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USA: The New Science of Racial Differences

WARNING: This is Version 1 of my old archive, so Photos will NOT work and many links will NOT work. But you can find articles by searching on the Titles. There is a lot of information in this archive. Use the SEARCH BAR at the top right. Prior to December 2012; I was a pro-Christian type of Conservative. I was unaware of the mass of Jewish lies in history, especially the lies regarding WW2 and Hitler. So in here you will find pro-Jewish and pro-Israel material. I was definitely WRONG about the Boeremag and Janusz Walus. They were for real.

Original Post Date: 2005-06-13  Posted By: Jan

From the News Archives of: WWW.AfricanCrisis.Org
Date & Time Posted: 6/13/2005 5:07:40 PM
USA: The New Science of Racial Differences
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USA: The New Science of Racial Differences

From the News Archives of: WWW.AfricanCrisis.Org


Date & Time Posted: 6/13/2005 5:07:40 PM

USA: The New Science of Racial Differences

[With the announcement of a new medicine call BiDil, which is designed just for treating African Americans – we can see that Scientists are once more are discovering, that race does exist. Admittedly, it boils down to a statistical game. The following page on a website, discusses in quite good detail the issues surrounding the science of Race.

I maintain, that people will one day discover just how close Apartheid was to the truth, since Apartheid was a political system based on a foundation of Science – and that science was 100% valid. Much of that science was originally studied in the USA (yes the USA), and Germany and across Europe in the 1920’s. The NAZIs, and what they did to the Jews messed things up. Then suddenly, everyone wanted to pretend that anything racially related was wrong. Then the left jumped on the bandwagon and tried to pretend that everything racial was just a figment of people’s imaginations.

So now many people in the world these days are trying to believe that race does not exist… and yet, it appears that science is starting to rediscover the Science of race.

Personally, I don’t see why this is a problem. If racial issues were better understood at a scientific level, then maybe better solutions could be arrived at, at a political level.

But the left will try to pretend that race does not exist, because it shatters the very foundations of their politics. I believe therefore, that it is only a matter of time before Science itself totally destroys the Leftist Myths. Much is already known about race, and I expect more of it to come to the fore in the years ahead.

The real problem with Race and Science, is that people jump to conclusions and fear the results without letting the scientists study the matter properly. Why, for example, can’t there be racially targetted medical programs which are more effective? Jan]

As the Human Genome Project progressed over the last decade, many on the Left felt the heat of renewed interest in racial differences”they could not be so easily dismissed once we could look inside the genetic code. As a result they have renewed their efforts to deny that racial differences exist in any form other than simply the color of one’s skin or the shape of one’s lips. However, the denial of racial differences has been based on the specious premise that race is defined by distinct boundaries”a premise that no one but a scientific illiterate could entertain.

As Jon Entine wrote in “Why Race Matters in Sports” on his website: “In truth, while technically correct, such assertions are scientifically meaningless and provide absolutely no support for the popular myth that ‘race has no biological reality.’ There is zero genetic difference between a wolf and a cocker spaniel. If one really believes that such genetic similarity means that there is no hard-wired functional difference between a wolf and a hand-licking spaniel, then I invite that person to adopt a wolf as a house pet for the children. Such differences are grounded in gene sequences and proteins and are activated by obscure environmental triggers. All the training in the world is not likely to turn an Inuit Eskimo, programmed to be short and stout, into a NBA center or an American (black or white) into a great marathoner: nature sets limits.” (Also see Entine, 2000)

Anyone familiar with the principles of evolution must recognize that racial differences come about simply because different people evolved under different ecologies”both physical and social environments. When this occurs, we must expect differences in the average number of gene expressions (allele frequencies) between any two population groups. These differences include average expressions in behavior, intelligence, and medical responses to treatment, as well as physical differences.

