoCA). Domain-specific cognitive scores were obtained from MoCA subscore components. Regional analyses were performed for cortical regions and 2 signature regions where atrophy affected by aging and AD only: Aging (AG) -specific and AD signature meta-ROIs. The QSM and cortical morphometry means of the above ROIs were also computed. Results Significant associations were found between QSM levels and cognitive scores. In particular, after adjusting for cortical thickness of regions of interest (ROIs), participants in the upper tertile of the cortical and AG-specific signature QSM exhibited worse ZMMSE than did those in the lower tertile [ $$\:\beta\:$$ β = -0.104, p = 0.026; $$\:\beta\:$$ β = -0.118, p = 0.021, respectively]. Longitudinal analysis suggested that QSM values in all ROIs might predict decline in ZMoCA and key domains such as attention and visuospatial function (all p

Published

2024

32. Structural brain characteristics of epilepsy patients with comorbid migraine without aura

Author

Shujiang Zhang, Wenyu Liu, Jinmei Li, and Dong Zhou

Subjects

Epilepsy, Comorbid migraine without aura, Brain structure, Gray matter volume, Cortical thickness, Structural covariance network, Medicine, Science

Abstract

Abstract Migraine is a common bi-directional comorbidity of epilepsy, indicating potential complex interactions between the two conditions. However, no previous studies have used brain morphology analysis to assess possible interactions between epilepsy and migraine. Voxel-based morphometry (VBM), surface-based morphometry (SBM), and structural covariance networks (SCNs) can be used to detect morphological changes with high accuracy. We recruited 30 individuals with epilepsy and comorbid migraine without aura (EM), along with 20 healthy controls (HC) and 30 epilepsy controls (EC) without migraine. We used VBM, SBM, and SCN analysis to compare differences in gray matter volume, cortical thickness, and global level and local level graph theory indexes between the EM, EC, and HC groups to investigate structural brain changes in the EM patients. VBM analysis showed that the EM group had gray matter atrophy in the right temporal pole compared with the HC group (p

Published

2024

33. Higher cortical thickness/volume in Alzheimer’s-related regions: protective factor or risk factor?

Author

Williams, McKenna E, Elman, Jeremy A, Bell, Tyler R, Dale, Anders M, Eyler, Lisa T, Fennema-Notestine, Christine, Franz, Carol E, Gillespie, Nathan A, Hagler, Donald J, Lyons, Michael J, McEvoy, Linda K, Neale, Michael C, Panizzon, Matthew S, Reynolds, Chandra A, Sanderson-Cimino, Mark, and Kremen, William S

Subjects

Biological Psychology, Psychology, Alzheimer's Disease, Neurosciences, Neurodegenerative, Dementia, Acquired Cognitive Impairment, Behavioral and Social Science, Brain Disorders, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Clinical Research, Prevention, Aging, 2.1 Biological and endogenous factors, Neurological, Male, Humans, Alzheimer Disease, Protective Factors, Brain, Risk Factors, Magnetic Resonance Imaging, Alzheimer's disease, Neuroimaging, Signatures, Cortical thickness, Mean diffusivity, Alzheimer’s disease, Clinical Sciences, Neurology & Neurosurgery, Biological psychology

Abstract

Some evidence suggests a biphasic pattern of changes in cortical thickness wherein higher, rather than lower, thickness is associated with very early Alzheimer's disease (AD) pathology. We examined whether integrating information from AD brain signatures based on mean diffusivity (MD) can aid in the interpretation of cortical thickness/volume as a risk factor for future AD-related changes. Participants were 572 men in the Vietnam Era Twin Study of Aging who were cognitively unimpaired at baseline (mean age = 56 years; range = 51-60). Individuals with both high thickness/volume signatures and high MD signatures at baseline had lower cortical thickness/volume in AD signature regions and lower episodic memory performance 12 years later compared to those with high thickness/volume and low MD signatures at baseline. Groups did not differ in level of young adult cognitive reserve. Our findings are in line with a biphasic model in which increased cortical thickness may precede future decline and establish the value of examining cortical MD alongside cortical thickness to identify subgroups with differential risk for poorer brain and cognitive outcomes.

Published

2023

34. Genetic and Environmental Influences on Structural and Diffusion-Based Alzheimer’s Disease Neuroimaging Signatures Across Midlife and Early Old Age

Author

Williams, McKenna E, Gillespie, Nathan A, Bell, Tyler R, Dale, Anders M, Elman, Jeremy A, Eyler, Lisa T, Fennema-Notestine, Christine, Franz, Carol E, Hagler, Donald J, Lyons, Michael J, McEvoy, Linda K, Neale, Michael C, Panizzon, Matthew S, Reynolds, Chandra A, Sanderson-Cimino, Mark, and Kremen, William S

Subjects

Biological Psychology, Psychology, Neurodegenerative, Biomedical Imaging, Dementia, Acquired Cognitive Impairment, Genetics, Brain Disorders, Alzheimer's Disease, Aging, Neurosciences, Prevention, Clinical Research, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), 4.1 Discovery and preclinical testing of markers and technologies, 2.1 Biological and endogenous factors, Neurological, Male, Humans, Child, Alzheimer Disease, Diffusion Tensor Imaging, Neuroimaging, Magnetic Resonance Imaging, Brain, Alzheimer’s disease, Brain age, Cortical thickness, Early prediction, Mean diffusivity, Biological psychology, Clinical and health psychology

