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이정도면 합리적인 의심을 넘어 Evidence라고 할만하지 않을까요?
불소는 어린이 IQ발달을 저해합니다.
The
Mother-Offspring Studies
The 7
Mother-Child Fluoride Studies
The Mother-Child studies reveal that the
fetus is the most vulnerable to fluoride’s neurotoxicity. Six of the seven
studies measured pregnant women’s urinary levels for fluoride and these levels
were compared to the IQ of their offspring. Certain levels of fluoride in the
pregnant women’s urine were found to significantly impact the IQ, or cognitive
function, of the offspring at various ages (up to 12 years of age). The most recent
study by Till et al. (Nov 2019) investigated the effects on IQ from
infants fed formula made in fluoridated communities vs infants in
non-fluoridated areas. The loss of IQ occurred in the fluoridated communities.
The largest study listed below by Green et al. (2019) is important as it
was the first to include mother-child pairs in fluoridated and non-fluoridated
cities in Canada. Children were tested between the ages of 3 and 4. Of note is
that the U.S. fluoridates the drinking water at the same level as Canada (0.7
mg/L fluoride). The Bashash et al. (2017) study is the longest
mother-offspring study, having tested the children at 4 years of age and again
between 6-12 years. Three other studies (Thomas et al., 2017; Valdez Jiménez et
al., 2017; Li et al., 2004) also correlated the urinary fluoride levels with
reduced IQ in the offspring. The singular importance of the Till (2019),
Green (2019), Bashash (2017) and Thomas (2017) studies is that the fluoride
levels in the urine of the pregnant women are similar to what is found in
adults living in fluoridated communities in the U.S. The first study to look at
this correlation was the study by Li et al. (2004) in China.
The studies by Li et al (2004)
and Chang et al., (2017), both from China, compared newborns (1 to 3
days old) and infants (at 3, 6, 9, and 12 months of age) from women living in
high-fluoride areas to those living outside these areas. The study by Valdez
Jiménez et al. (2017) was confined to women and their offspring in high
fluoride areas.
1. Till et al.
(2019) reported lower IQ at between 3 and 4 years of age.
This newest study, released on November
18, is titled Fluoride
exposure from infant formula and child IQ in a Canadian birth cohort.
This study was funded by the U.S. National Institute of Environmental Health
Sciences (NIEHS) and published in Environment International. The authors
“examined whether feeding status (breast-fed versus formula-fed) modified the
impact of water fluoride and if fluoride exposure during fetal development
attenuated this effect.” The mothers urinary fluoride (MUF) levels were used as
a proxy of fetal fluoride exposure. A second model estimated the association
between fluoride intake from formula and child IQ. According to the authors:
Consumption of formula reconstituted with fluoridated
water can lead to excessive fluoride intake. Breastfed infants receive very low intake of fluoride. We compared IQ scores in 398 children who were
formula-fed versus breastfed during infancy. IQ scores were lower with higher levels of fluoride in
tap water. The effect was more pronounced among formula-fed
children, especially for nonverbal skills 2. Green et al.
(2019) reported lower IQ at between 3 and 4 years of age. Titled Association
Between Maternal Fluoride ExposureDuring Pregnancy and IQ Scores in Offspring
in Canada, and published in JAMA Pediatrics, this study took place
in 6 Canadian cities with 512 mother-child pairs. Women living in areas with
fluoridated tap water compared with nonfluoridated water had significantly
higher mean urinary fluoride concentrations. A 1-mg/L increase in urinary
fluoride levels was associated with a 4.49-point lower IQ score in boys, but
there was no statistically significant association with IQ scores in girls. A
1-mg higher daily intake of fluoride among pregnant women was associated with a
3.66 lower IQ score in boys and girls. According to the authors, the urinary
fluoride levels observed in this study are “typically found in white North
American women.” This study was also funded by the U.S. NIEHS. 3. Bashash et
al. (2017) reported lower IQ at 4 years of age and between 6 to 12 years of
age. This study by Bashash et al.,
titled Prenatal Fluoride Exposure
and Cognitive Outcomes in Children at 4 and 6–12 Years of Age in Mexico,
was published in September 2017 in the prestigious journal Environmental
Health Perspectives
The researchers followed up to 299 women-offspring pairs in Mexico during a
12-year period and reported that the fluoride levels in the urine of the
pregnant women was the factor for a loss of 5 to 6 IQ points in the offspring
at ages 4 and 6-12 years of age. The fluoride levels in the urine of the
pregnant women are similar to what is found in adults in fluoridated
communities in the U.S. This study, as well as the following one by Thomas et
al., was funded by the U.S. National Institutes of Health, the U.S.
Environmental Protection Agency, and the U.S. NIEHS. 4. Thomas et al.
