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The Dioxin and Endometriosis Studies
The following 18 studies indicate a possible link between
dioxin exposure and the development of endometriosis, just as the previous
section found links for PCB exposure. Certain PCBs are dioxin-like.
In addition, PCB mixtures are often contaminated with dioxins. See
PCBs,
Dioxins, Furans and Mercury --- They Travel Together. Keep in
mind that the studies are not all equal in quality. Some studied
total
PCBs while others focussed only on certain varieties of the 209 kinds of
PCB. This is not a complete list of all studies on this topic. For
more, visit the TOXNET database
operated by the National Library of Medicine (the source of these abstracts).
For more information, see Endometriosis
Introduction.
Study #1
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endometriosis is directly linked to dioxin exposure, and
dose-dependent
The incidence of endometriosis was determined in a
colony of rhesus monkeys clinically exposed to 2,3,7,8-tetrachlorodibenzo-p-dioxin
... for a period of 4 yr. Ten years after termination of dioxin treatment,
the presence of endometriosis was documented by surgical laparoscopy
and the severity of disease was assessed. The incidence of endometriosis
was directly correlated with dioxin exposure and the severity of disease
was dependent upon the dose administered (p< 0.001). Three of the
seven animals exposed to 5 parts per trillion dioxin (43%) and 5 of 7 animals
exposed to 25 parts per trillion dioxin (71%) had moderate to severe endometriosis.
In contrast, the frequency of disease in the control group was 33%, similar
to an overall prevalence of 30% in 304 monkeys housed at The Harlow Primate
Center with no dioxin exposure. This 15 yr study indicates that latent
female reproductive abnormalities may be associated with dioxin exposure
in the rhesus. (Rier et al, 1993)
Study #2
-
endocrine disruptors are implicated in endometriosis
A rise in industrialization and the consequent environmental
pollution, an increase in the use of synthetic chemicals and repeated exposure
to hazardous compounds at the workplace and at home adversely affects reproductive
health. Biohazardous compounds, some of which act as endocrine disrupters,
are being increasingly implicated in infertility, menstrual irregularities,
spontaneous abortions, birth defects, endometriosis and breast cancer.
In some cases, women are at a greater risk than men, especially with the
rise in environmental estrogens. Only a fraction of these chemicals have
been adequately examined for toxicity and for synergistic effects due to
multiple exposures. There is a need for a greater awareness and vigilance
of the effects of environmental pollution on reproductive health. (Bhatt,
2000)
Study #3
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dioxin or dioxin-like compounds (certain PCBs) are associated
with endometriosis
This summary report focuses on current studies on reproductive
effects reported at the workshop on Perinatal Exposure to Dioxin-like Compounds
and supporting data noted in the discussion. Recent laboratory studies
have suggested that altered development (e.g., low birth weight, spontaneous
abortion, congenital malformation) and reproductive health (e.g., fertility,
sex organ development, reproductive behavior) may be among the most sensitive
end points when examining the effects of dioxinlike compounds. Thus, future
research should target the reproductive health of both males and females
exposed postnatally and prenatally. Studies in humans are needed and are
on-going. In animal models, postnatal exposure to dioxin or dioxinlike
compounds has been associated with abnormal spermatogenesis and abnormal
testicular morphology and size in males and with reduced fertility and
endometriosis
in females. In utero exposure may also produce profound reproductive consequences
in both males and females including delays in sexual maturation, abnormalities
in development of sexual organs, and abnormal sexual behavior. The mechanism
by which dioxin-like compounds cause reproductive effects is not well delineated.
(Eskenazi et al, 1995)
Study #4
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endometriosis increases in female offspring of dioxin-fed
mothers
-
dioxin increases the size of endometriotic lesions
Several lines of research led to our hypothesis that perinatal
exposure to TCDD may alter the sensitivity of adult rodents to the promotional
effect of 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) on endometriosis.
Pregnant rats and mice were treated on gestation day (GD) 8 with either
1 (rats) or 3 (mice) microg TCDD/kg or vehicle. Female offspring were reared
to adulthood, and endometriosis was induced surgically. All animals
received 0, 3, or 10 microg TCDD/kg 3 weeks prior to surgery, at the time
of surgery, and 3, 6, and 9 weeks after surgery. Necropsies were performed
12 weeks after surgery. Measurements at necropsy included the diameter
of endometriotic lesions and body, uterine, ovarian and liver weights.
