SAM-e

March 6, 2003

Thought you should be aware of this "Sam-e" stuff What is SAM-e?

SAM-e is short for S-adenosylmethionine, an essential molecule naturally occurring in the cells of plants and animals. SAM-e is not an herb. As we age, our bodies produce less SAM-e, so some think that SAM-e may be a helpful supplement when used to treat depressive symptoms. It has been available in European countries through prescription.

What is SAM-e used for?

SAM-e has been getting attention in recent years in the United States for the treatment of depression or to preserve emotional well-being, as well as for other conditions.

Initial studies indicate that SAM-e may be effective in helping with depressive symptoms; however, studies are ongoing, and no clinical trials have proven SAM-e safe or effective in the treatment of depression.

Is SAM-e safe?

At present, the safety of SAM-e has not been proven. The U.S. Food and Drug Administration (FDA) does not approve or regulate the distribution of supplements in the United States. Not all formulations of SAM-e are the same. Some brands are more potent than others, depending upon the quality of the ingredients used.

SAM-e can have numerous adverse side effects, including:

Nausea. Diarrhea. Headache. Anxiety. Flatulence (gas). Causing a change from bouts of depression to intense periods of energy (mania).

Another issue in deciding whether to use SAM-e is cost. The recommended oral dose is 200 to 800 mg twice per day. Most studies used 1,600 mg per day to get any positive effects in relieving depressive symptoms. A 1-month supply of SAM-e at 1,600 mg per day would cost about $228. Other herbal treatments are more cost-effective.

Suzi

foxhillers wrote:

St John's Wort is helpful in mild to moderate depression...... for clinical depression, SAM-e works great.mjh

Tax Center - forms, calculators, tips, and more

August 8, 2004

In a message dated 8/8/2004 8:48:16 PM Eastern Daylight Time,

writes:

many of my patients take this. any thoughts? based upon what is

treats: joint pain, emotional depression, liver disease and repairs

cell damage (thus promoting longevity), it seems to have blood and qi

moving properties. It should not be combined with antidepressants as

it works similarly. Since these drugs also move qi, ...

My understanding is that Sam-e is part of the methylation, demethylation

cycle which is critical for many body functions, including DNA splicing. If

people are low in some b- vitamins, chorine or methionine, the methylation

process is diminished and people become deficient in other compounds including

serotonin and the sulfur compounds found in the joints.

Methylation is a key process in helping the liver detox, so given Sam-e

adds some key ingredients to the methylation cycle, it could improve liver

detox function if it has been over worked with toxins and the methylation cycle

has been diminished.

IMHO,

Chris

August 8, 2004

SAMe

Description

S-Adenosylmethionine is the active Lipotrope form of Methionine (i.e. it is a

Methionine-derivative that also contains Adenosine Triphosphate (ATP) within its

chemical structure) normally manufactured within the body but also manufactured

synthetically for use as a nutritional supplement.

Health Benefits of SAMe

Detoxification

Supplemental SAMe (1,200 mg per day) counteracts the Anxiety and Depression

commonly experienced by persons with Drug Dependence (including Opiates

dependence) during the detoxification and rehabilitation period. research

Digestive System

Supplemental SAMe stimulates the flow of Bile.

Supplemental SAMe (600 - 800 mg per day) helps to prevent Cholestasis (by

improving the flow of Bile). research

Immune System

Acquired Immune Deficiency Syndrome (AIDS) patients have low endogenous

Cerebrospinal Fluid (CSF) levels of SAMe and for this reason supplemental SAM is

under investigation as a potential treatment for AIDS. research

Supplemental SAMe helps to protect against Liver Cancer in people exposed to

Liver carcinogens. research

Metabolism

Supplemental SAM (1,200 mg per day) significantly reduces the elevated Bilirubin

levels that are associated with Gilbert’s Syndrome.

SAMe helps to protect Liver cells and helps to preserve Liver cell function in

Hepatitis C patients. references

SAMe is stored in the Liver and Supplemental SAM enhances the health of and

normalizes the function of the Liver: research

- Supplemental SAMe inhibits Alcohol-induced Liver damage.

- Supplemental SAMe can prevent and cure Cirrhosis. research

- Supplemental SAMe can prevent and cure Fatty Liver.

SAMe functions in over 40 biochemical reactions within the body - it functions

as a Methyl Donor.