Abstract

BackgroundComposite scores of magnetic resonance imaging-derived metrics in brain regions associated with Alzheimer's disease (AD), commonly termed AD signatures, have been developed to distinguish early AD-related atrophy from normal age-associated changes. Diffusion-based gray matter signatures may be more sensitive to early AD-related changes compared with thickness/volume-based signatures, demonstrating their potential clinical utility. The timing of early (i.e., midlife) changes in AD signatures from different modalities and whether diffusion- and thickness/volume-based signatures each capture unique AD-related phenotypic or genetic information remains unknown.MethodsOur validated thickness/volume signature, our novel mean diffusivity (MD) signature, and a magnetic resonance imaging-derived measure of brain age were used in biometrical analyses to examine genetic and environmental influences on the measures as well as phenotypic and genetic relationships between measures over 12 years. Participants were 736 men from 3 waves of the Vietnam Era Twin Study of Aging (VETSA) (baseline/wave 1: mean age [years] = 56.1, SD = 2.6, range = 51.1-60.2). Subsequent waves occurred at approximately 5.7-year intervals.ResultsMD and thickness/volume signatures were highly heritable (56%-72%). Baseline MD signatures predicted thickness/volume signatures over a decade later, but baseline thickness/volume signatures showed a significantly weaker relationship with future MD signatures. AD signatures and brain age were correlated, but each measure captured unique phenotypic and genetic variance.ConclusionsCortical MD and thickness/volume AD signatures are heritable, and each signature captures unique variance that is also not explained by brain age. Moreover, results are in line with changes in MD emerging before changes in cortical thickness, underscoring the utility of MD as a very early predictor of AD risk.

Published

2023

35. Neural correlates of anhedonia in young adults with subthreshold depression: A graph theory approach for cortical-subcortical structural covariance.

Author

Yun, Je-Yeon, Choi, Soo-Hee, Park, Susan, Yoo, So Young, and Jang, Joon Hwan

Subjects

*MENTAL depression, *PARIETAL lobe, *BRAIN diseases, *MAGNETIC resonance imaging, *ANHEDONIA

Abstract

Anhedonia is an enduring symptom of subthreshold depression (StD) and predict later onset of major depressive disorder (MDD). Brain structural covariance describes the inter-regional distribution of morphological changes compared to healthy controls (HC) and reflects brain maturation and disease progression. We investigated neural correlates of anhedonia from the structural covariance. T1-weighted brain magnetic resonance images were acquired from 79 young adults (26 StD, 30 MDD, and 23 HC). Intra-individual structural covariance networks of 68 cortical surface area (CSAs), 68 cortical thicknesses (CTs), and 14 subcortical volumes were constructed. Group-level hubs and principal edges were defined using the global and regional graph metrics, compared between groups, and examined for the association with anhedonia severity. Global network metrics were comparable among the StD, MDD, and HC. StD exhibited lower centralities of left pallidal volume than HC. StD showed higher centralities than HC in the CSAs of right rostral anterior cingulate cortex (ACC) and pars triangularis, and in the CT of left pars orbitalis. Less anhedonia was associated with higher centralities of left pallidum and right amygdala, higher edge betweenness centralities in the structural covariance (EBSC) of left postcentral gyrus-parahippocampal gyrus and LIPL-right amygdala. More anhedonia was associated with higher centralities of left inferior parietal lobule (LIPL), left postcentral gyrus, left caudal ACC, and higher EBSC of LIPL-left postcentral gyrus, LIPL-right lateral occipital gyrus, and left caudal ACC-parahippocampal gyrus. This study has a cross-sectional design. Structural covariance of brain morphologies within the salience and limbic networks, and among the salience-limbic-default mode-somatomotor-visual networks, are possible neural correlates of anhedonia in depression. [Display omitted] • The first brain structural covariance(SC) study of anhedonia in subthreshold depression(StD) • Lowered global segregation and integration of SC in StD than healthy control (HC) • Less anhedonia associated with higher centrality of amygdala and pallidum in the SC • More anhedonia with lower centrality of inferior parietal lobule, anterior cingulate, postcentral gyrus • Inter-network SC among the default mode-limbic-somatomotor-visual networks underlie anhedonia [ABSTRACT FROM AUTHOR]

Published

2024

36. Age-related decline in thickness and surface area in the cortical surface and hippocampus: lifespan trajectories and decade-by-decade analyses.

Author

Yu, Junhong

Subjects

SURFACE area measurement, CEREBRAL cortical thinning, SURFACE area, HIPPOCAMPUS (Brain), MORPHOLOGY

Abstract

Previous studies on age-related changes in cortical and hippocampal morphology were not designed or able to reveal the complex spatial patterns of changes across the lifespan. To this end, the current study examined these changes in a decade-by-decade manner by comparing consecutive age decades at the vertex-wise level. Additionally, the lifespan trajectories of cortical/hippocampal mean thickness and total surface area were modeled and plotted out to provide an overview of their age-related changes. Using two lifespan datasets (Ntotal = 1378; 18 ≤ age ≤ 100), vertex-wise thickness and surface area measurements were extracted from the cortical and unfolded hippocampal surfaces and analyzed using whole-brain/hippocampus vertex-wise analyses. Lifespan trajectories of cortical/hippocampal mean thickness and total surface area were modeled with generalized additive models for location, scale, and shape. These models revealed fairly linear declines in both cortical measures and inverted U-shaped trajectories for both hippocampal measures. Across the different age decades, the sizes and locations of cortical thinning clusters were highly variable across the age decades. No significant clusters of cortical surface area changes were observed across the age decades. Significant clusters of hippocampal surface area and thickness reduction were not observed until the 70s. Generally, the agreement between datasets on the hippocampal findings was much higher than those of the cortical surface. These findings revealed important nuances in the age-related changes of cortical and hippocampal morphology and cautioned against using lifespan trajectories to infer decade-by-decade changes in the cortical surface and the hippocampus. [ABSTRACT FROM AUTHOR]

