I have stumbled upon one factor that has been overlooked in Autism research and infant and children’s health. Pediatricians often recommend giving infants and children Tylenol and Mortin (for infants over 6 months) for pain management prior or just after they’ve received a vaccine. What public and health care professionals do not know is that there is an excipient in the infant and children Tylenol and some of the Motrin formulations that contains a chlorocarbon (or organochloride) utilized as the sweetening agent.
Sucralose or what is commonly known as Splenda is the organochloride or chlorocarbon utilized in the suspension fluids. The invention of sucralose or Splenda was documented in the New Yorker article, “The Search For Sweet,” by Burkhard Bilger – May 22, 2006.
The substance in the flask seemed to have all the makings of an excellent insecticide. It was a fine crystaline powder and its molecules were full of chlorine atoms, like DDT. ..by taking an eye-dropper full of sulfuryl chloride – a highly toxic chemical – and adding it to a sugar solution, one drop at a time. In the violent reaction that followed, a wholly new compound was born: 1′, 4,6,6′-tetrachloro-1′,4,6,6′-tetra-deoxygalactosucrose. “It isn’t of any use as an insecticide,” Hough told me recently, “That was tested.” But it has proven useful as a food. In its pure form, it is known as sucralose. When mixed with fillers and sold in bright yellow sachets, it’s known as Splenda, the best-selling artificial sweetener in America.”
Sucralose was declared safe by the Food and Drug Administration in 1998, but most of the taste researchers I talked to won’t eat it. “I look at that structure and I have an irrational fear of it,” one of them said.
To access this article view on the link below. The New Yorker does charge a small fee to access this archived issue.
James Bowen explains the impacts of Splenda (sucralose).
“Splenda/sucralose is simply chlorinated sugar; a chlorocarbon. Common chlorocarbons include carbon tetrachloride, trichlorethelene and methylene chloride, all deadly. Chlorine is nature’s Doberman attack dog, a highly excitable, ferocious atomic element employed as a biocide in bleach, disinfectants, insecticide, WWI poison gas and hydrochloric acid.
“Sucralose is a molecule of sugar chemically manipulated to surrender three hydroxyl groups (hydrogen + oxygen) and replace them with three chlorine atoms. Natural sugar is a hydrocarbon built around 12 carbon atoms. When turned into Splenda it becomes a chlorocarbon, in the family of Chlorodane, Lindane and DDT.
“It is logical to ask why table salt, which also contains chlorine, is safe while Splenda/sucralose is toxic? Because salt isn’t a chlorocarbon. When molecular chemistry binds sodium to chlorine to make salt carbon isn’t included. Sucralose and salt are as different as oil and water.
“Unlike sodium chloride, chlorocarbons are never nutritionally compatible with our metabolic processes and are wholly incompatible with normal human metabolic functioning. When chlorine is chemically reacted into carbon-structured organic compounds to make chlorocarbons, the carbon and chlorine atoms bind to each other by mutually sharing electrons in their outer shells. This arrangement adversely affects human metabolism because our mitochondrial and cellular enzyme systems are designed to completely utilize organic molecules containing carbon, hydrogen, oxygen, nitrogen, and other compatible nutritional elements.
“By this process chlorocarbons such as sucralose deliver chlorine directly into our cells through normal metabolization. This makes them effective insecticides and preservatives. Preservatives must kill anything alive to prevent bacterial decomposition.”
Dr. Bowen believes ingested chlorocarbon damage continues with the formation of other toxins: “Any chlorocarbons not directly excreted from the body intact can cause immense damage to the processes of human metabolism and, eventually, our internal organs. The liver is a detoxification organ which deals with ingested poisons. Chlorocarbons damage the hepatocytes, the liver’s metabolic cells, and destroy them.
In test animals Splenda produced swollen livers, as do all chlorocarbon poisons, and also calcified the kidneys of test animals in toxicity studies. The brain and nervous system are highly subject to metabolic toxicities and solvency damages by these chemicals. Their high solvency attacks the human nervous system and many other body systems including genetics and the immune function. Thus, chlorocarbon poisoning can cause cancer, birth defects, and immune system destruction. These are well known effects of Dioxin and PCBs which are known deadly chlorocarbons.”
