SOY Toxins, Brain Chemistry, and Behavior

[Guest guest]

Hello,

If Soy is as big as a deal as some of these Doctors Claim, maybe it's not the

Soy the problem really, how can we know if this problem they find has nothing to

do with how different our body is health wise cause of what we are exposed to in

our everday foods, maybe there is interactions there that are not realized yet.

Is it the Soy itself harmful? or is it the Soy with GE that is harmful? or is it

the Soy when consumed interacting with problems in our body's that already

exisit? I wonder.

Kevin Gagnon

Elaine <mem121 wrote: Sunday, February 17, 2002 7:47 PM

SOY Toxins, Brain Chemistry, and Behavior

 

 

> Toxins, Brain Chemistry, and Behavior 10/10/01 -

> http://www.mercola.com/2001/oct/10/toxins.htm - Home Page New Patients

> Nutrition Help

>

>

> Toxins, Brain Chemistry, and Behavior

> By Dr. Roger D. Masters and Myron Coplan

> I. The Problem

> During the last two decades, evidence has accumulated that the interaction

> of environmental pollution, poor diet, and lifestyle contributes to the

> exceptionally high rates of violent crime in many American cities.

> Lead intoxication, even at low levels, correlates with aggressive behavior

> as well as learning disabilities. Manganese, a toxin that at high levels

of

> exposure contributes to Parkinsonism, has also been linked to violent

> behavior (especially thanks to research by the Violence Research

> Foundation).

> Effects of lead and manganese interact, moreover, so that individuals

> exposed to both show stronger effects than those exposed to either one

> alone. Alcohol and drug use, often associated with violent crime, increase

> the deleterious effects of toxic metals through complex biochemical

> interactions at the cellular level.

> These chemicals compromise the serotonin, dopamine, and other

> neurotransmitter systems that are integral to self-control due to their

> effects in lowering thresholds for violent behavior.

> Environmental pollution does not impact everyone equally. Brain cells

absorb

> toxic metals when diets are low in calcium, iron, zinc, Vitamin D, and

other

> essential nutrients. Prenatal exposure to lead and alcohol can result in

> premature or low weight births, small head circumferences and learning or

> behavioral deficits.

> Bottle-feeding with commercial formulas, especially soy exposes infants to

> four or five times as much manganese uptake as breast milk, a finding that

> suggests why studies show breast fed infants have IQ scores 2 to 8 points

> higher than comparable babies fed infant formula.

> In addition to direct effects of poor diet on children's behavior,

> nutritional deficits thus probably combine with exposure to toxic metals

to

> increase the likelihood of attention deficit disorder (ADD),

hyperactivity,

> and other learning deficits.

> In addition, because the problems of poverty and broken families often

> co-vary with inadequate diet, housing with lead paint, and aging water

> systems, as well as inadequate prenatal health care, high rates of bottle

> feeding, and exposure to industrial pollution, poor urban populations are

at

> risk for neurotoxicity in multiple ways.

> The neurotoxicity hypothesis is strongly grounded in findings from a

number

> of laboratory studies and observations of human behavior. In seven

different

> groups of prison inmates, violent criminals had substantially higher

levels

> of lead or manganese in their hair than nonviolent criminals or

law-abiding

> controls.

> Otherwise puzzling geographical differences in rates of violent crime in

the

> U.S. are highly correlated with environmental pollution and death rates

from

> alcoholism. Counties in which the EPA did not report industrial releases

of

> either lead or manganese, and where alcoholism was lower than average, had

a

> rate of 228 violent crimes per 100,000 people (well under the national

> average).

> In contrast, counties with industrial releases of lead and manganese and

> higher than average alcoholism had rates of violent crime of 969 per

100,000

> (three times above the national average). (The statistics linking

> differences in the rate of violent crime to lead, to manganese, and to

> alcoholism would each occur by chance less than once per 10,000 times.)

> Controlling for 17 other factors, including population density, poverty,

and

> ethnic composition, the three sources of neurotoxicity are significantly

> associated with violent crime.

> II. Current Research

> With the support of a grant from the Environmental Protection Agency,

> current work is exploring a number of ways that toxic pollution affects

the

> public.

> Data from a number of surveys of children's blood lead are being combined

> with socio-economic and demographic data from the US Census Bureau, health

> data from the Center of Disease Control, pollution data from the EPA, and

> crime data from the FBI. Our research has considered the extent to which

> lead is being absorbed by humans due to:

> a) water treatment procedures

> b) industrial releases of lead and other toxins

> c) plumbing systems, leaded paint, and other sources of lead associated

with

> old housing

> d) other sources, such as lead residues in soil, that are particularly

> common in the center of some American cities

> e) dietary habits (such as shortages of calcium and iron) and demographic

> factors (such as poverty, stress, and minority ethnicity) which are known

to

> be associated with increased risk of lead uptake

> In addition, we have analyzed annual crime rates to show that the ban on

> leaded gasoline rates appears to have led to a decline in violent crime

> rates after 1991. (The time delay of 17 years between reductions in sales

of

> leaded gas and rates of violence indicates that, for the particulate lead

in

> such gas exhaust, the serious effects were apparently during fetal

> development and the first year of life.)

