TOXICS INFORMATION PROJECT (TIP)
(Lighting the Way to Less Toxic Living)
LIBERTY GOODWIN, DIRECTOR
P.O. Box 40572, Providence, RI 02940
Tel. 401-351-9193, E-Mail: TIP@toxicsinfo.org
WEBSITE: www.toxicsinfo.org
THE ASSOCIATION
BETWEEN ASTHMA AND ALLERGIC SYMPTOMS IN CHILDREN
AND PHTHALATES IN
HOUSE DUST: A NESTED CASE-CONTROL STUDY
Environmental
Health Perspectives 112:1393-1397. Bornehag, CG, J Sundrell, CJ Weschler, T
Sigsgaard, Björn Lundgren, Mikael Hasselgren, Linda Hägerhed-Engman. 2004.
www.ourstolenfuture.org/NewScience/oncompounds/phthalates/2004/2004-0720bornehagetal.htm
Background on
Phthalates: www.ourstolenfuture.org/NewScience/oncompounds/phthalates/phthalates.htm
Background on
Asthma: www.protectingourhealth.org/newscience/asthma/asthmaknow.htm
This study links exposure to phthalates
found in household dust to rhinitis, eczema, and asthma
in children. Both asthma and allergies
are serious childhood diseases that are increasing at alarming rates. Asthma is
the most common chronic disease in US children, with rates more than doubling
since 1980. Many factors are known to trigger asthma attacks, but the causes
for the overall increase in asthma rates is unknown [more...]. Eczema is one of the most common skin
diseases in infants and children, and has increased at least 30% since 1970,
according to the American Academy of Dermatology. Phthalates
are industrial chemicals used widely in modern commerce. Over the last several decades, exposure to
phthalates has become ubiquitous and virtually unavoidable. There are many
types of phthalates, each with its own chemical and physical properties and
toxicological characteristics.
What did they do?
Bornehag et al. conducted a
nested case-control study of children ages 3-8 in Sweden. The researchers
identified 198 cases and 202 controls using an initial and a follow-up
questionnaire. The children were examined later by a physician who confirmed
the diagnoses. To be classified as a case, participants had to have experienced
at least two of the following symptoms in the year prior: wheezing without a
cold, rhinitis or eczema. ‘Controls’ reported no allergic symptoms on either
questionnaire. The questionnaire results mostly agreed with the physicians’
diagnoses.
During the same two-week period in which
doctors examined all of the children, researchers collected dust samples,
performed visual inspections, and conducted indoor air quality assessments in
the children’s homes. Children were excluded from the study if their homes had
been rebuilt because of moisture problems, or if they had moved since the first
questionnaire. In laboratory testing, different types of phthalates found in
the dust samples collected from the children’s bedrooms were identified and
quantified. The researchers also
recorded the presence of PVC
flooring in homes (phthalates are added to PVC to alter its physical
characteristics).
Bornehag et al. used several
statistical analyses to examine links between each of the three
physician-diagnosed health conditions (asthma, eczema, or rhinitis) and
phthalate concentrations in bedroom dust. Exposure to environmental tobacco
smoke and other factors that could influence the results of the study were
taken into account.
What did they find?
Children diagnosed with asthma or
allergies had significantly higher levels of phthalate in dust collected from their
bedrooms than did healthy children. They were also more likely to live in homes
with PVC flooring. Dust from bedrooms with PVC flooring were more likely to
have higher concentrations of BBzP and DEHP compared to other bedrooms.
The researchers found a dose-response
relationship between the concentrations of phthalates in the dust and the
likelihood of being diagnosed with asthma, rhinitis, or eczema. The higher the
concentration, the more likely a child was to be diagnosed with one of the 3
diseases. Their analyses took into
account a series of variables that might confound the results, including sex,
age, smoking at home, and type of building.
Children diagnosed with one of the conditions were also more likely to
have PVC flooring in their bedroom. As the researchers point out, however, the
link between BBzP/DEHP and health effects is not due simply to these chemicals
association with PVC.
Bornehag et al. suggest that the
different health patterns seen between DEHP vs BBzP and these health conditions
result from differences in their toxicological and physicochemical properties.
Not only does each phthalate have different metabolic pathways in humans and
laboratory animals, and also different toxicological profiles, exposure
pathways differ also. More than 85% of airborne DEHP is associated with
airborne particles, whereas BBzP tends to be present as a gas. Substances in a
gas phase deposit in the lungs differently than those attached to particles.
What does it mean?
This is the first epidemiological study
to link phthalates strongly with asthma and allergies. The authors note that previous studies
suggest that some phthalates act as adjuvants. Such findings add biological
plausibility to the link that Bornehag et al. report in this paper
because they suggest mechanisms by which phthalates could be having
effects. Their results are consistent
with a
model proposed in 1997 for the possible role of phthalates in causing
asthma. This model was based upon observations that the primary metabolite of
DEHP, called MEHP, structurally resembles key natural molecules used by the
immune system to heighten sensitivity. In the model, MEHP causes asthma by
mimicking these molecules, called prostaglandins and
thromboxanes, binding with the natural receptors for these
molecules, and then turning on genes that lead to hypersensitivity of
respiratory tissues. This increases the risk of
inflammation in the airways.
Considering
the recent dramatic increases in both asthma and allergies and the ubiquity of
phthalates in the environment, these results have global implications for
public health. Roughly 3.5 million metric tons of phthalates are produced each
year worldwide for use in plastics, cosmetics, adhesives, dyes and building
materials like PVC flooring. Studies in Germany,
the US
and Italy
have found surprisingly high levels of phthalates in people. Because of the rapid pace at which asthma
has increased, environmental causes must be involved; the change has taken
place too rapidly to be explained by inherited factors [more...].
According
to the research team, “while there are likely multiple factors responsible for
the increases in allergies and asthma that have been documented in developed
countries over the past 30 years, it is striking that these increases have
occurred during a period when plasticized products have become ubiquitous in
the homes, schools and workplaces of the developed world.”
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Some
of the phthalates mentioned in this study (information from this study and its
sources):
- DEHP: di(2-ethylhexyl) phthalate. Used mostly in PVC plastics, which typically can contain 30% DEHP by weight.
- DnBP: di-n-butyl phthalate. Used in latex adhesives, nail polish and other cosmetic products, as a plasticizer in cellulose plastics, as a solvent in some dyes, and as a plasticizer in PVC.
- BBzP: n-butyl benzyl phthalate. Used as a plasticizer for vinyl tile, carpet tile and artificial leather, and also in some adhesives.
For
more background
on phthalates
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