Musculoskeletal System

SAMe stimulates the production of Cartilage. research

Supplemental SAMe enhances the differentiation of Chondrocytes into

Chondroblasts. research

Supplemental SAMe (800 mg per day) alleviates Fibromyalgia: research

- Specific improvements in Fibromyalgia symptoms caused by SAMe therapy include

a significant reduction in the number of trigger points, reduction in Fatigue,

reduction in morning stiffness and improvements in Mood.

Supplemental SAMe (400 - 1,200 mg per day) alleviates Osteoarthritis (by

increasing Cartilage formation). research

Supplemental SAM alleviates Fibrositis.

Nervous System

Alzheimer’s Disease patients exhibit severely decreased levels of SAM within

their Brains (indicating that supplemental SAMe may be highly beneficial to

Alzheimer’s Disease patients): research

- It was previously (prior to 1995) assumed that Alzheimer’s Disease patients

had excessive accumulation of SAMe - this assumption has now proven to be

erroneous.

SAMe is an essential factor for the regeneration of Axons on Neurons research

following injury and is also essential for the formation of Myelin Sheaths that

surround Axons: research

- SAM helps to prevent the death of Neurons during periods of Anoxia (absence of

Oxygen). research

Supplemental SAMe (400 - 1,600 mg per day) alleviates all forms of Depression:

research

- Many studies have confirmed that SAMe is significantly (approximately 15%)

more effective for the treatment of Depression than traditional Pharmaceutical

Anti-Depressants.

- SAMe alleviates Major Depression. research

- SAMe is especially effective in treating Postpartum Depression.

Supplemental SAMe (after long-term use) helps to treat Migraines. research

Supplemental SAMe is presently under investigation as a potential treatment for

Parkinson’s Disease. research

SAMe's Biochemical Pathway

View SAM’s Biochemical Pathway

SAMe Enhances the Function of these Substances

Amino Acids

SAMe is essential for the endogenous production of Glutathione within the Liver.

research

SAMe is essential for the conversion of Putrescine to Spermidine. research

SAMe is essential for the conversion of Spermidine to Spermine. research

Hormones

SAMe is an essential cofactor for the conversion of N-Acetylserotonin to

Melatonin.

SAMe is an essential cofactor for the conversion of Norepinephrine to

Adrenaline. research

Lipids

SAMe increases the endogenous production of Phosphatidylserine (PS).

Minerals

SAMe is an essential cofactor for the endogenous production of all

Sulfur-containing compounds within the body.

Neurotransmitters

SAMe increases the production of Dopamine. research

SAMe improves the ability of Neurotransmitters to bind to their respective

Neurotransmitter Receptors. research

SAMe is an essential cofactor for the conversion of Norepinephrine (NE) to

Adrenaline. research

SAMe increases the production of Serotonin. research

Nucleic Compounds

SAMe is essential for the production of Deoxyribonucleic Acid (DNA). research

SAMe is essential for the production of Ribonucleic Acid (RNA). research

Pharmaceutical Drugs

Supplemental SAMe accelerates the onset of action of Imipramine in the treatment

of Depression. research

These Substances Facilitate the Endogenous Production of SAM

Alkaloids

Betaine (especially the Trimethylglycine (TMG) form of Betaine) increases

endogenous SAMe levels. research

Amino Acids

Methionine is the precursor for the endogenous production of SAMe: research

- The conversion of Methionine to SAMe requires the presence of Adenosine

Triphosphate (ATP) and is catalyzed by the S-Adenosylmethionine Synthetase (SAM

Synthetase) enzyme.

- Half of the total Methionine content of the body is used in the Liver for the

production of SAMe.

Carbohydrates

Ribose is a component of the SAMe molecule.

Enzymes

S-Adenosylmethionine Synthetase (SAMe Synthetase) catalyzes the conversion of

Methionine to (SAM): research

- More precisely, SAMe Synthetase + Adenosine Triphosphate (ATP) + Water +

L-Methionine = Orthophosphate + Pyrophosphate + S-Adenosylmethionine (SAM).

Nucleic Compounds

Adenosine Triphosphate (ATP) is an essential cofactor for the endogenous

conversion of Methionine to SAMe.

Adenine is a component of the SAMe molecule (as part of Adenosine

Triphosphate).