> In addition,geographical variations in lead levels in children's blood are

> being studied as a factor that might explain rates of crime, educational

> failure and disease that are unusually high.

> We have also been considering " risk co-factors " that make lead and other

> toxic metals in the environment more dangerous to local residents.

> Here our emphasis has been on the use of silicofluorides as agents in

water

> treatment. There are two reasons for this focus.

> First, both fluosilicic acid and sodium silicofluoride are toxins that are

> used in water delivered to 140 million Americans even though the EPA has

> admitted that their effects on health and behavior have never been

studied.

> German research has revealed that these chemicals do not dissociate

> completely when added to water -- and both leave potentially toxic

residues

> that have important chemical effects.

> In studying the correlations between the use of these chemicals and crime,

> disease, and behavioral dysfunction, we seek to establish clearly whether

or

> not these compounds are poisoning the public.

> Second, the silicofluorides apparently function to increase the cellular

> uptake of lead and other toxic metals, such as manganese; confirming

> correlations between silicofluorides and lead uptake should thus clarify

the

> extent to which these compounds are risk cofactors for toxicity and other

> hazardous effects.

> III. Results to date

> Our analysis of blood lead data from Massachusetts, New York State, and

the

> NHANES National Sample has revealed several important findings that

concern

> violent behavior as well as other health issues.

> 1. Communities with a higher percentage of children having blood lead over

> 10 mg/dL are significantly more likely to have higher rates of violent

crime

> and higher rates of educational failure.

> 2. Communities using either fluosilicic acid (H2SiF6) or sodium

> silicofluoride (NaSiF6) have significantly higher rates of crime than

those

> using sodium fluoride or delivering unfluoridated water (with the

exception

> of towns with naturally fluoridated water).

> 3. The use of fluosilicic acid (H2SiF6) to fluoridate public water

supplies

> significantly increases the amounts of lead in the water (whereas the use

of

> sodium silicofluoride (NaSiF6) or sodium fluoride (NaF) does not.

> 4. There is no linear relationship between the amount of lead in a

> community's public water supply (as measured by current methods of

> determining " 90th percentile first draw water lead " ) and the rates of

> violent or property crime.

> IV. Implications

> If these research hypotheses are confirmed, it should be possible to

target

> both criminal and civil environmental enforcement strategies in a way that

> produces major public health benefits by reducing exposure and absorption

of

> lead pollution and thereby reducing violent crime, learning disorders. and

> such diseases as hypertension.

> In the past, questions have been raised about the need to regulate

> industrial releases of lead and some have doubted that chronic exposure to

> low levels of lead pollution actually harm humans. Other efforts, such as

> the removal of leaded paint from old houses, have also been subjected to

> criticism on the grounds that they actually release more lead into the

> environment.

> Evidence from our research supports efforts to remove lead from the

> environment and indicates ways their effectiveness could be improved. In

> addition, our studies suggest some relatively inexpensive non-enforcement

> interventions, such as ending or modifying water fluoridation procedures

> using silicofluorides.

> For all these reasons, environmental protection will be greatly enhanced

by

> the acquisition of more comprehensive evidence of how environmental

sources

> of lead and the risk cofactors for lead uptake are correlated with

disease,

> crime, and behavioral dysfunction.

> The neurotoxicity hypothesis implies the benefits of a biomedical and

> dietary approach to educational failure, crime, and social deviance.

Studies

> show IQ increases of as much as 15 points among children with poor diets

who

> are given vitamin supplements.

> Removal of lead ( " chelation " ) and other methods of biochemical

normalization

> have also been found to improve behavior and learning.

> High lead uptake is often a factor among children who are hyperactive

> (ADHD). As a result, instead of using Ritalin to treat ADHD, specialists

at

> the Pfeiffer Treatment Center in Illinois have found that treatments to

> reduce levels of lead and other toxins provide lasting improvement without

> medication.

> Other studies indicate that the successes of Head Start may have been in

> good part to its nutritional component.

> Because many children do not continue to benefit from balanced diets after

> Head Start, poor nutrition may explain the frequently observed declines in

> educational performance after these programs have been completed.

> Interventions such as good neonatal care, breast-feeding, vitamin

> supplements, and school lunches might therefore improve educational

> performance, as well as reduce violence and social disintegration.

> The neurotoxicity hypothesis provides a new and potentially crucial

> dimension to accepted theories of crime. Factors like poverty, population

> density, social disintegration, race, easy access to guns, and violence on

> TV are obviously important contributors to violence, yet they do not

effect

> everyone the same way.

