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Friday, November 8, 2019

Fluoride & IQ: The 61 Studies


Fluoride & IQ: The 61 Studies

Fluoride Action Network | Updated by Ellen Connett | September 3, 2019 
As of August 2019, a total of 69 studies have investigated the relationship between fluoride and human intelligence. Of these investigations, 61 studies have found that elevated fluoride exposure is associated with reduced IQ in humans, while over 60 animal studies have found that fluoride exposure impairs the learning and/or memory capacity of animals. The human studies, which are based on IQ examinations of 22,176 children (59 studies) and 245 adults (2 studies), provide compelling evidence that fluoride exposure during the early years of life can damage a child’s developing brain. For a discussion of the 8 studies that did not find an association between fluoride and IQ, click here.

See also
A further review of the 61 IQ studies, including Quick Facts, Methodological Limitations, and Summary.


Studies Finding Association
Between Fluoride & Reduced IQ:

IQ Study #61 (Green-2019)

Citation: Green R, Lanphear B, Hornung R, Flora D, Martinez-Mier EA, Neufeld R, Ayotte P, Muckle G, Till C. (2019). Association Between Maternal Fluoride ExposureDuring Pregnancy and IQ Scores in Offspring in Canada. JAMA Pediatrics. Published August 19.
Location of Study: CANADA. 6 major cities.
Size of Study: 512 mother-child pairs
Age of Subjects: Between the ages 3 and 4 years at testing
Source of Fluoride: Self-reported maternal daily fluoride intake from water and beverage consumption available for 400 pregnant women.
Water Fluoride Level: 0.7 mg/L in fluoridated communities
Type of IQ Test: Wechsler Preschool and Primary Scale of Intelligence, ThirdEdition. Full Scale IQ (FSIQ), a measure of global intellectual functioning, was the primary outcome. We also assessed verbal IQ (VIQ), representing verbal reasoning and comprehension, and performance IQ (PIQ), representing nonverbal reasoning, spatial processing, and visual-motor skills.
Results: Data on Maternal urinary fluoride (MUFSG) concentrations, IQ scores, and complete covariates were available for 512 mother-child pairs; data on maternal fluoride intake and children’s IQ were available for 400 of 601mother-child pairs. Women living in areas with fluoridated tap water (n = 141) compared with nonfluoridated water (n = 228) had significantly higher mean (SD) MUFSG concentration. A 1-mg/L increase in MUFSG was associated with a 4.49-point lower IQ score (95% CI, -8.38 to -0.60) in boys, but there was no statistically significant association with IQ scores in girls (B= 2.40; 95% CI, -2.53 to 7.33). A 1-mg higher daily intake of fluoride among pregnant women was associated with a 3.66 lower IQ score (95% CI, -7.16 to -0.14) in boys and girls. Children had mean (SD) Full Scale IQ scores of 107.16 (13.26), range 52-143, with girls showing significantly higher mean (SD) scores than boys: 109.56 (11.96) vs 104.61(14.09); P= .001. There was a significant interaction (P= .02) between child sex and MUFSG (6.89; 95% CI, 0.96-12.82) indicating a differential association between boys and girls.
Conclusions: In this study, maternal exposure to higher levels of fluoride during pregnancy was associated with lower IQ scores in children aged 3 to 4 years. These findings indicate the possible need to reduce fluoride intake during pregnancy

IQ Study #60: (Cui-2018)

Citation: Cui Y, Zhang B, Ma J, Wang Y, Zhao L, Hou C, Yu J, Zhao Y, Zhang Z, Nie J, Gao T, Zhou G, Liu H. (2018). Dopamine receptor D2 gene polymorphism, urine fluoride, and intelligence impairment of children in China: A school-based cross-sectional study. Ecotoxicology and Environmental Safety, Sept 11;165:270-277.
Location of Study: CHINA. Tianjin. Four schools in both historical endemic and non-endemic areas of fluorosis.
Size of Study: 323 children. Urine fluoride levels and age-specific IQ scores in children were measured at the enrollment.
Age of Subjects: 7–12 years old.
Source of Fluoride: Drinking water
Water Fluoride Level: Endemic fluorosis area = 1.52–2.49 mg/L.
Nonendemic fluorosis area 0.20–1.00 mg/L.
Type of IQ Test: Combined Raven’s Test – The Rural in China (CRT-RC) method, which is based on the Raven’s Standard Progressive Matrices (SPM) and the Color Progressive Matrices (CPM) and was widely adopted in China with modifications.
Results:
  • the relationship between urine fluoride levels and IQ scores was significant after adjusting for child age, mother’s education, family member smoking, stress, and anger.
  • Urine fluoride was inversely associated with IQ.
  • DRD2 Taq 1A polymorphism was not related to IQ in children exposed to high fluoride.
  • Urine fluoride had a stronger association with IQ in children with TT genotype.
  • The threshold of urine fluoride affecting IQ in children with TT genotype existed.
Conclusions: Strengths of our study include using urine fluoride as an internal exposure index and thus minimizing the measurement error of exposure, adjusting up to 30 potential confounding covariates including child age and gene polymorphismin regressing IQ on urine fluoride in children, and careful modeling with applications of cross-validation, bootstrap techniques, and sensitivity analysis.
In the overall participants, by LOWESS, the IQ decreased in a roughly linear manner as the log-urine fluoride increased (Fig. 1A).
We also determined a safety threshold of urine fluoride on intelligence impairment in the subgroup TT as 1.73 mg/L urine fluoride with a 95% CI of (1.51 mg/L, 1.97 mg/L).

IQ Study #59: (El Sehmawy-2018)

Citation: El Sehmawy AAEW, Hammouda SM, Ibrahim GE, Barghash SS, Elamir RY. (2018). Relationship between Drinking Water Fluoride and Intelligence Quotient in Egyptian School Children. Occupational Medicine & Health Affairs, Aug 13: 6:3.
Location of Study: EGYPT. Beheira Governorate. Two different towns (urban) and four village (rural), the towns are Italy Elbaroud Center and two villages that belong to it, the second town is Shubra Khit Center and two villages that belong to it.
Size of Study: 1,000 children, 495 (49.5%) female and 405 (50.5%) male
Age of Subjects: 4.6 – 11 years old
Source of Fluoride: Drinking water
Water Fluoride Level: 1.903 ± 1.06 mg/L; 0.330-0.377 mg/L .
the mean arsenic and cadmium levels in tap drinking water was (0.005 ± 0.004 mg/L) and (0.002 ±0.001 mg/L) for arsenic and cadmium respectively which are below the recommended WHO and the Egyptian level for all.
Type of IQ Test: The Draw-A-Person (DAP) test is a valuable instrument for the assessment of IQ, not only because it is easy to administer, but also for its multiple uses [25]. The children’s drawings reflect their intellectual development, not just their visual-motor skills, therefore DAP test is useful for assessing children IQ between the age of 4 and 13 [26].
Results: In this study there’s a highly significant decrease in average IQ level in group of children with high fluoride level more than 1.5 mg /dL than the group of children with low fluoride level less than 1.5 mg /dL with the mean IQ was (96.25 ± 19.63) and (103.11 ± 28.00) for both groups respectively with p value (p<0 .001="" 2.="" figure="" graphical="" in="" is="" observation="" of="" representation="" shown="" td="" the="">
Conclusions: A real relationship between fluoride exposure and intelligence with the average IQ of high fluoride group was lower than those with lower fluoride level.

IQ Study #58: (Induswe-2018)

Citation: Induswe B, Opinya G, Khasakhala LI, Owino R. (2018). The Auditory Working Memory of 13-15-Year-Old Adolescents Using Water with Varying Fluoride Concentrations from Selected Public Primary Schools in North Kajiado Sub County. American Journal of Medicine and Medical Sciences, Jan; 8(0):274-290.
Location of Study: KENYA. Kajiado North Subcounty in North Kajiado in the Great rift valley.
Size of Study: 269 school children; 178 (66.2%) female; 91 (33.8%) male.
Age of Subjects: 13-15 years
Source of Fluoride: Drinking water
Water Fluoride Level: 15 (5.58%) had F level between 0-0.5mg/l;
52 (19.33%) had F level between 0.6-0.8 mg/l;38 (14.12%) had F between 0.9-1 mg/l;
41 (15.24%) had F level between 1.1-1.8 mg/l;
44 (16.36%) had F between 1.9-2.5 mg/l;
79 (29.37%) had F above 2.5mg/l.
Type of IQ Test: Wechsler intelligence scale for Children V (WISC-V) subtest
Results: A comparison of the AWM (Auditory Working Memory) of children from low (105.40±23.6) and high (99.52±23.2) fluoride schools and medium with high fluoride school had significant differences. The AWM for the children whose household water had low fluoride had higher AWMI 122.58±19.9 compared to those whose household had high fluoride in the with ANOVA F (2, 266) = 17.968, p?.0001 and Tukey HSD for low and medium (m=-5.919, se=3.146, p=.145, low and high fluoride, (m=-18.559. se=3.124, p?.001; medium and high (m=-12.640, se= 3.32, p?.001 at 95% CL.
Conclusions: In conclusion, low fluoride in the water seemed to enhance the AWM (Auditory Working Memory). However, the AWM declined with an increase in the fluoride concentration in water.

IQ Study #57: (Mustafa-2018)

Citation: Mustafa DE, Younis UM, Elhag SA. (2018). The relationship between the fluoride levels in drinking water and the schooling performance of children in rural areas of Khartoum State, Sudan. Fluoride 51(2):102–113.
Location of Study: SUDAN. 16 rural areas in Khartoum state. These villages depend on groundwater as the main source of drinking water because of the lack of a central water supply. The main activities in these villages are agriculture and animal breeding. The villages lack any industrial and mining activities and are located away from high traffic roads.
Size of Study: 775 primary students, 315 boys and 460 girls from 27 schools.
Age of Subjects: NA
Source of Fluoride: Ground water
Water Fluoride Level: The range for the F level was 0.14–2.07 mg/L in the dry season and0.01–1.34 mg/L in the rainy season (Table 1).
Although the F level not extremely high, frequent water drinking may occur due to several factors such as the rural human activities, arid conditions, and high temperatures. In addition, food products also contribute to the F intake as the people in these areas consume their own crops. These crops may possibly accumulate F to considerable levels.
Type of IQ Test: Using the Khartoum Ministry of Education’s method, the schooling performance for the boys’ and girls’ primary schools in the 16 areas where the F samples were taken and were assessed by calculating the average score and high score prevalence… Generally, the schooling performance in these rural areas was poor compared to urban areas. There were also significant dropout rates in these rural areas, which could reflect even lower schooling performances.
Results: Negative correlation coefficients were found for the average score for all the subjects and for the overall score, with the result being statistically significant in five out of the eight subjects and in the overall score (Tables 4 and 5).
… significant correlations undoubtedly exit between the drinking water F level and the schooling performances in all the subjects except for one, technology, which might be due to the nature of the subject.
Conclusions: In summary, the results of this study suggest that there may be an association between the fluoride level in drinking water and the schooling performance of children. This result may be applicable to children in other areas with conditions similar to those of the study areas. Consequently, the upper permissible drinking water fluoride level needs to be revised downwards to minimize the effect of fluoride on children neurodevelopment

IQ Study #56: (Pang-2018)

Citation: Pang H, Yu L, Lai X, Chen Q. (2018). Relation Between Intelligence and COMT Gene Polymorphism in Children Aged 8-12 in the Endemic Fluorosis Area and Non-Endemic Fluorosis Area. Chinese Journal of Control of Endemic Diseases 32(2):151-152. Study in Chinese translated into English.
Location of Study: CHINA. The areas for population sampling were divided into a non-endemic fluorosis area where the prevalence of dental fluorosis in local children aged 8-12 is less than 30%, and an endemic fluorosis area where the prevalence of dental fluorosis in local children aged 8-12 is greater than 30%.
Size of Study: 268 children: 134 children each from endemic fluorosis area and non-endemic fluorosis areas.
Age of Subjects: 8 -12 years of age
Source of Fluoride: Endemic fluorosis area and non-endemic fluorosis areas.
Water Fluoride Level: NA
Type of IQ Test: Combined Raven’s Test (CRT)
Results: This study found that in COMT gene polymorphism, there was no difference between children in the endemic fluorosis area and those in the non-endemic fluorosis area (P >0.05). It was found that alleles of the COMT gene were codominantly inherited, and the activity of different genotypes of the COMT gene expressed in vivo was somewhat different. This study also found that there were great differences in terms of the level of intelligence between children with Val/Val or Met/Val and children with Met/Met, and such differences were statistically significant (P < 0.05): children with the highly active COMT Val/Val genotype had significantly higher intelligence than those with the Met/Met COMT genotype or the Met/Val COMT genotype, and intelligence  in children with any of the three genotypes in the endemic fluorosis area was lower than that in the non-endemic fluorosis area, indicating that the highly active COMT Val/Val genotype has a protective effect on children’s intelligence development.
Conclusions: This study found that there was a great difference in the level of intelligence between children in the endemic fluorosis area and those in the non-endemic fluorosis area and such difference was statistically significant (P < 0.05).
The rate of mental retardation (IQ < 69) in children in the endemic fluorosis area was significantly higher than that in the non-endemic fluorosis area, and the difference was statistically significant (P < 0.05).