As Arthur Jensen describes it (Jensen, 1998), when it comes to studying differences between races there are lumpers and splitters. That is, there are no clear racial boundaries. Splitters could theoretically divide the human species into individual races down to identical twins. Lumpers tend to define races into much larger groups like Blacks, Whites and Asians. Cavalli-Sforza divides all humans into separate population groups (races) that “were in the area of study in A.D. 1492” before the great migrations. That is, wherever he could find a group of people today that could trace their ancestry to a people who lived in 1492, they are defined as a race for the purposes of studying genetic differences. He excludes “Samaritans, Jews, Gypsies, and several others” because they are landless people and need “special study.” (Cavalli-Sforza, 1994)

Still, the Left has held rigidly to the notion that racial differences do not exist, but now they face a new challenge from medicine. Racial genetic differences are now being used to better understand how to treat people for illness, especially giving different medicines to different races”because they have different genes “on average.” This is exactly the same assertion made to account for differences in wealth and income between races”because they have different genes “on average” that causes differences in life’s outcomes”like intelligence and conscientiousness. Now, if medical treatment leads to the ineluctable conclusion that racial differences are real, the radical egalitarian agenda of the Left no longer has the charge of “scientific racism” to hurl at genetic studies.

The journal SCIENCE, put out by the American Association for the Advancement of Science, has summarized the dilemma quite nicely in an article written by Constance Holden entitled “Race and Medicine,” in the October 24, 2003 issue. The AAAS has been a left leaning organization; its past presidents included the radical Marxist Stephen J. Gould and the (duped) cultural anthropologist Margaret Mead. It treads on the racial difference issues very gently. So it comes with some surprise that they have begun to address the quandary of facing up to racial differences in the drive to help heal the sick.

Holden writes, “Mention race and medicine in a group of scientists, and you are likely to provoke a range of heated opinions on whether it is useful, or even ethical, to consider how people of different ancestry respond to disease and treatments. No one disputes that some diseases strike disproportionately in some racial or ethnic groups”thalassemia in people whose ancestors came from the Mediterranean area, sickle cell anemia in people of African origins, for example. Less clear-cut than these single gene disorders but the subject of increasing research”is the medical significance of a host of more subtle gene variants that appear in differing frequencies in various populations and that seem to influence a multitude of conditions. So far, few candidate genes have been spotted, and the evidence is largely circumstantial. Some scientists dismiss the data as too preliminary, or the differences as insignificant. They worry that emphasizing biological differences in how people of different racial and ethnic groups respond to disease and treatments could unfairly stigmatize some patients and lead to inferior health care. Yet many scientists see exploration of differences among ancestral groups as a way to learn more about complex diseases and ultimately improve treatment for some groups of patients.”

Notice how the Left yet again tries to claim that understanding racial differences in medical care needs will “lead to inferior health care.” The problem is, they never explain why or how this could come about. We at least need some prospective scenario as to how being able to better treat people, will lead to just the reverse! Again, they are attempting to put the genetic genie back in the bottle so that they can continue to use racism as a tribal weapon against all Whites and especially White males. We are the ones who would be responsible of course for making sure that the oppressed would get “inferior health care.” That’s right; the same White males who have invented effective medicines against AIDS, and have also contributed millions if not billions of dollars to help fight the disease that primarily inflicts “oppressed peoples.”

The article also explains that yes, it would be nice if we could just take an individual’s genes, assess their particular genome, and leave race out of it. But that procedure will not be available for decades. For now, race serves as a beneficial proxy for genetic patterns that respond differently to treatments. Different races have different patterns of gene frequencies, and race serves as the best first guess how a patient will respond to differing treatments. This is the same as using age or gender when treating patients”humans vary on multiple levels and over time.

Holden addresses Richard Lewontin’s old canard, “The chief argument against the notion that biological race can be medically meaningful is that there are far more genetic differences among individuals than there are between different ancestral groups. Neil Risch of Stanford University says that comparison is misleading, however. He and others argue that if 30% of one population can’t metabolize a certain drug, compared with 10% of another population, the between-group variability is low because most people in both groups lack this metabolism polymorphism. Nonetheless, this variation is significant when it comes to estimating the probability of response to treatment, he says. Geneticist David Goldstein of University College in London agrees: ‘If you say on average the difference between West Africans and Europeans is slight, that does not rule out a great many variants that influence how people respond to drugs.'”

“Joel Buxbaum, who studies the molecular basis of disease at Scripps Research Institute in La Jolla, California, is persuaded as well. ‘A call to ignore [race] in diagnosis and treatment is a call to ignore biology,’ he says. ‘Research in the last 35 years has uncovered significant differences among racial and ethnic groups in their rate of drug metabolism, in clinical responses to drugs, and in drug side effects.'”

