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MetS Calc, the metabolic syndrome (MetS) severity calculator, is a browser-based form that calculates an individual's metabolic syndrome severity score using established and well-researched equations. MetS Calc was developed for Dr. Matthew J. Gurka (University of Florida) and Dr. Mark DeBoer (University of Virginia) by the CTS-IT.

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MetS Calc does not send any information to a server and can be used entirely online. It is written in JavaScript and the source code can be downloaded and modified.

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FAQ

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What is the metabolic syndrome?

There are a lot of different processes in the body that can contribute to having heart disease, such as having high cholesterol levels or high blood sugar. These are referred to as cardiovascular risk factors. The interesting thing about the metabolic syndrome is that five of these cardiovascular risk factors are seen together more often than would be expected by chance—as though they are caused by a similar underlying problem. This cluster of abnormalities include abdominal obesity (seen either by a large waist circumference or a high body mass index [BMI]), high blood pressure, high triglycerides, low HDL cholesterol (the “good cholesterol”) and high fasting blood sugar. Individuals who have at least three of these abnormalities are considered to have the metabolic syndrome or “MetS.” These individuals have a higher risk of developing heart disease and other diseases like diabetes.

How is the metabolic syndrome related to other diseases?

People with the metabolic syndrome are more likely to develop several other diseases, including higher risk for heart attack, stroke, diabetes and a liver problem called fatty liver disease.

What is a Z-score?

A z-score is a way of placing the measurement of a particular person (for example, a person’s body mass index [BMI], a marker of body weight) in the context of what that measurement is for other people in the population. It relies on knowing what the average (or “mean”) is for the whole population and the variability (how frequently and how much people are different from average, measured in terms of standard deviation). Technically, a z-score is the number of standard deviations from the mean a particular value is. A z-score=0 for a given individual indicates the value for that individual is equal to the mean of the population. A z=2 means that the value is 2 standard deviations above the mean of the population, meaning much “above average”. There are corresponding percentiles that are meaningful: a z=0 is equivalent to the 50th percentile, again indicating that 50 percent of the population has lower MetS severity than the individual. A z=2 is equivalent to the 97.7th percentile, indicating that 97.7% of the population has a lower MetS severity than the individual. Z-scores can be negative as well; z=-2 is the 2.28th percentile, meaning only roughly 2% of the population has a lower MetS severity.

How were these MetS scores formulated?

The MetS z-score was not calculated directly similar to other z-scores (BMI z-scores used for children, etc.). Rather, it was derived from a type of analysis (called a confirmatory factor analysis) that examines how the various components of MetS (obesity, blood pressure, triglycerides, HDL cholesterol, and fasting blood sugar) are correlated with one another. This analysis also allowed for the correlations between the MetS components to be different by sex and race/ethnicity. This analysis allows us to produce a score that quantifies the value of this MetS latent factor for an individual based on the individual’s measurements of those components. This score behaves like a z-score, in that it has a normal distribution with mean 0 and standard deviation equals 1. It was derived from a nationally representative sample of the U.S. population (from NHANES).

What variables are used for calculating the severity score?

The score requires information regarding the five components of the metabolic syndrome. These are systolic blood pressure (the upper number of the two numbers given in a blood pressure), triglycerides, HDL cholesterol, glucose (or blood sugar), and a measure of weight status. The most common means of measuring weight status is body mass index, which is calculated from height and weight. Body weight status can also be measured from waist circumference. Either of these measures of body weight status can be used in calculating a metabolic syndrome severity score.

Where do I have these items measured?

The measurements that are part of the metabolic syndrome are all done routinely at visits to the doctor. These include assessments of body mass index (which is calculated from a person’s height and weight) and blood pressure, as well as blood tests measuring triglycerides, HDL cholesterol, and blood sugar.

What does my score mean?

Your score tells you where your current metabolic syndrome status is compared to others in the US population. If your score is below zero, you have a lower degree of metabolic syndrome than the average US adult; if your score is very close to 0, then you have an average degree of metabolic syndrome. But higher scores above 0 are associated with more risk for future disease, particularly scores above 1 (which is higher than 84.1% of US adults) or 2 (which is higher than 97.7% of US adults). At this point we do not have detailed information on risk for CVD and diabetes based on your score, but we are working on having this.

Can my score change over time?

Yes, the good news is that a major influence of metabolic syndrome is lifestyle—such as food choices and exercise—and making changes in your lifestyle can lower your metabolic syndrome score. More importantly, these decreases in score are associated with decrease in risk for future disease. Healthy diet choices (such as reduced portion sizes and eating less saturated fat), getting regular exercise and weight loss are all important parts of lowering your risk.

What is the advantage of the MetS score over traditional MetS definitions?

