White Matter Microstructure Correlates with Memory Performance in Healthy Children: A Diffusion Tensor Imaging Study

Samara, Amjad; Feng, Kaiyang; Pivik, R.T.; Jarratt, Kelly Pizzitola; Badger, Thomas M.; Ou, Xiawei

doi:10.1111/jon.12580

Cited by 10 publications

(7 citation statements)

References 34 publications

(81 reference statements)

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“…The question that arises from this is whether the planatory power of interindividual differences in the cortical microstructure alone is sufficient to account for performance differences in specific cognitive abilities in this po ulation or whether the lack of findings in the present analysis may instead rather caused by an inadequately chosen method. Indices of white matter microstructure ha previously been found to explain cognitive performance differences in typically develo ing children [69][70][71]. In view of this, it does not seem far fetched to expect a similar patte with respect to cortical microstructure.…”

Section: Discussionmentioning

confidence: 88%

T1w/T2w Ratio and Cognition in 9-to-11-Year-Old Children

et al. 2022

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Childhood is a period of extensive cortical and neural development. Among other things, axons in the brain gradually become more myelinated, promoting the propagation of electrical signals between different parts of the brain, which in turn may facilitate skill development. Myelin is difficult to assess in vivo, and measurement techniques are only just beginning to make their way into standard imaging protocols in human cognitive neuroscience. An approach that has been proposed as an indirect measure of cortical myelin is the T1w/T2w ratio, a contrast that is based on the intensities of two standard structural magnetic resonance images. Although not initially intended as such, researchers have recently started to use the T1w/T2w contrast for between-subject comparisons of cortical data with various behavioral and cognitive indices. As a complement to these earlier findings, we computed individual cortical T1w/T2w maps using data from the Adolescent Brain Cognitive Development study (N = 960; 449 females; aged 8.9 to 11.0 years) and related the T1w/T2w maps to indices of cognitive ability; in contrast to previous work, we did not find significant relationships between T1w/T2w values and cognitive performance after correcting for multiple testing. These findings reinforce existent skepticism about the applicability of T1w/T2w ratio for inter-individual comparisons.

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Section: Discussionmentioning

confidence: 88%

T1w/T2w Ratio and Cognition in 9-to-11-Year-Old Children

et al. 2022

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“…In all analyses GA at birth, postmenstrual age at time of MRI, birth weight Z-score and days of ventilation will be entered as covariates. These analyses have been used in several other observational and intervention studies conducted in the UMC Utrecht and other research groups, in preterm infants at TEA (mean and median GA of 28.7 weeks), [52,64] healthy and asphyxiated full term infants, [65,66] as well as children at school age (7.5-8.5 years and 12 years of age) [67][68][69].…”

Section: Discussionmentioning

confidence: 99%

NutriBrain: protocol for a randomised, double-blind, controlled trial to evaluate the effects of a nutritional product on brain integrity in preterm infants

et al. 2021

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Background The gut microbiota and the brain are connected through different mechanisms. Bacterial colonisation of the gut plays a substantial role in normal brain development, providing opportunities for nutritional neuroprotective interventions that target the gut microbiome. Preterm infants are at risk for brain injury, especially white matter injury, mediated by inflammation and infection. Probiotics, prebiotics and L-glutamine are nutritional components that have individually already demonstrated beneficial effects in preterm infants, mostly by reducing infections or modulating the inflammatory response. The NutriBrain study aims to evaluate the benefits of a combination of probiotics, prebiotics and L-glutamine on white matter microstructure integrity (i.e., development of white matter tracts) at term equivalent age in very and extremely preterm born infants. Methods This study is a double-blind, randomised, controlled, parallel-group, single-center study. Eighty-eight infants born between 24 + 0 and < 30 + 0 weeks gestational age and less than 72 h old will be randomised after parental informed consent to receive either active study product or placebo. Active study product consists of a combination of Bifidobacterium breve M-16V, short-chain galacto-oligosaccharides, long-chain fructo-oligosaccharides and L-glutamine and will be given enterally in addition to regular infant feeding from 48 to 72 h after birth until 36 weeks postmenstrual age. The primary study outcome of white matter microstructure integrity will be measured as fractional anisotropy, assessed using magnetic resonance diffusion tensor imaging at term equivalent age and analysed using Tract-Based Spatial Statistics. Secondary outcomes are white matter injury, brain tissue volumes and cortical morphology, serious neonatal infections, serum inflammatory markers and neurodevelopmental outcome. Discussion This study will be the first to evaluate the effect of a combination of probiotics, prebiotics and L-glutamine on brain development in preterm infants. It may give new insights in the development and function of the gut microbiota and immune system in relation to brain development and provide a new, safe treatment possibility to improve brain development in the care for preterm infants. Trial registration ISRCTN, ISRCTN96620855. Date assigned: 10/10/2017.

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“…Several studies have found evidence for abnormalities in white matter connectivity in autism and other IDDs [107,108], although these findings are not universal [109]. Even in typically developing adolescence, there appears to be a relationship between white matter structures and cognitive abilities [110]. Intriguingly, sleep variability in adolescence has been associated with alterations in brain connectivity, reduced academic performance and increased risk-taking behaviour [111][112][113].…”

Section: Poor Sleep In Adolescents With Intellectual and Developmentamentioning

confidence: 99%

Potential Circadian Rhythms in Oligodendrocytes? Working Together Through Time

Colwell

2019

Neurochem Res

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Oligodendrocytes (OL) are the only myelinating cells of the central nervous system thus interferences, either environmental or genetic, with their maturation or function have devastating consequences. Albeit so far neglected, one of the less appreciated, nevertheless possible, regulators of OL maturation and function is the circadian cycle. Yet, disruptions in these rhythms are unfortunately becoming a common "disorder" in the today's world. The temporal patterning of behaviour and physiology is controlled by a circadian timing system based in the anterior hypothalamus. At the molecular level, circadian rhythms are generated by a transcriptional/translational feedback system that regulates transcription and has a major impact on cellular function(s). Fundamental cellular properties/functions in most cell types vary with the daily circadian cycle: OL are unlikely an exception! To be clear, the presence of circadian oscillators or the cell-specific function(s) of the circadian clock in OL has yet to be defined. Furthermore, we wish to entertain the idea of links between the "thin" evidence on OL intrinsic circadian rhythms and their interjection(s) at different stages of lineage progression as well as in supporting/regulating OL crucial function: myelination. Individuals with intellectual and developmental syndromes as well as neurodegenerative diseases present with a disrupted sleep/wake cycle; hence, we raise the possibility that these disturbances in timing can contribute to the loss of white matter observed in these disorders. Preclinical and clinical work in this area is needed for a better understanding of how circadian rhythms influence OL maturation and function(s), to aid the development of new therapeutic strategies and standards of care for these patients.

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White Matter Microstructure Correlates with Memory Performance in Healthy Children: A Diffusion Tensor Imaging Study

Cited by 10 publications

References 34 publications

T1w/T2w Ratio and Cognition in 9-to-11-Year-Old Children

T1w/T2w Ratio and Cognition in 9-to-11-Year-Old Children

NutriBrain: protocol for a randomised, double-blind, controlled trial to evaluate the effects of a nutritional product on brain integrity in preterm infants

Potential Circadian Rhythms in Oligodendrocytes? Working Together Through Time

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