IQ Study #55: (Jin-2017)

Citation: Jin T, Wang Z, Wei Y, Wu Y, Han T, Zhang H. (2017).  Investigation of Intelligence Levels of Children of 8 to 12 Years of Age in Coal Burning-Related Endemic Fluorosis Areas. Journal of Environment and Health 34(3):229-231.
Location of Study: CHINA. Cichong Elementary School in the coal burning-related endemic fluorosis area of Liupanshui City in Guizhou Province; and Minzu Elementary School of Guian District’s Dangwu Township, a non-coal burning area, as the control group
Size of Study: 284 children: 167 were from the endemic area and 117 were the control.
Age of Subjects: 8 – 12 years
Source of Fluoride: Coal Burning-Related Endemic Fluorosis Areas
Water Fluoride Level: NA
Type of IQ Test: Raven’s Standard Progressive Matrices (RSPM)
Results: we found that except for the intelligence levels of 12-year-old children in the control area being higher than that of those in the endemic area, there were no statistically significant differences among any of the other age groups. The differences of intelligence level among children in the endemic area with different dental fluorosis severities also showed no statistical significance. However, there was a negative correlation between age and intelligence level in children of the endemic area, which is in direct opposition to the usual situation of the intellectual development of school-aged children in general. The reason for this is that the dental fluorosis patients in our investigation were mainly concentrated in the suspected fluorosis group, and patients with other levels of severity only made up 50% of the total number of patients, with only six child patients with moderate dental fluorosis and no child patients with severe clinical fluorosis. The degree of fluorosis severity in the patients included in this investigation was not high, so a dosage-effect relationship might not have been able to be formed. In addition, the factors that influence the intelligence level of children are multivariate, and the mechanisms are complex, with fluorosis possibly only being one of many factors.
Conclusions: The intelligence of the 12-year-old group in the endemic area was lower than that of the control area, with the difference having statistical significance (Z = 3.244, P = 0.001).

IQ Study #54: (Razdan-2017)

Citation: Razdan P, Patthi B, Kumar JK, Agnihotri N, Chaudhan P, Prasad M. (2017). Effect of fluoride concentration in drinking water on intelligence quotient of 12–14-year-old children in Mathura District: A cross-sectional study. Journal of International Society of Preventive & Community Dentistry 7(5):252-258.
Location of Study: INDIA. Mathura district, Uttar Pradesh.
Size of Study: 219: 75 from low F area, 75 medium F area, and 69 from high F area. Identical numbers of male and female children were included.
Age of Subjects: 12-14 year olds
Source of Fluoride: Drinking water
Water Fluoride Level: Charora (Group A) had low fluoride (0.60 ppm) village, Farah (Group B) had medium fluoride level (1.70 ppm), and Raya (Group C) had the highest concentration of fluoride in water used for consumption (4.99 ppm).
Type of IQ Test: SPM Test by John C Raven (1998)
Results: Appraisal of the IQ levels among the three groups (low-, medium-, and high-fluoride areas) showed a statistically significant difference (P = 0.05). None of the children in the low-fluoride region were intellectually compromised when compared to 15 (20%) in the high-fluoride region and 4 (5.3%) in the medium-fluoride areas [Table 1]. In addition, no subject in the low fluoride area had below average IQ in contrast to 35 (46.7%) in the high and 10 (13.3%) in the medium-fluoride areas. Similarly, no one in medium and high fluoride area had either above average or superior IQ when compared to 38 (55.1%) and 9 (13%) children having above average and superior IQ in low-fluoride area, respectively.
None of the children in the low-fluoride region had dental fluorosis as compared to 8 (10.7%), 45 (60.0%), and 22 (29.3%) children in the high-fluoride area who had mild, moderate, and severe dental fluorosis, respectively.
Conclusions: Concentration of Fluoride in the ingested water was significantly associated with the IQ of children.
Outcome measures revealed that exposure to higher levels of F determined by dental fluorosis status of child inferred higher IQ deficit.

IQ Study #53: (Yu-2018)

Citation: Yu X, Chen J, Li Y, Liu H, et al. (2018). Threshold effects of moderately excessive fluoride exposure on children’s health: A potential association between dental fluorosis and loss of excellent intelligence. Environment International, Jun 2; 118:116-124.
Location of Study: CHINA. In endemic and non-endemic fluorosis areas in Tianjin.
Size of Study: 2,886 resident children
Age of Subjects: 7 to 13 years
Source of Fluoride: Drinking water
Water Fluoride Level: The water fluoride concentration ranged from 0.20 mg/L to 1.00 mg/L, with a mean value of 0.50 ± 0.27 mg/L in the normal fluoride exposure group, and from 1.10 mg/L to 3.90 mg/L, with a mean value of 2.00 ± 0.75 mg/L in the high-fluoride exposure group (Table 1).
Type of IQ Test: We examined the dose-response effects of low-to-moderate fluoride exposure on dental fluorosis (DF) and intelligence quotient (IQ), and evaluated the potential relationships between DF grades and intelligence levels using piecewise linear regression and multiple logistic regression, respectively.IQ scores were measured using the second edition of Combined Raven’s Test–The Rural in China (CRT-RC2) (Liu et al., 2009) for children aged 7 to 13 years. The CRT-RC2 is a validated test for basic cognitive abilities, and has been widely adopted in China after modifications, as it is non-verbal and less affected by language, and cultural and ethnic differences (Sun et al., 2015).
Dean’s fluorosis index (WHO criteria) (Molina-Frechero et al., 2015) was used to estimate the prevalence and severity of DF. Each participant was examined by two qualified and independent experts, who had rich experience on examination of dental fluorosis… The final diagnosis was made only when judgments from the two experts were in agreement; if not, a third expert would join in and offer suggestion. For repeatability, 10% of participants were double checked and the Kappa value was 0.82.
Results: The adjusted odds ratios (ORs) of DF were 2.24 (95% confidence interval [CI]: 2.02 to 2.48) for every 0.1 mg/L increment in the water fluoride concentration in the range of 0.80 to 1.50 mg/L, and 2.61 (95% CI: 2.32 to 2.93) for every 0.5 mg/L increment in the urinary fluoride level up to 1.80 mg/L. Every 0.5 mg/L increment in the water fluoride level was associated with a reduction of 4.29 in the IQ score (95% CI: -8.09 to -0.48) in the range of 3.40 to 3.90 mg/L, and a decreased probability of developing excellent intelligence (IQ ?130, OR = 0.60, 95% CI: 0.47 to 0.77) in the range of 0.20-1.40 mg/L, respectively. Every 0.5 mg/L increment in the urinary fluoride level was related to a decrease of 2.67 in the IQ scores (95% CI: -4.67 to -0.68) between 1.60 mg/L to 2.50 mg/L. Excellent intelligence decreased by 51% in children with higher urinary fluoride, and by 30% with each degree increment of DF.
Conclusions: In conclusion, chronic exposure to excessive fluoride, even at a moderate level, was inversely associated with children’s dental health and intelligence scores, especially excellent intelligence performance, with threshold and saturation effects observed in the dose-response relationships. Additionally, DF severity is positively associated with the loss of high intelligence, and may be useful for the identification of individuals with the loss of excellent intelligence. Thus, it is important to monitor water quality, and supply fluoride-free drinking water to safeguard children’s health.

IQ Study #52: (Bashash 2017)

Citation: Bashash M, Thomas D, Hu H, Martinez-Mier EA, Sanchez BN, Basu N, Peterson KE, Ettinger AS, Wright R, Zhang Z, Liu Y, Schnaas L, Mercado-García A, Téllez-Rojo MM, Hernández-Avila M. (2017). Prenatal Fluoride Exposure and Cognitive Outcomes in Children at 4 and 6–12 Years of Age in Mexico. Environmental Health Perspectives, Sept 19;125(9):097017.
Location of Study: MEXICO. Participants from the Early Life Exposures in Mexico to Environmental Toxicants (ELEMENT) project.
Size of Study: 299 mother–child pairs, of whom 287 and 211 had data for the General Cognitive Index and IQ analyses, respectively.
Age of Subjects: Tests of cognitive function in the offspring at age 4 and 6–12 years.
Source of Fluoride: Fluoridated salt (at 250?ppm) and to varying degrees of naturally occurring fluoride in drinking water.
Water Fluoride Level: Natural water fluoride levels in Mexico City may range from 0.15 to 1.38 mg/L
Type of IQ Test: “At age 4 y, neurocognitive outcomes were measured using a standardized version of McCarthy Scales of Children’s Abilities. For children 6–12 y old a Spanish-version of the Wechsler Abbreviated Scale of Intelligence.”
Results: “In multivariate models we found that an increase in maternal urine fluoride of 0.5mg/L (approximately the IQR) predicted 3.15 (95% CI: ?5.42, ?0.87) and 2.50 (95% CI ?4.12, ?0.59) lower offspring GCI and IQ scores, respectively.”
Conclusions: “In this study, higher prenatal fluoride exposure, in the general range of exposures reported for other general population samples of pregnant women and nonpregnant adults, was associated with lower scores on tests of cognitive function in the offspring at age 4 and 6–12 y.”

IQ Study #51: (Valdez Jiménez 2017)

Citation: Valdez Jiménez L, López Guzmán OD, Cervantes Flores M, Costilla-Salazar R, Calderón Hernández J, Alcaraz Contreras Y, Rocha-Amador DO. 2017. In utero exposure to fluoride and cognitive development delay in infants. Neurotoxicology Mar;59:65-70.
Location of Study: MEXICO. Durango City and Lagos de Moreno, Jalisco. Both are endemic hydro-fluorosis areas.
Size of Study: “65 mother-infant pairs recruited from 2013 to 2014. Inclusion criteria were: 12 weeks of gestation, with no history of thyroid disease, without clinically diagnosed diabetes, and a minimum 5 years of residence in the study area.”
Age of Subjects: “The average age of children assessed was 8 months (3–15 months) and almost 70% were girls.” The average age of the mothers was 22.4 ±4.0.
Source of Fluoride: The study was performed in an endemic hydrofuorosis area. According to the authors: ‘in Mexico F in water remains as the main source of F exposure. In endemic hydrofuorosis areas of Mexico only non-fluorinated salt is distributed according to the NOM-040-SSA1-1993.”
Water Fluoride Level: F levels in tap water mean concentrations for each trimester were: 2.6 ±1.1 mg/l, 3.1 ±1.1 mg/l and 3.7 ±1.0 mg/l respectively. It is worthy to note that over 81.5% of the samples of tap water were above 1.5 mg/l (NOM-127- SSA1-1994) with the highest value of 12.5 mg/.
33.8% of women reported drink tap water and 78.4% use it for cooking. The practice of use tap water for drink or cooking is crucial because exposure to F could be increased when the infant change to bottle feeding and starts solid foods. Regarding, bottled water it is important to mention that we have analyzed several brands of this water and 65% of the samples exceeded the 0.7 mg/l value (NOM-041-SSA1-1993) and 22.9% had values over 1.5 mg/l (NOM-127-SSA1-1994) data not shown.
Type of IQ Test: “Neurodevelopment was assessed with the Bayley Scales of Infant Development II (BSDI-II) (Bayley, 1993). This test has good reliability and validity; it is applied to evaluate developmental delay in children between 3 months to 5 years in Mexico by the SSA (CNPSS, 2013). The Mental Development Index scale (MDI) of the Bayley test evaluate aspects of functioning such as eye-hand coordination, manipulation, understanding of object relation, imitation and early language development whereas the Psycho-motor Development Index (PDI) scale assesses gross motor development… To standardize the raw scores for children who were born prematurely, the number of months of prematurity was subtracted from their chronological age. The scores below 85 points indicated a possible developmental delay.”
Results: 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) (OR = 4.1, CI 95% 1.3–13.2) (data unpublished).
Only 66.2% of the babies were at term. “We found higher levels of F in urine across trimester in premature compared with full term 2.4 vs 1.6 mg/l (1st); 2.3 vs 1.8 mg/l (2nd); and 4.1 vs 2.8 mg/l (3rd) (data not shown)
 Conclusions: “After adjusting for potential confounding factors (gestational age, age of child, marginalization index and type of water for consumption), the MDI [Mental Development Index] showed an inverse association with F levels in maternal urine for the first (b = -19.05, p = 0.04) and second trimester (b = -19.34, p = 0.01). Our data suggests that cognitive alterations in children born from exposed mothers to F could start in early prenatal stages of life.