“The most definitive evidence is on different levels of certain drug-metabolizing enzymes found in whites, blacks, and Asians. Some of these differences are quite dramatic; for example, Genaissance Pharmaceuticals in New Haven, Connecticut, has found a mutation of a major metabolism-controlling enzyme that occurs in 30% to 40% of Asians and less than 5% of members of other groups. Such findings help explain what many doctors have long observed”that many people of East Asian ancestry need smaller than average doses of a variety of heart, pain, and psychotropic drugs.”

If different races can vary so much in response to health due to their different ecological history, we would expect differences in other areas as well including intelligence, behavior, ethnocentrism, stature, etc. There are no constraints on genetic variation in averages between racial groups, and that is exactly what Jensenists have proposed to explain racial and gender differences in intelligence and other cognitive characteristics; it is the default hypothesis because it is biologically the most likely”whether breeds of dogs or human races”differences are to be expected.

Even the government is getting involved; “Increasing awareness of possible genetic contributions to ethnic differences is reflected in a recommendation issued last January by the U.S. Food and Drug Administration (FDA). Calling for more scrutiny of subpopulations, FDA wants drug testers to use racial divisions specified by the Census Bureau ‘to ensure consistency in evaluating potential differences in drug response.'”

Note however how nae(175)¯ve the FDA is about “racial divisions.” The Census Bureau does not use race alone in counting heads, they also use ethnicity/language. Maybe, with a renewed interest in racial differences we can start to look at races in a more rational way. As it now stands, the Census Bureau’s racial/ethnic classification system is without a scientific foundation, and will not lend itself to what the FDA is calling for: Hispanics for example are not a racial category; Semites are now lumped in with Caucasians; and East Asians and South Asians are lumped together as Asians, even though they are genetically quite different. To use racial differences, along with racial mixing, they must for the first time address race scientifically and not politically as has been done in the past.

Companies are also pursuing teasing apart racial differences for profit. Holden notes, “Genaissance, set up 6 years ago to develop and market genetic data. ‘Our company was founded on the principle that human genetic variation is critical to drug response,’ says Claiborne Stephens, vice president for genetics. The obvious way to make a first cut at that variation, he notes, is to look at how evolution parceled out different versions of various genes according to the environments in which early human populations evolved.”

One thing the article failed to mention is that we can now determine a person’s race, or racial admixture in the cases of mixed race people, to help profile the best treatment. For example, Blacks in the United States are a mixture of Whites (mostly) and West Africans. To find out what racial group an individual should fit into, it would help to determine the correct racial make-up of the person. No doubt computers along with new gene chips that show genetic markers will advance what we know about racial differences. But at least for now, it looks as though the Left is stuck with quite a conundrum”denying racial differences will also lead to denying people the best health care available. The complete article in SCIENCE follows:
—–
Race and Medicine by Constance Holden
SCIENCE 24 OCTOBER 2003, pgs. 594-6.

Mention race and medicine in a group of scientists, and you are likely to provoke a range of heated opinions on whether it is useful, or even ethical, to consider how people of different ancestry respond to disease and treatments. No one disputes that some diseases strike disproportionately in some racial or ethnic groups – thalassemia in people whose ancestors came from the Mediterranean area, sickle cell anemia in people of African origins, for example. Less clear-cut than these single gene disorders but the subject of increasing research – is the medical significance of a host of more subtle gene variants that appear in differing frequencies in various populations and that seem to influence a multitude of conditions.

So far, few candidate genes have been spotted, and the evidence is largely circumstantial. Some scientists dismiss the data as too preliminary, or the differences as insignificant. They worry that emphasizing biological differences in how people of different racial and ethnic groups respond to disease and treatments could unfairly stigmatize some patients and lead to inferior health care. Yet many scientists see exploration of differences among ancestral groups as a way to learn more about complex diseases and ultimately improve treatment for some groups of patients.

Already, drug companies are hunting for genetic reasons behind commonly observed medical differences between groups. Scientists are doing retrospective genetic analyses of data from drug trials. And 18 months ago a company called NitroMed launched a trial of a heart drug directed at compensating for what is believed to be a nitric oxide (NO) deficiency in many African Americans.