While no effect of treatment on lesion diameter was found in rats, analyses
revealed that perinatal plus adult exposure to TCDD can increase the size
of endometriotic lesions surgically induced in mice. These and additional
data on body and organ weights are consistent with previous work. These
data confirm the sensitivity of mice to the promotion of endometriotic
lesion growth by TCDD and indicate a perinatal effect of TCDD on this parameter
when perinatal exposure on GD8 is supplemented with adult exposure to TCDD
of female mice. (Cummings et al, 1999)
Study #5
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dioxin increases the incidence and severity of endometriosis
-
human rates of endometriosis have increased during the last
decades
Dioxins are a family of chlorinated aromatic hydrocarbons
that are produced during combustion processes in the presence of a chlorine
donor and as by-products of the chlorine-processing chemical industries.
Several dioxins are extremely stable compounds and persist for years in
the environment. Exposure to dioxins occurs mainly via the ingestion of
contaminated food. The lipophilic character of dioxins prevents their excretion
in the urine and causes their accumulation in body fat. The mechanisms
of dioxin action are similar to those of a hormone. Dioxins bind to a specific
intracellular receptor and the complex acts as a transcription factor that
induces the production of a great number of proteins. Certain dioxins,
particularly 2,3,7,8-tetrachlorodibenzo-p-dioxin, are very toxic and able
to induce numerous clinical conditions. The carcinogenicity of dioxins
is well documented in animal models and has been described in humans after
professional and accidental exposures. Recent experimental data also indicate
that dioxins can cause dysfunction of the sexual and thyroid hormone systems
and that the administration of dioxins induces several conditions related
to hormonal dysfunction. Chronic exposure of female Rhesus monkeys increases
the incidence and severity of endometriosis. The administration
of dioxins during pregnancy and nursing causes altered development of the
reproductive system, decreased spermatogenesis, hypothyroidism and disturbed
psychomotor development in the offspring. The particular sensibility of
the fetus and newborn is of concern because the exposition to dioxins is
particularly important during those periods of life. In humans a series
of conditions related to hormonal dysfunction as undescended testis, decreased
spermatogenesis, testicular cancer and endometriosis have increased
in incidence during the last decades. The chronological parallelism with
the appearance of dioxins in the environment suggests that these might
exert biological effects at the prevailing level of exposure. Nevertheless
this hypothesis is currently unconfirmed by epidemiological studies. The
implications of this scientific incertitude for the implementation of preventive
measures are briefly discussed. (Wissing, 1998)
Study #6
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the dioxin margin of safety is insufficient to protect against
endometriosis
The human health risk of dioxins was evaluated for four Japanese
receptor groups: the general population, local residents living near a
municipal solid waste incinerator, heavy fish consumers, and their infants
and fetuses. In describing the risk for these groups, four endpoints, namely,
cancer, reproductive dysfunction, endometriosis and neurobehavioral
effect, were considered, and the incremental cancer risk and margin of
exposure (MOE) corresponding to these endpoints were calculated, based
on three measures of dosimetry; average daily intake, area under the curve,
and body burden. The uncertainties of these risk descriptors were also
evaluated by probabilistic analysis. Although the estimated risk of cancer
and reproductive dysfunction were not exceptionally high in the three adult
receptor groups, the MOE values for endometriosis were not sufficiently
high to guarantee safety against this endpoint. Furthermore, the MOE
values for neurobehavioral effects on infants and fetuses suggest that
dioxins may cause a considerable risk to those of local residents and heavy
fish consumers. (Yoshida et al, 2000)
Study #7
-
dioxin is correlated with an increased incidence of endometriosis
The aim of this study was to determine whether 2,3,7,8-tetrachlorodibenzo-p-dioxin
(TCDD; dioxin) exposure exerts detrimental effects on folliculogenesis
in the Holtzman rat ovary. TCDD is a potent modulator of reproduction and
an endocrine disrupter. In certain species, this dioxin has been shown
to reduce fecundity. Further, TCDD exposure is correlated with an increased
incidence of endometriosis and various reproductive cancers. Our
laboratory previously reported that TCDD effects are in part mediated at
the level of the ovary and we have observed increased estrogen receptor
mRNA but diminished circulating estrogen concentrations. We hypothesize
that the reduction in estrogen secretion with TCDD is attributable to a
decreased number of healthy follicles in the ovary. An oral dose of 1 ug
TCDD/kg maternal body weight was administered on day 15 of gestation. Female
pups were sacrificed on post-natal day 21-23 and the ovaries were removed
and fixed in Bouin's solution. The ovaries were dehydrated in a graded
series of ethanol concentrations and infiltrated with xylene and paraffin.