Published

2024

37. Poor sleep and decreased cortical thickness in veterans with mild traumatic brain injury and post-traumatic stress disorder

Author

Murray J. Andrews, David H. Salat, William P. Milberg, Regina E. McGlinchey, and Catherine B. Fortier

Subjects

Trauma, Brain injury, Sleep, Veterans, Cortical thickness, Medicine (General), R5-920, Military Science

Abstract

Abstract Background Poor sleep quality has been associated with changes in brain volume among veterans, particularly those who have experienced mild traumatic brain injury (mTBI) and post-traumatic stress disorder (PTSD). This study sought to investigate (1) whether poor sleep quality is associated with decreased cortical thickness in Iraq and Afghanistan war veterans, and (2) whether these associations differ topographically depending on the presence or absence of mTBI and PTSD. Methods A sample of 440 post-9/11 era U.S. veterans enrolled in the Translational Research Center for Traumatic Brain Injury and Stress Disorders study at VA Boston, MA from 2010 to 2022 was included in the study. We examined the relationship between sleep quality, as measured by the Pittsburgh Sleep Quality Index (PSQI), and cortical thickness in veterans with mTBI (n = 57), PTSD (n = 110), comorbid mTBI and PTSD (n = 129), and neither PTSD nor mTBI (n = 144). To determine the topographical relationship between subjective sleep quality and cortical thickness in each diagnostic group, we employed a General Linear Model (GLM) at each vertex on the cortical mantle. The extent of topographical overlap between the resulting statistical maps was assessed using Dice coefficients. Results There were no significant associations between PSQI and cortical thickness in the group without PTSD or mTBI (n = 144) or in the PTSD-only group (n = 110). In the mTBI-only group (n = 57), lower sleep quality was significantly associated with reduced thickness bilaterally in frontal, cingulate, and precuneus regions, as well as in the right parietal and temporal regions (β = −0.0137, P

Published

2024

38. Lower in vivo locus coeruleus integrity is associated with lower cortical thickness in older individuals with elevated Alzheimer’s pathology: a cohort study

Author

Nina Engels-Domínguez, Elouise A. Koops, Stephanie Hsieh, Emma E. Wiklund, Aaron P. Schultz, Joost M. Riphagen, Prokopis C. Prokopiou, Bernard J. Hanseeuw, Dorene M. Rentz, Reisa A. Sperling, Keith A. Johnson, and Heidi I. L. Jacobs

Subjects

Locus coeruleus, Cortical thickness, Neurodegeneration, Brain structure, MRI, PiB-PET, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Autopsy work indicates that the widely-projecting noradrenergic pontine locus coeruleus (LC) is among the earliest regions to accumulate hyperphosphorylated tau, a neuropathological Alzheimer’s disease (AD) hallmark. This early tau deposition is accompanied by a reduced density of LC projections and a reduction of norepinephrine’s neuroprotective effects, potentially compromising the neuronal integrity of LC’s cortical targets. Previous studies suggest that lower magnetic resonance imaging (MRI)-derived LC integrity may signal cortical tissue degeneration in cognitively healthy, older individuals. However, whether these observations are driven by underlying AD pathology remains unknown. To that end, we examined potential effect modifications by cortical beta-amyloid and tau pathology on the association between in vivo LC integrity, as quantified by LC MRI signal intensity, and cortical neurodegeneration, as indexed by cortical thickness. Methods A total of 165 older individuals (74.24 ± 9.72 years, ~ 60% female, 10% cognitively impaired) underwent whole-brain and dedicated LC 3T-MRI, Pittsburgh Compound-B (PiB, beta-amyloid) and Flortaucipir (FTP, tau) positron emission tomography. Linear regression analyses with bootstrapped standard errors (n = 2000) assessed associations between bilateral cortical thickness and i) LC MRI signal intensity and, ii) LC MRI signal intensity interacted with cortical FTP or PiB (i.e., EC FTP, IT FTP, neocortical PiB) in the entire sample and a low beta-amyloid subsample. Results Across the entire sample, we found a direct effect, where lower LC MRI signal intensity was associated with lower mediolateral temporal cortical thickness. Evaluation of potential effect modifications by FTP or PiB revealed that lower LC MRI signal intensity was related to lower cortical thickness, particularly in individuals with elevated (EC, IT) FTP or (neocortical) PiB. The latter result was present starting from subthreshold PiB values. In low PiB individuals, lower LC MRI signal intensity was related to lower EC cortical thickness in the context of elevated EC FTP. Conclusions Our findings suggest that LC-related cortical neurodegeneration patterns in older individuals correspond to regions representing early Braak stages and may reflect a combination of LC projection density loss and emergence of cortical AD pathology. This provides a novel understanding that LC-related cortical neurodegeneration may signal downstream consequences of AD-related pathology, rather than being exclusively a result of aging.