IQ Study #50: (Das 2016)

Citation: Das K, Mondal NK. (2016). Dental fluorosis and urinary fluoride concentration as a reflection of fluoride exposure and its impact on IQ level and BMI of children of Laxmisagar, Simlapal Block of Bankura District, W.B., India. Environmental Monitoring & Assessment 188(4):218.
Location of Study: INDIA. West Bengal.
Size of Study: 149 schoolchildren
Age of Subjects: 6 to 18
Source of Fluoride: Water
Water Fluoride Level: Average = 2.1 mg/L (S.D. = 1.64 mg/L)
Type of IQ Test: Combined Raven’s Test for RuralChina (CRT-RC)
Results: “IQ has anegative significant correlation with dental fluorosis (r=0.253,P<0 .01="" a="" acts="" an="" as="" consequence="" considered="" correlation="" decreasing="" dental="" dose="" exposure="" fluoride="" fluorosis="" has="" indicator="" input="" iq.="" iq="" is="" level="" nbsp="" negative="" of="" p="" r="0.343, P<0.01)" significant="" so="" source.="" was="" which="" with=""> “IQ values were plotted against the urinary fluoride concentration and it was found that they have a significant negative correlation (r=0.751, P<0 .01="" p="">
Conclusion “[C]hildren residing in areas with higher than normal water fluoride level demonstrated more impaired development of intelligence and moderate [dental fluorosis]. Millions of children including adults around the world are affected by higher level of fluoride concentration through their drinking water and are therefore potentially at risk. It is concluded that for the benefit of the future generation, urgent attention should be paid on this substantial public health problem.”

IQ Study #49: Mondal (2016)

Citation: Mondal D, Dutta G, Gupta S. (2016). Inferring the fluoride hydrogeochemistry and effect of consuming fluoride-contaminated drinking water on human health in some endemic areas of Birbhum district, West Bengal. Environmental Geochemistry & Health 38(2):557-76.
Location of Study: INDIA. Birbhum district.
Size of Study: 40 children (20 from endemic fluorosis area; 20 from control area)
Age of Subjects: 10 to 14 years old
Source of Fluoride: Water
Water Fluoride Levels: “Mean F concentration in the study area varies from 0.32 to 13.29 mg/L.”
Type of IQ Test: Raven Standard Theoretical Intelligence Test
Results: “This study indicates that students exposed to high F (children of Junidpur and Nowapara) show an average IQ of 21.17 ± 6.77 in comparison with low-F exposed students (children of Bilaspur, Mohula, Bhalian) having an average IQ of 26.41 ± 10.46. . . . Statistical analysis (Z test) demonstrates that there is a significant (Z = 2.59) difference in IQ among the high- and low-F area student.”
Conclusion “[S]tudents of the study area have less IQ than students of non-contaminated area, demonstrating that consumption of F also has a major role with the intellectual development of
children.”

IQ Study #48: Khan (2015)

Citation: Khan SA, Singh RK, Navit S, Chadha D, Johri N, Navit P, Sharma A, Bahuguna R. (2015). Relationship between dental fluorosis and intelligence quotient of school going children in and around Lucknow district: a cross-sectional study. Journal of Clinical & Diagnostic Research 9(11):ZC10-15.
Location of Study: INDIA. Lucknow district.
Size of Study: 429 schoolchildren
Age of Subjects: 6-12 years old
Source of Fluoride: Water
Results: “In this study, on comparison of children at two locations according to IQ grades [Table/Fig-4], majority of the children (74.8%) living in low fluoride area had an IQ grade 2 (definitely above the average in intellectual capacity). None of the children from the low fluoride area had an IQ grade 4 and 5 (definitely below average and intellectually impaired). On the other hand, majority of children (58.1%) from high fluoride area fall under IQ grade 3 (intellectually average). None of the children from high fluoride area had an IQ grade 1 (intellectually superior). This difference in IQ grades of children amongst the two areas was found to be statistically significant (p<0 .001="" a="" and="" between="" capacity="" clearly="" correlation="" decrease="" evident="" fluorosis="" grade="" in="" increase="" indicating="" intellectual="" iq="" is="" observed="" of="" p="0.766).”</td" pearman="" s="" strong="" t="" that="" the="" trend="" was="" with="">
Conclusion: “The data from this research may support the hypothesis that excess fluoride in drinking water has toxic effects on the nervous system.”

IQ Study #47: Sebastian (2015)

Citation: Sebastian ST, Sunitha S. 2015. A cross-sectional study to assess the intelligence quotient (IQ) of school going children aged 10-12 years in villages of Mysore district, India with different fluoride levels. Journal of the Indian Society of Pedodontics and Preventive Dentistry 33(4):307-11.
Location of Study: INDIA. Mysore district.
Size of Study: 405 schoolchildren (135 children from high fluoride area; 135 children from “normal” fluoride area; 135 chidren from “low” fluoride area)
Age of Subjects: 10-12 years old
Source of Fluoride: Water
Water Fluoride Levels: High-fluoride: 2.2 mg/L; “Normal” Fluoride: 1.2 mg/L; “Low” Fluoride: 0.4 mg/L
Type of IQ Test: Raven’s colored Progressive Matrices Test
Results: “In bivariate analysis, significant relationships were found between water fluoride levels and Intelligence Quotient of school children (P < 0.05). In the high fluoride village, the proportion of children with IQ below 90, i.e. below average IQ was larger compared to normal and low fluoride village. Age, gender, parent education level and family income had no significant association with IQ.”
Conclusion: “School children residing in area with higher than normal water fluoride level demonstrated more impaired development of intelligence when compared to school children residing in areas with normal and low water fluoride levels.”

IQ Study #46: Kundu (2015)

Citation: Kundu H, Basavaraj P, Singla A, Gupta R, Singh K, Jain S. (2015). Effect of fluoride in drinking water on children’s intelligence in high and low fluoride areas of Delhi. Journal of the Indian Association of Public Health Dentistry 13(2):116-121. April-June.
Location of Study: INDIA. Delhi.
Size of Study:
200 school children: 100 from low F area and 100 from high F area.
Age of Subjects: 8-12 years of age.
Equal numbers of male and female children were included in the study.
Source of Fluoride: Water
Type of Cognitive Tests:
Ravens Standardized Progressive Matrices Test
Results: “Comparison of mean IQ of children in both high (76.20 ± 19.10) and low F (85.80 ± 18.85) areas showed a significant difference (P = 0.013). Multiple regression analysis between child IQ and all other independent variables revealed that mother’s diet during pregnancy (P = 0.001) along with F in drinking water (P = 0.017) were the independent variables with the greatest explanatory power for child IQ variance (r2 = 0.417) without interaction with other variables.”
Conclusion: “Fluoride in the drinking water was significantly related with the IQ of children. Along with fluoride, mother’s diet during pregnancy was also found to be significantly related with IQ of children.”

IQ Study #45: Choi (2015)

Citation: Choi AL, Zhang Y, Sun G, Bellinger D, Wang K, Yang XJ, Li JS, Zheng Q, Fu Y, Grandjean P. (2015). Association of lifetime exposure to fluoride and cognitive functions in Chinese children: A pilot study. Neurotoxicology & Teratology 47:96-101.
Location of Study: CHINA. Southern Sichuan Province.
Size of Study: 51 children from elevated fluoride area
Age of Subjects: Avg = 7.1 years old
Source of Fluoride: Water
Urine Fluoride Levels: Mean = 1.64 mg/L; Range = 0.22 to 5.84 mg/L
Water Fluoride Levels: Mean = 2.2 mg/L; Range = 1.0 to 4.07 mg/L
Confounding Factors: “In this rural community, social differences are limited. The parents or guardians completed a questionnaire on demographic and personal characteristics including the child’s sex, age at testing, parity, illnesses before age 3, past medical history of the child and caretakers, parental or guardian age, education and occupational histories, and residential history, and household income. It is known that iron deficiency can impair motor and mental developments in children, iron concentration was therefore considered as a covariate. These potential confounders were used for adjustment in the statistical analysis.”
“Among possible confounders, both arsenic and lead are known to be low in drinking water in the area.”
Type of Cognitive Tests: WRAML, WISC-R, WRAVMA
Results: “Results of our pilot study showed that moderate and severe dental fluorosis was significantly associated with deficits in WISC-R digit span. Children with moderate or severe dental fluorosis scored significantly lower in total and backward digit span tests than thosewith normal or questionable fluorosis. These results suggest a deficit in working memory. Scores on other tests did not show significant relationships with indices of fluoride exposure.”
Conclusion: “Results of our field study raise a concern about the safety of elevated systemic exposure to fluoride from high concentrations in the drinking water.While topical fluoride treatment confers benefits of reducing caries incidence, the systemic exposure should not be so high as to impair children’s neurodevelopment especially during the highly vulnerable windows of brain development in utero and during infancy and childhood and may result in permanent brain injury. We are planning a larger scale study to better understand the dose–effect relationships for fluoride’s developmental neurotoxicity in order to characterize the appropriate means of avoiding neurotoxic risks while securing oral health benefits.”

IQ Study #44: Zhang (2015)

Citation: Zhang S, Zhang X, Liu H, Qu W, Guan Z, Zeng Q, Jiang C, Gao H, Zhang C, Lei R, Xia T, Wang Z, Yang L, Chen Y, Wu X, Cui Y, Yu L, Wang A. (2015). Modifying Effect of COMT Gene Polymorphism and a Predictive Role for Proteomics Analysis in Children’s Intelligence in Endemic Fluorosis Area in Tianjin, China. Toxicological Sciences 144(2):238-45. April.
Location of Study: CHINA. Tianjin City.
Size of Study: 180 children (96 from control area; 84 from “high fluoride” area)
Age of Subjects: Avg = 11 years old
Source of Fluoride: Water
Water Fluoride Levels: High = 1.4 mg/L
Control = 0.63 mg/L
Urine Fluoride Levels: High = 2.4 + 1.01 mg/L
Control = 1.10 + 0.67 mg/L
Serum Fluoride Levels: High = 0.18 + 0.11 mg/L
Control = 0.06 + 0.03 mg/L
Type of IQ Test: Combined Raven’s Test for Rural China (CRT-RC)
Confounding Factors: “Covariates included the indicator variables for age, gender, educational levels of parents (primary and below, junior high school, senior high school, and above), and continuous variables for drinking water fluoride (mg/l) and levels of thyroid hormones (T3, T4, and TSH).”
Results: “[T]he present work demonstrated that the IQ scores of children exposed to high fluoride drinking water were significantly lower than those who lived in control area . . . . [O]ur findings further showed that, across the full range of serum and urinary fluoride, children’s IQ decreased gradually with the increase of fluoride contents in serum and urine, in a dose-dependent manner.”
Conclusion: “In summary, our data suggest that the intelligence of children is affected by the COMT gene polymorphism and, in particular, this SNP plays a role in modifying the effect of fluoride exposure on cognition. Children with COMT reference allele had a higher risk for cognitive impairments after fluoride exposure. Additionally, proteomics analysis represents early specific markers of developmental fluoride neurotoxicity. Hence, our findings provide certain basis for clarifying the mechanisms and identifying molecular targets of pharmacological interventions for potential delayed therapy.”