The tissues were then sectioned at 10 um and stained with eosin and hematoxylin.
Follicles were analyzed in a double-blind paradigm. The analysis included
a count, measurement and classification of pre-antral and antral follicles
throughout the entire ovary. Greatest cross-sectional area of each follicle
was calculated as pi(A)(B), where A and B are one-half the greatest length
and width of the section containing the germinal vesicle. TCDD treatment
significantly reduced the number of antral follicles in the size classes
75,000-99,999 um2 and greater than 100,000 um2 using X2 goodness-of-fit.
We also observed a reduction in the number of follicles less than 50,000
um2 regardless of classification. These data support the hypothesis that
TCDD inhibits the growth of certain classes of ovarian follicles in animals
exposed during critical periods of development. (Trewin et al, 1996)
Study #8
-
dioxin is correlated with an increased incidence of endometriosis
Recent reports have described the reproduction-modulating
and endocrine-disrupting effects following exposure to toxic substances
such as 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD). Herein, we set out
(1) to determine whether TCDD exposure exerts detrimental effects on follicle
maturation in the Holtzman rat ovary and (2) to determine whether the effects
of TCDD are mediated in part via apoptotic cell death. In certain species,
dioxin exposure is correlated with reduced fecundity, reduced ovulatory
rate, an increased incidence of endometriosis, and various reproductive
cancers. Although some of the effects of TCDD are mediated via the hypothalamic-pituitary
axis, direct effects on the ovary have also been observed. In the present
study, an oral dose of 1 microgram TCDD/kg maternal body weight was administered
on Day 15 of gestation. Female pups were sacrificed on Postnatal Day 21/22,
and the ovaries were excised, fixed for histologic analysis, and analyzed
in a double-blind paradigm. The analysis included a count and measurement
and classification of preantral and antral follicles throughout the entire
ovary. The contralateral ovary from each animal was analyzed for DNA fragmentation
indicative of apoptotic cell death. The results indicate that TCDD treatment
significantly reduced the number of antral follicles in the size classes
50,000 to 74,999 microns2 and > 100,000 microns2. We also observed a reduction
in the number of preantral follicles less than 50,000 microns2. No difference
was
observed in the degree of apoptotic cell death in antral
(50,000 to > 100,000 microns2) and preantral follicles (50,000 microns2
to > 75,000 microns2) between TCDD-treated and control-treated tissues.
These data support the hypothesis that TCDD results in a diminution in
the number of antral and preantral follicles of certain size classes in
animals exposed during critical periods of development, but that apoptosis
does not appear to be the underlying mechanism in these particular follicles.
This does not preclude apoptosis occurring in pools of smaller precursor
follicles. (Heimler et al, 1998)
Study #9
-
dioxin enhanced cystic endometrial hyperplasia
Exposure to pesticides or toxic substances that disrupt the
endocrine system during sex differentiation can permanently alter reproductive
function and produce morphological pseudohermaphrodism. While some developmental
toxicants affect either the male or the female, in utero exposure to 0.5
micrograms TCDD/kg/day from Gestational Day (GD) 6 to GD 15 induces infertility
in both sexes (K.S. Khera and J.A. Ruddick, Chlorodioxins--Origins and
Fate, pp. 70-84, Am. Chem. Soc., Washington, DC, 1973). Although a number
studies have focused on the effects of a single dose of TCDD on sex differentiation
of the male rat and hamster, the reproductive alterations that account
for female-mediated infertility after in utero exposure to TCDD have not
been described. Hence, it was our objective to describe the anatomical
and functional reproductive alterations in female progeny after gestational
administration of TCDD. In the first experiment, LE Hooded rats were given
a single dose of 1 microgram TCDD/kg by gavage on CD 8 (i.e., a period
that includes major organogenesis) or GD 15 (i.e., a period prior to sex
differentiation and a dosing regime that alters sex differentiation of
the male LE rat). In a second experiment, Holtzman rats were dosed with