> Studies of the behavioral impact of heavy metals can increase our

knowledge

> of why these factors influence some individuals more than others. Crime

> prevention, better systems for screening prison inmates for potential

> violence, and cost-effective parole or probation options are all

attractive.

> At the same time, the implications of the neurotoxicity hypothesis for our

> social, education, and legal systems are enormous. This approach does not

> excuse crime on the grounds of biochemistry.

> If poor diet and alcoholism contribute to learning disabilities and crime,

> this information ought to have the same status as knowing that drinking

and

> driving do not mix. Given advances in neuroscience, dare we ignore the

> behavioral effects of neurotoxicity when this knowledge promises more

> effective crime prevention -- and perhaps also more effective

> rehabilitation -- than current methods?

>

>

>

> Publications on Silicofluorides, Neurotoxicity, and Behavior

> Masters, R,, Hone, B, and Doshi, A. (1998). " Environmental Pollution,

> Neurotoxicity, and Criminal Violence, " in J. Rose, ed., Environmental

> Toxicology: Current Developments (London: Gordon and Breach, 1998), pp.

> 13-48.

> Survey of evidence linking lead and manganese neurotoxicity to aggressive

> behavior and crime, presenting multivariate analysis correlating Toxic

> Release Inventory for lead and manganese with crime data for 1991 from all

> 3141 US counties Emphasizes effects of heavy metals on neurotransmitter

> function and behavior.

> Masters, Roger D., with Baldwin Way, Brian T. Hone, David J. Grelotti,

David

> Gonzalez, and David Jones (1998) " Neurotoxicity and Violence, " Vermont Law

> Review, 22:358-382.

> Legal implications of the evidence linking neurotoxicity and crime

> (including data from Toxic Release Inventory and crime for partial sample

of

> US counties)

> Masters, R. and Coplan, M. (1999a) " Water Treatment with Silicofluorides

and

> Lead Toxicity, " International Journal of Environmental Studies, 56: 435-49

> First published analysis of data linking silicofluoride treatment of

public

> water supplies with higher uptake of lead, focused on survey of children's

> blood lead in Massachusetts (by town).

> Masters, R. and Coplan, M. (1999b) " A Dynamic, Multifactorial Model of

> Alcohol, Drug Abuse, and Crime: Linking Neuroscience and Behavior to

> Toxicology, " Social Science Information, 38:591-624.

> Articulation of the linkages between neurotoxicity, brain chemistry,

> environmental pollution, and behavior (with focus on substance abuse and

> crime), using data from National Institute of Justice study of drug use in

> over 30,000 criminal offenders at time of arrest).

> Data show that where silicofluorides are in use, criminals are more likely

> to consume alcohol, more likely to have used cocaine at time of arrest -

and

> that communities have significantly higher crime rates.

> Coplan, M.J. And Masters, R.D. (1999). " Is Silicofluoride Safe? Comments

Re

> EPA Response to Rep. Calvert's Inquiry " Submission to Representative

Kenneth

> Calvert, Subcommittee on Energy and Science, Committee on Science, U. S.

> House of Representative (August 12, 1999).

> Analysis and rejoinder to letter dated 12 June 1999 from J. Charles Fox,

> Assistant Administrator, EPA, to Hon.Kenneth Calvert, U. S. House of

> Representative, commenting on errors and omissions in a " Question and

> Answer " statement and " Fluorosilicate Fact Sheet " enclosed by Mr. Fox.

> This document contains a preliminary review of scientific data on the

> differences between sodium fluoride (NaF) and the silicofluorides (H2SiF6

> and Na2SiF6), with an emphasis on the complex production process and

> chemical interactions of the latter compounds.

> Masters, R. D. and Coplan, M. J., with Hone, B.T., Grelotti, D. J.,

> Gonzalez, D. and Jones, D. (in press). " Brain Biochemistry and the

Violence

> Epidemic: Toward a 'Win-Win' Strategy for Reducing Crime, " in Stuart

Nagel,

> ed., Super-Optimizing Examples Across Public Policy Problems (NOVA Science

> Publishers) (in press).

> Review of the evidence linking neurotoxicity and crime, using data from

both

> county-level study (correlating EPA Toxic Release Inventory with FBI crime

> reports ) and Massachusetts data on silicofluorides and lead uptake.

> Masters, RD and Coplan, M.J. (1999c). " The Triune Brain, the Environment,

> and Human Behavior: Hommage to Paul MacLean, " to appear in Russell

Gardner,

> ed. Festschrift in Honor of Paul MacLean . First presented at Back Bay

> Hilton Hotel, Boston, Mass. - July 16, 1999; volume publication

anticipated

> 2002-3.

> Survey of research on neurotoxicity, brain chemistry and behavior,

including

> evidence of the role of lead and other heavy metal pollution and crime (as

> demonstrated by individual data, neurochemistry, and both geographic and

> longitudinal data} as well as survey of data linking silicofluorides to

> enhanced lead uptake.