IQ Study #43: Bai (2014)

Citation: Bai Z, Li Y, Fan Z, Li X, Li P. (2014) Investigation and analysis of the development of intelligence levels and growth of children in areas suffering fluorine and arsenic toxicity from pollution from burning coal. Chinese Journal of Endemiology 33(2):160-163.
Location of Study: CHINA. Shaanxi Province.
Size of Study: 303 children (120 children from high-fluoride area; 95 from mid-fluoride area, 98 from low-fluoride area)
Age of Subjects: 8 to 12 years old
Source of Fluoride Coal burning
Urine Fluoride Levels: “The median urinary fluoride levels for children 8–12 years old in the areas of significant, minor and no morbidity were, respectively, 1.96, 0.81 and 0.54 mg/L.”
Results: “The children’s urinary fluoride and urinary arsenic levels versus intelligence [quotients] were both negatively correlated (r=-0.560, -0.353, all P<0 .05="" td="">
Conclusion “Exposures to fluorine and arsenic are deleterious to the development of intelligence and the development of growth in children”

 IQ Study #42: Wei (2014)

Citation: Wei N, Li Y, Deng J; Xu S, Guan Z. (2014). The effects of comprehensive control measures on intelligence of school-age children in coal-burning-borne endemic fluorosis areas. Chinese Journal of Endemiology 33(3):320-22.
Location of Study: CHINA. Bijie City, Guizhou Province.
Size of Study: 741 children (104 children from low-fluoride area; 298 children from an endemic fluorosis area with long-term defluoridation measures; 339 children from endemic fluorosis area with short-term defluoridation measures).
Age of Subjects: 8-12 years old
Source of Fluoride: Coal
Urinary Fluoride Levels: Control: 1.34 ± 0.64 mg/L; Long-term defluoridation: 2.33 ± 0.18 mg/L; Short-term defluoridation: 3.03 ± 0.16) mgL.
Results: “Above average IQ of children in the control group was 97.1% (101/104),which was significantly higher than that of long and short treatment groups; after a lengthy treatment, mental retardation detection rate was significantly lower in the low-age group,8-10 year-old children(x2 =7.542,P < 0.01). Urinary fluoride content was negatively correlated with the level of IQ (r =-0.553,P < 0.01).
Conclusion: “The intelligence development of children in coal-burning-borne endemic fluorosis area is significantly delayed. After a certain period of comprehensive treatment,the decreased level of cognition is inhibited and the mental retardation in the low-age group is improved.”

 IQ Study #41: Nagarajappa (2013)

Citation: Nagarajappa R, Pujara P, Sharda AJ, Asawa K, Tak M, Aapaliya P, Bhanushali N. (2013). Comparative assessment of intelligence quotient among children living in high and low fluoride areas of Kutch, India: a pilot study. Iranian Journal of Public Health 2(8): 813–818.
Location of Study: INDIA. Kutch District, Gujarat.
Size of Study: 100 children (50 children from high-fluoride area; 50 children from control area)
Age of Subjects: 8-10 years old
Source of Fluoride: Water
Water Fluoride Levels: High Fluoride: 2.4 to 3.5 mg/L; Control: 0.5mg/L.
Type of IQ Test: Seguin Form Board Test
Results: “Mean scores for average, shortest and total timing category were found to be significantly higher (P<0 .05="" 21.78="" 7.24="" 7.28="" 95="" among="" and="" at="" be="" bhuj="" children="" confidence="" differences="" for="" found="" in="" interval="" living="" mean="" mundra="" respectively.="" td="" than="" these="" those="" timings="" to="" were="">
Conclusion: “Chronic exposure to high levels of fluoride in water was observed to be associated with lower intelligence quotient.”

 IQ Study #40: Singh (2013)

Citation: Singh VP, Chauhan DS, Tripathi S, Kumar S, Gaur V, Tiwari M, Tomar A. (2014). A correlation between serum vitamin, acetylcholinesterase activity and IQ in children with excessive endemic fluoride exposure in Rajasthan, India. European Academic Journal 2(4):5857-5869.
Location of Study: INDIA. Jaipur, Rajasthan.
Size of Study: 42 children (70 from high-fluoride area; 72 from control area)
Age of Subjects: 9 to 14 year olds
Source of Fluoride: Water
Levels of Fluoride in Water: High Fluoride = 6.8 mg/L
Control area = <1 .03="" mg="" td="">
Confounding Factors: “The subjects were similar in living conditions, parental literacy, socioeconomic status, and health history. Moreover, age and sex matched controls were selected from the [low-fluoride area].”
Type of IQ Test: Raven’s Test
Conclusion: “We observed reduced AChE activity in [the high fluoride area] which may be directly correlate[d] with the reduced intelligence score of the subjects.”

IQ Study #39: Karimzade (2014)

Citation: Karimzade S, Aghaei M, Mahvi AH. (2014). Investigation of intelligence quotient in 9-12-year-old children exposed to high- and low-drinking water fluoride in West Azerbaijan province, Iran. Fluoride 47(1):9-14.
Location of Study: IRAN. Poldashi and Piranshahr, West Azerbaijan province.
Size of Study: 39 male children (19 from high-fluoride area; 20 from control area)
Age of Subjects: 9 to 12 year olds
Source of Fluoride: Water
Water Fluoride Levels: High Fluoride = 3.94 mg/L
Control = 0.25 mg/L
Confounding Factors: No significant differences were found in the potential confounding factors of educational, economic, social, cultural, and general demographic characteristics between the high- and low-F regions.
Type of IQ Test: Iranian version of the Raymond B Cattell test
Results: “The IQ of the 19 children in the high-F region was lower (mean±SD: 81.21±16.17), than that of the 20 children in the low-F region (mean±SD: 104.25±20.73, p=0.0004). In the high-F region, 57.8% had scores indicating mental retardation (IQ <70 10="" 70="" borderline="" figure="" in="" intelligence="" low="" only="" or="" region.="" td="" the="" this="" was="" while="">
Conclusions: “The study found that children residing in a region with a high drinking water F level had lower IQs compared to children living in a low drinking water F region (p<0 .001="" and="" attributed="" be="" confounding="" could="" cultural="" demographic="" differences="" economic="" educational="" factors.="" general="" not="" social="" td="" the="" to="">

IQ Study #38: Trivedi (2012)

Citation: Trivedi MH, Sangai NP, Patel RS, Payak M, Vyas SJ. (2012). Assessment of groundwater quality with special reference to fluoride and its impact on IQ of schoolchildren in six villages of the Mundra Region, Kachchh, Gujurat, India. Fluoride 45(4):377-83.
Location of Study: INDIA. Gujurat.
Size of Study: 84 children (34 from high-fluoride villages, 50 children from control village)
Age of Subjects: 6th and 7th grade students
Source of Fluoride: Water
Water Fluoride Levels: High Fluoride = 2.3 + 0.87 mg/L
Control = 0.83 + 0.38 mg/L
Urine Fluoride Levels: High Fluoride = 2.69 + 0.92 mg/L
Control = 0.42 + 0.23
Confounding Factors: Same socioeconomic status (E on an A-E scale); same attendance status at school (regular students attending more than 80% of classes)
Type of IQ Test: Questionnaire prepared by Prof. JH Shah; standardized on the Gujarati population with 97% reliability rate in relation to the Stanford-Binet Intelligence Scale
Results: “The average IQ score of the 34 students drinking the high F water was significantly lower (p?0.05) than among the 50 students drinking the low F water.”
Conclusions: “the present investigation concludes that the three villages of Chhasara, Gundala, and Mundra, are F-contaminated villages. Because of high F concentrations in the [groundwater], children in these villages have greater exposure to F that may lead in to low IQ as compared to the nearby villages of Baroi, Zarpara, and Pragpar, which have low F in their [groundwater].”

IQ Study #37: Seraj (2012)

Citation: Seraj B, Shahrabi M, Shadfar M, Ahmadi R, Fallahzadeh M, Eslamlu HF, Kharazifard MJ. (2012). Effect of high water fluoride concentration on the intellectual development of children in Makoo/Iran. Journal of Dentistry, Tehran University of Medical Sciences 9(3): 221-29.
Location of Study: IRAN. Makoo.
Size of Study: 293 children (91 children in control village; 106 children in medium F village; 96 children in high F village)
Age of Subjects: 6 to 11 years old
Source of Fluoride Exposure: Water
Water Fluoride Levels: Control = 0.8+0.3 ppm
Medium fluoride = 3.1+0.9 ppm
High fluoride = 5.2+1.1 ppm
Confounding Factors: Age, gender, child’s educational level, mother’s educational level, father’s educational level, fluorosis intensity, iodine level in water, lead level in water.
IQ Test: Raven’s Color Progressive Matrices (RCPM)
Results: “The mean IQ scores decreased from 97.77+18.91 for the normal fluoride group to 89.03+12.99 for the medium fluoride group and to 88.58+16.01 for the high fluoride group (P=0.001).”
Conclusion:  “Since all potentially confounding factors were adjusted, the difference in IQ scores may reveal the potential effect of high fluoride exposure on the intellectual development of children.”

IQ Study #36: Saxena (2012)

Citation: Saxena S, Sahay A, Goel P.  (2012). Effect of fluoride exposure on the intelligence of school children in Madhya Pradesh, India. Journal of Neurosciences in Rural Practice 3(2):144-49.
Location of Study: INDIA. Madhya Pradesh.
Size of Study: 173 children (120 children in three high-F areas and 53 children from a control group)
Age of Subjects: School children in the 5th & 6th grades
Source of Fluoride Exposure: Water
Water Fluoride Levels: Group 1 = >4.5 ppm
Group 2 = 3.1-4.5 ppm
Group 3 = 1.5-3.0 ppm
Control = <1 .5="" ppm="" td="">
Urine Fluoride Levels: Group 1 = 7.01+1.02
Group 2 = 4.85+0.50
Group 3 = 3.28+0.48
Control = 2.25+0.28
Confounding Factors: (1) No significant differences in urinary lead, arsenic, or iodine levels between the four groups. (2) No significant differences in gender ratio, socio-economic status, SES, parental education, height/age ratio, and weight/height ratio. (3) Children were excluded if they were not lifelong resident of area, if they had changed their water source since birth, or if they had history of congenital or acquired neurological disease and/or head injury.
IQ Test: Raven’s Standard Progressive Matrices
Results:  “Reduction in intelligence was observed with an increased water fluoride level (P 0.000). The urinary fluoride level was a significant predictor for intelligence (P 0.000).”
Conclusion:  “This study indicates that exposure to fluoride is associated with reduced intelligence in children. We have found a significant inverse relationship between intelligence and the water fluoride level, and intelligence and the urinary fluoride level. After adjusting for confounders, urinary fluoride was the significant predictor for intelligence.”

IQ Study #35: Ding (2011)

Citation: Ding Y, Yanhui G, Sun H, Han H, Wang W, Ji X, Liu X, Sun D. (2011). The relationships between low levels of urine fluoride on children’s intelligence, dental fluorosis in endemic fluorosis areas in Hulunbuir, Inner Mongolia, China. Journal of Hazardous Materials 186(2-3):1942-46.
Location of study: CHINA. Hulunbuir, Inner Mongolia.
Size of study: 331 children from four sites
Age of Subjects: 7-14 years old
Source of Fluoride: Water
Water Fluoride Levels: Mianduhe town=0.28+0.03 mg/L
Nan district=0.79+0.33 mg/L
Donghu district=1.78+0.60 mg/L
Zhalainuoer county=1.82+1.00 mg/
Urine Fluoride Levels: No dental fluorosis = 0.80+0.55 mg/L
Questionable fluorosis = 1.13+0.73 mg/L
Very mild fluorosis = 1.11+0.74 mg/L
Mild fluorosis = 1.31+0.78 mg/L
Moderate fluorosis =1.46+0.79 mg/L.
Confounding Factors: (1) Sites selected to match social and natural factors like economic situation, educational standard, and geological environments. (2) Schools had similar teaching quality. (3) Sites are not exposed to known neurotoxins (e.g. arsenic) in drinking water, nor are they endemic areas for iodine deficiency disorders. (4) Five children who had not lived in these areas at least 1 year were excluded.
IQ Test: CRT-RC3 (Combined Raven’s Test for Rural China)
Results: Children’s IQ was inversely related to urinary fluoride content, (p<0 .0001="" 0.59="" 1="" associated="" decrease="" each="" f="" in="" increase="" iq="" mg="" of="" p="0.0226).</td" point="" urine="" was="" with="">
Conclusion:  “In conclusion, our study suggested that low levels of fluoride exposure in drinking water had negative effects on children’s intelligence and dental health and confirmed the dose-response relationships between urine fluoride and IQ scores as well as dental fluorosis.”

IQ Study #34: Poureslami (2011)

Citation: Poureslami HR, Horri A, Khoramian S, Garrusi B. (2011). Intelligence quotient of 7 to 9 year-old children from an area with high fluoride in drinking water. Journal of Dentistry and Oral Hygiene 3(4):61-64.
Location of study: IRAN. Kerman Province; Koohbanan (high-F) and Baft (low-F).
Size of study: 120 children: 60 children per city
Age of Subjects: 7-9 years old
Source of Fluoride: Water
Water Fluoride levels: High-F = 2.38 mg/L
Low-F = 0.41 mg/L
Confounding Factors: (1) Exclusion criteria: genetic, congenital, or acquired diseases related to the nervous system, past or present. (2) Inclusion criteria (high-F village): signs of grade III TSIDF (total surface index of Dental Fluorosis) or more. (3) Inclusion criteria (low-F village): similar physical and mental health criteria adopted, but children lacked any sign of Dental Fluorosis. (4) Both towns at high altitude.
Type of IQ Test Raven’s Progressive Matrices Intelligence Test (Persian version)
Results: Average IQ of High F group (91.37+16.63) is significantly lower than average IQ of Low-F group (97.80+15.95), p < 0.05.
Conclusion: “Based on the findings, chronic exposure to high levels of fluoride can be one of the factors that influence intellectual development.”

