asthma
Largest Study Yet Shows Mother’s Smoking Changes Baby’s Epigenome
Posted on by Dr. Francis Collins
Credit: Daniel Berehulak/Getty Images
Despite years of public health campaigns warning of the dangers of smoking when pregnant, many women are unaware of the risk or find themselves unable to quit. As a result, far too many babies are still being exposed in the womb to toxins that enter their mothers’ bloodstreams when they inhale cigarette smoke. Among the many infant and child health problems that have been linked to maternal smoking are premature birth, low birth weight, asthma, reduced lung function, sudden infant death syndrome (SIDS), and cleft lip and/or palate.
Now, a large international study involving NIH-supported researchers provides a biological mechanism that may explain how exposure to cigarette toxins during fetal development can produce these health problems [1]. That evidence centers on the impact of the toxins on the epigenome of the infant’s body tissues. The epigenome refers to chemical modifications of DNA (particularly methylation of cytosines), as well as proteins that bind to DNA and affect its function. The genome of an individual is the same in all cells of their body, but the epigenome determines whether genes are turned on or off in particular cells. The study found significant differences between the epigenetic patterns of babies born to women who smoked during pregnancy and those born to non-smokers, with many of the differences affecting genes known to play key roles in the development of the lungs, face, and nervous system.
Creative Minds: Harnessing Technologies to Study Air Pollution’s Health Risks
Posted on by Dr. Francis Collins
Perry Hystad
Credit: Hannah O’Leary, Oregon State University
After college, Perry Hystad took a trip to India and, while touring several large cities, noticed the vast clouds of exhaust from vehicles, smoke from factories, and soot from biomass-burning cook stoves. As he watched the rapid urban expansion all around him, Hystad remembers thinking: What effect does breathing such pollution day in and day out have upon these people’s health?
This question stuck with Hystad, and he soon developed a profound interest in environmental health. In 2013, Hystad completed his Ph.D. in his native Canada, studying the environmental risk factors for lung cancer [1, 2, 3]. Now, with the support of an NIH Director’s Early Independence Award, Hystad has launched his own lab at Oregon State University, Corvallis, to investigate further the health impacts of air pollution, which one recent analysis indicates may contribute to as many as several million deaths worldwide each year [4].
Tackling Health Disparities: Childhood Asthma
Posted on by Dr. Francis Collins
One condition for which NIH researchers are working to reduce disparities is asthma, the most common chronic condition that keeps kids home from school.
Compared to white children, Puerto Rican youngsters are 2.4 times more likely to suffer from asthma, African Americans, 1.6 times; and American Indians/Alaska Natives, 1.3 times.
Source: National Heart, Lung, and Blood Institute, NIH
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