Published

2024

39. Longitudinal neurofunctional changes in medication overuse headache patients after mindfulness practice in a randomized controlled trial (the MIND-CM study)

Author

Davide Fedeli, Giuseppe Ciullo, Greta Demichelis, Jean Paul Medina Carrion, Maria Grazia Bruzzone, Emilio Ciusani, Alessandra Erbetta, Stefania Ferraro, Marina Grisoli, Erika Guastafierro, Domenico D’Amico, Alberto Raggi, Anna Nigri, and Licia Grazzi

Subjects

Mindfulness, Medication overuse headache, Resting state fMRI, Salience network, Chronic pain, Cortical thickness, Medicine

Abstract

Abstract Background Mindfulness practice has gained interest in the management of Chronic Migraine associated with Medication Overuse Headache (CM-MOH). Mindfulness is characterized by present-moment self-awareness and relies on attention control and emotion regulation, improving headache-related pain management. Mindfulness modulates the Default Mode Network (DMN), Salience Network (SN), and Fronto-Parietal Network (FPN) functional connectivity. However, the neural mechanisms underlying headache-related pain management with mindfulness are still unclear. In this study, we tested neurofunctional changes after mindfulness practice added to pharmacological treatment as usual in CM-MOH patients. Methods The present study is a longitudinal phase-III single-blind Randomized Controlled Trial (MIND-CM study; NCT03671681). Patients had a diagnosis of CM-MOH, no history of neurological and severe psychiatric comorbidities, and were attending our specialty headache centre. Patients were divided in Treatment as Usual (TaU) and mindfulness added to TaU (TaU + MIND) groups. Patients underwent a neuroimaging and clinical assessment before the treatment and after one year. Longitudinal comparisons of DMN, SN, and FPN connectivity were performed between groups and correlated with clinical changes. Vertex-wise analysis was performed to assess cortical thickness changes. Results 177 CM-MOH patients were randomized to either TaU group or TaU + MIND group. Thirty-four patients, divided in 17 TaU and 17 TaU + MIND, completed the neuroimaging follow-up. At the follow-up, both groups showed an improvement in most clinical variables, whereas only TaU + MIND patients showed a significant headache frequency reduction (p = 0.028). After one year, TaU + MIND patients showed greater SN functional connectivity with the left posterior insula (p-FWE = 0.007) and sensorimotor cortex (p-FWE = 0.026). In TaU + MIND patients only, greater SN-insular connectivity was associated with improved depression scores (r = -0.51, p = 0.038). A longitudinal increase in cortical thickness was observed in the insular cluster in these patients (p = 0.015). Increased anterior cingulate cortex thickness was also reported in TaU + MIND group (p-FWE = 0.02). Conclusions Increased SN-insular connectivity might modulate chronic pain perception and the management of negative emotions. Enhanced SN-sensorimotor connectivity could reflect improved body-awareness of painful sensations. Expanded cingulate cortex thickness might sustain improved cognitive processing of nociceptive information. Our findings unveil the therapeutic potential of mindfulness and the underlying neural mechanisms in CM-MOH patients. Trial Registration Name of Registry; MIND-CM study; Registration Number ClinicalTrials.gov identifier: NCT0367168; Registration Date: 14/09/2018

Published

2024

40. Mapping brain morphology to cognitive deficits: a study on PD-CRS scores in Parkinson's disease with mild cognitive impairment.

Author

Renato Brandão, Pedro, Assis Pereira, Danilo, Cortez Grippe, Talyta, de Carvalho Bispo, Diógenes Diego, Maluf, Fernando Bisinoto, Titze-de-Almeida, Ricardo, de Almeida e Castro, Brenda Macedo, Munhoz, Renato Puppi, Henriques Tavares, Maria Clotilde, and Cardoso, Francisco

Subjects

MILD cognitive impairment, MAGNETIC resonance imaging, PARKINSON'S disease, MONTREAL Cognitive Assessment, PARIETAL lobe, GRAY matter (Nerve tissue), MIRROR neurons

Abstract

Background: The Parkinson's Disease-Cognitive Rating Scale (PD-CRS) is a widely used tool for detecting mild cognitive impairment (MCI) in Parkinson's Disease (PD) patients, however, the neuroanatomical underpinnings of this test's outcomes require clarification. This study aims to: (a) investigate cortical volume (CVol) and cortical thickness (CTh) disparities between PD patients exhibiting mild cognitive impairment (PD-MCI) and those with preserved cognitive abilities (PD-IC); and (b) identify the structural correlates in magnetic resonance imaging (MRI) of overall PD-CRS performance, including its subtest scores, within a non-demented PD cohort. Materials and methods: This study involved 51 PD patients with Hoehn & Yahr stages I-II, categorized into two groups: PD-IC (n =≤36) and PD-MCI (n =≤15). Cognitive screening evaluations utilized the PD-CRS and the Montreal Cognitive Assessment (MoCA). PD-MCI classification adhered to the Movement Disorder Society Task Force criteria, incorporating extensive neuropsychological assessments. The interrelation between brain morphology and cognitive performance was determined using FreeSurfer. Results: Vertex-wise analysis of the entire brain demonstrated a notable reduction in CVol within a 2,934"mm2 cluster, encompassing parietal and temporal regions, in the PD-MCI group relative to the PD-IC group. Lower PD-CRS total scores correlated with decreased CVol in the middle frontal, superior temporal, inferior parietal, and cingulate cortices. The PD-CRS subtests for Sustained Attention and Clock Drawing were associated with cortical thinning in distinct regions: the Clock Drawing subtest correlated with changes in the parietal lobe, insula, and superior temporal cortex morphology; while the PD-CRS frontal-subcortical scores presented positive correlations with CTh in the transverse temporal, medial orbitofrontal, superior temporal, precuneus, fusiform, and supramarginal regions. Additionally, PD-CRS subtests for Semantic and Alternating verbal fluency were linked to CTh changes in orbitofrontal, temporal, fusiform, insula, and precentral regions. Conclusion: PD-CRS performance mirrors neuroanatomical changes across extensive fronto-temporo-parietal areas, covering both lateral and medial cortical surfaces, in PD patients without dementia. The observed changes in CVol and CTh associated with this cognitive screening tool suggest their potential as surrogate markers for cognitive decline in PD. These findings warrant further exploration and validation in multicenter studies involving independent patient cohorts. [ABSTRACT FROM AUTHOR]

