• linkedin
  • Increase Font
  • Sharebar

    Good gut bacteria might prevent asthma development

    Therapeutic inoculation with four specific bacteria in infancy could prevent the development of asthma in adulthood, according to a new study from the University of British Columbia (UBC).

    Researchers found that gut dysbiosis in the first 100 days of life is linked to later asthma and allergy development, but that inoculation with microbiota Faecalibacterium, Lachnospira, Veillonella, and Rothia—dubbed FLVR by the research team—significantly reduced lung inflammation.

    Study author and microbiologist B. Brett Finlay, PhD, told Medical Economics the research was spurred by a comment from his wife, a pediatrician, that infants who do not receive certain antibodies in their first year of life have higher rates of asthma. At first, Finlay did not believe her, but then found literature to back the idea.

    Related: Study: Weight loss key to manage asthma in obese adults

    “There were these smoking guns to indicate gut microbes might affect asthma,” he says.

    Initial research was conducted in mice, then on more than 300 children enrolled in the Canadian Healthy Infant Longitudinal Development (CHILD) Study and screened using the Asthma Predictive Index (API). Finlay and his team found that children with high levels of FLVR had a low risk of developing asthma, while children with low colonization of the microbes had a higher risk. Specifically, the research team identified Lachnospira as possibly having the most significant impact on inflammation.

    “These four bugs can be potentially used as biomarkers of asthma,” says study author Marie-Claire Arrieta, a UBC postdoctoral fellow. “We can later determine someone’s risk to develop asthma based on the abundance of these four bugs. And later we can think of the therapeutic potential of these four bugs given to babies that are determined to be at risk.”

    Increased use of prenatal and perinatal antibiotics, increased urban living, and formula feeding in infancy may all play a role in the decrease of FLVR in the infant gut, eventually leading to an altered microbiota and possible asthma development, according to the report.


    NEXT: New therapies to prevent development of asthma

    Rachael Zimlich, RN
    Ms Zimlich is a freelance writer in Cleveland, Ohio. She writes regularly for Contemporary Pediatrics, Managed Healthcare Executive, and ...


    You must be signed in to leave a comment. Registering is fast and free!

    All comments must follow the ModernMedicine Network community rules and terms of use, and will be moderated. ModernMedicine reserves the right to use the comments we receive, in whole or in part,in any medium. See also the Terms of Use, Privacy Policy and Community FAQ.

    • No comments available

    Latest Tweets Follow