Vitamins

Folic Acid facilitates the synthesis of endogenous SAMe. research

Vitamin B6 facilitates the synthesis of endogenous SAMe. research

Vitamin B12 facilitates the synthesis of endogenous SAMe. research

SAMe Counteracts the Toxic Effects of these Substances

Amino Acids

Supplemental SAMe lowers elevated Homocysteine levels. research

Pharmaceutical Drugs

SAMe is speculated to protect against the toxic effects of Doxorubicin to the

Heart. research

Supplemental SAMe reduces the death-rate from overdoses of Paracetamol:

- Animals studies have demonstrated that when rats are given supplemental SAMe

within one hour of Paracetamol overdose, death can be prevented in 100% of

cases; if supplemental SAM is administered within five hours of Paracetamol

overdose, the death rate is significantly reduced.

Recreational Drugs

SAMe inhibits Alcohol-induced Liver damage: research

- SAM counteracts the ability of Alcohol to cause Fatty Liver and also treats

pre-existing Fatty Liver.

Toxins - Environmantal

SAMe reduces the Liver damage caused by Carbon Tetrachloride.

These Substances Interfere with S-Adenosylmethionine

Recreational Drugs

Excessive Alcohol (ethanol) consumption decreases the body’s production of SAMe.

research

These Ailments Interfere with S-Adenosylmethionine

Aging Process

The body’s levels of SAMe decline in tandem with the progression of the Aging

Process. research

Toxic Effects of S-Adenosylmethionine

SAM is regarded as a very safe substance - the side effect mentioned below

occurs in only a minority of individuals.

Nervous System

Supplemental SAM causes Nausea in a very small number of persons.

Contraindications

Mania patients should not use supplemental SAMe (as additional SAM can aggravate

Mania). research

Manic Depression patients should not use supplemental SAMe - as SAMe’s

Antidepressant properties may exacerbate the Manic phase in some Manic

Depression patients.

Bioavailability

Early forms of supplemental SAMe were deemed to be poorly absorbed orally,

however more recently developed “salts” and enteric-coated versions of SAM are

believed to be as bioavailable as intravenously-

administered SAM.

Dosage Recommendations

The therapeutic dosage of supplemental SAMe is 400 - 1,200 mg per day.

Supplemental SAMe should be consumed on an empty Stomach.

“Waiting Period”

Generally, the longer that supplemental SAMe usage is continued, the more

beneficial the results.

Forms of SAMe

SAM Sulfate is comprised of 50% SAM + 50% Sulfate.

Alternatives to SAMe Supplements

The main disadvantage of SAMe supplementation is its very high cost. It is

possible to stimulate the body’s endogenous production of SAMe by using

supplemental Betaine (Trimethylglycine) + Folic Acid + Vitamin B12.

Commercial Availability of SAMe Supplements

SAMe supplements are manufactured from purified Yeast.

The best form of SAMe is enterically-coated Butanedisulfonate SAMe.

“Singular” Oral SAM Supplements

Supplemental SAMe is available (within the USA) from some specialized nutrient

suppliers and also from some international mail order supplement companies in

the form of:

- 200 mg capsules

- 200 - 500 mg tablets

Chemical Data

Molecular Formula

C15H23N6O5S

< wrote:

many of my patients take this. any thoughts? based upon what is

treats: joint pain, emotional depression, liver disease and repairs

cell damage (thus promoting longevity), it seems to have blood and qi

moving properties. It should not be combined with antidepressants as

it works similarly. Since these drugs also move qi, ...

Chinese Herbs

FAX:

August 9, 2004

With such an impressive list maybe we should all take a little SAME

-JASON

-- In , Brian Hardy

<mischievous00> wrote:

> SAMe

>

> Description

> S-Adenosylmethionine is the active Lipotrope form of Methionine

(i.e. it is a Methionine-derivative that also contains Adenosine

Triphosphate (ATP) within its chemical structure) normally

manufactured within the body but also manufactured synthetically for

use as a nutritional supplement.

>

> Health Benefits of SAMe

> Detoxification

> Supplemental SAMe (1,200 mg per day) counteracts the Anxiety and

Depression commonly experienced by persons with Drug Dependence

(including Opiates dependence) during the detoxification and

rehabilitation period. research

> Digestive System

> Supplemental SAMe stimulates the flow of Bile.