Published

2024

41. Executive function and cortical thickness in biomarker aMCI.

Author

Scarisbrick, David M., Keith, Cierra M., Vieira Ligo Teixeira, Camila, Mehta, Rashi I., Phelps, Holly E., Coleman, Michelle M., Ward, Melanie, Miller, Mark, Navia, Osvaldo, Pockl, Stephanie, Rajabalee, Nafiisah, Marano, Gary, Malone, Joseph, D’Haese, Pierre F., Rezai, Ali R., Wilhelmsen, Kirk, and Haut, Marc W.

Subjects

*AMNESTIC mild cognitive impairment, *TRAIL Making Test, *CEREBRAL atrophy, *PARIETAL lobe, *NEUROPSYCHOLOGICAL tests

Abstract

AbstractIntroductionMethodResultsDiscussionMemory deficits are the primary symptom in amnestic Mild Cognitive Impairment (aMCI); however, executive function (EF) deficits are common. The current study examined EF in aMCI based upon amyloid status (A+/A−) and regional atrophy in signature areas of Alzheimer’s disease (AD).Participants included 110 individuals with aMCI (A+ = 66; A− = 44) and 33 cognitively healthy participants (HP). EF was assessed using four neuropsychological assessment measures. The cortical thickness of the AD signature areas was calculated using structural MRI data.A + had greater EF deficits and cortical atrophy relative to A − in the supramarginal gyrus and superior parietal lobule. A − had greater EF deficits relative to HP, but no difference in signature area cortical thickness.The current study found that the degree of EF deficits in aMCI are a function of amyloid status and cortical thinning in the parietal cortex. [ABSTRACT FROM AUTHOR]

Published

2024

42. Association between cortical thickness or surface area and divergent thinking in patients with bipolar disorder.

Author

Tu, Pei-Chi, Chang, Wan-Chen, Kuan, Yi-Hsuan, Chen, Mu-Hong, and Su, Tung-Ping

Subjects

*DIVERGENT thinking, *PREFRONTAL cortex, *CONTROL (Psychology), *EXECUTIVE function, *MAGNETIC resonance imaging

Abstract

Objective: Divergent thinking is a critical creative cognitive process. Its neural mechanisms have been well-studied through structural and functional imaging in healthy individuals but are less explored in patients with bipolar disorder (BD). Because of the traditional link between creativity and BD, this study investigated the structural correlates of divergent thinking in patients with BD through surface-based morphometry. Methods: Fifty-nine patients diagnosed with BD I or BD II (35.3 ± 8.5 years) and 56 age- and sex-matched controls (33.9 ± 7.4 years) were recruited. The participants underwent structural magnetic resonance imaging and an evaluation of divergent thinking by using the Chinese version of the Abbreviated Torrance Test for Adults (ATTA). FreeSurfer 7.0 was used to generate thickness and surface area maps for each participant. Brainwise regression of the association between cortical thickness or surface area and ATTA performance was conducted using general linear models. Results: Divergent thinking performance did not differ significantly between the patients with BD and the healthy controls. In these patients, total ATTA score was negatively correlated with cortical thickness in the right middle frontal gyrus, right occipital, and left precuneus but positively correlated with the surface area of the right superior frontal gyrus. By contrast, total ATTA scores and cortical thickness or surface area were not significantly correlated among the controls. Conclusion: The findings indicate that divergent thinking involves cerebral structures for executive control, mental imagery, and visual processing in patients with BD, and the right prefrontal cortex might be the most crucial of these structures. [ABSTRACT FROM AUTHOR]

Published

2024

43. Brain volumetric changes in patients with spinocerebellar ataxia type-2.

Author

Genc, Baris, Sen, Sedat, and Aslan, Kerim

Subjects

*SPINOCEREBELLAR ataxia, *TRINUCLEOTIDE repeats, *COGNITION disorders, *VOXEL-based morphometry, *EXTRAPYRAMIDAL tracts