TCDD at 1 microgram/kg on GD 15, to determine if the progeny of this strain
displayed malformations of the external genitalia and vaginal orifice as
did LE rats. TCDD-treated female LE offspring displayed a number of unusual
reproductive alterations. In the GD 15 group, puberty was delayed, more
than 65% of the female offspring displayed complete to partial clefting
of the phallus, and 80% displayed a permanent "thread" of tissue across
the opening of the vagina. In the GD 8 treatment group, 25% displayed partially
cleft phallus and 14% had a vaginal thread. GD 15 TCDD administration also
induced a high incidence of malformations in Holtzman female progeny (100%
clefting and 83% with a vaginal thread). At necropsy ( > 550 days old),
ovarian weight was significantly reduced by 23% in both rat strains. In
the LE rat, vaginal and behavioral estrous cyclicity, estrous cycle-mediated
running wheel activity, and female sexual behaviors at proestrus (darting
and lordosis to mount ratios) were not affected by gestational GD 15 TCDD
treatment. However, untreated stud males had difficulty attaining intromission
and took longer to ejaculate and vaginal bleeding was displayed during
mating by GD 15 TCDD-exposed female offspring. GD 8 TCDD-treated female
offspring displayed enhanced incidences of constant estrus (CE) (47% CE
in GD 8 versus 16% CE in the control and GD 15 groups at middle age) and
cystic
endometrial hyperplasia. In addition, in the GD 8 group the fertility
rate declined significantly faster than in controls (p less than 0.02)
and fecundity was reduced by 38% (p less than 0.07). In conclusion, administration
of a single dose of 1 ug TCDD/kg on GD 15 results in malformations of the
external genitalia in female LE and Holtzman rats. While GD 15 treatment
is generally more toxic than GD 8 to the offspring with respect to growth,
viability, male reproductive effects (L. E. Gray, W. R. Kelce, E. Monosson,
J. S. Ostby, and L. S. Birnbaum, Toxicol. Appl. Pharmacol. 131, 108-118,
1995) and malformations of the external genitalia in the female progeny,
treatment on GD 8 is more effective in inducing functional reproductive
alterations in female progeny. (Gray et al, 1995)
Study #10
-
expression of AhR and dioxin-related genes in the endometrium
did not differ in women with or without endometriosis
2,3,7,8-Tetrachlorodibenzo-p-dioxin (TCDD) has been suggested
as a possible etiologic factor for endometriosis, a condition in
which endometrium-like tissues are present outside the uterus. The
prevailing view pertaining to the origin of endometriotic cells
is that they are from eutopic endometrial cells which regurgitate
through fallopian tubes. In order to get insight into the possible involvement
of TCDD in the pathogenesis of endometriosis, we suspected that
TCDD may act differently on the endometrium with or without endometriosis.
To address this, we examined the presence of messenger RNAs of arylhydrocarbon
receptor (AhR), AhR nuclear translocator (Arnt) and two dioxin-responsive
genes, cytochrome P-450 1B1 (CYP1B1) and downstream of tyrosine kinases
(p62(dok)), in the endometrium of women with or without endometriosis
using semi-quantitative reverse transcription-polymerase chain reaction.
All the genes were expressed throughout the menstrual cycle. The expression
level of p62(dok) was higher in the proliferative phase than in the secretory
phase. In contrast, the expression levels of AhR, Arnt and CYP1B1 seemed
to be constant during the cycle. In terms of the comparison between non-endometriosis
and endometriosis group, the mRNA levels of AhR, Arnt, CYP1B1 and
p62(dok) were essentially similar. Interestingly, AhR mRNA level was significantly
lower in smokers than in non-smokers. Based on the regression analysis,
significant linear and positive correlations were observed between AhR
and Arnt mRNA levels, and between Arnt and p62(dok) mRNA levels. In summary,
expression of AhR and dioxin-related genes in the endometrium did
not differ in women with or without endometriosis. (Igarashi et
al, 1999)
Study #11
-
dioxin facilitates survival of endometrial implants
-
dioxin promotes growth in diameter of endometrial implants
An increase in the incidence and severity of endometriosis
following treatment with 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) was
a serendipitous finding in a reproductive toxicology study in rhesus monkeys.
