Aspartame: The Bitter Truth Behind This Toxic Sweetener

Aspartame is the technical name for the brand names NutraSweet, Equal, Spoonful, and Equal-Measure. It was discovered by accident in 1965 when James Schlatter, a chemist of G.D. Searle Company, was testing an anti-ulcer drug.

Aspartame was approved for dry goods in 1981 and for carbonated beverages in 1983. It was originally approved for dry goods on July 26, 1974, but objections filed by neuroscience researcher Dr. John W. Olney and consumer attorney James Turner in August 1974, as well as investigations of G.D. Searle’s research practices caused the U.S. Food and Drug Administration (FDA) to put approval of aspartame on hold (December 5, 1974). In 1985, Monsanto purchased G.D. Searle and made Searle Pharmaceuticals and The NutraSweet Company separate subsidiaries.

Aspartame accounts for over 75 percent of the adverse reactions to food additives reported to the FDA. Many of these reactions are very serious, including seizures and death. A few of the 90 different documented symptoms listed in the report as part of aspartame dangers are:

Headaches/
migraines
Dizziness Seizures Nausea Numbness
Muscle spasms Weight gain Rashes Depression Fatigue
Irritability Tachycardia Insomnia Vision problems Hearing loss
Heart palpitations Breathing difficulties Anxiety attacks Slurred speech Loss of taste
Tinnitus Vertigo Memory loss Joint pain

 

According to researchers and physicians studying the adverse effects of aspartame, the following chronic illnesses can be triggered or worsened by ingesting of aspartame:

Brain tumors Multiple sclerosis Epilepsy Chronic fatigue syndrome Parkinson’s disease
Alzheimer’s Mental retardation Lymphoma Birth defects Fibromyalgia
Diabetes

 

Aspartame is made up of three chemicals: aspartic acid, phenylalanine, and methanol. The book Prescription for Nutritional Healing, by James and Phyllis Balch lists aspartame under the category of “chemical poison.” As you shall see, that is exactly what it is.

What Is Aspartame Made Of?

Aspartic Acid (40 percent of Aspartame)

Dr. Russell L. Blaylock, a professor of neurosurgery at the Medical University of Mississippi, recently published a book thoroughly detailing the damage that is caused by the ingestion of excessive aspartic acid from aspartame. Blaylock makes use of almost 500 scientific references to show how excess free excitatory amino acids such as aspartic acid and glutamic acid (about 99 percent of monosodium glutamate or MSG is glutamic acid) in our food supply are causing serious chronic neurological disorders and a myriad of other acute symptoms.

How Aspartate (and Glutamate) Cause Damage

aspartate

Aspartate and glutamate act as neurotransmitters in the brain by facilitating the transmission of information from neuron to neuron. Too much aspartate or glutamate in the brain kills certain neurons by allowing the influx of too much calcium into the cells. This influx triggers excessive amounts of free radicals, which kill the cells. The neural cell damage that can be caused by excessive aspartate and glutamate is why they are referred to as “excitotoxins.” They “excite” or stimulate the neural cells to death.

Aspartic acid is an amino acid. Taken in its free form (unbound to proteins), it significantly raises the blood plasma level of aspartate and glutamate. The excess aspartate and glutamate in the blood plasma shortly after ingesting aspartame or products with free glutamic acid (glutamate precursor) leads to a high level of those neurotransmitters in certain areas of the brain.

The blood brain barrier (BBB), which normally protects the brain from excess glutamate and aspartate as well as toxins, 1) is not fully developed during childhood, 2) does not fully protect all areas of the brain, 3) is damaged by numerous chronic and acute conditions, and 4) allows seepage of excess glutamate and aspartate into the brain even when intact.

The excess glutamate and aspartate slowly begin to destroy neurons. The large majority (75 percent or more) of neural cells in a particular area of the brain are killed before any clinical symptoms of a chronic illness are noticed. A few of the many chronic illnesses that have been shown to be contributed to by long-term exposure to excitatory amino acid damage include:

Multiple sclerosis (MS) Parkinson’s disease
ALS Hypoglycemia
Memory loss AIDS
Hormonal problems Dementia
Epilepsy Brain lesions
Alzheimer’s disease Neuroendocrine disorders

aspartame effectThe risk to infants, children, pregnant women, the elderly and persons with certain chronic health problems from excitotoxins are great. Even the Federation of American Societies for Experimental Biology (FASEB), which usually understates problems and mimics the FDA party-line, recently stated in a review that glutamic acid should be avoided by women of childbearing age.

Aspartic acid from aspartame has the same deleterious effects on the body as glutamic acid isolated from it’s naturally protein-bound state, causing it to become a neurotoxin instead of a non-essential amino acid.

Aspartame in diet sodas, or aspartame in other liquid form are absorbed more quickly and have been shown to spike plasma levels of aspartic acid.

The exact mechanism of acute reactions to excess free glutamate and aspartate is currently being debated.

 

As reported to the FDA, those reactions include:

Headaches/migraines Fatigue (blocks sufficient glucose entry into brain) Anxiety attacks
Nausea Sleep problems Depression
Abdominal pains Vision problems Asthma/chest tightness

 One common complaint of persons suffering from the effect of aspartame is memory loss. Ironically, in 1987, G.D. Searle, the manufacturer of aspartame, undertook a search for a drug to combat memory loss caused by excitatory amino acid damage. Blaylock is one of many scientists and physicians who are concerned about excitatory amino acid damage caused by ingestion of aspartame and MSG.

A few of the many experts who have spoken out against the damage being caused by aspartate and glutamate include Adrienne Samuels, Ph.D., an experimental psychologist specializing in research design. Another is Olney, a professor in the department of psychiatry, School of Medicine, Washington University, a neuroscientist and researcher, and one of the world’s foremost authorities on excitotoxins. (He informed Searle in 1971 that aspartic acid caused holes in the brains of mice.)

facebook

https://www.facebook.com/healinghealthandwellness

Advertisements

Leave a Reply

Fill in your details below or click an icon to log in:

WordPress.com Logo

You are commenting using your WordPress.com account. Log Out / Change )

Twitter picture

You are commenting using your Twitter account. Log Out / Change )

Facebook photo

You are commenting using your Facebook account. Log Out / Change )

Google+ photo

You are commenting using your Google+ account. Log Out / Change )

Connecting to %s