IQ Study #33: Eswar (2011)

Citation: Eswar P, Nagesh L, Devaraj CG. (2011). Intelligent quotients of 12-14 year old school children in a high and low fluoride village in India. Fluoride 44:168-72.
Location of study: INDIA. Ajjihalli (low F) and Holesirigere (high F) villages, Davangere district, Karnataka.
Size of study: 133 children total (low F village=65; high F village=68)
Age of Subjects: 12-14 years old
Source of Fluoride: Water
Water Fluoride levels: High F village=2.45 mg/L
Low F village =0.29 mg/L
Confounding Factors: (1) Children included were continuous residents of study villages since birth; drinking water from same public water supply (1 per village); (2) attended same high school (1 per village). (3) Children with history of trauma or injury to head; affected by congenital or acquired neurological disorders, psychological disorders were excluded.
Type of IQ Test Raven’s Standard Progressive Matrices Test
Results: 63.2% of children in high F area had IQ less than 90, versus 47.7% of children in low F village. (p=0.06).
Conclusion: “Though there was a trend in our study towards lower IQ in a greater number of children from high F village than in the low F village, probably the small sample size of the present study failed to establish a statistically significant difference.”

IQ Study #32: Shivaprakash (2011)

Citation: Shivaprakash PK, Ohri K, Noorani H. (2011). Relation between dental fluorosis and intelligence quotient in school children of Bagalkot district. J Indian Soc Pedod Prev Dent. 29(2):117-20.
Location of study: INDIA. Bagalkot district, Karnataka state.
Size of study: 160 children
Age of Subjects: 7-11 years old
Source of Fluoride: Water
Water Fluoride Levels: high F village = 2.5-3.5 mg/L
low F village = < 0.5 mg/L
Confounding Factors: (1) Children included in study had normal birth history, were permanent residents in the region of study, had no history of trauma to the head, no history of chronic illness, not on medication. (2) Villages have similar culture, standard of living, and lifestyle habits.
Type of IQ Test Raven’s Colored Progressive Matrices Test
Results: (A) Children with dental fluorosis had lower IQ (66.63+18.09) than those without dental fluorosis (76.36+20.84), p < 0.05. (B) Children with mild dental fluorosis had lower IQ (66.73) than those without dental fluorosis (75.89), p < 0.05.
Conclusion: “Previous studies had indicated toward decreased Intelligence in children exposed to high levels of fluoride and our study also confirmed such an effect.”

IQ Study #31: Sudhir (2009)

 Citation: Sudhir KM, Chandu GN, Prashant GM, Subba Reddy VV. (2009). Effect of fluoride exposure on intelligence quotient (IQ) among 13-15 year old school children of known endemic area of fluorosis, Nalgonda District, Andhra Pradesh. Journal of the Indian Association of Public Health Dentistry 13:88-94.
Location of Study: INDIA. Nalgonda District, Andhra Pradesh.
Size of Study: 1000 children
Age of Subjects: 13-15 years old
Source of Fluoride: Water
Water Fluoride Levels: Four areas were studied: <0 .7="" 0.7-1.2="" 1.2-4.0="" mg="">4 mg/L
Type of IQ Test: Raven’s standard progressive matrices
Results: “Number of intellectually impaired children were gradually increased with the increase in fluoride  concentration in the drinking water.”
Conclusion: “Findings of this study suggest that overall IQ levels in children’s exposed to high fluoride level were significantly lower than the low fluoride areas.”

IQ Study #30: Li (2009)

Citation: Li F, Chen X, Huang R, Xie Y. (2009). The impact of endemic fluorosis caused by the burning of coal on the development of intelligence in children. Journal of Environmental Health 26(4):838-40.
Location of study: CHINA. Xinhua County, Hunan Province.
Size of study: 80 children total: 20 children from “mild” fluorosis area, 20 from “medium” fluorosis area, 20 from “severe” fluorosis area, and 20 from non-fluorosis area.
Age of Subjects: 8-12 years old
Source of Fluoride: Coal burning
Fluoride exposure levels: Urine F (by region):
severe = 2.34+1.13 mg/L
medium = 1.67+0.66 mg/L
mild = 1.24+0.43 mg/L
control = 0.96+0.52 mg/L
Urine F (by dental fluorosis type):
severe = 2.66+1.09 mg/L
medium = 2.01+0.80 mg/L
mild = 1.64+0.68 mg/L
very mild = 1.17+0.48 mg/L
suspected = 1.09+0.36 mg/L
no fluorosis = 0.87+0.23 mg/L.
Confounding Factors: (1) All children were born and raised in the respective areas. (2) Children were excluded if they had been diagnosed with physical deformation, developmental disorders, delayed mental development, emotional/behavioral obstacles or challenges, or other forms of mental disorders.
Type of IQ Test CRT-RC (Combined Raven’s Test for Rural China)
Results: – IQ decreased with increasing F level in urine (p < 0.01) – IQ was significantly reduced among children with severe fluorosis as compared to children without fluorosis (p < 0.05) – A trend (albeit not statistically significant) for IQ to decrease with increasing severity of dental fluorosis (NS) and with increasing severity of the region’s fluoride poisoning
Conclusion: “High exposure to fluoride most definitely has an adverse effect on the development of intelligence in children, in particular on the capability of abstract inference.”

IQ Study #29: Rocha-Amador (2007)

Citation: Rocha-Amador D, Navarro ME, Carrizales L, Morales R, Calderón J. (2007). Decreased intelligence in children and exposure to fluoride and arsenic in drinking water. Cadernos de Saude Publica 23(Suppl 4):S579-87.
Location of study: MEXICO. Durango State, Mexico & San Luis Potosi State.
Size of study: 132 children
Age of Subjects: 6 to 10 years old
Source of Fluoride Exposure: Water
Water Fluoride Levels Lowest F village: 0.8+1.4 mg/L
Middle F village: 5.2+0.9 mg/L
Highest F village: 9.4+0.9 mg/L
Urine Fluoride Levels Lowest F village: 1.8+1.5 mg/L
Middle F village: 6.0+1.6 mg/L
Highest F village: 5.5+3.3 mg/L
Confounding Factors: (1) A multiple regression analysis was used that controlled for blood lead levels, socioeconomic status, mother’s education, height-for-age (an index of malnutrition), and transferrin saturation. (2) Each child’s water fluoride level, and urine fluoride level, levels were individually determined. (3) The test examiner was blinded as to the children’s fluoride exposure.
IQ Test:  Wechsler Intelligence Scale for Children–Revised Mexican Version (WISC-RM)
Results: (1) Both fluoride in urine, and fluoride in water, were significantly correlated with IQ, and this correlation remained significant after controlling for lead exposure, socioeconomic status, mother’s education, malnutrition, and transferrin. (2) Fluoride’s effect on IQ was larger than the effect from arsenic.
Conclusion: “We found that exposure to F in urine was associated with reduced Performance, Verbal and Full IQ scores before and after adjusting for confounders. The same pattern was observed for models with F in water as the exposure variable. . . . The individual effect of F in urine indicated that for each mg increase of F in urine a decrease of 1.7 points in Full IQ might be expected.”

IQ Study #28: Wang (2007)

Citation: Wang SX, Wang ZH, Cheng XT, Li J, Sang ZP, Zhang XD, Han LL, Qiao XY, Wu ZM, Wang ZQ. (2007). Arsenic and fluoride exposure in drinking water: children’s IQ and growth in Shanyin county, Shanxi province, China. Environmental Health Perspectives 115(4):643-7.
Location of study: CHINA. Shanyin County, Shanxi Province.
Size of study: 720 children: 21-196 per village (3 villages for each of the arsenic groups)
Age of Subjects: 8-12 years old
Source of Fluoride: Water
Water Fluoride Levels: High-Arsenic group = 0.9+0.5 mg/L
Medium-Arsenic group = 1.7+1.1 mg/L
High-Fluoride group = 8.3+1.9 mg/L
Control group = 0.5+0.2 mg/L
Urine Fluoride levels: High-Arsenic group = 1.0+1.7 mg/L
Medium-Arsenic group = 2.8+1.9 mg/L
High-Fluoride group = 5.1+2.0 mg/L
Control group = 1.5+1.6 mg/L
Confounding Factors: (1) Arsenic used as variable. Similar manganese levels in water for all groups. (2) All groups lived in rural areas with similar geographic and cultural conditions and a comparable level of socioeconomic development (years of parental education, average income, years of exposure). (3) All children currently attending school.
Type of IQ Test CRT-RC (Combined Raven’s Test for Rural China)
Results: – Average IQ in high-arsenic area (95.1+16.6) is significantly lower than IQ in control area (104.8+14.7). p < 0.05 – The average IQ in high-fluoride area (100.5+15.8) is also significantly lower than average IQ in control area (104.8+14.7). p < 0.05 – Significantly more children with IQ lower than 70 (mental retardation) in high-F area (4%), medium-arsenic area (3.3%), and high-arsenic area (8.3%) as compared to control (0%).
Conclusion: “This study indicates that exposure to fluoride in drinking water is associated with neurotoxic effects in children.”

 IQ Study #27: Trivedi (2007)

Citation: Trivedi TMH, Verma RJ, Chinoy NJ, Patel RS, Sathawara NG. (2007). Effect of high fluoride water on intelligence of school children in India. Fluoride 40(3):178-183.
Location of study: INDIA. High F area: Sachana, Sanand district, Gujarat; Medium F area: Chandlodia, Ahmedabad.
Size of study: 190 children (89 in high F area; 101 in medium F area)
Age of Subjects: 12-13 years old
Source of Fluoride: Water
Water Fluoride Levels: High F area=5.55+0.41 mg/L
Medium F area=2.01+0.009 mg/L
Urine Fluoride Levels: High F area = 6.13+0.67 mg/L
Medium F area = 2.30+0.28 mg/L
Confounding Factors: (1) The study included only those children who were life-long residents of the areas. respective location. (2) The areas have similar nutritional status and both have middle class socioeconomic status (although Sachana is slightly poorer). (3) Iodized salt is used in both areas.
Type of IQ Test Questionnaire prepared by Prof. JH Shah; standardized on the Gujarati population with 97% reliability rate in relation to the Stanford-Binet Intelligence Scale
Results: (A) Average IQ is lower in High-F area (91.72+1.13) than in Low-F area (104.44+1.23), p<0 .001.="" 28.09="" area="" below="" children="" f="" found="" has="" igh="" in="" iq="" lower="" nbsp="" normal="" of="" over="" percentage="" td="" the="" twice="" with="">
Conclusion:  “In agreement with other studies elsewhere, these findings indicate that children drinking high F water are at risk for impaired development of intelligence.”

IQ Study #26: Fan (2007)

Citation: Fan Z, Dai H, Bai A, Li P, Ro L, Li G, Zhang C, Li X.  (2007). The effect of high fluoride exposure on the level of intelligence in children. Journal of Environmental Health 24(10):802-03.
Location of study: CHINA. Pucheng County, Shaanxi Province.
Size of study: 79 children (42 children in High F area; 37 children in low F area)
Age of Subjects: 7-14 years old
Source of Fluoride: Water
Water Fluoride Levels: – High F area=3.15 mg/L
– Low F area=1.03 mg/L (water-improvement schemes implemented 14-18 years before study)
Urine Fluoride Levels: – High F area group=2.89+1.97 mg/L (range: 1.14-6.09 mg/L);
– Low F area group=1.78+0.46 mg/L (range: 1.33-2.35 mg/L) (non-significant difference, likely because F is consumed from various sources other than water)
Confounding Factors: (1) The two areas have common habits and lifestyles in terms of cuisine, economy, culture, education, agricultural goods, etc.. (2) No chemical factories in area. (3) The area does not have an iodine deficiency problem.
Type of IQ Test CRT-C2 intelligence module
Results: (A) Average IQ in High-F area (96.11 + 12.00) is lower than Low-F area (98.41 + 14.75), although difference is not statistically significant. (B) No child in High-F area has outstanding or excellent intelligence. The respective rates in the Low-F area are 2.7% and 5.4%, respectively.
Conclusion:  “Exposure to high levels of fluoride is likely to cause a certain level of harm to a child’s level of intelligence.”