> First presentation of findings on the extremely high correlation (r = .90)

> between gallons of leaded gasoline sold and the crime rates sixteen years

> later, confirming special vulnerability of pregnant mothers and newborns

to

> lead toxicity.

> Masters, RD, Coplan, M. J., Hone, B.T., And Dykes, J.E.

(2000). " Association

> of Silicofluoride Treated Water with Elevated Blood Lead, " Neurotoxicology

> 21: 101-1100.

> Follow-up epidemiological study of the association between silicofluoride

> treated community water and enhanced child blood lead parameters. This

> statistical study of 151,225 venous blood lead (VBL) tests taken from

> children ages 0-6 inclusive, living in 105 communities with populations

from

> 15,000 to 75,000 in New York state, shows for every age and racial group a

> significant association between siliocfluoride treated community water and

> elevated blood lead.

> Roger D. Masters (2001) " Biology and Politics, " in Nelson W. Polsby, ed.,

> Annual Review of Political Science, vol. 4, PP. 345-369.

> A survey of the scope of the emerging subfield called " biopolitics, "

> reflecting the activities of the membership of the Association for

Politics

> and the Life Sciences. Four areas are discussed in some detail:

> 1). genetics and health

> 2), toxins and behavior (including hyperactivity, depression, and violent

> crime)

> 3) the specific case of silicofluorides in water treatment and their

effect

> in enhancing lead uptake

> 4) biopolitics and political theory.

> Note: one-time e-print available.

>

> Web-site:

> Overall site for Roger Masters' research:

> http://www.dartmouth.edu/~rmasters/

> Address for research (with M. J. Coplan) on health and behavioral effects

of

> silicofluorides:

> http://www.dartmouth.edu/~rmasters/ahabs.htm

> Presentations to Scientific Conferences:

> Masters, RD and Coplan, M.J. " Silicofluoride Usage and Lead Uptake, "

> Presentation to XXIInd Conference of the International Society for

Fluoride

> Research, Bellingham, Washington, August 24-27, 1998.

> Report on findings of elevated blood lead associated with communities

using

> silicofluoride, based on sample of over 250,000 children in Massachusetts

> (see Masters and Coplan, 1999a)

> Masters, RD and Coplan, M.J. " The Triune Brain, the Environment, and Human

> Behavior, " Presentation to Festschrift in Honor of Paul MacLean . Back Bay

> Hilton Hotel, Boston, Mass. - July 16, 1999 (see Masters and Coplan,

1999c).

> Masters, R. D. . " Poisoning the Well: Neurotoxic Metals, Water Treatment

and

> Human Behavior, " Plenary address to Annual Conference of the Association

for

> Politics and the Life Sciences, " Four Seasons Hotel, Atlanta, GA

(September

> 2, 1999).

> Review of evidence linking heavy metal pollution with substance abuse and

> crime, including presentation of data linking ban on sales of leaded

> gasoline with decline in crime 16 years later. Summary of geographical

data

> analyses contradicting the " null hypothesis " that there is no difference

in

> the effects of sodium fluoride and the silicofluorides.

> Coplan, M. J., Masters, R. D., and Hone, B. (1999a) " Silicofluoride Usage,

> Tooth Decay and Children's Blood Lead, " Poster presentation to Conference

on

> " Environmental Influences on Children: Brain, Development and Behavior,

New

> York Academy of Medicine, Mt. Sinai Hospital, New York, May 24-25, 1999.

> Preliminary report on data from analysis of national sample of over 4,000

> children in NHANES III, showing that while water fluoridation is

associated

> with a significant increase in children's blood lead (with especially

strong

> effects among minority children), data on tooth decay from the same survey

> show limited benefits that are no longer evident among those aged 15-17.

> Coplan, M.J., Masters, RD, and Hone, B. (1999b) " Association of

> Silicofluoride Treated Water with Elevated Blood Lead, " Poster

presentation

> to 17th International Nerotoxicology Conference, Little Rock, AR, October

17

> Preliminary report on data from analysis of sample of blood lead testing

of

> over 150,000 children in New York State communities of 15,000 to 75,000

> population. Once again, average blood lead levels were significantly

higher

> (p < .0001) in communities using silicofluorides in water treatment than

in

> those with unfluoridated water.

> The effect was found independently in every age group for three ethnic

> subsamples.

>

>

>

> DR. MERCOLA'S COMMENT:

 

=== message truncated ===

 

 

 

 

Sports - Coverage of the 2002 Olympic Games

 

 

[Guest guest]

> Toxins, Brain Chemistry, and Behavior 10/10/01 -

> http://www.mercola.com/2001/oct/10/toxins.htm - Home Page New Patients

> Nutrition Help

>

>

> Toxins, Brain Chemistry, and Behavior

> By Dr. Roger D. Masters and Myron Coplan

> I. The Problem

> During the last two decades, evidence has accumulated that the interaction

> of environmental pollution, poor diet, and lifestyle contributes to the

> exceptionally high rates of violent crime in many American cities.