> Supplemental SAMe (600 - 800 mg per day) helps to prevent

Cholestasis (by improving the flow of Bile). research

> Immune System

> Acquired Immune Deficiency Syndrome (AIDS) patients have low

endogenous Cerebrospinal Fluid (CSF) levels of SAMe and for this

reason supplemental SAM is under investigation as a potential

treatment for AIDS. research

> Supplemental SAMe helps to protect against Liver Cancer in people

exposed to Liver carcinogens. research

> Metabolism

> Supplemental SAM (1,200 mg per day) significantly reduces the

elevated Bilirubin levels that are associated with Gilbert's Syndrome.

> SAMe helps to protect Liver cells and helps to preserve Liver cell

function in Hepatitis C patients. references

> SAMe is stored in the Liver and Supplemental SAM enhances the

health of and normalizes the function of the Liver: research

> - Supplemental SAMe inhibits Alcohol-induced Liver damage.

> - Supplemental SAMe can prevent and cure Cirrhosis. research

> - Supplemental SAMe can prevent and cure Fatty Liver.

> SAMe functions in over 40 biochemical reactions within the body - it

functions as a Methyl Donor.

> Musculoskeletal System

> SAMe stimulates the production of Cartilage. research

> Supplemental SAMe enhances the differentiation of Chondrocytes into

Chondroblasts. research

> Supplemental SAMe (800 mg per day) alleviates Fibromyalgia: research

> - Specific improvements in Fibromyalgia symptoms caused by SAMe

therapy include a significant reduction in the number of trigger

points, reduction in Fatigue, reduction in morning stiffness and

improvements in Mood.

> Supplemental SAMe (400 - 1,200 mg per day) alleviates Osteoarthritis

(by increasing Cartilage formation). research

> Supplemental SAM alleviates Fibrositis.

> Nervous System

> Alzheimer's Disease patients exhibit severely decreased levels of

SAM within their Brains (indicating that supplemental SAMe may be

highly beneficial to Alzheimer's Disease patients): research

> - It was previously (prior to 1995) assumed that Alzheimer's Disease

patients had excessive accumulation of SAMe - this assumption has now

proven to be erroneous.

> SAMe is an essential factor for the regeneration of Axons on Neurons

research following injury and is also essential for the formation of

Myelin Sheaths that surround Axons: research

> - SAM helps to prevent the death of Neurons during periods of Anoxia

(absence of Oxygen). research

> Supplemental SAMe (400 - 1,600 mg per day) alleviates all forms of

Depression: research

> - Many studies have confirmed that SAMe is significantly

(approximately 15%) more effective for the treatment of Depression

than traditional Pharmaceutical Anti-Depressants.

> - SAMe alleviates Major Depression. research

> - SAMe is especially effective in treating Postpartum Depression.

> Supplemental SAMe (after long-term use) helps to treat Migraines.

research

> Supplemental SAMe is presently under investigation as a potential

treatment for Parkinson's Disease. research

> SAMe's Biochemical Pathway

> View SAM's Biochemical Pathway

> SAMe Enhances the Function of these Substances

> Amino Acids

> SAMe is essential for the endogenous production of Glutathione

within the Liver. research

> SAMe is essential for the conversion of Putrescine to Spermidine.

research

> SAMe is essential for the conversion of Spermidine to Spermine.

research

> Hormones

> SAMe is an essential cofactor for the conversion of

N-Acetylserotonin to Melatonin.

> SAMe is an essential cofactor for the conversion of Norepinephrine

to Adrenaline. research

> Lipids

> SAMe increases the endogenous production of Phosphatidylserine (PS).

> Minerals

> SAMe is an essential cofactor for the endogenous production of all

Sulfur-containing compounds within the body.

> Neurotransmitters

> SAMe increases the production of Dopamine. research

> SAMe improves the ability of Neurotransmitters to bind to their

respective Neurotransmitter Receptors. research

> SAMe is an essential cofactor for the conversion of Norepinephrine

(NE) to Adrenaline. research

> SAMe increases the production of Serotonin. research

> Nucleic Compounds

> SAMe is essential for the production of Deoxyribonucleic Acid (DNA).

research

> SAMe is essential for the production of Ribonucleic Acid (RNA).

research

> Pharmaceutical Drugs

> Supplemental SAMe accelerates the onset of action of Imipramine in

the treatment of Depression. research

> These Substances Facilitate the Endogenous Production of SAM

> Alkaloids

> Betaine (especially the Trimethylglycine (TMG) form of Betaine)

increases endogenous SAMe levels. research

> Amino Acids

> Methionine is the precursor for the endogenous production of SAMe:

research

> - The conversion of Methionine to SAMe requires the presence of

Adenosine Triphosphate (ATP) and is catalyzed by the

S-Adenosylmethionine Synthetase (SAM Synthetase) enzyme.