 IQ Study #25: Seraj (2006)

Citation: Seraj B, Shahrabi M, Falahzadeh M, Falahzadeh F, Akhondi N. (2006). [Effect of highfluoride concentration in drinking water on children’s intelligence]. [Study in Persian] Journal of Dental Medicine 19(2):80-86.
Location of study: IRAN
Size of study: 126 children (85 children from low-F village, 41 children from high-F village)
Age of Subjects: Not provided in English abstract (full study is in Persian)
Source of Fluoride: Water
Water Fluoride Levels: High F village = 2.5 mg/L
Low F village = 0.4 mg/L
Confounding Factors: The history of illnesses affecting the nervous system, head trauma, birth weight (>2.5kg or < 2.5kg), residental history, age and sex of children were investigated by questionnaires completed by the children’s parents.
Type of IQ Test Raven’s
Results: “In the high fluoride area the mean IQ of children (87.9±11) was significantly lower than in the low fluoride area (98.9±12.9) (P=0.025).”
Statistical significance  ““Based on the findings of this study, exposure of children to high levels of fluoride may carry the risk of impaired development of intelligence.”

 IQ Study #24: Wang (2005)

Citation: Wang S, Zhang H, Fan W, Fang S, Kang P, Chen X, Yu M. (2005). The effects of endemic fluoride poisoning caused by coal burning on the physical development and intelligence of children. Journal of Applied Clinical Pediatrics 20(9):897-898 (republished in Fluoride 2008; 41:344-348).
Location of study: CHINA. Zhijin County, Ghizhou Province.
Size of study: 226 children (176 children in High F area, including 119 children with skeletal fluorosis and 57 children with only dental fluorosis; 50 children in low-F area without skeletal or dental fluorosis)
Age of Subjects: 7-12 years old
Type of Exposure: Coal burning
Urine Fluoride Levels: High F group=1.352+0.457 mg/L (n=144)
Lower F group=1.611+0.467 mg/L (n=35)
Confounding Factors: (1) Both areas are free from iodine deficiency. (2) Both areas have similar standard of living, sanitation, culture, and availability of medical treatment.
Type of IQ Test Raven’s Standard Theoretical Intelligence Test, Chinese version
Results: Children from high F (endemic) areas had lower IQ than those from lower F (control) area (p<0 .01="" and="" between="" correlation="" f="" iq="" negative="" p="" td="" urine="">
Conclusion:  “High fluoride burden has a definite effect on the intellectual and physical development of children.”

IQ Study #23: Xiang (2003a), Xiang, (2003b)

Citation: – Xiang Q, et al. (2003a). Effect of fluoride in drinking water on children’s intelligence. Fluoride 36: 84-94. – Xiang Q, et al. (2003b). Blood lead of children in Wamiao-Xinhuai intelligence study. Fluoride 36: 198-199.
Location of study: CHINA. Sihong County, Jiangsu Province.
Size of study: 512 children (222 children in high-F village, 290 children in low-F village)
Age of Subjects: 8-13 years old
Type of Exposure: Water
Water Fluoride Levels: High F village=2.47+0.79 mg/L (range=0.57-4.50 mg/L)
Low F village=0.36+0.15 mg/L (range=0.18-0.76 mg/L)In the high-F village, children were subdivided into the following five fluoride water levels:Group A<1 .0="" br="" mg=""> Group B=1.0-1.9 mg/L;
Group C=2.0-2.9 mg/L;
Group D=3.0-3.9 mg/L;
Group E>3.9 mg/L.
Urine Fluoride Levels: High F village=3.47+1.95 mg/L
Low F village=1.11+0.39 mg/L
Confounding Factors: (1) The two villages have similar urine iodine levels (p>0.3), and blood lead levels (p>0.48). (2) Neither village has fluoride pollution from burning coal or other industrial sources. (3) None of the residents reported drinking brick tea. (4) Children  who had been absent from either village for 2 years or longer, or who had a history of brain disease or head injury were excluded from study.
Type of IQ Test CRT-RC (Combined Raven’s Test for Rural China)
Results: (A) Mean IQ of high F village (92.02+13.00) is lower than low F village (100.41+13.21), p<0 .01.="" and="" are="" associated="" borderline="" children="" drinking="" education="" f="" family="" higher="" income="" intelligence="" iodine="" iqs="" is="" level.="" mental="" not="" of="" or="" p="" parent="" rates="" related="" retardation="" s="" significantly="" td="" to="" urinary="" water="" with="">
Conclusion: “In endemic fluorosis areas, drinking water fluoride levels greater than 1.0 mg/L may adversely affect the development of children’s intelligence.”

 IQ Study #22: Li (2003)

Citation:  Li Y, Jing X, Chen D, Lin L, Z Wang Z. (2003). Effects of endemic fluoride poisoning on the intellectual development of children in Baotou. Chinese Journal of Public Health Management 19(4):337-338 (republished in Fluoride 2008; 41:161-64).
Location of study: CHINA. Baotou, Inner Mongolia.
Size of study: 936 children (720 children from high-F endemic area; 236 children from low-F control area)
Age of Subjects: 6-13 years old
Source of F exposure: Water
Fluoride exposure levels: “The region classified as endemic was designated using the 1981 standards for designation of endemic regions laid out in 1981’s Standards for Endemic Fluorosis Prevention and Treatment Work”
Type of IQ Test Illustrated version of the Chinese Standardized Raven Test for children in rural areas
Results: (A) Average IQ of children in endemic area (92.07) somewhat lower than that of control area (93.78), NS. (B) Rate of children with low IQ (<69 area="" but="" control="" endemic="" given="" greater="" high="" in="" no="" p="" significance="" statistical="" td="" than="" value="">
Conclusion:  “In our study, we found that the average IQ of children in a fluoride endemic area was somewhat lower than the control, but the result was not statistically significant (p > 0.05). The percentage of children with fluorosis, however, was higher as compared to the control, and this was very significant statistically.”

IQ Study #21: Shao (2003)

Citation: Shao Q, Wang Y, Li L, Li J. (2003). Study of cognitive function impairment caused by chronic fluorosis. Chinese Journal of Endemiology 22(4):336-38.
Location of study: CHINA. Bijie City (high F area) and Tongren area (control area), Guizhou Province.
Size of study: 88 adults (49 adults in High-F area; 39 adults in Low-F area)
Age of Subjects: Aged 30-50 (High-F area = 42+6 years; Low-F area = 43+6 years)
Source of Fluoride Exposure: Water
Fluoride exposure levels: Adults in high-F area diagnosed as suffering from fluoride poisoning (as evident by dental and skeletal changes). Water F levels not provided.
Confounding Factors: Non-iodine deficient areas. Exclusions of mental disorders caused by mental retardation, brain organic and somatic diseases. All farmers. Similar distribution of age, sex, education level.
Type of IQ Test Wechsler Adult Intelligence Scale test for Rural China (WATS-RC); Associated learning (AL) test; Digit Span (DS) test; Similarity test; Speech fluency test (SFT); Comprehension test.
Results: (A) Significantly lower operation score on IQ test in high F area (48-54) versus low F area (52-59), p < 0.01. (B) Lower total IQ score in high F area (78-100, average) than in low F area (109-118, average-high), although not statistically significant (C)  High F subjects have significantly lower scores on several of the performance tests (speech fluency, recognition, similarity, p < 0.01, and digit span, p < 0.05), and this correlates with elevated levels of oxidative stress.
Conclusion: “The results suggest that some cognitive function limitations exist in those suffering from chronic fluoride poisoning, and its biologic basis may be related to the levels of SOD and NO [indices of oxidative stress].”

 IQ Study #20: Wang (2001)

Citation: Wang X, Wang L, Hu P, Guo X, Luo X. (2001). Effects of high iodine and high fluorine on children’s intelligence and thyroid function. Chinese Journal of Endemiology 20(4):288-90.
Location of study: CHINA. Binzhou and Dezhou, Qingyun County, Shandong Province.
Size of study: 513 children (322 children from school in high iodine/high fluoride area; 193 children from school in lower iodine/lower fluoride area).
Age of Subjects: 8-12 years old
Source of Fluoride Exposure: Water
Water Fluoride Levels: – High iodine/high fluoride area=2.97 mg/L – Lower iodine/lower fluoride area=0.5 mg/L
Urine Fluoride Levels: – High iodine/high fluoride = 3.08+1.03 mg/L – Low iodine/low fluoride = 0.82+0.56 mg/L
Type of IQ Test CRT-RC (Combined Raven’s Test for Rural China)
Results: (A) Average IQ is lower in High-F area than in Low-F area (76.67+7.75 vs. 81.67+11.97), although the difference does not reach statistical significance. (B) The rate of extremely low and borderline IQ is higher in the High F areas than in the Low F areas (16.67% vs. 10% and 36.67% vs. 16.67, respectively), although these differencese do not reach statistical significance.
Conclusion: “High iodine and high fluorine have certain influence on children’s intelligence and thyroid function.”

 IQ Study #19: Hong (2001)

Citation: Hong F, Cao Y, Yang D, Wang H. (2001). Research on the effects of fluoride on child intellectual development under different environmental conditions. Chinese Primary Health Care 15(3):56-57 (republished in Fluoride 2008; 41(2):156–60).
Location of study: CHINA. Wukang, Boxing, and Zouping counties, Shangdong Province.
Size of study: 205 children (32 controls; 85 High F; 32 High-F/High Iodine; 28 High F/Low Iodine; 28 Low F/Low Iodine)
Age of Subjects: 8-14 years old
Source of Fluoride Exposure: Water
Water Fluoride Levels: – Control area = 0.75 mg/L – High F only = 2.90 mg/L – High F/High I = 2.85 mg/L – High F/Low I = 2.94 mg/L – Low F/Low I = 0.48 mg/L
Confounding Factors: – Areas have same geographical features and standard of living.
Type of IQ Test Chinese Standardized Raven’s Test for Rural areas (CRT-R)
Results: (A) Average IQ of High F/Low I group (68.38+19.12) and Low F/Low I group (75.53+6.92) is lower than control group (82.79+8.98), p<0 .01.="" and="" between="" compared="" control="" deficits="" exists="" f="" fluoride="" group="" groups="" high="" i="" interaction="" iodine="" iq="" is="" low="" lower="" of="" ow="" p="" ranking="" show="" significant="" td="" than="" to="">
Conclusion: “The IQ results of this study show no significant difference between the average IQs of those children from the high fluoride only areas and the high fluoride/high iodine areas, however the result from the high fluoride/low iodine group show statistically significant differences as compared to that of the low fluoride/low iodine group. In short, it appears that the presence or lack of iodine is a more significant factor in both the prevalence of goiter and average IQ.”

IQ Study #18: Lu (2000)

Citation: Lu Y, Sun L, Wu LN, Wang X, Lu W, Lis SS. (2000). Effect of high-fluoride water on intelligence of children. Fluoride 33:74-78.
Location of study: CHINA. Tianjin Xiqing District.
Size of study: 118 children (60 children in High-F village; 58 children in Low-F village)
Age of Subjects: 10-12 years old
Source of Fluoride Exposure: Water
Water Fluoride Levels: – High F village = 3.15+0.61 mg/L – Low F village = 0.37+0.04 mg/L
Urine Fluoride Levels: – High F village = 4.99+2.57 mg/L – Low F village = 1.43+0.64 mg/L
 Confounding Factors: (1) Children included in the study are lifelong residents of study area. (2) Villages have similar population size, social, economic and educational backgrounds. (3) Children with congenital or acquired neurological disorders were excluded.
Type of IQ Test Chinese Combined Raven’s Test, Copyright 2 (CRT-C2)
Results: (A) Average IQ of children from High F village (92.27+20.45) is lower than children from Low F village (103.05+13.86), p<0 .005.="" and="" between="" borderline="" children="" exists="" f="" group="" high="" in="" intelligence="" inverse="" iq.="" low="" more="" p="" relationship="" retarded="" significant="" td="" than="" urinary="">
Conclusion:  “The findings of this study thus replicate those of earlier studies and suggest that a real relationship exists between fluoride exposure and intelligence.”

IQ Study #17: Zhang (1998)

Citation: Zhang J, Yao H, Chen Y.  (1998). The effect of high levels of arsenic and fluoride on the development of  children’s intelligence. Chinese Journal of Public Health 17(2):119.
Location of Study: CHINA. Kuitun region, Urumqi.
Size of Study: 164 children
Age of Subjects: 4-10 years old
Source of Fluoride Exposure:  Water
Water Fluoride Levels: For the 4 to 8 year olds, the fluoride level their entire life (including during fetal development) was between 0.49 and 0.81 ppm. The 9 year olds were exposed to high fluoride (level not provided) during fetal development. The 10 year olds were exposed to high fluoride during fetal development and their first year of life.
Type of IQ Test:  50-point evaluation tests created by Japanese researcher, Shigeo Kobayashi
Results: No difference in IQ among the 4 to 8 year olds, a slight (non-significant) reduction in IQ among the 9 year olds (who were exposed to fluoride during fetal development), and a significant reduction among the 10 year olds (who were exposed during fetal development and their first year of life).
Conclusion: “Even though there were differences in the results from the 10 year-old subjects from the normal comparative group, in contrast to subjects from the high fluoride high arsenic group and the high fluoride group, these results might not be overtly representative as less number of subjects from the high fluoride group has been tested.”