(2018) reported lower IQ in children between 1 to 3 years of age. This study by Thomas et al., titled, OPV – 2 Prenatal fluoride exposure
and neurobehavior among children 1–3 years of age in Mexico, was
presented at a conference on
epidemiology in Germany in March 2018. Only the abstract of the
study has been published in the journal Occupational & Environmental
Medicine. This abstract reports pregnant women’s fluoride exposure is
linked to lower IQ in their children at one- to three-years-old at levels
commonly found in U.S. women. The authors of this study said that their
findings “suggest higher in utero exposure to fluoride has an adverse impact on
offspring cognitive development that can be detected earlier, in the first
three years of life.” 5. Valdez
Jiménez et al. (2017) reported lower IQ between the ages of 3 to 15 months. This was the first mother-infant pair
study performed by a team from three universities in Mexico. The study is
titled In utero
exposure to fluoride and cognitive development delay in infants by
Valdez Jiménez et al. and was published in the journal Neurotoxicology
on March 1, 2017. This study differs from the other two studies discussed above
inasmuch as the pregnant women in the study lived in areas of high naturally
occurring fluoride in the drinking water. The authors noted that “cognitive
alterations in children born from exposed mothers to F could start in early
prenatal stages of life.” • this study had 65 mother-baby pairs
• the IQ testing took place between the ages of 3 to 15 months
• this study took place in an area with high naturally occurring levels of
fluoride in the drinking water (called endemic hydrofluorosis areas).
• Over 81.5% of the samples of tap water were above 1.5 mg/l with the highest
value of 12.5 mg/.
• 33.8% of the births were pre-term. The authors stated, “We found higher
levels of F in urine across trimester in premature compared with full term.”
• The authors state, “In this study near to 60% of the children consumed
contaminated water and the prevalence of children with IQ below 90 points
was 25% in the control group (F urine 1.5 mg/g creatinine) in comparison with
the 58% of children in the exposed group (F urine >5 mg/g creatinine)… Our
data suggests that cognitive alterations in children born from exposed mothers
to F could start in early prenatal stages of life.” 6. Li et al.
(2004) reported significant differences in the behavioral neurological
assessment score in 1 to 3 day-old offspring This Chinese study, Effects of high
fluoride level on neonatal neurobehavioral development, was first
published in 2004, translated into English and re-published in 2008 in the
journal Fluoride 41(2):165–170.
Ninety-one full-term, normal neonates were randomly
selected for observation, 46 were male and 45 female. A urine sample was collected after the pregnant women
were hospitalized but before labor began The standard neonatal behavioral neurological assessment
(NBNA) method was used for measurements, which were carried out by
professionals (pediatric department physicians working in neonatal section
trained in national NBNA training program) In the high fluoride group the urinary fluoride level
averaged 3.58±1.47 mg/L, significantly higher than the normal range of 0.18–2.6
mg/L and was significantly different from the fluoride level in urine samples
from the control group. When compared with the fluoride result in urine samples
from the control group (1.74±0.96 mg/L), the difference is statistically very
significant (p<0.01). The two study groups are located in the same area with
similar climate, living habits, economic and nutritional conditions, and
cultural backgrounds. There is no industrial fluoride contamination in the
endemic fluoride or the non-endemic control area. As can be seen in Table 1,
there was no statistically significant difference in the delivery mode, birth
weight, infant length, and sex. As seen in Table 2, neonatal neurobehavioural assessment
of the neonates from the high fluoride group and the control group indicated
that the neurobehavioural capability and agonistic muscle tension from the high
fluoride group were impaired, resulting in a statistically significant lower
overall (total) assessment score than in the control group (p<0.05). Table 3 shows that the various neurobehavioral
capabilities, such as non-biological visual, biological visual, and auditory
directional reactions of the neonates from the high fluoride group lagged
behind those of the control group with differences that are statistically
significant (p<0.05). 7. Chang et al.
(2017) reported significant differences in the mental development index and
psychomotor development index of the offspring at 3, 6, 9, and 12 months of
age. This study, Analysis on the Effect of
Coal-Burning Fluorosis on the Physical Development and Intelligence Development
of Newborns Delivered by Pregnant Women with Coal-Burning Fluorosis, was
conducted in China and published in the Chinese Journal of Control of
Endemic Diseases 32(8):872-873.
• 118 newbors in this study: The Observation Group: 68
newborns from coal-burning high-fluoride areas (called endemic fluorosis
areas). The Control Group: 50 full-term newborns delivered by healthy pregnant
women. The type of test used: Mental development index (MDI) and
psychomotor development index (PDI) (assessed using the Standardized Scale for
the Intelligence Development of Children formulated by the Children Development
Center of China [CDCC]). The body weight, body length, head circumference, chest circumference,
upper arm circumference and top arm length of newborns in the observation group
were all significantly lower than those in the control group, and their
differences were statistically significant (P < 0.05). At 3, 6, 9 and 12 months after birth, the grades of body
weight development and body-length development of infants in the control group
were significantly higher than those in the observation group (P < 0.05); Both the Mental development index and the psychomotor
development index of infants in the observation group were significantly lower
than those in the control group (P < 0.05). The socioeconomic status of all the three villages were
the same in both endemic and control areas. The results suggest that maternal exposure to high levels
of fluoride have a significant impact on the intelligence development of
newborns.
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