Abstract

Aim: Spinocerebellar ataxia type 2 (SCA2) is a trinucleotide repeat disorder characterized by mutations in the ataxin-2 gene. Although the primary symptoms of this disease are related to cerebellar involvement, such as ataxia and dysarthria, cognitive disorders associated with supratentorial involvement, depression, and extrapyramidal symptoms are also common. The aim of this study was to investigate volumetric changes in patients with SCA2. Materials and Methods: Nine SCA2 patients and sixteen age and gender-matched healthy controls were included in the study. Voxel-based morphometry (VBM) was used to explore changes in whole brain gray and white matter, while surface-based morphometry (SBM) was employed to investigate changes in cortical thickness (CT), local gyrification index (LGI), sulcal depth (SD), and fractal dimension (FD). Deep learning methods were utilized for the automatic segmentation of subcortical gray matter structures and extrapyramidal system structures. Comparisons between groups were made using GLM, T-Test, and Mann-Whitney U test. Results: VBM results showed widespread gray matter loss in the cerebellum and widespread white matter loss in the brain stem (Cluster size: 25918 voxels for gray matter, 24557 voxels for white matter). SBM findings indicated a decrease in cortical thickness (Cluster size:19276 vertices for left hemisphere; 17276 vertices for right hemisphere), more pronounced in the supratentorial frontoparietal region, while FD, LGI, and SD did not differ between groups. Volume loss was observed in the subthalamic nucleus, globus pallidus internus and externus, and red nucleus in SCA2 patients. Conclusion: SCA2 patients exhibit white and gray matter volume loss in the infratentorial region. Additionally, they show a decrease in frontoparietal cortical thickness, while FD, LGI, and SD do not show any changes. Moreover, atrophy is also observed in the extrapyramidal system structures. [ABSTRACT FROM AUTHOR]

Published

2024

44. Large‐scale analysis of structural brain asymmetries during neurodevelopment: Associations with age and sex in 4265 children and adolescents.

Author

Kurth, F., Schijven, D., van den Heuvel, O. A., Hoogman, M., van Rooij, D., Stein, D. J., Buitelaar, J. K., Bölte, S., Auzias, G., Kushki, A., Venkatasubramanian, G., Rubia, K., Bollmann, S., Isaksson, J., Jaspers‐Fayer, F., Marsh, R., Batistuzzo, M. C., Arnold, P. D., Bressan, R. A., and Stewart, S. E.

Subjects

*BRAIN cortical thickness, *BRAIN function localization, *GRAY matter (Nerve tissue), *GENETICS, *ADOLESCENCE

Abstract

Only a small number of studies have assessed structural differences between the two hemispheres during childhood and adolescence. However, the existing findings lack consistency or are restricted to a particular brain region, a specific brain feature, or a relatively narrow age range. Here, we investigated associations between brain asymmetry and age as well as sex in one of the largest pediatric samples to date (n = 4265), aged 1–18 years, scanned at 69 sites participating in the ENIGMA (Enhancing NeuroImaging Genetics through Meta‐Analysis) consortium. Our study revealed that significant brain asymmetries already exist in childhood, but their magnitude and direction depend on the brain region examined and the morphometric measurement used (cortical volume or thickness, regional surface area, or subcortical volume). With respect to effects of age, some asymmetries became weaker over time while others became stronger; sometimes they even reversed direction. With respect to sex differences, the total number of regions exhibiting significant asymmetries was larger in females than in males, while the total number of measurements indicating significant asymmetries was larger in males (as we obtained more than one measurement per cortical region). The magnitude of the significant asymmetries was also greater in males. However, effect sizes for both age effects and sex differences were small. Taken together, these findings suggest that cerebral asymmetries are an inherent organizational pattern of the brain that manifests early in life. Overall, brain asymmetry appears to be relatively stable throughout childhood and adolescence, with some differential effects in males and females. [ABSTRACT FROM AUTHOR]

Published

2024

45. Greater cortical thinning and microstructural integrity loss in myotonic dystrophy type 1 compared to myotonic dystrophy type 2.

Author

Krieger, Britta, Schneider-Gold, Christiane, Genç, Erhan, Güntürkün, Onur, Prehn, Christian, Bellenberg, Barbara, and Lukas, Carsten

Subjects

*BRAIN cortical thickness, *CEREBRAL cortical thinning, *MYOTONIA atrophica, *CENTRAL nervous system, *DIFFUSION magnetic resonance imaging

Abstract

Background: Myotonic dystrophy is a multisystem disorder characterized by widespread organic involvement including central nervous system symptoms. Although myotonic dystrophy disease types 1 (DM1) and 2 (DM2) cover a similar spectrum of symptoms, more pronounced clinical and brain alterations have been described in DM1. Here, we investigated brain volumetric and white matter alterations in both disease types and compared to healthy controls (HC). Methods: MRI scans were obtained from 29 DM1, 27 DM2, and 56 HC. We assessed macro- and microstructural brain changes by surface-based analysis of cortical thickness of anatomical images and tract-based spatial statistics of fractional anisotropy (FA) obtained by diffusion-weighted imaging, respectively. Global MRI measures were related to clinical and neuropsychological scores to evaluate their clinical relevance. Results: Cortical thickness was reduced in both patient groups compared to HC, showing similar patterns of regional distribution in DM1 and DM2 (occipital, temporal, frontal) but more pronounced cortical thinning for DM1. Similarly, FA values showed a widespread decrease in DM1 and DM2 compared to HC. Interestingly, FA was significantly lower in DM1 compared to DM2 within most parts of the brain. Conclusion: Comparisons between DM1 and DM2 indicate a more pronounced cortical thinning of grey matter and a widespread reduction in microstructural integrity of white matter in DM1. Future studies are required to unravel the underlying and separating mechanisms for the disease courses of the two types and their neuropsychological symptoms. [ABSTRACT FROM AUTHOR]

Published

2024

46. Relationship between cortical brain atrophy, delirium, and long-term cognitive decline in older surgical patients.

Author

Cavallari, Michele, Touroutoglou, Alexandra, Katsumi, Yuta, Fong, Tamara G., Schmitt, Eva, Travison, Thomas G., Shafi, Mouhsin M., Libermann, Towia A., Marcantonio, Edward R., Alsop, David C., Jones, Richard N., Inouye, Sharon K., and Dickerson, Bradford C.