 IQ Study #16: Yao (1997)

Citation: Yao L, Deng Y, Yang S, Zhao J, Wang X, Cui Z. (1997). Comparative assessment of the physical and mental development of children in endemic fluorosis area with water improvement and without water improvement. Literature and Information on Preventive Medicine 3(1):42-43.
Location of study: CHINA. Chaoyang City, Liaoning Province.
Size of study: 823 children (326 children from fluorosis area with water improvement; 183 children from fluorosis area without water improvement; 314 children from non-fluorosis area)
Age of Subjects: 7-14 years old
Source of Fluoride Exposure: Water
Water Fluoride Levels: – Fluorosis area without water improvements = 2.0 mg/L- Fluorosis with water improvements = 0.33 mg/L (prior to improvement 8 years before study, the F level was 2.0 mg/L)- Non-fluorosis area = 0.4 mg/L
Confounding Factors: – All children born locally.
– Areas in study have adequate iodine exposure and similar levels of economic development, living conditions, school size, and number of teachers.
Type of IQ Test CRT-RC (Combined Raven’s Test for Rural China)
Results: (A) Children in fluorosis area (without water improvement) have lower average IQ than children in fluorosis area (with water improvement) for all age groups, p<0 .01.="" after="" age="" all="" and="" area.="" area="" average="" between="" born="" children="" difference="" exists="" fluorosis="" for="" groups="" have="" improvement="" in="" intelligence="" iq="" lower="" no="" non-fluorosis="" p="" prior="" program="" significant="" td="" than="" to="" water="" with="" without="">
Conclusion: “These results show that water improvement and defluoridation can improve the mental and physical development of children in a fluorosis area.“

IQ Study #15: Yao (1996)

Citation: Yao L, Zhao J, Wang X, Cui Q, Lin F.  (1996). Analysis on TSH and intelligence level of children with dental Fluorosis in a high fluoride area. Literature and Information on Preventive Medicine 2(1):26-27.
Location of study: CHINA. Chaoyang City, Liaoning Province.
Size of study: 536 children (78 children from high-fluorosis area; 188 children from light-fluorosis area; 270 children from non-fluorosis area)
Age of Subjects: 8-12 years old
Source of Fluoride Exposure: Water
Water Fluoride Levels: High-F area: <11 mg/L Low-F area: 2.0 mg/L Control area: 1.0 mg/L
Confounding Factors: (1) Children in each of the three areas have adequate iodine exposure as determined through urine analysis. (2) The three areas have similar economic development, schools, and teachers.
Type of IQ Test Raven test—Associative Atlas (Version of Chinese village)
Results: (A) Average IQ of children with dental fluorosis in high-fluorosis area and light-fluorosis areas is lower than children in non-fluorosis area, p<0 .01.="" area="" average="" children="" dental="" fluorosis="" from="" high-fluorosis="" high="" iq="" is="" light-fluorosis="" lower="" of="" p="" rate="" than="" those="" with="">120) is lower in high-fluorosis area (3.85%) and light-fluorosis area group (6.91%) than non-fluorosis area (10.74%) (no p value given).
Conclusion: “The results of the intelligence tests show that a high level of fluoride influences children’s IQ, which is consistent with some previous data. It is worth mentioning that the higher the degree of dental fluorosis, the more negative the impact on the children’s intelligence level. This is an issue which merits utmost attention.”

 IQ Study #14: Zhao (1996)

Citation: Zhao L, Liang G, Zhang D, Wu X. (1996). Effect of high-fluoride water supply on children’s intelligence. Fluoride 29: 190-192.
Location of study: CHINA. Shanxi Province.
Size of study: 320 children (160 children from high-F village; 160 children from lower-F village)
Age of Subjects: 7-14 years old
Source of Fluoride Exposure: Water
Water Fluoride Levels: High-F village = 4.12 mg/L Lower-F village = 0.91 mg/L
Confounding Factors: (1) Similar occupations, living standards, and social customs in the two villages. (2)  Only children whose mothers lived in the village during pregnancy were included in study. (3) Parents’ educational level was determined (and found to have a significant influence on IQ, p < 0.01).
Type of IQ Test “Official intelligence quotient (IQ) tests lasting 40 minutes”
Results: Children in High-F village have significantly lower average IQ (97.69+13.00) than children in lower-F village (105.21+14.99), p<0 .01.="" td="">
Conclusion: “The results of this study indicate that intake of high-fluoride drinking water from before birth has a significant deleterious influence on children’s IQ in one of two similar villages.”

 IQ Study #13: Wang (1996)

Citation: Wang G, et al. (1996). A study of the IQ levels of four- to seven-year-old children in high fluoride areas. Endemic Diseases Bulletin 11(1):60-6 (republished in Fluoride 2008; 41:340–43).
Location of study: CHINA. Shehezi, Xinjiang Province.
Size of study: 230 children (147 children from High-F village; 83 children from Low-F village)
Age of Subjects: 4-7 years old
Source of Fluoride Exposure: Water & Coal-Burning
Water Fluoride Levels: – All wells = 0.58-8.60 mg/L – High F area = > 1.0 mg/L – Low F area = < 1.0 mg/L
Confounding Factors: (1) Children were excluded from study if they had a low intellectual ability due to genetic inheritance, past illness, malnutrition, uses of medication, or other reasons. (2) “Significantly greater” percentage of children with below average head circumference in High F area (18.37%) than in Control area (9.64%) (no p value given).
Type of IQ Test Wechler Preschool and Primary Scale of Intelligence (WPPSI)
Results: (A) Average Total IQ in High F group (95.64+14.34) is lower than in control group (101.23+15.84), p<0 .05.="" average="" f="" group="" high="" in="" iq="" performance="" span="" style="text-decoration: underline;">+
14.76) is lower than in Control group (101.77+18.12), p<0 .01.="" area="" average="" below-normal="" children="" circumference="" different.="" f="" have="" head="" high="" in="" iq="" is="" lower="" not="" significantly="" span="" style="text-decoration: underline;" verbal="" with="">+15.69) than those with normal head circumference (97.13+8.06), p<0 .01.="" td=""> Conclusion
“The results show that a high fluoride intake has a clear influence on the IQ of preschool children, manifesting itself primarily as damage to performance intelligence.”

IQ Study #12: Duan (1995)

Citation:
Duan J, Zhao M, Wang L, Fang D, Wang Y, Wang W. (1995). A comparative analysis of the results of multiple tests in patients with chronic industrial fluorosis. Guizhou Medical Journal 18(3):179-180.
Location of study:
CHINA. Guiyang, Guizhou Province.
Size of study:
157 adults (72 adults with diagnoses with industrial fluorosis; 43 adults exposed to occupational fluoride but without industrial fluorosis; 42 non-exposed workers)
Age of Subjects:
35 to 62 yrs
Source of Fluoride Exposure:
Occupational exposures
Air Fluoride Levels
Avg = 2.21 mg/m3
Confounding Factors:
Non-exposed workers had similar work conditions, economic status, and lifestyle habits.
Type of IQ Test
Wechsler Adult Intelligence Scale revised by Prof Gong Yaoxian of Human Medical Sciences University (WAIS-RC)
Results:
Average IQ of workers with industrial fluorosis was significantly lower (68 to 72) than fluoride-exposed workers without industrial fluorosis (84.5), and IQ of fluoride-exposed workers without fluorosis (84.5) was significantly lower than IQ of non-exposed workers (99.4).
Conclusion:
“it may be determined that industrial fluorine poisoning has gradually progressive effects on the normal function and metabolism of the adult brain and other aspects of the nervous system. With the progression of the course of fluorosis, neurological damage gradually worsens, with the degree of damage closely related to the length of exposure to fluorine, nail fluorine content, and other factors. Damage from high concentrations of fluorine not only affects bones and ligaments, tendons, and other soft tissue, but is also quite widespread throughout the entire nervous system. This is of major significance for worker protection and other areas.”

IQ Study #11: Li (1995)

Citation:
Li X, Zhi J, Gao R. (1995). Effect of fluoride exposure on intelligence in children. Fluoride 28:189-192.
Location of study:
CHINA. Anshu and Zhijin counties, Guizhou Province.
Size of study:
907 children (230 children from severe fluorosis area; 224 children from medium fluorosis area; 227 children from slight fluorosis area; 226 children from non-fluorosis area)
Age of Subjects:
8-13 years old
Source of Fluoride Exposure:
Coal burning
Urine Fluoride Levels
– Severe dental fluorosis = 2.69 mg/L – Medium dental fluorosis = 2.01 mg/L – Slight dental fluorosis = 1.81 mg/L – No dental fluorosis = 1.02 mg/L
Confounding Factors:
(1) All children of Han nationality.(2) Children were excluded from study if they had congenital or acquired diseases “not related to fluoride.” (3) Groups separated by intervals of 6 months in age.
Type of IQ Test
China Rui Wen’s Scaler for Rural Areas
Results:
Average IQ of children in severe (80.3+12.9) and medium (79.7+12.7) fluorosis areas is lower than the slight (89.7+12.7) and non-fluorosis (89.9+10.4) areas, p<0 .01.="" td="">
Conclusion:
“A high fluoride intake was associated with a lower intelligence.”

 IQ Study #10: Xu (1994)

Citation:
Xu Y, Lu C, Zhang X. (1994). The effect of fluorine on the level of intelligence in children. Endemic Diseases Bulletin 9(2):83-84.
Location of study:
CHINA. Shandong Province.
Size of study:
330 children (8 groups of 21-97 children categorized based on fluoride and iodine content of water)
Age of Subjects:
8-14 years old
Source of Fluoride Exposure:
Water
Water Fluoride Levels:
– High Fluoride/High Iodine = 3.9 mg/L – High Fluoride/Low Iodine = 2.0 mg/L – High Fluoride = 1.8 mg/L – Low Fluoride =  0.38-0.5 mg/L – Control Area = 0.8 mg/L
Confounding Factors:
(1) Water iodine level used as variable. (2) Child’s pre-school education history was determined. (3) Parent’s literacy was determined.
Type of IQ Test
Bient-Siman
Results:
(A) Children in areas with high-fluoride and low-iodine have significantly lower IQs than children in areas with high-fluoride and high-iodine, p < 0.01. (B) More children have low IQ (< 69) in areas with High F/High I (10.53%), High F only (7.32%), and High F/Low I (12.82%) than in control group (1.61%)
Conclusion:
“The number of children whose level of intelligence is lower is significantly increased in regions of high fluoride/iodine, regions of high fluoride only, regions of high fluoride/low iodine, against their respective comparative groups. . . . This could be demonstrative of the fact that fluoride acts to increase the toxicity and worsen the occurrence of thyroid swelling.”

 IQ Study #9: Li (1994)

Citation:
Li Y, Li X, Wei S. (1994). Effects of high fluoride intake on child mental work capacity: Preliminary investigation into the mechanisms involved. Journal of West China University of Medical Sciences 25(2):188-91 (republished in Fluoride 2008; 41:331-35).
Location of study:
CHINA. Sichuan Province.
Size of study:
158 children from two neighboring townships (107 children with various degrees of dental fluorosis; 51 children with no dental fluorosis)
Age of Subjects:
12-13 years old
Source of Fluoride Exposure:
Food contaminated by coal smoke
Fluoride Content of Grain:
– Children with no dental fluorosis = 0.5 mg/kg- Children with dental fluorosis (HiF1) = 4.7 mg/kg- Children with dental fluorosis (HiF2) = 5.2 mg/kg- Children with dental fluorosis (HiF3) = 31.6 mg/kg
Confounding Factors:
(1) The areas have similar levels of fluoride in water (0.3 mg/L) and air (0.02-0.51 mg/m3) and similar levels of zinc in soil. (2) The areas townships have similar economic and cultural status, lifestyle, dietary habits, basic constituents of food. (3) Age, gender, and grade level of the children are kept “as constant as possible.” (4) Children with acute or chronic diseases not related to fluoride were excluded from study.
Type of IQ Test
Mental Work Capacity determined by number of letters found (NLF), rate of error (RE), index of mental capacity (IMC), short-term memory capacity (SMC), visual reaction time (RT).
Results:
(A) Children with dental fluorosis in mid-exposure group (HiF2) have reduced short-term mental capacity (p<0 .05="" 0.01="" and="" as="" capacity="" children="" compared="" dental="" exposure.="" fluorosis="" group="" have="" high-exposure="" if3="" in="" index="" low="" lower="" mental="" nlf="" no="" p="" reduced="" scores="" short-term="" td="" to="" with="">
Conclusion:
“As shown in this study, the mental work capacity (MWC) of the two groups of children with grade 3 dental fluorosis was lower than the two groups with no dental fluorosis. . . . This indicates that early, long-term exposure to excess fluoride causes deficits in memory, attention, and reaction time, but 12–13 year-old children with only recent exposure show no major effects. Studies [on human fetuses] have already shown that the developing brain is one of the ripest targets for disruption by fluoride poisoning. Given that before six years of age the human brain is in its fastest stage of development, and that around seven and eight basic structural development is completed, therefore the brain is most vulnerable to damage from excess fluoride intake before this age.”

