The use of antibiotics during infancy has been associated with weight gain, contributing to childhood obesity. But a new study found that the risk of childhood obesity increases due to infections in the first year of life. The study conducted by researchers at the Kaiser Permanente Division of Research in Oakland, California, involved more than 260,000 infants over 16 years.
"In previous studies, antibiotics used to treat infant infections have been associated with weight gain. However, we separated the two factors and found that antibiotics do not, themselves, appear to be associated with childhood obesity," said De-Kun Li, MD, PhD, principal investigator of the study and a reproductive and perinatal epidemiologist at the Kaiser Permanente Division of Research in Oakland, California.
"Our study is one of the largest analyses of the interplay among infections, antibiotic use and childhood obesity, and adds important evidence to a small but growing body of research on how the microbiome, or gut bacteria, may be affecting children's development."
Scientists are exploring numerous factors that may play a role in growth and development during early childhood, including chemicals in the environment, maternal gestational diabetes, and the metabolic programming of body weight during early childhood. Both infections and antibiotic use have been shown to influence the composition of intestinal microorganisms; the intestinal microbiome can affect metabolic processes and the immune system, which in turn affect metabolic processes, growth patterns, and weight development.
In this study, researchers reviewed 260,556 births that occurred between January 1, 1997, and March 31, 2013, at Kaiser Permanente facilities in Northern California. Kaiser Permanente's comprehensive electronic medical record, Kaiser Permanente HealthConnect®, allowed researchers to obtain data on infections and antibiotic use in infancy, and to capture heights and weights measured in these children for up to 18 years. All infant infections were included, with respiratory and ear infections accounting for the majority.
The electronic medical record provided additional information that allowed Dr. Li's team to control for potential confounding factors, such as maternal smoking during pregnancy, pre-pregnancy body mass index, race/ethnicity, and breastfeeding.
Children diagnosed with an infection during their first year of life who had no antibiotic use were about 25 percent more likely to become obese (defined as in the 95th percentile for body mass index of all children studied) compared to those without infections. There was a dose-response relationship, meaning that higher numbers of untreated infections were associated with a larger increased risk of obesity.
In contrast, there was no increased risk of obesity associated with antibiotic use during the first year when compared to infants with untreated infections. The type of antibiotics used (broad or narrow spectrum) did not influence the outcomes. Researchers recommend focusing efforts on reducing infections in infancy while being careful in prescribing antibiotics.
The findings of the study are published in The Lancet Diabetes & Endocrinology.