Subjects

*CEREBRAL atrophy, *COGNITION disorders, *OLDER patients, *DELIRIUM, *MAGNETIC resonance imaging

Abstract

In older patients, delirium after surgery is associated with long-term cognitive decline (LTCD). The neural substrates of this association are unclear. Neurodegenerative changes associated with dementia are possible contributors. We investigated the relationship between brain atrophy rates in Alzheimer's disease (AD) and cognitive aging signature regions from magnetic resonance imaging before and one year after surgery, LTCD assessed by the general cognitive performance (GCP) score over 6 years post-operatively, and delirium in 117 elective surgery patients without dementia (mean age = 76). The annual change in cortical thickness was 0.2(1.7) % (AD-signature p = 0.09) and 0.4(1.7) % (aging-signature p = 0.01). Greater atrophy was associated with LTCD (AD-signature: beta(CI) = 0.24(0.06–0.42) points of GCP/mm of cortical thickness; p < 0.01, aging-signature: beta(CI) = 0.55(0.07–1.03); p = 0.03). Atrophy rates were not significantly different between participants with and without delirium. We found an interaction with delirium severity in the association between atrophy and LTCD (AD-signature: beta(CI) = 0.04(0.00–0.08), p = 0.04; aging-signature: beta(CI) = 0.08(0.03–0.12), p < 0.01). The rate of cortical atrophy and severity of delirium are independent, synergistic factors determining postoperative cognitive decline in the elderly. • Postoperative delirium is an independent risk factor for dementia. • Cortical brain atrophy may represent a substrate of the link delirium-dementia. • Patients with more severe delirium and greater atrophy had faster cognitive decline. • Delirium and cortical atrophy increase the risk of postoperative cognitive decline. [ABSTRACT FROM AUTHOR]

Published

2024

47. Reserve, resilience and maintenance of episodic memory and other cognitive functions in aging.

Author

Schwarz, Claudia, Franz, Carol E., Kremen, William S., and Vuoksimaa, Eero

Subjects

*COGNITIVE aging, *EPISODIC memory, *COGNITIVE ability, *COGNITIVE processing speed, *COGNITION, *COGNITIVE development

Abstract

We tested if cognitive and brain reserve and maintenance explain individual differences in episodic memory and other cognitive domains from late middle to early older adulthood. We used The Vietnam Era Twin Study of Aging data (n=1604 men) with episodic memory measured at mean ages of 56, 62 and 68 years, and magnetic resonance imaging data for a subsample of participants (n=321). Cognitive reserve —young adult general cognitive ability at a mean age of 20 years and, to a lesser degree, educational attainment— was positively related to episodic memory performance at each assessment, but not to memory change. We found no evidence for the associations of brain reserve or brain maintenance on memory change. Results were highly similar when looking at processing speed, executive function and verbal fluency. In conclusion, higher young adult cognitive reserve was related to better episodic memory in midlife and older adulthood, but it did not confer better cognitive maintenance with respect to memory. This supports the importance of early cognitive development in dementia prevention. • On average episodic memory declines in late midlife. • Young adult general cognitive ability predicts episodic memory in aging. • General cognitive ability does not modify the rate of episodic memory change. • Results are similar for executive function, processing speed and verbal fluency. [ABSTRACT FROM AUTHOR]

Published

2024

48. Diverging Relationships among Amyloid, Tau, and Brain Atrophy in Early-Onset and Late-Onset Alzheimer’s Disease.

Author

Han Kyu Na, Jeong-Hyeon Shin, Sung-Woo Kim, Seongho Seo, Woo-Ram Kim, Jae Myeong Kang, Sang-Yoon Lee, Jaelim Cho, Justin Byun, Nobuyuki Okamura, Joon-Kyung Seong, and Young Noh

Abstract

Purpose: Alzheimer’s disease (AD) dementia may not be a single disease entity. Early-onset AD (EOAD) and late-onset AD (LOAD) have been united under the same eponym of AD until now, but disentangling the heterogeneity according to the age of sonset has been a major tenet in the field of AD research. Materials and Methods: Ninety-nine patients with AD (EOAD, n=54; LOAD, n=45) and 66 cognitively normal controls completed both [18F]THK5351 and [18F]flutemetamol (FLUTE) positron emission tomography scans along with structural magnetic resonance imaging and detailed neuropsychological tests. Results: EOAD patients had higher THK retention in the precuneus, parietal, and frontal lobe, while LOAD patients had higher THK retention in the medial temporal lobe. Intravoxel correlation analyses revealed that EOAD presented narrower territory of local FLUTE-THK correlation, while LOAD presented broader territory of correlation extending to overall parieto-occipito-temporal regions. EOAD patients had broader brain areas which showed significant negative correlations between cortical thickness and THK retention, whereas in LOAD, only limited brain areas showed significant correlation with THK retention. In EOAD, most of the cognitive test results were correlated with THK retention. However, a few cognitive test results were correlated with THK retention in LOAD. Conclusion: LOAD seemed to show gradual increase in tau and amyloid, and those two pathologies have association to each other. On the other hand, in EOAD, tau and amyloid may develop more abruptly and independently. These findings suggest LOAD and EOAD may have different courses of pathomechanism. [ABSTRACT FROM AUTHOR]

Published

2024

49. Poor sleep and decreased cortical thickness in veterans with mild traumatic brain injury and post-traumatic stress disorder.