 IQ Study #8: Yang (1994)

Citation:
Yang Y, Wang X, Guo X, Hu P. (1994). The effects of high levels of fluoride and iodine on intellectual ability and the metabolism of fluoride and iodine. Chinese Journal of Epidemiology 15(4):296-98 (republished in Fluoride 2008; 41:336-339).
Location of study:
CHINA. Shandong Province.
Size of study:
60 children (30 from high-F village, 30 from Low-F village)
Age of Subjects:
8-14 years old
Source of Fluoride Exposure:
Water
Water Fluoride Levels:
High F/High Iodine area = 2.97 mg/L Control area = 0.5 mg/L
Urine Fluoride Levels:
High F/High Iodine area = 2.08+1.03 mg/L Control area = 0.82+0.56 mg/L
Type of IQ Test
Chinese Comparative Scale of Intelligence Test
Results:
(A) Children in high F/high iodine area have lower IQ (76.67+7.75) than those in low F area (81.67+11.97), although the difference is not statistically significant.(B) Greater percentage of children have moderately low IQ (<79) in High F/High Iodine area (76.67%) than in control area (36.67%), p<0 .01.="" td="">
Conclusion:
 “An excess of fluoride and a lack of iodine in the same environment has been shown to have a marked effect on child intellectual development, causing a more significant intellectual deficit than lack of iodine alone.”

 IQ Study #7: An (1992)

Citation:
An J, Mei S, Liu A, Fu Y, Wang Q, Hu L, Ma L. (1992). The effects of high fluoride on the level of intelligence of primary and secondary students. Chinese Journal of Control of Endemic Diseases 7(2):93-94.
Location of study:
CHINA. Xingshunxi Town, Guyang County, Inner Mongolia (4 neighboring villages with high fluoride centered around Wubu Ziyao village and 6 neighboring villages with lower fluoride centered around Hada Heshao Village).
Size of study:
242 children (121 children from high-F villages and 121 children from the low-F villages)
Age of Subjects:
7-16 years old
Source of Fluoride Exposure:
Water
Water Fluoride Levels:
High-F villages = 2.1+7.6 mg/L Control villages = 0.6+1.0 mg/L
 Confounding Factors:
(1) Dental fluorosis rates were determined in both areas (90.9% in High-F area vs. 21.5% in Low-F area). (B) Both areas are in the countryside, are 15 km from each other, and share the same Han ethnicity. (C) The geography, culture, education, living standard, and social economic conditions are “very similar.”
IQ Test:
Wechsler Intelligence Scale for Children
Results:
(A) Children in the High-F villages have significantly lower IQs at each age group studied: 7-10 (p < 0.02); 11-13 (p < 0.01); 14-16 (p < 0.03); 7-16 (p < 0.01). (B) Significantly more children in High-F villages have “critical state” IQ, p < 0.01. (C) When children within the High-F villages are stratified into highest-F (5.2-7.6 mg/L), and lowest-F levels (2.1-3.2 mg/L), the children in the higher-F areas had significantly lower IQ than the lower-F areas (p < 0.05).
Conclusion
“The results show that the level of intelligence of primary and secondary students from the high fluoride area and that of primary and secondary students from the non-high fluoride area had very significant differences, proving that high fluoride has adverse effects on the mental development of students. The higher the water fluoride is, the lower the level of IQ.”

 IQ Study #6: Lin (1991)

Citation:
Lin FF, Aihaiti, Zhao HX, Lin J, Jiang JY, Malmaiti, and Aiken. (1991). The relationship of a low-iodine and high-fluoride environment to subclinical cretinism in Xinjiang. Endemic Disease Bulletin 6(2):62-67 (republished in Iodine Deficiency Disorder Newsletter Vol. 7(3):24-25).
Location of study:
CHINA. Hetian prefecture, Xinjiang.
Size of study:
749 children (250 children in High-F/Low Iodine area; 256 children in Low-F/Low-Iodine area; and 243 children in Low F/Low Iodine area)
Age of Subjects:
7-14 years old
Source of Fluoride Exposure:
Water
Water Fluoride Levels:
High F/Low Iodine = 0.88 mg/L Low F/Low Iodine = 0.34 mg/L Control area = n/a
Urine Fluoride Levels:
High F/Low Iodine = 2.56 mg/L Low F/Low Iodine = 1.34-1.61 mg/L Control area = 1.6 mg/L
Confounding Factors:
(1) Lower socioeconomic status in all areas. (2) Areas have similar nationalities, habits, customs, and income.
IQ Test:
CRT-RC (Combined Raven’s Test for Rural China)
Results:
Children from the High F/Low Iodine area have significantly lower IQs (IQ=71) than children from the Low F/Low Iodine area (IQ=77-79; p<0 .05="" and="" area="" control="" p="" td="">
Conclusion:
“The significant differences in IQ among these regions suggests that fluoride can exacerbate central nervous lesions and somatic developmental disturbance caused by iodine deficiency.”

 IQ Study #5: Guo (1991)

Citation:
Guo X, Wang R, Cheng C, Wei W, Tang L, Wang Q, Tang D, Liu G, He G, Li S. (1991). A preliminary investigation of the IQs of 7-13 year old children from an area with coal burning-related fluoride poisoning. Chinese Journal of Endemiology 10(2):98-100 (republished in Fluoride 2008; 41(2):125–28).
Location of study:
CHINA. Xinshao County, Hunan Province.
Size of study:
121 children (60 children with mild to severe fluorosis from an endemic area where coal is used as a fuel source; 61 children from a non-endemic area where wood is used as a fuel source)
Age of Subjects:
7 to 13 years old
Source of Fluoride Exposure:
Coal burning (Fluoride levels in water < 0.5 mg/l in both areas)
Blood Fluoride Levels:
Endemic area=0.1483+0.0473 mg/L Non-endemic area=0.1044+0.0652 mg/L (p<0 .01="" td="">
Confounding Factors:
The two areas are neighboring townships with “very similar” economies, cultures, living standards, lifestyles, public health, and education.
IQ Test:
Chinese Binet IQ Test
Results:
(A) Children from endemic fluorosis area have lower average IQ (76.7) than children in non-endemic area (81.4), p<0 .05.="" a="" area="" children="" endemic="" greater="" have="" in="" iq="" low="" of="" percentage="" span="" style="text-decoration: underline;"><
69) than in non-endemic area (11.5%), p<0 .05.="" td=""> Conclusion:
 “In summary, although diminished intellectual ability can result from a multitude of factors (both innate and acquired) that influence neural development and cell division in the cerebrum, the comparison conducted in this study of two areas where the other environment factors are basically the same shows clear differences in IQ, and it [is] probable that this difference is due to a high fluoride environment.”

IQ Study #4: Chen (1991)

Citation:
Chen Y, Han F, Zhou Z, Zhang H, Jiao X, Zhang S, Huang M, Chang T, Dong Y. (1991). Research on the intellectual development of children in high fluoride areas. Chinese Journal of Control of Endemic Diseases 6(Suppl):99-100 (republished in Fluoride 2008; 41:120–24).
Location of study:
Linyi County, Shanxi Province, China
Size of study:
CHINA. 640 children (320 children from High-F village; 320 children from Lower-F village)
Age of Subjects:
7 to 14 years old
Source of Fluoride Exposure:
Water
Water Fluoride Levels:
High-F village = 4.55 mg/L Lower-F village = 0.89 mg/L
Confounding Factors:
The occupations, culture, standard of living, lifestyle habits, access to health and transportation facilities are “essentially the same” between the two areas.
IQ Test:
Rural version of Chinese Standardized Raven Test
Results:
Average IQ of children in High-F village (100.24+14.52) significantly lower than children in lower-F village (104.03+14.96), p<0 .01.="" td="">
Conclusion:
“The results of this study indicate that there is significant difference between the intellectual ability of the 7–14 year old children from the [fluorosis] endemic area and those of the control, and moreover that the average IQ of the children from the endemic area is clearly lower.”

 IQ Study #3: Sun (1991)

Citation:
Sun M, et al. (1991). Using drawing tests to measure intelligence in children from areas impacted by combined Al-F endemic toxicosis (Shuicheng, Guizhou). Journal of Guiyang Medical College 16(3):204-06.
Location of study:
CHINA. Guizhou Province: Liupanshui City (endemic fluorosis area) and Guiyang City (non-endemic area)
Size of study:
420 children (196 children from endemic fluorosis area; 224 children from non-endemic area)
Age of Subjects:
6.5-12 years old
Source of Fluoride Exposure:
N/A
Fluoride exposure levels:
N/A
Confounding factors:
(1) Majority of children of farmers. (2) Children with bone and joint deformities or nervous system symptoms were excluded from study.
IQ Test:
Drawing test for children (Japanese researcher’s Shigeo Kobayashi’s 50-point scoring method).
Results:
Children from endemic fluorosis area had lower IQ than those from non-endemic area at all ages except <7 (p < 0.05)
Excerpt:
 “From these results, it can be concluded that excessive consumption of fluorine and aluminum in the early stage of development directly impacts the development of the human brain, which causes the delayed intellectual development seen in children living in the endemic areas.”

 IQ Study #2: Qin (1990)

Citation:
Qin LS, Cui SY. (1990). Using the Raven’s standard progressive matrices to determine the effects of the level of fluoride in drinking water on the intellectual ability of school-age children. Chinese Journal of the Control of Endemic Diseases 5(4):203-04 (republished in Fluoride 2008; 41:115–19).
Location of study:
CHINA. Jing County, Hubei Province.
Size of study:
447 children (141 children from High-F area; 159 children from “normal” F area; 147 children from low-F area)
Age of Subjects:
9 to 10.5 years old
Source of Fluoride Exposure:
Water
Water Fluoride Levels:
High F = 2.1-4.0 mg/L“Normal” F = 0.5-1.0 mg/LLow F = 0.1-0.2 mg/L
Confounding factors:
All children had grown up drinking well water in their home village.
IQ Test:
Raven’s Standard Progressive Matrices
Results:
Children in High F (21.17%) and Low F (23.03%) areas had lower average IQ scores than children in normal F area (28.14%), p<0 .01.="" td="">
Conclusion:
“All of these finding serve to indicate that both high and low fluoride can affect the normal development and function of the cerebrum as well as the entire nervous system causing a decrease in intellectual ability.”

IQ Study #1: Ren (1989)

Citation:
Ren D, Li K, Liu D. (1989). A study of the intellectual ability of 8-14 year-old children in high fluoride, low iodine areasChinese Journal of Control of Endemic Diseases 4(4):251 (republished in Fluoride 2008; 41:319-20).
Location of study:
CHINA. Shandong Province.
Size of study:
329 children (160 children in High F/low Iodine area: 169 children in Low-F/Low Iodine area)
Age of Subjects:
8 to 14 years old
Source of Fluoride Exposure:
Water
Fluoride exposure levels:
N/A
Confounding factors:
Both study groups had low iodine intake.
IQ Test:
Wechsler Intelligence Test
Results:
– Average IQ of children in the High Fluoride/Low Iodine group (IQ=64.8) significantly lower than the children in the Low Fluoride/Low Iodine group (IQ = 85.0), p<0 .01.-="" children="" f="" fluoride="" greater="" group="" high="" in="" iodine="" iq="" low="" nbsp="" of="" ow="" p="" percentage="" significantly="" td="" than="" the="" with="">
Conclusion:
“From the results it is evident that disrupted child intellectual development is among the effects on the human body from a harmful environment containing both high fluoride and low iodine, and this disruption is clearly much more serious than the effects of iodine deficiency alone.”

1 comment:

  1. Fluoride is a poison. Fluoride was poison yesterday. Fluoride is poison today. Fluoride will be poison tomorrow. Toxin can accumulate and act in synergy with each other making one plus one equaling two, one plus one equaling 100. There are many toxins around us but none so obvious as the one the State puts right in our water. If you can not see this then you need to open your eyes a little, it's scary but necessary if one does not want to trip over life's obstacles. When in doubt get it out or at least let town meeting have that option.

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