Traditional MetS definitions are based on set cut-off values for each of the individual measurements that are part of MetS (for example, blood pressure, fasting glucose). These include criteria suggested by the National Cholesterol Education Program, the International Diabetes Federation and the World Health Organization. There are a few problems with the traditional MetS definitions. The biggest is that using cut-off values to identify abnormalities means that some people with values that are just below the cut-off (for example, a triglyceride level of 148 mg/dL when the cut-off is 150 mg/dL) may be identified as completely normal, even if all five of their MetS components are just shy of these cut-offs. While these individuals would be labeled as normal by traditional MetS definitions, they would be identified as having a slightly elevated MetS severity using a continuous MetS score like this one. Another problem is that traditional criteria appear to not identify MetS among some individuals by race/ethnicity. In particular, African American men are classified as having a low prevalence of MetS using traditional criteria despite having higher insulin resistance and risk for diabetes and cardiovascular mortality. The MetS score here was formulated by sex and race/ethnicity to avoid this bias. Finally, another problem with traditional definitions is that according to this score, you either have MetS or you don’t. This makes it difficult to follow a person’s MetS status over time, which may remain positive, even if there is significant improvement. By following the degree of severity in MetS, the MetS score allows doctors and patients to more easily follow for improvements in MetS over time.

I have Type 2 diabetes. Is this score still useful for me?

This score has been tested among individuals with Type 2 diabetes for the ability to predict future cardiovascular disease. Higher MetS scores continued to be associated with increased risk for cardiovascular disease, even in the setting of diabetes. This was not just due to high blood sugars, since the analyses included assessment using a score that doesn’t use glucose and assessment for whether HbA1c values made a difference. The MetS score remained associated with future cardiovascular disease in diabetes any way we looked at it.

How to use the calculator

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Cite child score

Gurka, M. J., Ice, C. L., Sun, S. S., & DeBoer, M. D. (2012). A confirmatory factor analysis of the metabolic syndrome in adolescents: an examination of sex and racial/ethnic differences. Cardiovascular diabetology, 11(1), 128.

Cite adult score

Gurka, M. J., Lilly, C. L., Oliver, M. N., & DeBoer, M. D. (2014). An examination of sex and racial/ethnic differences in the metabolic syndrome among adults: a confirmatory factor analysis and a resulting continuous severity score. Metabolism, 63(2), 218-225.

Cite software

Gurka, M. J., DeBoer, M. D., Filipp, S. L., Khan, J. Z., Rapczak, T. J., Braun, N. D., Hanson, K. S., & Barnes, C. P. (2019). MetS Calc: Metabolic Syndrome Severity Calculator. doi: 10.5281/zenodo.2542213

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HTML & Javascript Implementation: MetS Calc Calculator

You can access the calculator by hitting the Calculator tab in the menu.

If the participant is younger than 20 years old, enter their birthdate in the form. If they are over 20 years old, leave the birthdate field blank. Provide the gender of the participant, the race and ethnicity, systolic blood pressure, fasting glucose, triglycerides, high-density lipoprotein (HDL), weight, height, and waist circumference. Make sure to select the correct unit of measurement. Once this information is provided, press the calculate button. The results of the calculation will appear at the bottom of the page.

Open Source

Go to github: github.com/MetSCalc

Cite Us

Please reference the investigators’ article(s) below as well as the Clinical and Translational Science - Informatics and Technology group (CTS-IT) in any research report, journal, or publication that requires citation. Recognition of CTS-IT resources you used to perform research is important for acquiring funding for the next generation of informatics services and our research and development activities in software development and information science.

If you used the child score, please cite the following article: https://www.ncbi.nlm.nih.gov/pubmed/23062212

If you used the adult score, please cite the following article: https://www.ncbi.nlm.nih.gov/pubmed/24290837

Cite child score

Gurka, M. J., Ice, C. L., Sun, S. S., & DeBoer, M. D. (2012). A confirmatory factor analysis of the metabolic syndrome in adolescents: an examination of sex and racial/ethnic differences. Cardiovascular diabetology, 11(1), 128.

Cite adult score

Gurka, M. J., Lilly, C. L., Oliver, M. N., & DeBoer, M. D. (2014). An examination of sex and racial/ethnic differences in the metabolic syndrome among adults: a confirmatory factor analysis and a resulting continuous severity score. Metabolism, 63(2), 218-225.

Cite software

Gurka, M. J., DeBoer, M. D., Filipp, S. L., Khan, J. Z., Rapczak, T. J., Braun, N. D., Hanson, K. S., & Barnes, C. P. (2019). MetS Calc: Metabolic Syndrome Severity Calculator. doi: 10.5281/zenodo.2542213

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If you would like to contribute to the MetS Calc, we would be happy to have your help. You can find out how to donate by clicking the button below.

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