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Hypothalamic volume is associated with body mass index.

Accepted version
Peer-reviewed

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Authors

Brown, Stephanie SG 
Westwater, Margaret L 
Seidlitz, Jakob 
Ziauddeen, Hisham 
Fletcher, Paul C 

Abstract

The hypothalamus is an important neuroendocrine hub for the control of appetite and satiety. In animal studies it has been established that hypothalamic lesioning or stimulation causes alteration to feeding behaviour and consequently body mass, and exposure to high calorie diets induces hypothalamic inflammation. These findings suggest that alterations in hypothalamic structure and function are both a cause and a consequence of changes to food intake. However, there is limited in vivo human data relating the hypothalamus to obesity or eating disorders, in part due to technical problems relating to its small size. Here, we used a novel automated segmentation algorithm to exploratorily investigate the relationship between hypothalamic volume, normalised to intracranial volume, and body mass index (BMI). The analysis was applied across four independent datasets comprising of young adults (total n = 1,351 participants) spanning a range of BMIs (13.3 - 47.8 kg/m2). We compared underweight (including individuals with anorexia nervosa), healthy weight, overweight and obese individuals in a series of complementary analyses. We report that overall hypothalamic volume is significantly larger in overweight and obese groups of young adults. This was also observed for a number of hypothalamic sub-regions. In the largest dataset (the HCP-Young Adult dataset (n = 1111)) there was a significant relationship between hypothalamic volume and BMI. We suggest that our findings of a positive relationship between hypothalamic volume and BMI is potentially consistent with hypothalamic inflammation as seen in animal models in response to high fat diet, although more research is needed to establish a causal relationship. Overall, we present novel, in vivo findings that link elevated BMI to altered hypothalamic structure. This has important implications for study of the neural mechanisms of obesity in humans.

Description

Keywords

Anorexia nervosa, Body Mass Index (BMI), Hypothalamus, Inflammation, Obesity, Overweight, Structural MRI, Animals, Young Adult, Humans, Body Mass Index, Overweight, Obesity, Inflammation, Hypothalamus

Journal Title

Neuroimage Clin

Conference Name

Journal ISSN

2213-1582
2213-1582

Volume Title

Publisher

Elsevier BV
Sponsorship
Wellcome Trust (206368/Z/17/Z)
National Institute for Health and Care Research (IS-BRC-1215-20014)
Bernard Wolfe Health Neuroscience Fund

Version History

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VersionDateSummary
2024-01-11 16:36:30
Published version added
1*
2023-08-01 23:33:07
* Selected version