Metabolism Linked to Brain Health

Summary: Researchers have identified a link between metabolism and dementia-related brain measures. Obesity related to inflammation, kidney stress, or liver stress had the biggest impact on adverse brain health.

Source: University of South Australia

Every three seconds, someone in the world is diagnosed with dementia. And while there is no known cure, changes in the brain can occur years before a dementia diagnosis.

Now, a world-first study from the University of South Australia’s Australian Center for Precision Health has found a link between metabolism and dementia-related brain measures, providing valuable insights about the disease.

Analyzing data from 26,239 people in the UK Biobank, researchers found that those with obesity related to liver stress, or to inflammation and kidney stress, had the most adverse brain findings.

The study measured associations of six diverse metabolic profiles and 39 cardiometabolic markers with MRI brain scan measures of brain volume, brain lesions, and iron accumulation, to identify early risk factors for dementia.

People with metabolic profiles linked to obesity were more likely to have adverse MRI profiles showing lower hippocampal and gray matter volumes, greater burden of brain lesions, and higher accumulation of iron.

UniSA researcher, Dr. Amanda Lumsden, says the research adds a new layer of understanding to brain health.

“Dementia is a debilitating disease that affects more than 55 million people worldwide,” Dr. Lumsden says.

“Understanding metabolic factors and profiles associated with dementia-related brain changes can help identify early risk factors for dementia.

People with metabolic profiles linked to obesity were more likely to have adverse MRI profiles showing lower hippocampal and gray matter volumes, greater burden of brain lesions, and higher accumulation of iron. Image is in the public domain

“In this research, we found that adverse neuroimaging patterns were more prevalent among people who had metabolic types related to obesity.

“These people also had the highest Basal Metabolic Rate (BMR)—how much energy your body requires when resting in order to support its basic functions—but curiously, BMR seemed to contribute to adverse brain markers over and above the effects of obesity.”

Senior Investigator, UniSA’s Professor Elina Hyppönen says the finding presents a new avenue for understanding brain health.

“This study indicates that metabolic profiles are associated with aspects of brain health. We also found associations with many individual biomarkers which may provide clues into the processes leading to dementia,” Prof Hyppönen says.

“The human body is complex, and more work is now needed to find out exactly why and how these associations arise.”

About this metabolism and neurology research news

Author: Press Office
Source: University of South Australia
Contact: Press Office – University of South Australia
Image: The image is in the public domain

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Original Research: Open access.
“Metabolic profile‐based subgroups can identify differences in brain volumes and brain iron deposition” by Amanda L. Lumsden et al. Diabetes, Obesity, and Metabolism


Abstract

Metabolic profile‐based subgroups can identify differences in brain volumes and brain iron deposition

Aims

To evaluate associations of metabolic profiles and biomarkers with brain atrophy, lesions, and iron deposition to understand the early risk factors associated with dementia.

Materials and methods

Using data from 26,239 UK Biobank participants free from dementia and stroke, we assessed the associations of metabolic subgroups, derived using an artificial neural network approach (self-organizing map), and 39 individual biomarkers with brain MRI measures: total brain volume (TBV ), gray matter volume (GMV), white matter volume (WMV), hippocampal volume (HV), white matter hyperintensity (WMH) volume, and caudate iron deposition.

Results

In metabolic subgroup analyses, participants characterized by high triglycerides and liver enzymes showed the most adverse brain outcomes compared to the healthy reference subgroup with high-density lipoprotein cholesterol and low body mass index (BMI) including associations with GMV (βstandardized −0.20, 95% confidence interval [CI] −0.24 to −0.16), HV (βstandardized −0.09, 95% CI −0.13 to −0.04), WMH volume (βstandardized 0.22, 95% CI 0.18 to 0.26), and caudate iron deposition (βstandardized 0.30, 95% CI 0.25 to 0.34), with similar adverse associations for the subgroup with high BMI, C-reactive protein and cystatin C, and the subgroup with high blood pressure (BP) and apolipoprotein B. Among the biomarkers, striking associations were seen between basal metabolic rate (BMR) and caudate iron deposition (βstandardized 0.23, 95% CI 0.22 to 0.24 per 1 SD increase), GMV (βstandardized −0.15, 95% CI −0.16 to −0.14) and HV (βstandardized −0.11, 95% CI −0.12 to −0.10), and between BP and WMH volume (βstandardized 0.13, 95% CI 0.12 to 0.14 for diastolic BP).

Conclusions

Metabolic profiles were differentially associated with brain neuroimaging characteristics. Associations of BMR, BP and other individual biomarkers may provide insights into actionable mechanisms driving these brain associations.

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