Imaging Patterns of Brain Development and their Relationship to Cognition

Erus, Güray; Battapady, Harsha; Satterthwaite, Theodore D.; Hákonarson, Hákon; Gur, Raquel E.; Davatzikos, Christos; Gur, Ruben C.

doi:10.1093/cercor/bht425

Cited by 212 publications

(231 citation statements)

References 49 publications

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“…The estimation model in the basis of SVR algorithm has been widely used in different neuroimaging studies (Dosenbach et al., 2011; Erus et al., 2015; Koutsouleris et al., 2014; Lancaster et al., 2018). In the present study, a linear v‐support vector regression (v‐SVR) performed using LIBSVM (http://www.csie.ntu.edu.tw/~cjlin/libsvm/) toolbox with a default setting (i.e., in the LIBSVM: C = 1, v = 0.5) was used.…”

Section: Methodsmentioning

confidence: 99%

The association between “Brain‐Age Score” (BAS) and traditional neuropsychological screening tools in Alzheimer's disease

2018

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IntroductionWe present the Brain‐Age Score (BAS) as a magnetic resonance imaging (MRI)‐based index for Alzheimer's disease (AD). We developed a fully automated framework for estimating the BAS in healthy controls (HCs) and individuals with mild cognitive impairment (MCI) or AD, using MRI scans.MethodsWe trained the proposed framework using 385 HCs from the IXI and OASIS datasets and evaluated 146 HCs, 102 stable‐MCI (sMCI), 112 progressive‐MCI (pMCI), and 147 AD patients from the J‐ADNI dataset. We used a correlation test to determine the association between the BAS and four traditional screening tools of AD: the Mini‐Mental State Examination (MMSE), Clinical Dementia Ratio (CDR), Alzheimer's Disease Assessment Score (ADAS), and Functional Assessment Questionnaire (FAQ). Furthermore, we assessed the association between BAS and anatomical MRI measurements: the normalized gray matter (nGM), normalized white matter (nWM), normalized cerebrospinal fluid (nCSF), mean cortical thickness as well as hippocampus volume.ResultsThe correlation results demonstrated that the BAS is in line with traditional screening tools of AD (i.e., the MMSE, CDR, ADAS, and FAQ scores) as well as anatomical MRI measurements (i.e., nGM, nCSF, mean cortical thickness, and hippocampus volume).DiscussionThe BAS may be useful for diagnosing the brain atrophy level and can be a reliable automated index for clinical applications and neuropsychological screening tools.

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Section: Methodsmentioning

confidence: 99%

The association between “Brain‐Age Score” (BAS) and traditional neuropsychological screening tools in Alzheimer's disease

2018

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“…We believe it is necessary to reach a consensus of standardized software algorithms and measurements able to guarantee that all measurements are conducted within the same algorithms in all patients; in this way, variations in the results would be a reflection only of the distribution of the selected biomarkers. For example, a recent study has proposed the use of machine learning, albeit in a younger age group (8-22 years) (Erus et al, 2015). Despite the initially steep learning curve of the open-source software packages used in this study, they are suitable for use on a day-to-day basis in MRI units, for example those supporting geriatric or family medicine studies, and not only in clinical research.…”

Section: Quantifiable Biomarkers Of Normal Brain Agingmentioning

confidence: 99%

Melatonin 4 mg as prophylactic therapy for primary headaches: a pilot study

Bougea¹

2016

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“…For example, the 'brain maturation index' accurately predicts chronological age between approximately 5 and 18 years after birth based on brain volumes in 37 regions measured using MRI [14]. Accumulating evidence from MRI and DTI during development [15], has led to the generation of a 'brain development index' that can accurately predict chronological age between 8 and 22 years of age based on brain anatomy in children and adolescents [16]. Overall, gray matter volumes begin to decrease from mid-childhood, while white matter volumes continue to increase with age [1].…”

Section: Structural Brain Developmentmentioning

confidence: 99%

“…Overall, gray matter volumes begin to decrease from mid-childhood, while white matter volumes continue to increase with age [1]. Individuals with a higher brain development index-predicted age than actual age (advanced) show an earlier decrease in gray matter volumes compared to individuals with similar predicted and actual age (typical) [16]. In contrast, individuals with a lower predicted age (delayed) show a later developmental shift , 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174…”

Section: Structural Brain Developmentmentioning

confidence: 99%

Human brain development over the early years

Haartsen

Jones

Johnson

2016

Current Opinion in Behavioral Sciences

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Recent studies of the structural and functional development of the human brain over the early years have highlighted the rapid development of brain structures and their interconnectivity. Some regional functional specializations emerge within the first months after birth, while others have a more protracted course of development spanning over the first decade or longer. While some anatomical changes enable the emergence of new functions, evidence also points to the importance of resting state oscillations in sculpting neural architecture during development. In atypical development differences in brain structure, function and task-related activity in infancy often precede the emergence of later diagnostic behavioural symptoms.

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Imaging Patterns of Brain Development and their Relationship to Cognition

Cited by 212 publications

References 49 publications

The association between “Brain‐Age Score” (BAS) and traditional neuropsychological screening tools in Alzheimer's disease

The association between “Brain‐Age Score” (BAS) and traditional neuropsychological screening tools in Alzheimer's disease

Melatonin 4 mg as prophylactic therapy for primary headaches: a pilot study

Human brain development over the early years

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