Everyone’s ultimate dream is to have evidence on individual genotypes to guide medicine, a development that would make racial identity biologically irrelevant. But that is decades away. Meanwhile, some scientists maintain that race can serve as a useful, if crude, indicator in sorting out why people experience diseases and their treatments – differently and in finding new targets for drugs.

The argument
The chief argument against the notion that biological race can be medically meaningful is that there are far more genetic differences among individuals than there are between different ancestral groups. Neil Risch of Stanford University says that comparison is misleading, however. He and others argue that if 30% of one population can’t metabolize a certain drug, compared with 10% of another population, the between-group variability is low because most people in both groups lack this metabolism polymorphism. Nonetheless, this variation is significant when it comes to estimating the probability of response to treatment, he says. Geneticist David Goldstein of University College in London agrees: “If you say on average the difference between West Africans and Europeans is slight, that does not rule out a great many variants that influence how people respond to drugs.”

Joel Buxbaum, who studies the molecular basis of disease at Scripps Research Institute in La Jolla, California, is persuaded as well. “A call to ignore [race] in diagnosis and treatment is a call to ignore biology,” he says. “Research in the last 35 years has uncovered significant differences among racial and ethnic groups in their rate of drug metabolism, in clinical responses to drugs, and in drug side effects.”

The most definitive evidence is on different levels of certain drug-metabolizing enzymes found in whites, blacks, and Asians. Some of these differences are quite dramatic; for example, Genaissance Pharmaceuticals in New Haven, Connecticut, has found a mutation of a major metabolism-controlling enzyme that occurs in 30% to 40% of Asians and less than 5% of members of other groups. Such findings help explain what many doctors have long observed – that many people of East Asian ancestry need smaller than average doses of a variety of heart, pain, and psychotropic drugs.

Less well documented – and more controversial is emerging evidence on different patterns of cardiovascular disease among various populations. Researchers are looking for biological roots not only of the well-known differences between blacks and whites, but also of another, much less
publicized pattern of heart disease that disproportionately affects Asian Indians. Although neither of these groups seems more disease prone in its ancestral environment, modern diets and life styles – particularly increased consumption of salt and fat, smoking, and inactivity hit them hard. Even when investigators try to control for environmental factors that could explain group differences, says cardiologist Clyde Yancy of the University of Texas Southwestern Medical Center in Dallas, “you can still see excess expression of disease.” Yancy and others see this as strong evidence for something genetic at work. But teasing it apart from other risk factors is proving daunting.

African-American risks
Blacks don’t have more heart attacks than whites, but in the United States they die sooner from cardiovascular problems – both heart failure and strokes, says Yancy. They also have 10 times the rate of kidney failure, three times the incidence of cardiac hypertrophy, and more than twice the rate of diabetes, a destroyer of blood vessels. High blood pressure, which afflicts almost one-third of the U.S. black population, is the engine that, in large part, drives these related conditions. It leads to excess stress on organs, which respond with hypertrophy, or abnormal cell growth. Intertwined with the problem is a shortage of nitric oxide and, in many cases, excess salt sensitivity that in turn leads to fluid retention. Heart failure in blacks often occurs from damage to the left ventricle, which is responsible for sending freshly oxygenated blood through the body. Indeed, according to Yancy, in blacks, heart failure “may be a different disease with less favorable outcomes” than in whites.

Scientists are looking for genes that would explain these patterns, in particular for genes related to hypertension. Because NO, the chemical responsible for keeping blood vessels fit and toned, is important in the action of ACE (angiotensin-converting enzyme) inhibitors, genes for NO synthesis, the enzyme most important for vascular NO production, are prime candidates. Dennis McNamara of the University of Pittsburgh Medical Center says the prevalence of certain versions of these genes is “much different in blacks and whites.” The variant that ACE inhibitors work best with is found in 60% of whites but only 30% of blacks, he says.

Also blood pressure-related is the gene for transforming growth factor – beta (TGF-beta). A group led by Phyllis August at Weill Medical College of Cornell University in New York City reported in 2000 that TGF-beta1 is overexpressed in black patients with end-stage renal disease or severe hypertension and more so than in white patients with the same diseases. This looks like a promising genetic candidate for hypertension, the authors say, because TGF-beta1 regulates substances that act both as vasoconstrictors and as growth factors for vascular cells.