The purpose of this study was to investigate the effects of subchronic
exposure to TCDD on the survival and growth of surgically implanted endometrial
fragments. Endometrial fragments of equal size (4 x 1 mm(2)) were
auto-transplanted to the pelvic cavity of nulliparous cynomolgus monkeys
(Macaca fascicularis, n = 23), who were divided into 4 treatment groups
and dosed 5 days a week with gelatin capsules containing 0, 1, 5, or 25
ng/kg body weight of TCDD mixed with glucose. Endometrial implant
survival was monitored by laparoscopy at intervals of 1, 3, and 6 months.
Animals were euthanized at 12 months of treatment in the early to mid luteal
phase and the maximal and minimal endometrial implant diameter was
measured. Both the maximal and minimal diameters were significantly reduced
in the 0.71-ng/kg/day-TCDD dose group, compared to controls, whereas the
survival rate was unaffected (20 vs. 16%, respectively). In contrast, exposure
to 3.57 and 17.86 ng/kg/day TCDD for 1 year resulted in a significantly
higher
survival rate of implants (26.7% and 33.3% respectively vs. 16.0%)
and significantly larger diameter implants in the 17.86-ng/kg/day
dose group only, compared to the control group. Treatment had no effect
on circulating gonadal steroid levels or menstrual cycle characteristics.
It is concluded that TCDD facilitates the survival of endometrial
implants and exerts a bimodal effect on endometrial implant growth.
(Yang et al, 2000)
Study #12
-
dioxin exacerbates endometriosis
-
increased endometriotic site diameter
-
dose-dependent increase in endometriotic growth
-
reduced ovary weight
-
persistent estrus
-
ovulatory arrest
-
hemorrhage and necrosis of the endometrial lining
-
fibrosis
-
reduced thymus weight
-
increased liver weight
-
reduced body weight gain
The influence of 2,3,7,8-tetrachlorodibenzo-p-dioxin (1746016)
(TCDD) on surgically induced endometriosis was examined. Female
Sprague-Dawley-rats and B6C3F1-mice were gavaged with TCDD at 0, 3, and
10 micrograms per kilogram body weight (microg/kg), both before and after
surgery. Rats were sacrificed from 3 to 12 weeks after surgery. Controls
were treated with surgery but not with TCDD. At a dose of 10microg/kg,
TCDD significantly increased endometriotic site diameter in rats.
However, this effect was determined only when all time points were pooled.
In mice, TCDD treatment induced a significant, dose dependent increase
in endometriotic site growth 9 and 12 weeks after surgery. Compared
to controls, ovarian weight decreased in rats treated with either 3 or
10microg/kg TCDD, at both 9 and 12 weeks after surgery. Persistent estrus
at necropsy was common in rats exposed for 9 and 12 weeks. Ovulatory arrest
was discerned in 45% of the treated rats and 11% of the controls. TCDD
did not exert a significant effect on the ovarian weight or estrus cycle
of mice. While endometriotic sites exhibited endometrial
fibrosis in both controls and treated rats, hemorrhage and necrosis of
the endometrial lining were observed only in rats treated with TCDD.
Fibrosis, not observed in control mice, was detected in treated mice. Compared
to the organ weights of controls, the thymus glands of treated animals
weighed significantly less, while the livers of treated animals weighed
significantly more. After 9 and 12 weeks of treatment with 10microg/kg,
the body weight gain of rats decreased significantly. The authors conclude
that TCDD exacerbates surgically induced endometriosis in both rats
and mice. The mouse is the model of choice for further study concerning
the effects of TCDD exposure on endometriosis. (Cummings et al,
1996)
Study #13
-
dioxin increases enzymes which promote endometriosis
Environmental contaminants that are known to disrupt steroid
action can influence the development of reproductive diseases. Our group
has focused on whether 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD or dioxin)
can disrupt steroid regulation of endometrial matrix metalloproteinase
(MMP) expression. The MMPs regulate extracellular matrix turnover in normal
tissues, but the inappropriate expression of these enzymes is associated
with numerous disease states that involve invasive processes. We have previously
shown that secretion of MMPs by human endometrium is critical for
establishment of ectopic lesions in a nude mouse model of experimental
endometriosis.
