Air Pollution Linked To Bronchitis In
Preschoolers
In one of the first studies to examine air pollution in relation to infant
and early childhood health, a UC Davis researcher has discovered a strong
link between exposure to components of air pollution and acute bronchitis
diagnoses in preschool-aged children. Those components - polycyclic
aromatic hydrocarbons, or PAHs - contribute to air pollution from a
variety of sources, including coal burning, vehicle exhaust, wood-burning
stoves, tobacco smoke and grilling food.
Led by UC Davis environmental epidemiologist Irva Hertz-Picciotto, the
Czech Early Childhood Health Study involved 1,133 children from birth to
4.5 years of age born in two districts of the Czech Republic between 1994
and 1998. One of those districts, Teplice (pronounced Tuh-PLEET-zuh), is
known for its high levels of air pollution. The other, Prachatice
(pronounced prah-kuh-TEET-zuh), has much lower levels of air pollution.
Hertz-Picciotto and colleagues compared information on medical diagnoses
of lower respiratory illnesses such as bronchitis, croup, pneumonia and
asthma with detailed data on air quality. The findings revealed a
significant increase in diagnoses of acute bronchitis when children aged 2
to 4.5 were exposed to medium-to-high levels of PAHs for 30 consecutive
days.
"This is the first large-scale, comprehensive study looking at early
childhood respiratory infections and the constituents of today's air
pollution," said Hertz-Picciotto, a UC Davis professor of
epidemiology and lead author of the study. "We found that polycyclic
aromatic hydrocarbons have a significant effect on the lung health of
children in the study, in particular in increases in acute bronchitis
diagnoses for toddlers and preschoolers. We saw the biggest impact on
children old enough to play outside, while infants were affected but not
quite as much."
Scientists classify the components of air pollution as either particles or
a variety of chemical compounds. Whereas a number of studies have examined
particles, sulfur dioxide and ozone, very little research in human
populations have addressed PAHs, which result from the incomplete
combustion of carbon-containing fuels such as wood, coal, diesel or
tobacco. Current environmental regulations in both the United States and
Europe focus on controlling particulate emissions.
"Our work strongly suggests that regulators consider efforts to curb
PAHs as well. Reducing particles may also reduce chemical emissions but
the impact will depend on what control measures are taken. When it comes
to children's lung health, we need to take steps to reduce all risk
factors," Hertz-Picciotto said. "Additional precautions
particularly pertinent here in California to protect children from the
harmful effects of PAHs include not smoking around children and using
alternatives to wood for heating homes in the winter."
Hertz-Picciotto and colleagues collected standardized medical records and
information from parent questionnaires about work history, demographics,
lifestyle, and reproductive and medical histories. Follow-up information
was collected once for each child at the age of 3 for those born between
1994 and 1996 and at age 4.5 for those born in 1997 or 1998.
At the same time, the team collected detailed air quality sampling data on
levels of particulate and PAH air pollution in the regions. PAHs are
particularly difficult and expensive to measure. Hertz-Picciotto and her
researchers had unique access to daily measures of air quality -- both
particulate matter and PAHs -- for winter months, while measures were
taken at three-day intervals in the fall and spring and six-day intervals
in the summer when these air pollutants are at their lowest. As a result,
the volume and detail of medical and environmental data used in the
analysis is uniquely robust and allowed researchers to control for a whole
host of potentially confounding factors.
"It is an impressive amount of very complete data, giving us a rare
opportunity to look at the impact of air pollution on the health of young
children and the actual components comprising that pollution," Hertz-Picciotto
explained. "We were able to correct for everything from duration of
breast feeding to smoking in the home to average daily temperature."
The PAH levels identified in the Czech Republic are comparable to those
found in Western Europe and the United States. Some rural areas of
California, for example, see sharp increases of PAHs in the winter due to
the burning of wood stoves for heat. Likewise, increases in bronchitis in
the Czech children were seen in the winter months when air quality was the
poorest.
In addition to comparable air pollution profiles to those in the United
States, the Czech Republic was an ideal study site for evaluating
physician-diagnosed illnesses because of its open public-health
infrastructure. All citizens of the Czech Republic are entitled to free,
readily available medical care. Families remain with one pediatrician for
all of their children from birth to adulthood. For researchers, this meant
access to thousands of standardized medical records and participation
rates of more than 95 percent by those asked to fill out follow-up
questionnaires.
"There are virtually no barriers to receiving health care in the
Czech Republic and virtually all families develop strong, lasting
relationships with their pediatricians and nurses," Hertz-Picciotto
said. "This definitely helped keep participation levels high."
Bronchitis occurs when the inner walls that line the main air passageways
of the lungs become infected, inflamed and narrowed. It usually follows a
cold or the flu. The result is a persistent, productive cough, shortness
of breath and chest tightness and pain. Some cases of bronchitis can be
treated by antibiotics but most are due to viruses, for which there are no
treatments. Acute bronchitis is among the top 10 conditions for which
patients seek medical care. It is a major contributor to missed school for
children and workdays for parents who stay home with them. Estimated costs
for evaluating and treating this illess are between $200 and $300 million
each year.
"Air quality negatively impacts children's health and has a definite
economic impact on health systems and families," Hertz-Picciotto
said.
Scientists have yet to discover the biological mechanism by which air
pollution in general and PAHs in particular contribute to lower
respiratory illnesses. Hertz-Picciotto theorizes that the chemicals in air
pollution may have an impact on the immune system.
"It's possible that increased inflammation of the airways due to the
PAH exposure compromises the immune system and makes it easier for viruses
to take hold," she explained. "We need more basic science to
answer this question."
In the meantime, Hertz-Picciotto and her colleagues will continue to
investigate the impact of other air pollution components and their
potential connections to childhood illnesses using the Czech data sets.
They will also be looking at whether prenatal exposure to air pollution
leads to increased susceptibility to illness, such as asthma and hay
fever, later in life.
Results of the study are published in the October 2007 issue of
Environmental Health Perspectives and can be downloaded at http://www.ehponline.org.
Funding for the research was provided by the Czech Ministry of
Environment, U.S. Environmental Protection Agency, U.S. Agency for
International Development, Commission of the European Community, Health
Effects Institute and National Institute of Environmental Health Sciences.
Hertz-Picciotto's research team included an international group of
scientists from the Czech Republic, Germany, UC Davis and the University
of North Carolina, Chapel Hill.
UC Davis Health System is the leading tertiary care provider for a
33-county region of Northern California. Research strengths at UC Davis
Health System include clinical and translational science, stem cell
science, infectious diseases, vascular biology, neuroscience, cancer,
functional genomics and mouse biology, comparative medicine, combinatorial
chemistry and nutrition, among many others.
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