In addition to genes involved in high blood pressure, researchers have found a significant difference between blacks and whites in genes that manipulate the response of the sympathetic nervous system to hormones like adrenaline. Stephen Liggett and colleagues at the University of Cincinnati reported last fall that possessing a combination of two particular versions of alpha and beta adrenergic receptors raised heart failure risk for blacks 10-fold. The high-risk version of the alpha-receptor occurs almost exclusively in people of African origin and is present in about 40% of U.S. blacks, says Liggett. The researchers believe that depressed receptor function leads to excess release of norepinephrine, which is bad for the heart. The study is relevant for the use of beta-blockers, which inhibit the effects of adrenaline on beta receptors and which may be less effective in black heart patients. Liggett’s team reported in the September issue of Nature Medicine that the high-risk beta receptor, which is also more common in blacks, raises the risk of heart failure in both mice and people and forebodes a poor response to beta-blockers.

Drug trials
Clinical trials have not been particularly helpful in illuminating such differences, says McNamara, because usually at least 80% of participants are white, and the pooling of data often obscures any racial differences.

That is why many researchers are particularly excited about the first clinical trial of a heart failure treatment that exclusively targets African Americans. It was launched in March 2001 by NitroMed, a company in Bedford, Massachusetts, to test a drug that may be uniquely beneficial to heart patients with NO deficiencies. The first-of-its-kind trial, called A-HeFT (for African-American Heart Failure Trial), is testing a drug called BiDil that was originally developed in the 1980s. BiDil combines vasodilators with an NO source and antioxidant properties to help potentiate treatment by ACE inhibitors. All patients in the trial will get standard medication; half will also get BiDil. Scientists believe that the trial, which has been endorsed by an array of groups, including the Association of Black Cardiologists Inc., should produce some definitive data on the role of so-called NO subsensitivity in heart disease. McNamara, who calls the trial “very unique and very important,” says he and colleagues will do a genetic substudy, looking at a number of candidate markers for correlations with treatment response.

Researchers are also combing through data from earlier big heart trials. To get a fix on the nature of the suspected racial difference in response to beta-blockers, Buxbaum and colleagues are looking at data from BEST (the Beta-Blocker Evaluation of Survival Trial), which tested a nonselective beta-blocker called Bucindilol. In 2700 people with congestive heart failure, black patients as well as sicker ones generally failed to benefit from the drug. So the scientists are genotyping the 600 black patients to see if they can spot a genetic marker that will serve as a better indicator than race for whether the drug is likely to work. The results will be put in a DNA bank available for other investigators.

Although these studies are important, says Yancy, there is still no substitute for getting data from really big populations, not only to find vulnerability genes but to sort out what’s “normal” – that is, genetic patterns (in any race or ancestral group) that do not predispose to heart disease. He has high hopes for another initiative, called UNITE-HF, led by the University of North Carolina with support from the drug company AstraZeneca, a U.K.-based company with U.S. headquarters in Wilmington, Delaware. UNITE-HF is collecting blood samples from the country’s “stroke and heart attack belt” in the southern and southeastern United States. So far investigators have samples from some 800 ambulatory heart patients, both black and white, which they will analyze for the prevalence of suspect genes.

Indian hearts
The other population with a big heart disease problem is South Asian Indians. “Until 50 years ago it was hardly ever heard that Indians had high heart attack risk,” says cardiologist Prakash Deedwania of the University of California, San Francisco, Fresno, School of Medicine. But as more Indians are becoming westernized, many now have heart attacks as early as their mid-30s, and, he says, “the risk is enormously high all over the world.” A major risk factor is diabetes, which, according to figures collected by F. P Cappuccio of St. George’s Hospital Medical School in London, is roughly four times as prevalent among Indians (in urban India and abroad) as in Londoners. Indians also tend to have high levels of triglycerides and low levels of HDL, the “good” cholesterol. One evolutionary explanation is the “thrifty gene hypothesis”: Over the millennia people in India endured cyclical famines; those who fared best were those who could conserve energy in abdominal fat. Now, for those exposed to plenty, this ability has turned into a disadvantage.