In this report, we show that TCDD exposure promotes establishment of experimental
endometriosis
by interfering with the ability of progesterone to suppress endometrial
MMP expression. (Bruner-Tran et al, 1999)
Study #14
-
dioxin is associated with endometriosis in humans
The concentrations of the environmental pollutant 2,3,7,8-tetrachlorodibenzo-p-dioxin
were measured in the blood of 44 infertile women with endometriosis
(study group), and in 35 age-matched women with tubal infertility (control
group). Eight women with endometriosis (18%) were dioxin positive
as compared to one woman (3%) in the controls (P = 0.04). Although the
concentrations of dioxin did not seem to be directly correlated with the
severity of endometriosis, these observations contribute to the
accumulating data linking dioxin to endometriosis in humans. (Mayani
et al, 1997)
Study #15
-
environmental toxins affect the response of the endometrium
to steroids, resulting in endometriosis
The proper function of the normal human endometrium
relies on well organized cell-cell interactions regulated locally by cytokines
and growth factors under the direction of steroid hormones. The onset and
progression of the disease processes of endometriosis may result
from disruptions of this well balanced cellular equilibrium. Evidence continues
to accumulate indicating that environmental toxins, whether naturally occurring
or man-made, may directly (hormone disruptor) or indirectly (immune toxin)
affect the response of the endometrium to steroids, resulting in
various pathological states including endometriosis. (Osteen et
al, 1997)
Study #16
The effect of natural, environmental, or manufactured substances
on endocrine organs is a current topic of discussion. Recently, some toxicants
have been suggested to promote endometriosis; therefore, attention
has turned to the role of environmental factors as a stimulant for endometriosis
growth and maintenance. This article reviews the influence of various toxicants
on endometriosis. (Zeyneloglu et al, 1997)
Study #17
Reports in the literature of an increasing incidence of endometriosis
in industrialized countries and increasing problems with pollution in these
countries leads to speculation about a possible link between one of the
most harmful components of pollution, dioxin, and endometriosis.
To establish this link, we need to examine three issues more closely: What
are the effects of dioxin, what is the true incidence of endometriosis,
and what is the nature of the association between endometriosis
and dioxin. This report reviews current thinking on these issues. (Koninckx,
1999)
Study #18
-
Concludes with "the possibility that the ingestion of dioxin-like
compounds causes adverse health effects in the Dutch population cannot
be excluded with reasonable certainty."
-
Cites report of Rhesus monkeys developing endometriosis after
dioxin exposure
Effects and recommended exposure limits. Dioxin-like substances
are frequently present in the environment in the form of mixtures of many
polychlorinated dibenzo-p-dioxins (PCDDs), dibenzofurans (PCDFs) and the
dioxin-like polychlorinated biphenyls (PCBs). Exposure to these compounds
may have various adverse health effects, depending on the dose. A great
deal of research has been done on the carcinogenic properties of these
substances and their effects on reproduction and prenatal and postnatal
development. These studies show that developmental effects are the first
to be observed as a result of increased exposure, especially in the case
of young infants. If exposure increases any further, the promotion of cancer
can - after a certain level - no longer be excluded. The toxic equivalent
of a mixture. The effect of the various substances is rather diverse, but
it is certain that the many dioxin-like substances act in a similar way
on body cells. This finding, together with the fact that the chemicals
in question frequently appear in mixtures of highly diverse composition,
has led to the adoption of a group approach. One aspect of this approach,
supported by the Committee, is the assignment of a toxic equivalency factor
(TEF) to each dioxin-like substance. The TEF value expresses toxicity in
relation to the most toxic substance of the group, 2,3,7,8-tetrachlorodibenzo-p-dioxin
(2,3,7,8-TCDD). The toxic equivalent (TEQTOTAL) of a mixture of PCDDs,
PCDFs and dioxin-like PCBs is determined by multiplying the concentration
found for each individual compound by the relevant TEF value and adding
up the resulting products. The Committee deems the TEF concept to be applicable
to the assessment and limitation of the risks associated with exposure
to these substances by humans and by animals and ecosystems. Experimental
data show that the TEFs for man, fish and birds can differ substantially.