Dr. Bowen continues: “Just like aspartame, which achieved marketplace approval by the Food and Drug Administration when animal studies clearly demonstrated its toxicity, sucralose also failed in clinical trials with animals. Aspartame created brain tumors in rats. Sucralose has been found to shrink thymus glands (the biological seat of immunity) and produce liver inflammation in rats and mice.
“In the coming months we can expect to see a river of media hype expounding the virtues of Splenda/sucralose. We should not be fooled again into accepting the safety of a toxic chemical on the blessing of the FDA and saturation advertising. In terms of potential long-term human toxicity we should regard sucralose with its chemical cousin DDT, the insecticide now outlawed because of its horrendous long term toxicities at even minute trace levels in human, avian, and mammalian tissues.
Researchers have known for a long time that chlorinated compounds impact liver functionality. Rachel Carson discussed chlorinated compounds in Silent Spring. She also discusses Methoxychlor, another organochlorine once used as an insecticide, and it’s toxicity when combined with other chlorinated compounds like DDT.
One of the most significant facts about the chlorinated hydrocarbon insecticides is their effect on the liver. Of all the organs in the body the liver is most extraordinary. In its versatility and in the indispensable nature of its functions it has no equal. It presides over so many vital activities that even the slightest damage is fraught with serious consequences. Not only does it provide bile for the digestion of fats, but because of its location and the special circulatory pathways that converge upon it the liver receives blood directly from the digestive tract and is deeply involved in the metabolism of all the principal foodstuffs. It stores sugar in the form of glycogen and releases it as glucose in carefully measured quantities to keep the blood sugar at a normal level. It builds body proteins, including some essential elements of blood plasma concerned with blood-clotting. It maintains cholesterol at its proper level in the blood plasma, and inactivates the male and female hormones when they reach excessive levels. It is a storehouse of many vitamins, some of which in turn contribute to its own proper functioning.
Without a normally functioning liver the body would be disarmed–defenseless against the great variety of poisons that continually invade it. Some of these are normal by-products of metabolism, which the liver swiftly and efficiently makes harmless by withdrawing their nitrogen. But poisons that have no normal place in the body may also be detoxified. The “harmless” insecticides malathion and methoxychlor are less poisonous than their relatives only because a liver enzyme deals with them, altering their molecules in such a way that their capacity for harm is lessened. In similar ways the liver deals with the majority of the toxic materials to which we are exposed.
Our line of defense against invading poisons or poisons from within is now weakened and crumbling. A liver damaged by pesticides in not only incapable of protecting us from poisons, the whole range of its activities may be interfered with. Not only are the consequences far-reaching, but because of their variety and the fact that they may not immediately appear they may not be attributed to their true cause…..
The effect of a chemical of supposedly innocuous nature can be drastically changed by the action of another; one of the best examples is a close relative of DDT called methoxychlor (Actually, methoxychlor may not be as free from dangerous qualities as it is generally said to be, for recent work on experimental animals shows a direct action on the uterus and a blocking effect on some of the powerful pituitary hormones–reminding us again that these are chemicals with enormous biological effect. Other work shows that methoxychlor has a potential ability to damage the kidneys.) Because it is not stored to any great extent when given alone, we are told that methoxychlor is a safe chemical. But this is not necessarily true. If the liver has been damaged by another agent, methoxychlor is stored in the body at 100 times its normal rate, and will then imitate the effects of DDT with long-lasting effects on the nervous system. Yet the liver damage that brings this about might be so slight as to pass unnoticed. It might have been the result of any number of commonplace situations–using another insecticide, using a cleaning fluid containing carbon tetrachloride, or taking one of the so-called tranquilizing drugs, a number (but not all) of which are chlorinated hydrocarbons and possess power to damage the liver.