Some preliminary evidence for a genetic connection is emerging. Michael Miller, director of the Center for Preventive Cardiology at the University of Maryland Medical Center, says his group has found a high prevalence of an alteration in the apolipoprotein C3 gene, which regulates triglyceride metabolism, in Indians living in the United States. The researchers found this polymorphism by taking blood samples from 99 attendees at an Indian festival in Northern Virginia, as they describe in the January 2001 American Journal of Cardiology. This alteration is also associated with low HDL levels, says Miller, and possibly also insulin resistance. The group is now looking to see if people in India show the same pattern.

Investigators in New Delhi have already reported from a genetic analysis of 139 healthy males in Northern India that almost one-third carried a related variation in the apolipoprotein gene, a rare mutation in Caucasians. Furthermore, it was twice as frequent among those with elevated triglycerides – a risk factor for coronary artery disease.

More clues on how genetic variation could translate into different responses to medication should come from a new 6-week clinical trial, sponsored by AstraZeneca. It will compare Crestor (rosuvastatin), a new cholesterol-lowering drug that won government approval in August, with an older one (atorvastatin) in South Asian Americans. Deedwania says it will be the largest prospective trial ever done on Indians, with some 800 subjects from 150 centers around the country. Miller says Crestor may be better for Indians because it does a little better job at raising HDL.

Many Indian doctors believe that the Indian vulnerability to heart disease is striking enough to justify more preventive vigilance. Cardiologist Enas Enas, director of the Coronary Artery Disease in Indians Foundation in Lisle, Illinois, has stated that the goals of treatment for high blood pressure and obesity should be at least 10% lower, and cholesterol 20% lower, for Asian Indians than the goals recommended for Caucasians.

Era of transition
Increasing awareness of possible genetic contributions to ethnic differences is reflected in a recommendation issued last January by the U.S. Food and Drug Administration (FDA). Calling for more scrutiny of subpopulations, FDA wants drug testers to use racial divisions specified by the Census Bureau “to ensure consistency in evaluating potential differences in drug response.”
Drug-makers are already on the lookout for genetic subgroups that could divulge new targets for therapeutic drugs. “I think we all believe there’s a lot of potential there,” says Gary Palmer, a Pfizer vice president in New York. Pfizer is particularly interested in hypertension-related genes in blacks and diabetes-related genes that could account for the high rates of the disease in both Asian Indians and Native Americans. AstraZeneca is also looking for population differences in drug response in its clinical trials. Spokesperson Gary Bruell says that if the company found that a drug has a “profound effect” on a particular group, it would label and promote it accordingly. “If a population doesn’t benefit, that could end up on the label too,” he adds.

Companies will probably be getting more help from outfits like Genaissance, set up 6 years ago to develop and market genetic data. “Our company was founded on the principle that human genetic variation is critical to drug response,” says Claiborne Stephens, vice president for genetics. The obvious way to make a first cut at that variation, he notes, is to look at how evolution parceled out different versions of various genes according to the environments in which early human populations evolved.

One of its projects is a detailed data repository of more than 7000 genes from 93 whites, blacks, and Asians, including information on the origins of their parents and grandparents, which companies can use as a reference in clinical trials. This is enough to give “a reasonable idea of what the gene frequencies are” in those groups, says Stephens (see chart).

Although everyone agrees that data are still preliminary, there’s been enough talk to get people concerned over how these findings could affect medical care. For example, Richard Cooper, a cardiologist at Loyola University Medical Center in Chicago, worries that any new information on race differences will lead to inferior care for non-whites. He says that so far, the best data on biological race differences are only “mixed,” and even where differences do exist they are never great enough to justify any race-based generalizations in the absence of genetic tests. He says there’s no evidence that risk factors don’t operate the same way for all groups. BiDil developer Jay Cohn of the University of Minnesota, Twin Cities, agrees that the best treatment is the same for any race. But he wouldn’t have a problem with, say, prescribing a drug that will boost NO in a black heart patient. If a doctor knows that a trait is “more common in one population than another,” that could be enough to “consider modifying one’s treatment strategy,” he says.

Although scientists hope that the advent of genomic medicine will obviate the need to grapple with race issues, Goldstein warns that the day of individually tailored treatments may be far away. Even after relevant genes are identified, it will be a chore to sort out what all the alleles do, he says. And so far, only a handful of such genes have been identified. “Pharmacogenetic studies are in their absolute infancy,” he says. So “the big question is the interim strategy: how to use ancestry now.”

URL: http://home.comcast.net/(126)~neoeugenics/rac…/p>


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