Poor Housing Increases Burn Risks for Kids
Nov 27, 2012, 1:50 PM
Substandard housing has been linked to a variety of health problems including higher blood lead levels in children and an increased asthma risk. Now a new study by researchers at the Johns Hopkins Center for Injury Research and Policy finds kids living in poor housing may also be at an increased risk for fire and scald burns. The research was published in the journal Pediatrics.
The researchers surveyed the homes of 246 low-income families in Baltimore with at least one young child, and found homes with more housing quality code violations were less likely to have a working smoke alarm and safe hot water temperatures. "The effect of substandard housing on children’s risk of diseases such as asthma is well-known, however little was known about how it affects injury risk,” says Andrea Gielen, ScD, ScM, the study’s lead author and director of the Johns Hopkins Center for Injury Research and Policy. “The results of this study clearly demonstrate that substandard housing is also related to home injury risks, Gielen adds. "Even more disturbing is the finding that virtually all of the children in our urban sample were living in substandard housing."
Injury is the leading cause of death for young people in the U.S., and is responsible for more than180, 000 deaths annually, according to data from the Centers for Disease Control and Prevention. Deaths from fires and burns are the third leading cause of fatal home injury. Smoke alarms and lower water temperatures reduce the risk of burns, says Gielen, but living in substandard housing appears to be a barrier to having these protective measures in place.
- Read a NewPublicHealth National Prevention Strategy series interview with Estelle Richman, Senior Advisor to the Secretary of the Department of Housing and Urban Development on the intersection of housing and health.
- Read a NewPublicHealth interview with Andrea Gielen on injury prevention.
This commentary originally appeared on the RWJF New Public Health blog.