> Lead intoxication, even at low levels, correlates with aggressive behavior

> as well as learning disabilities. Manganese, a toxin that at high levels

of

> exposure contributes to Parkinsonism, has also been linked to violent

> behavior (especially thanks to research by the Violence Research

> Foundation).

> Effects of lead and manganese interact, moreover, so that individuals

> exposed to both show stronger effects than those exposed to either one

> alone. Alcohol and drug use, often associated with violent crime, increase

> the deleterious effects of toxic metals through complex biochemical

> interactions at the cellular level.

> These chemicals compromise the serotonin, dopamine, and other

> neurotransmitter systems that are integral to self-control due to their

> effects in lowering thresholds for violent behavior.

> Environmental pollution does not impact everyone equally. Brain cells

absorb

> toxic metals when diets are low in calcium, iron, zinc, Vitamin D, and

other

> essential nutrients. Prenatal exposure to lead and alcohol can result in

> premature or low weight births, small head circumferences and learning or

> behavioral deficits.

> Bottle-feeding with commercial formulas, especially soy exposes infants to

> four or five times as much manganese uptake as breast milk, a finding that

> suggests why studies show breast fed infants have IQ scores 2 to 8 points

> higher than comparable babies fed infant formula.

> In addition to direct effects of poor diet on children's behavior,

> nutritional deficits thus probably combine with exposure to toxic metals

to

> increase the likelihood of attention deficit disorder (ADD),

hyperactivity,

> and other learning deficits.

> In addition, because the problems of poverty and broken families often

> co-vary with inadequate diet, housing with lead paint, and aging water

> systems, as well as inadequate prenatal health care, high rates of bottle

> feeding, and exposure to industrial pollution, poor urban populations are

at

> risk for neurotoxicity in multiple ways.

> The neurotoxicity hypothesis is strongly grounded in findings from a

number

> of laboratory studies and observations of human behavior. In seven

different

> groups of prison inmates, violent criminals had substantially higher

levels

> of lead or manganese in their hair than nonviolent criminals or

law-abiding

> controls.

> Otherwise puzzling geographical differences in rates of violent crime in

the

> U.S. are highly correlated with environmental pollution and death rates

from

> alcoholism. Counties in which the EPA did not report industrial releases

of

> either lead or manganese, and where alcoholism was lower than average, had

a

> rate of 228 violent crimes per 100,000 people (well under the national

> average).

> In contrast, counties with industrial releases of lead and manganese and

> higher than average alcoholism had rates of violent crime of 969 per

100,000

> (three times above the national average). (The statistics linking

> differences in the rate of violent crime to lead, to manganese, and to

> alcoholism would each occur by chance less than once per 10,000 times.)

> Controlling for 17 other factors, including population density, poverty,

and

> ethnic composition, the three sources of neurotoxicity are significantly

> associated with violent crime.

> II. Current Research

> With the support of a grant from the Environmental Protection Agency,

> current work is exploring a number of ways that toxic pollution affects

the

> public.

> Data from a number of surveys of children's blood lead are being combined

> with socio-economic and demographic data from the US Census Bureau, health

> data from the Center of Disease Control, pollution data from the EPA, and

> crime data from the FBI. Our research has considered the extent to which

> lead is being absorbed by humans due to:

> a) water treatment procedures

> b) industrial releases of lead and other toxins

> c) plumbing systems, leaded paint, and other sources of lead associated

with

> old housing

> d) other sources, such as lead residues in soil, that are particularly

> common in the center of some American cities

> e) dietary habits (such as shortages of calcium and iron) and demographic

> factors (such as poverty, stress, and minority ethnicity) which are known

to

> be associated with increased risk of lead uptake

> In addition, we have analyzed annual crime rates to show that the ban on

> leaded gasoline rates appears to have led to a decline in violent crime

> rates after 1991. (The time delay of 17 years between reductions in sales

of

> leaded gas and rates of violence indicates that, for the particulate lead

in

> such gas exhaust, the serious effects were apparently during fetal

> development and the first year of life.)

> In addition,geographical variations in lead levels in children's blood are

> being studied as a factor that might explain rates of crime, educational

> failure and disease that are unusually high.

> We have also been considering " risk co-factors " that make lead and other

> toxic metals in the environment more dangerous to local residents.

> Here our emphasis has been on the use of silicofluorides as agents in

water

> treatment. There are two reasons for this focus.

> First, both fluosilicic acid and sodium silicofluoride are toxins that are

> used in water delivered to 140 million Americans even though the EPA has

> admitted that their effects on health and behavior have never been

studied.

