Cleaning products could increase risk of childhood asthma


New research suggests that early exposure to household cleaning products is associated with the development of asthma and wheezing in children Professor Tim Takaro, the study’s lead researcher and a clinician-scientist in Simon Fraser University’s Faculty of Health Sciences (SFU) says: “Most of the evidence linking asthma to the use of cleaning products comes from adults,
“Our study looked at infants, who typically spend 80%-90% of their time indoors and are especially vulnerable to chemical exposures through the lungs and skin due to their higher respiration rates and regular contact with household surfaces.”
The research published in CMAJ (Canadian Medical Association Journal), looked at data from questionnaires collected between 2008 and 2015 and completed by parents of 2022 children in the Canadian Healthy Infant Longitudinal Development (CHILD) Cohort Study who were exposed to cleaning products from birth to age 3-4 months.
Participants in the CHILD Cohort Study were recruited from mostly urban centres across four provinces: Vancouver, BC; Edmonton, Alberta; Winnipeg, Morden and Winkler, Manitoba; and Toronto, Ontario. The children were then assessed at age 3 years to determine whether they had asthma, recurrent wheeze or atopy (allergic sensitization).
Although there is an association between early exposure to cleaning products and the risk of asthma and wheeze, there appears to be no association with atopy (food or air born allergens).
Hand dishwashing soap, dishwasher detergent, multi-surface cleaners, glass cleaners and laundry soap are the most common cleaning products that were used.
Scented and sprayed cleaning products were associated with the highest risk of respiratory issues.
Most children were white (65%), had not been exposed to tobacco smoke up to age 3-4 months (76%) and did not have a parental history of asthma (65%).
The researchers hypothesise that chemicals in cleaning products may damage the respiratory lining by triggering inflammatory pathways of the immune system, leading to asthma and wheeze. The modulation of the infant’s microbiome may also play a role. Jaclyn Parks, lead author and a graduate student in SFU’s Faculty of Health Sciences said: “These findings add to our understanding of how early life exposures are associated with the development of allergic airway disease, and identify household cleaning behaviours as a potential area for intervention,”
Reading labels on cleaning products and choosing those that are not sprayed or contain volatile organic compounds will help minimize a child’s exposure and balance the risk associated with using cleaning products in an effort to achieve a mould-free, low-allergen home.