> - Half of the total Methionine content of the body is used in the

Liver for the production of SAMe.

> Carbohydrates

> Ribose is a component of the SAMe molecule.

> Enzymes

> S-Adenosylmethionine Synthetase (SAMe Synthetase) catalyzes the

conversion of Methionine to (SAM): research

> - More precisely, SAMe Synthetase + Adenosine Triphosphate (ATP) +

Water + L-Methionine = Orthophosphate + Pyrophosphate +

S-Adenosylmethionine (SAM).

> Nucleic Compounds

> Adenosine Triphosphate (ATP) is an essential cofactor for the

endogenous conversion of Methionine to SAMe.

> Adenine is a component of the SAMe molecule (as part of Adenosine

Triphosphate).

> Vitamins

> Folic Acid facilitates the synthesis of endogenous SAMe. research

> Vitamin B6 facilitates the synthesis of endogenous SAMe. research

> Vitamin B12 facilitates the synthesis of endogenous SAMe. research

> SAMe Counteracts the Toxic Effects of these Substances

> Amino Acids

> Supplemental SAMe lowers elevated Homocysteine levels. research

> Pharmaceutical Drugs

> SAMe is speculated to protect against the toxic effects of

Doxorubicin to the Heart. research

> Supplemental SAMe reduces the death-rate from overdoses of Paracetamol:

> - Animals studies have demonstrated that when rats are given

supplemental SAMe within one hour of Paracetamol overdose, death can

be prevented in 100% of cases; if supplemental SAM is administered

within five hours of Paracetamol overdose, the death rate is

significantly reduced.

> Recreational Drugs

> SAMe inhibits Alcohol-induced Liver damage: research

> - SAM counteracts the ability of Alcohol to cause Fatty Liver and

also treats pre-existing Fatty Liver.

> Toxins - Environmantal

> SAMe reduces the Liver damage caused by Carbon Tetrachloride.

> These Substances Interfere with S-Adenosylmethionine

> Recreational Drugs

> Excessive Alcohol (ethanol) consumption decreases the body's

production of SAMe. research

> These Ailments Interfere with S-Adenosylmethionine

> Aging Process

> The body's levels of SAMe decline in tandem with the progression of

the Aging Process. research

> Toxic Effects of S-Adenosylmethionine

> SAM is regarded as a very safe substance - the side effect mentioned

below occurs in only a minority of individuals.

> Nervous System

> Supplemental SAM causes Nausea in a very small number of persons.

> Contraindications

> Mania patients should not use supplemental SAMe (as additional SAM

can aggravate Mania). research

> Manic Depression patients should not use supplemental SAMe - as

SAMe's Antidepressant properties may exacerbate the Manic phase in

some Manic Depression patients.

> Bioavailability

> Early forms of supplemental SAMe were deemed to be poorly absorbed

orally, however more recently developed " salts " and enteric-coated

versions of SAM are believed to be as bioavailable as intravenously-

> administered SAM.

> Dosage Recommendations

> The therapeutic dosage of supplemental SAMe is 400 - 1,200 mg per day.

> Supplemental SAMe should be consumed on an empty Stomach.

> " Waiting Period "

> Generally, the longer that supplemental SAMe usage is continued, the

more beneficial the results.

> Forms of SAMe

> SAM Sulfate is comprised of 50% SAM + 50% Sulfate.

> Alternatives to SAMe Supplements

> The main disadvantage of SAMe supplementation is its very high cost.

It is possible to stimulate the body's endogenous production of SAMe

by using supplemental Betaine (Trimethylglycine) + Folic Acid +

Vitamin B12.

> Commercial Availability of SAMe Supplements

> SAMe supplements are manufactured from purified Yeast.

> The best form of SAMe is enterically-coated Butanedisulfonate SAMe.