> German research has revealed that these chemicals do not dissociate

> completely when added to water -- and both leave potentially toxic

residues

> that have important chemical effects.

> In studying the correlations between the use of these chemicals and crime,

> disease, and behavioral dysfunction, we seek to establish clearly whether

or

> not these compounds are poisoning the public.

> Second, the silicofluorides apparently function to increase the cellular

> uptake of lead and other toxic metals, such as manganese; confirming

> correlations between silicofluorides and lead uptake should thus clarify

the

> extent to which these compounds are risk cofactors for toxicity and other

> hazardous effects.

> III. Results to date

> Our analysis of blood lead data from Massachusetts, New York State, and

the

> NHANES National Sample has revealed several important findings that

concern

> violent behavior as well as other health issues.

> 1. Communities with a higher percentage of children having blood lead over

> 10 mg/dL are significantly more likely to have higher rates of violent

crime

> and higher rates of educational failure.

> 2. Communities using either fluosilicic acid (H2SiF6) or sodium

> silicofluoride (NaSiF6) have significantly higher rates of crime than

those

> using sodium fluoride or delivering unfluoridated water (with the

exception

> of towns with naturally fluoridated water).

> 3. The use of fluosilicic acid (H2SiF6) to fluoridate public water

supplies

> significantly increases the amounts of lead in the water (whereas the use

of

> sodium silicofluoride (NaSiF6) or sodium fluoride (NaF) does not.

> 4. There is no linear relationship between the amount of lead in a

> community's public water supply (as measured by current methods of

> determining " 90th percentile first draw water lead " ) and the rates of

> violent or property crime.

> IV. Implications

> If these research hypotheses are confirmed, it should be possible to

target

> both criminal and civil environmental enforcement strategies in a way that

> produces major public health benefits by reducing exposure and absorption

of

> lead pollution and thereby reducing violent crime, learning disorders. and

> such diseases as hypertension.

> In the past, questions have been raised about the need to regulate

> industrial releases of lead and some have doubted that chronic exposure to

> low levels of lead pollution actually harm humans. Other efforts, such as

> the removal of leaded paint from old houses, have also been subjected to

> criticism on the grounds that they actually release more lead into the

> environment.

> Evidence from our research supports efforts to remove lead from the

> environment and indicates ways their effectiveness could be improved. In

> addition, our studies suggest some relatively inexpensive non-enforcement

> interventions, such as ending or modifying water fluoridation procedures

> using silicofluorides.

> For all these reasons, environmental protection will be greatly enhanced

by

> the acquisition of more comprehensive evidence of how environmental

sources

> of lead and the risk cofactors for lead uptake are correlated with

disease,

> crime, and behavioral dysfunction.

> The neurotoxicity hypothesis implies the benefits of a biomedical and

> dietary approach to educational failure, crime, and social deviance.

Studies

> show IQ increases of as much as 15 points among children with poor diets

who

> are given vitamin supplements.

> Removal of lead ( " chelation " ) and other methods of biochemical

normalization

> have also been found to improve behavior and learning.

> High lead uptake is often a factor among children who are hyperactive

> (ADHD). As a result, instead of using Ritalin to treat ADHD, specialists

at

> the Pfeiffer Treatment Center in Illinois have found that treatments to

> reduce levels of lead and other toxins provide lasting improvement without

> medication.

> Other studies indicate that the successes of Head Start may have been in

> good part to its nutritional component.

> Because many children do not continue to benefit from balanced diets after

> Head Start, poor nutrition may explain the frequently observed declines in

> educational performance after these programs have been completed.

> Interventions such as good neonatal care, breast-feeding, vitamin

> supplements, and school lunches might therefore improve educational

> performance, as well as reduce violence and social disintegration.

> The neurotoxicity hypothesis provides a new and potentially crucial

> dimension to accepted theories of crime. Factors like poverty, population

> density, social disintegration, race, easy access to guns, and violence on

> TV are obviously important contributors to violence, yet they do not

effect

> everyone the same way.

> Studies of the behavioral impact of heavy metals can increase our

knowledge

> of why these factors influence some individuals more than others. Crime

> prevention, better systems for screening prison inmates for potential

> violence, and cost-effective parole or probation options are all

attractive.

> At the same time, the implications of the neurotoxicity hypothesis for our

> social, education, and legal systems are enormous. This approach does not

> excuse crime on the grounds of biochemistry.

> If poor diet and alcoholism contribute to learning disabilities and crime,

> this information ought to have the same status as knowing that drinking

and

> driving do not mix. Given advances in neuroscience, dare we ignore the

> behavioral effects of neurotoxicity when this knowledge promises more

> effective crime prevention -- and perhaps also more effective

> rehabilitation -- than current methods?

>

>

>

> Publications on Silicofluorides, Neurotoxicity, and Behavior

> Masters, R,, Hone, B, and Doshi, A. (1998). " Environmental Pollution,

> Neurotoxicity, and Criminal Violence, " in J. Rose, ed., Environmental

> Toxicology: Current Developments (London: Gordon and Breach, 1998), pp.