This raises very serious questions. Infant and children’s pharmaceutical excipients, inactives, or inerts (Take your pick on the term) need serious review. The Johnson & Johnson McNeil Fort Washington Facility is now closed. The FDA inspection review showed chronic failures in quality and consistency of the oral suspension formulations. This is the same facility where they make sucralose and utilized it in their infant and children’s Tylenol and Motrin formulations. Johnson & Johnson’s McNeil failed to understand the potential implications of utilizing a chlorocarbon (or organochloride) as a sweetener in infant and children’s pharmaceuticals. Parents give their infants and children Tylenol and Motrin products to help relieve their pain and suffering not knowing that something in that product may have serious long term health consequences. Has Splenda or sucralose ever been tested for its synergistic properties? Could sucralose impair liver functionality and cause other poisons or toxins to be absorbed at an accelerated rate? Those are the questions that need immediate answers.
The FDA inspection report is deeply disturbing in light of this information.
Control procedures fail to include adequacy of mixing to assure uniformity and homogeneity.
Control procedures used did not validate the manufacturing processes that caused variability in the characteristics of the drug product. For examples, the agitation speeds and time to reach [Blacked out] in the hold tank during processing of the [blacked out] super potent batches that failed APAP (end of run) assays, [blacked out] released batches, and the demonstration batch. The firm did not demonstrate the adequacy of mixing to assure uniformity and homogeneity for Infant’s Dye-Free Tylenol Suspension Drops, Formula [blacked out] using a [blacked out] batch in a [blacked out] hold tank. Agitation and tank levels with [blacked out] the amount of liquid) in a [blacked out] hold tank were evaluated with one demonstration bulk batch, lot ]blacked out] packaged as lot [blacked out] The [blacked out] batches into [blacked out] hold tanks used [blacked out] and the agitator was shut off at [blacked out] using the weight of [blacked out] for the [blacked out] batch in a [blacked out] hold tank. With the [blacked out] super potent batches, APAP concentrated at the end run when the agitator was shut off at [blacked out] in the tank).
To review the complete inspection report click on the link below to review the PDF.
The inspection results are also available here at this site.
J Toxicol Environ Health A. 2008;71(21):1415-29. doi: 10.1080/15287390802328630.
Splenda alters gut microflora and increases intestinal p-glycoprotein and cytochrome p-450 in male rats.
Abou-Donia MB1, El-Masry EM, Abdel-Rahman AA, McLendon RE, Schiffman SS.
Splenda is comprised of the high-potency artificial sweetener sucralose (1.1%) and the fillers maltodextrin and glucose. Splenda was administered by oral gavage at 100, 300, 500, or 1000 mg/kg to male Sprague-Dawley rats for 12-wk, during which fecal samples were collected weekly for bacterial analysis and measurement of fecal pH. After 12-wk, half of the animals from each treatment group were sacrificed to determine the intestinal expression of the membrane efflux transporter P-glycoprotein (P-gp) and the cytochrome P-450 (CYP) metabolism system by Western blot. The remaining animals were allowed to recover for an additional 12-wk, and further assessments of fecal microflora, fecal pH, and expression of P-gp and CYP were determined. At the end of the 12-wk treatment period, the numbers of total anaerobes, bifidobacteria, lactobacilli, Bacteroides, clostridia, and total aerobic bacteria were significantly decreased; however, there was no significant treatment effect on enterobacteria. Splenda also increased fecal pH and enhanced the expression of P-gp by 2.43-fold, CYP3A4 by 2.51-fold, and CYP2D1 by 3.49-fold. Following the 12-wk recovery period, only the total anaerobes and bifidobacteria remained significantly depressed, whereas pH values, P-gp, and CYP3A4 and CYP2D1 remained elevated. These changes occurred at Splenda dosages that contained sucralose at 1.1-11 mg/kg (the US FDA Acceptable Daily Intake for sucralose is 5 mg/kg). Evidence indicates that a 12-wk administration of Splenda exerted numerous adverse effects, including (1) reduction in beneficial fecal microflora, (2) increased fecal pH, and (3) enhanced expression levels of P-gp, CYP3A4, and CYP2D1, which are known to limit the bioavailability of orally administered drugs.