Abdominal obesity and white matter microstructure in midlife

Birdsill, Alex C.; Oleson, Stephanie; Kaur, Sonya; Pasha, Evan; Ireton, Adele; Tanaka, Hirofumi; Haley, Andreana P.

doi:10.1002/hbm.23576

Cited by 38 publications

(62 citation statements)

References 46 publications

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“…This observation may explain discrepant findings in the literature, as some studies reported beneficial effects of larger BMI or waist circumference on white matter microstructure (Birdsill et al, 2017), whilst other studies reported adverse effects Kullmann et al, 2015;Ronan et al, 2016). Previously we reported significant correlations between BMI and fornix white matter microstructure in a smaller group of older adults (Metzler-Baddeley et al, 2013), a result that was not replicated here.…”

Section: Discussioncontrasting

confidence: 91%

Adipokines contribute to central-obesity related reductions in myelin-sensitive MRI indices in the fornix

Metzler‐Baddeley

Mole

Leonavičiūtė

et al. 2018

Preprint

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Midlife obesity is a risk factor of late onset Alzheimer’s disease (LOAD) but why this is the case remains unknown. As systemic inflammation is involved in both conditions, one possibility is that obesity-related neuroinflammation may contribute to the development of LOAD. Neuroinflammation is closely linked to white matter myelin loss, and this can be measured in vivo with quantitative magnetization transfer (qMT) imaging. Here, we investigated whether differences in obesity measures, i.e., in Waist Hip Ratio (WHR), abdominal visceral and subcutaneous fat volume fractions and Body Mass Index (BMI), were associated with reductions in qMT indices of apparent myelin in temporal white matter pathways involved in LOAD (i.e., the fornix, the parahippocampal cingulum and the uncinate fasciculus compared with whole brain and cortico-spinal white matter) in 166 cognitively healthy individuals (38-71 years of age). Obesity-related effects on myelin-sensitive markers were contrasted with differences in apparent axon density from dual-shell diffusion Neurite Orientation Dispersion and Density Imaging (NODDI). Differences in WHR and in visceral fat volume fractions were negatively correlated with differences in qMT estimates of apparent myelin and tissue metabolism in the fornix but not with any other microstructural components. These correlations were not explained by demographic (age, sex, education), health (hypertension, alcohol consumption, sedentary lifestyle) or genetic (APOE genotype, family history of dementia) risk factors of LOAD. Furthermore, differences in the ratio of plasma concentrations of leptin and adiponectin were also positively correlated with differences in C-Reactive Protein concentrations, and contributed significantly to the correlations between central obesity and myelin-sensitive metrics in the fornix. These results are consistent with the view that visceral fat-related chronic inflammation may damage white matter myelin in limbic regions, known to be vulnerable to LOAD pathology.

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Section: Discussioncontrasting

confidence: 91%

Adipokines contribute to central-obesity related reductions in myelin-sensitive MRI indices in the fornix

Metzler‐Baddeley

Mole

Leonavičiūtė

et al. 2018

Preprint

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“…The observed positive relationship between FA in the UF and BMI was surprising, considering that previous studies generally find negative associations between white matter structural integrity and measures of obesity. However, indicators of increased weight have previously associated with increased white matter integrity or volume in several regions (Birdsill et al, 2017;Yokum et al, 2012). Moreover, higher FA in the UF has been found to correlate with sensitivity to punishment and reward-related activity in the nucleus accumbens (Camara, Rodriguez-Fornells, & Munte, 2010), further implicating changes in this tract with higher BMI as representative of differences in emotion and reward processing.…”

Section: Body Mass Index and Frontolimbic Structural Changesmentioning

confidence: 99%

Inhibitory control mediates a negative relationship between body mass index and intelligence: A neurocognitive investigation

Faul

Fogleman

Mattingly

et al. 2019

Cogn Affect Behav Neurosci

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The structure and function of the human brain is closely related to cognitive processes of the mind and physiological processes of the body, suggesting that an intricate relationship exists between cognitive health, body health, and underlying neural architecture. In the current study, morphometric differences in cortical and subcortical gray matter regions, white matter integrity, and resting-state functional connectivity was assessed to determine what combinations of neural variables best explain an interconnected behavioral relationship between body mass index (BMI), general intelligence, and specific measures of executive function. Data for 82 subjects were obtained from the Nathan Kline Institute Rockland Sample. Behavioral results indicated a negative relationship between BMI and intelligence, which exhibited mediation by an inhibitory measure of executive function. Neural analyses further revealed generally contrasting associations of BMI, intelligence, and executive function with cortical morphometric regions important for inhibitory control and directed attention. Moreover, BMI related to morphometric alterations in components of a frontolimbic network, namely reduced thickness in the anterior cingulate cortex and ventromedial prefrontal cortex, whereas intelligence and inhibitory control primarily related to increased thickness and volume in parietal regions, as well as significantly increased across-network connectivity of visual and default mode resting-state networks. These results propose that medial prefrontal structure and interconnected frontolimbic and frontoparietal networks are important to consider in the relationship between BMI, intelligence, and executive function.

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“…Obesity and TBSS studies have generally described inverse associations between waist circumference (WC) or BMI and FA in tracts involved in reward-seeking (e.g., inferior fronto-occipital fasciculi, corpus callosum, and corticospinal tract) and cognitive control (e.g., inferior and superior longitudinal fasciculi) 23 – 25 . Although contradictory findings do exist 26 , most indicate that the higher the BMI or the WC, the lower the FA 27 – 31 . In addition, studies on physiological markers of stress have found reductions in global and regional FA values 32 – 34 linked to higher cortisol levels.…”

Section: Introductionmentioning

confidence: 98%

Allostatic load and disordered white matter microstructure in overweight adults

Ottino‐González

Jurado

García‐García

et al. 2018

Sci Rep

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Overweight and stress are both related to brain structural abnormalities. The allostatic load model states that frequent disruption of homeostasis is inherently linked to oxidative stress and inflammatory responses that in turn can damage the brain. However, the effects of the allostatic load on the central nervous system remain largely unknown. The current study aimed to assess the relationship between the allostatic load and the composition of whole-brain white matter tracts in overweight subjects. Additionally, we have also tested for grey matter changes regarding allostatic load increase. Thirty-one overweight-to-obese adults and 21 lean controls participated in the study. Our results showed that overweight participants presented higher allostatic load indexes. Such increases correlated with lower fractional anisotropy in the inferior fronto-occipital fasciculi and the right anterior corona radiata, as well as with grey matter reductions in the left precentral gyrus, the left lateral occipital gyrus, and the right pars opercularis. These results suggest that an otherwise healthy overweight status is linked to long-term biological changes potentially harmful to the brain.

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Abdominal obesity and white matter microstructure in midlife

Cited by 38 publications

References 46 publications

Adipokines contribute to central-obesity related reductions in myelin-sensitive MRI indices in the fornix

Adipokines contribute to central-obesity related reductions in myelin-sensitive MRI indices in the fornix

Inhibitory control mediates a negative relationship between body mass index and intelligence: A neurocognitive investigation

Allostatic load and disordered white matter microstructure in overweight adults

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