The Committee therefore believes that in estimating the ecotoxicological
risk, TEFs other than those used for the toxicological evaluation for humans
should be employed. The Committee supports the internationally agreed TEF
values for humans; however, it believes that further research is needed
before ecotoxicological TEFs can be used. Humans. It is government policy
to guarantee with reasonable certainty that an intake equal to the health-based
recommended exposure limit for a particular substance will have no adverse
effect on the health of the exposed persons or their offspring. Concerning
dioxin-like substances the Committee judges an 'adverse effect' to be each
observable change which immediately or in the longer term is harmful to
an organism, as well as each adaptation or response by the organism to
exposure to these chemicals which may not with reasonable certainty be
regarded to be harmless. On the basis of animal data, the Committee derives
a recommended limit of human exposure to dioxin-like compounds of I picogramme
of toxic equivalents per kilogramme of body weight per day. This value
is lower by a factor of 10 than the figure recommended by the World Health
Organisation (WHO), and the RIVM. The Committee underpins its proposal
with the results of other animal studies, some of which are more recent
than those used by the WHO. The Committee arrived at its proposed health-based
recommended exposure limit in the following way. Exposure to dioxin-like
substances at low dose levels does not cause cancer, but at these intake
levels there may be other adverse effects. For instance, changes have been
observed in the cognitive development of Rhesus monkeys when the mother
was exposed to approximately 100 picogrammes per kilogramme of body weight
per day or more. The mothers developed endometriosis. In another
study changes in the white blood cells of Marmoset monkeys were observed
at a similar level of exposure. The Committee takes the 100 picogramme
level per kilogramme to be the lowest level at which adverse effects have
been observed. In order to derive a recommended level for humans from the
reported animal studies, the Committee made use of extrapolation and safety
factors. Using dose-response ratios for effects on rats in the lower intake
range, it derived an extrapolation factor from 'lowest observed adverse
effect level' to 'no adverse effect level' of 2 for experimental animals.
Application of this figure to the above data for monkeys thus gives a 'no
adverse effect level' of 50 picogrammes per kg. of body weight per day.
The Committee then selected a factor of 5 for extrapolation from monkey
to man. Monkeys appear to be closer to man with regard to the distribution
of PCDDs and PCDFs between the liver and fatty tissue than, for instance,
rats. Thus, the Committee does not employ the usual factor of 10 for extrapolation
from rat data. Differences in sensitivity between humans (intraspecies
variation) are accounted for by applying the usual safety factor of 10.
This reasoning leads to a figure of I picogramme per kg. of body weight
per day as a public health-based exposure limit for humans. Ecosystems.
Government policy is to limit the exposure at a level at which with reasonable
certainty at least 95% of the species in an ecosystem will not experience
adverse effects from the substance. Ecotoxicology based recommended exposure
limits are the basis for that. The Committee uses fixed extrapolation factors
in deriving these limits, taking the data on 2,3,7,8-TCDD for a sensitive
species as the basis. For 2,3,7,8-TCDD in aquatic ecosystems, the Committee
has derived a recommended exposure limit of 0.1 picogrammes per litre of
water and 13 000 picogrammes per 1 kilogramme of dry matter in the sediment.
In establishing these concentrations it took into account the possibility
of accumulation of the chemical in the food chains and the consequences
of that on birds and mammals. The Committee proposes using an ecotoxicology
based recommended exposure limit of 2000 picogrammes of 2,3,7,8-TCDD per
kilogramme of dry matter for terrestrial ecosystems. Here, too, it has
taken accumulation in the food chain into account. An important difference
between the exposure limits in this report and those in the RIVM criteria
document on Dioxins is the fact that the Committee derives ecotoxicological
exposure limits for 2,3,7,8-TCDD. Only for this substance there are enough
data. In some aquatic ecosystems however the exposure to dioxin-like PCBs
is of greater importance. comparison of exposure in the Netherlands with
the recommended exposure limits. Humans. Most adults in the Netherlands
are exposed to approximately 2 picogrammes of toxic equivalents of dioxin-like
substances per kilogramme of body weight per day. In general, it may be
stated that in excess of 90% of human exposure to PCDDs, PCDFs and dioxin-like
PCBs derives from the consumption of animal fats, of which 50% are contained
in milk and milk products. Infants are exposed to these substances before
birth as well as through the maternal milk. Their exposure through the
maternal milk, expressed per kilogramme of body weight, may thus be substantially
higher than that of adults. These exposure figures may be compared to the
recommended exposure limit proposed by the Committee. This leads to
the conclusion that the possibility that the ingestion of dioxin-like compounds
causes adverse health effects in the Dutch population cannot be excluded
with reasonable certainty. The Committee believes that it is supported
in this conclusion by (Dutch Experts, 1996) (citation incomplete)
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