Metabolic BMI can predict the risk of type 2 diabetes in normal-weight patients

blood samples

Obesity and excess weight increase the risk of developing type 2 diabetes, but individuals of normal weight can also develop the disease. Researchers at Lund University in Sweden have discovered that it is possible to identify at-risk individuals by measuring BMI in a new way. The authors of the study have identified metabolic changes associated with obesity that can increase the risk of developing type 2 diabetes.

Type 2 diabetes can be linked to a sedentary lifestyle which in turn can lead to excess weight and obesity. Up to 20 percent of type 2 diabetes patients are of normal weight, and it is important to identify individuals in this group that are at risk.

An international team of researchers has investigated whether it is possible to identify them by measuring the levels of some of the metabolites that are relevant for metabolism.

“In our study, we identified a group of individuals with regular BMI who nonetheless had metabolic alterations associated with obesity in their metabolism,” says Filip Ottosson, corresponding author of the study published in Diabetes Care.

The researchers measured the levels of 108 metabolites associated with diabetes in blood samples of 7,663 participants in three different population-based cohorts in Sweden and Italy. The participants were divided into five different groups based on their metabolic BMI. Individuals with a metabolic BMI five BMI units higher than their BMI based on height and weight were investigated further. This group had a twofold risk of developing type 2 diabetes compared to individuals with a normal BMI based on their weight, height, and metabolism.

Olle Melander, professor of internal medicine at Lund University is one of the authors of the study:

“We hope that our research will be used to identify individuals with a hidden risk of developing the disease. If we can find these individuals before the disease debuts, we would be able to initiate preventive actions. This could potentially save society a lot of money as type 2 diabetes often leads to a variety of different complications,” he says.

The research team used machine learning methods to classify participants with different metabolic profiles to calculate the risk for type 2 diabetes. The team then followed up participants who developed type 2 diabetes in the population-based Malmö Diet Cancer (MDC) cohort in Sweden, which has a follow-up time of 20 years. The results will need to be verified in other cohorts, and further studies are also needed to investigate a larger number of metabolites.

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