> 13-48.

> Survey of evidence linking lead and manganese neurotoxicity to aggressive

> behavior and crime, presenting multivariate analysis correlating Toxic

> Release Inventory for lead and manganese with crime data for 1991 from all

> 3141 US counties Emphasizes effects of heavy metals on neurotransmitter

> function and behavior.

> Masters, Roger D., with Baldwin Way, Brian T. Hone, David J. Grelotti,

David

> Gonzalez, and David Jones (1998) " Neurotoxicity and Violence, " Vermont Law

> Review, 22:358-382.

> Legal implications of the evidence linking neurotoxicity and crime

> (including data from Toxic Release Inventory and crime for partial sample

of

> US counties)

> Masters, R. and Coplan, M. (1999a) " Water Treatment with Silicofluorides

and

> Lead Toxicity, " International Journal of Environmental Studies, 56: 435-49

> First published analysis of data linking silicofluoride treatment of

public

> water supplies with higher uptake of lead, focused on survey of children's

> blood lead in Massachusetts (by town).

> Masters, R. and Coplan, M. (1999b) " A Dynamic, Multifactorial Model of

> Alcohol, Drug Abuse, and Crime: Linking Neuroscience and Behavior to

> Toxicology, " Social Science Information, 38:591-624.

> Articulation of the linkages between neurotoxicity, brain chemistry,

> environmental pollution, and behavior (with focus on substance abuse and

> crime), using data from National Institute of Justice study of drug use in

> over 30,000 criminal offenders at time of arrest).

> Data show that where silicofluorides are in use, criminals are more likely

> to consume alcohol, more likely to have used cocaine at time of arrest -

and

> that communities have significantly higher crime rates.

> Coplan, M.J. And Masters, R.D. (1999). " Is Silicofluoride Safe? Comments

Re

> EPA Response to Rep. Calvert's Inquiry " Submission to Representative

Kenneth

> Calvert, Subcommittee on Energy and Science, Committee on Science, U. S.

> House of Representative (August 12, 1999).

> Analysis and rejoinder to letter dated 12 June 1999 from J. Charles Fox,

> Assistant Administrator, EPA, to Hon.Kenneth Calvert, U. S. House of

> Representative, commenting on errors and omissions in a " Question and

> Answer " statement and " Fluorosilicate Fact Sheet " enclosed by Mr. Fox.

> This document contains a preliminary review of scientific data on the

> differences between sodium fluoride (NaF) and the silicofluorides (H2SiF6

> and Na2SiF6), with an emphasis on the complex production process and

> chemical interactions of the latter compounds.

> Masters, R. D. and Coplan, M. J., with Hone, B.T., Grelotti, D. J.,

> Gonzalez, D. and Jones, D. (in press). " Brain Biochemistry and the

Violence

> Epidemic: Toward a 'Win-Win' Strategy for Reducing Crime, " in Stuart

Nagel,

> ed., Super-Optimizing Examples Across Public Policy Problems (NOVA Science

> Publishers) (in press).

> Review of the evidence linking neurotoxicity and crime, using data from

both

> county-level study (correlating EPA Toxic Release Inventory with FBI crime

> reports ) and Massachusetts data on silicofluorides and lead uptake.

> Masters, RD and Coplan, M.J. (1999c). " The Triune Brain, the Environment,

> and Human Behavior: Hommage to Paul MacLean, " to appear in Russell

Gardner,

> ed. Festschrift in Honor of Paul MacLean . First presented at Back Bay

> Hilton Hotel, Boston, Mass. - July 16, 1999; volume publication

anticipated

> 2002-3.

> Survey of research on neurotoxicity, brain chemistry and behavior,

including

> evidence of the role of lead and other heavy metal pollution and crime (as

> demonstrated by individual data, neurochemistry, and both geographic and

> longitudinal data} as well as survey of data linking silicofluorides to

> enhanced lead uptake.

> First presentation of findings on the extremely high correlation (r = .90)

> between gallons of leaded gasoline sold and the crime rates sixteen years

> later, confirming special vulnerability of pregnant mothers and newborns

to

> lead toxicity.

> Masters, RD, Coplan, M. J., Hone, B.T., And Dykes, J.E.

(2000). " Association

> of Silicofluoride Treated Water with Elevated Blood Lead, " Neurotoxicology

> 21: 101-1100.

> Follow-up epidemiological study of the association between silicofluoride

> treated community water and enhanced child blood lead parameters. This

> statistical study of 151,225 venous blood lead (VBL) tests taken from

> children ages 0-6 inclusive, living in 105 communities with populations

from

> 15,000 to 75,000 in New York state, shows for every age and racial group a

> significant association between siliocfluoride treated community water and

> elevated blood lead.