Author

Andrews, Murray J., Salat, David H., Milberg, William P., McGlinchey, Regina E., and Fortier, Catherine B.

Subjects

SLEEP quality, BRAIN injuries, BRAIN cortical thickness, POST-traumatic stress disorder, CLINICAL trials

Abstract

Background: Poor sleep quality has been associated with changes in brain volume among veterans, particularly those who have experienced mild traumatic brain injury (mTBI) and post-traumatic stress disorder (PTSD). This study sought to investigate (1) whether poor sleep quality is associated with decreased cortical thickness in Iraq and Afghanistan war veterans, and (2) whether these associations differ topographically depending on the presence or absence of mTBI and PTSD. Methods: A sample of 440 post-9/11 era U.S. veterans enrolled in the Translational Research Center for Traumatic Brain Injury and Stress Disorders study at VA Boston, MA from 2010 to 2022 was included in the study. We examined the relationship between sleep quality, as measured by the Pittsburgh Sleep Quality Index (PSQI), and cortical thickness in veterans with mTBI (n = 57), PTSD (n = 110), comorbid mTBI and PTSD (n = 129), and neither PTSD nor mTBI (n = 144). To determine the topographical relationship between subjective sleep quality and cortical thickness in each diagnostic group, we employed a General Linear Model (GLM) at each vertex on the cortical mantle. The extent of topographical overlap between the resulting statistical maps was assessed using Dice coefficients. Results: There were no significant associations between PSQI and cortical thickness in the group without PTSD or mTBI (n = 144) or in the PTSD-only group (n = 110). In the mTBI-only group (n = 57), lower sleep quality was significantly associated with reduced thickness bilaterally in frontal, cingulate, and precuneus regions, as well as in the right parietal and temporal regions (β = −0.0137, P < 0.0005). In the comorbid mTBI and PTSD group (n = 129), significant associations were observed bilaterally in frontal, precentral, and precuneus regions, in the left cingulate and the right parietal regions (β = −0.0094, P < 0.0005). Interaction analysis revealed that there was a stronger relationship between poor sleep quality and decreased cortical thickness in individuals with mTBI (n = 186) compared to those without mTBI (n = 254) specifically in the frontal and cingulate regions (β = −0.0077, P < 0.0005). Conclusions: This study demonstrates a significant relationship between poor sleep quality and lower cortical thickness primarily within frontal regions among individuals with both isolated mTBI or comorbid diagnoses of mTBI and PTSD. Thus, if directionality is established in longitudinal and interventional studies, it may be crucial to consider addressing sleep in the treatment of veterans who have sustained mTBI. [ABSTRACT FROM AUTHOR]

Published

2024

50. Multimodal 7T imaging reveals enhanced functional coupling between salience and frontoparietal networks in young adult tobacco cigarette smokers.

Author

Francis, Alan N., Sebille, Sophie, Whitfield-Gabrieli, Susan, and Camprodon, Joan A.

Abstract

Tobacco cigarette smoking is associated with disrupted brain network dynamics in resting brain networks including the Salience (SN) and Fronto parietal (FPN). Unified multimodal methods [Resting state connectivity analysis, Diffusion Tensor Imaging (DTI), neurite orientation dispersion and density imaging (NODDI), and cortical thickness analysis] were employed to test the hypothesis that the impact of cigarette smoking on the balance among these networks is due to alterations in white matter connectivity, microstructural architecture, functional connectivity and cortical thickness (CT) and that these metrics define fundamental differences between people who smoke and nonsmokers. Multimodal analyses of previously collected 7 Tesla MRI data via the Human Connectome Project were performed on 22 people who smoke (average number of daily cigarettes was 10 ± 5) and 22 age- and sex-matched nonsmoking controls. First, functional connectivity analysis was used to examine SN-FPN-DMN interactions between people who smoke and nonsmokers. The anatomy of these networks was then assessed using DTI and CT analyses while microstructural architecture of WM was analyzed using the NODDI toolbox. Seed-based connectivity analysis revealed significantly enhanced within network [p = 0.001 FDR corrected] and between network functional coupling of the salience and R-frontoparietal networks in people who smoke [p = 0.004 FDR corrected]. The network connectivity was lateralized to the right hemisphere. Whole brain diffusion analysis revealed no significant differences between people who smoke and nonsmokers in Fractional Anisotropy, Mean diffusivity and in neurite orienting and density. There were also no significant differences in CT in the hubs of these networks. Our results demonstrate that tobacco cigarette smoking is associated with enhanced functional connectivity, but anatomy is largely intact in young adults. Whether this enhanced connectivity is pre-existing, transient or permanent is not known. The observed enhanced connectivity in resting state networks may contribute to the maintenance of smoking frequency. [ABSTRACT FROM AUTHOR]

Published

2024