> Roger D. Masters (2001) " Biology and Politics, " in Nelson W. Polsby, ed.,

> Annual Review of Political Science, vol. 4, PP. 345-369.

> A survey of the scope of the emerging subfield called " biopolitics, "

> reflecting the activities of the membership of the Association for

Politics

> and the Life Sciences. Four areas are discussed in some detail:

> 1). genetics and health

> 2), toxins and behavior (including hyperactivity, depression, and violent

> crime)

> 3) the specific case of silicofluorides in water treatment and their

effect

> in enhancing lead uptake

> 4) biopolitics and political theory.

> Note: one-time e-print available.

>

> Web-site:

> Overall site for Roger Masters' research:

> http://www.dartmouth.edu/~rmasters/

> Address for research (with M. J. Coplan) on health and behavioral effects

of

> silicofluorides:

> http://www.dartmouth.edu/~rmasters/ahabs.htm

> Presentations to Scientific Conferences:

> Masters, RD and Coplan, M.J. " Silicofluoride Usage and Lead Uptake, "

> Presentation to XXIInd Conference of the International Society for

Fluoride

> Research, Bellingham, Washington, August 24-27, 1998.

> Report on findings of elevated blood lead associated with communities

using

> silicofluoride, based on sample of over 250,000 children in Massachusetts

> (see Masters and Coplan, 1999a)

> Masters, RD and Coplan, M.J. " The Triune Brain, the Environment, and Human

> Behavior, " Presentation to Festschrift in Honor of Paul MacLean . Back Bay

> Hilton Hotel, Boston, Mass. - July 16, 1999 (see Masters and Coplan,

1999c).

> Masters, R. D. . " Poisoning the Well: Neurotoxic Metals, Water Treatment

and

> Human Behavior, " Plenary address to Annual Conference of the Association

for

> Politics and the Life Sciences, " Four Seasons Hotel, Atlanta, GA

(September

> 2, 1999).

> Review of evidence linking heavy metal pollution with substance abuse and

> crime, including presentation of data linking ban on sales of leaded

> gasoline with decline in crime 16 years later. Summary of geographical

data

> analyses contradicting the " null hypothesis " that there is no difference

in

> the effects of sodium fluoride and the silicofluorides.

> Coplan, M. J., Masters, R. D., and Hone, B. (1999a) " Silicofluoride Usage,

> Tooth Decay and Children's Blood Lead, " Poster presentation to Conference

on

> " Environmental Influences on Children: Brain, Development and Behavior,

New

> York Academy of Medicine, Mt. Sinai Hospital, New York, May 24-25, 1999.

> Preliminary report on data from analysis of national sample of over 4,000

> children in NHANES III, showing that while water fluoridation is

associated

> with a significant increase in children's blood lead (with especially

strong

> effects among minority children), data on tooth decay from the same survey

> show limited benefits that are no longer evident among those aged 15-17.

> Coplan, M.J., Masters, RD, and Hone, B. (1999b) " Association of

> Silicofluoride Treated Water with Elevated Blood Lead, " Poster

presentation

> to 17th International Nerotoxicology Conference, Little Rock, AR, October

17

> Preliminary report on data from analysis of sample of blood lead testing

of

> over 150,000 children in New York State communities of 15,000 to 75,000

> population. Once again, average blood lead levels were significantly

higher

> (p < .0001) in communities using silicofluorides in water treatment than

in

> those with unfluoridated water.

> The effect was found independently in every age group for three ethnic

> subsamples.

>

>

>

> DR. MERCOLA'S COMMENT:

> There are several take home points here.

> The first is that anything that can increase the level of lead in your

blood

> should be avoided. This would include exposure to fluoridated water, which

> as Dr. Masters and Myron Coplan have shown, may increase lead uptake in

> children.

> Another important point is that a proper eating plan is very important in

> keeping blood lead levels in check. Your body will absorb more lead if it

is

> not properly nourished. Following the eating plan is one of the best ways

to

> ensure that this risk is minimized.

> Additionally, the article highlights the need to pay more attention to

metal

> toxicity. Although there is some focus on lead, at least during early

> childhood, it is probably not enough. Also, very little attention paid to

> managanese toxicity by the medical establishment.

> Lastly, it shows that treatments such as chelation may be helpful in

helping

> to address behavioral problems in some patients with elevated levels of

> toxic metals.

> It has been my experience that hair analysis is a better screen for metal

> toxicity than blood testing. However, this is not true for mercury as the

> hair will only show exposure during the last three months as mercury does

> not equilibrate readily in the blood like other heavy metals. Mercury

firmly

> attaches to sulfur bonds in your body and is especially fond of your

central

> nervous system.

>

>

>

> Related Articles:

> Metal Toxicity

> Mercury Amalgam Detoxification or Detox Protocol

> Mercury Toxicity and Systemic Elimination Agents

>