> " Singular " Oral SAM Supplements

> Supplemental SAMe is available (within the USA) from some

specialized nutrient suppliers and also from some international mail

order supplement companies in the form of:

> - 200 mg capsules

> - 200 - 500 mg tablets

> Chemical Data

> Molecular Formula

> C15H23N6O5S

>

> wrote:

> many of my patients take this. any thoughts? based upon what is

> treats: joint pain, emotional depression, liver disease and repairs

> cell damage (thus promoting longevity), it seems to have blood and qi

> moving properties. It should not be combined with antidepressants as

> it works similarly. Since these drugs also move qi, ...

>

> Chinese Herbs

>

> FAX:

>

August 11, 2004

I ran across this post. I hate to be a jerk but what do others think a liver

detox is? I'm not

coming down on Chris, it's just I hear this all the time and i realized I don't

know what it

means.

doug

> Methylation is a key process in helping the liver detox, so given Sam-e

> adds some key ingredients to the methylation cycle, it could improve liver

> detox function if it has been over worked with toxins and the methylation

cycle

> has been diminished.

>

> IMHO,

>

> Chris

>

August 11, 2004

The liver is responsible for taking potentially harmful compounds and

breaking them down into less harmful compounds. It will allow some to reenter

the blood, others to be expelled through bile and in some situations, the liver

will store them in fat.

This is part of the normal process of the liver.

Bile flow is an important aspect of the " detox " process otherwise, the

liver has trouble getting rid of the compounds and is forced to either allow

them back to the blood or store them in fat.

If a person has had liver Qi stag, it is my belief that the liver will be

holding on to more toxins than if the Qi was moving freely.

If a person improves bile and Qi flow or biochemistry, then the liver is

more able to resume the job of getting rid of toxins. If there has been an

abundance of toxin stored, there may be a lot of toxins dumped into bile or

blood

which could give a person symptoms that many would call a " Healing Crisis " .

IMHO,

Chris

In a message dated 8/11/2004 3:16:18 AM Eastern Daylight Time,

writes:

I ran across this post. I hate to be a jerk but what do others think a liver

detox is? I'm not

coming down on Chris, it's just I hear this all the time and i realized I

don't know what it

means.

doug

> Methylation is a key process in helping the liver detox, so given Sam-e

> adds some key ingredients to the methylation cycle, it could improve liver

> detox function if it has been over worked with toxins and the methylation

cycle

> has been diminished.

>

> IMHO,

>

> Chris

August 11, 2004

The following information was taken from http://gsdl.com/, this is one of

several labs that I use in my practice depending on the tests that I order.

For food sensitivites I use: http://alcat.com/

For hormone testing I use: www.Diagnos-Techs.com

For amino acids and fatty acids I use: http://www.metametrix.com/default.asp

For hair analysis looking at heavy metal content I use:

http://www.doctorsdata.com/

I always use the standard blood tests which I order through Lab Corp, although

they do not tell you how the liver detox pathways are functioning. The normal

blood tests will tell you if the liver is inflammed such as in hepatitis

Here are a few of the standard blood tests for the liver:

GGPT, sometimes listed as GGT is one of the first enzymes to be elevated in the

serum during liver dysfunction. The elevations persist as long as hepatic

cellular damage continues. It is generally a more sensitive indicator if

liver/biliary disease than Alkaline Phosphatase and in certain conditions, SGOT.

However, elevated bilirubin in the urine will be evident long before serum GGPT,

SGOT or Alkaline Phosphatase become elevated in the serum. Plasma GGPT is also

elevated in severe alcoholism and seems to correlate well with alcohol intake.

Six or more alcoholic drinks per day can result in dramatic serum elevations

that return to normal quickly after alcohol ingestion is completely stopped.

SGOT, also known as AST, is an enzyme found in the cytoplasm of liver, kidney,

myocardial, and skeletal muscle cells in high activity; lesser activities are

present in many organs. Out of all the transaminases (enzymes) only AST and ALT

(alanine aminotransferase) have serum activities that correlate with disease

processes in organs like liver, skeletal muscle and heart. Following any injury

to these organs, concentrations of AST begin to increase within 10 hours,

reaching a peak level in 30 hours. Depending on the extent of the injury, AST

generally returns to normal homeostatic levels with 4-6 days. AST also acts as a

catalyst in amino acid metabolism.

I am sure this will answer your questions regading liver detox. There are other

sources that I could reccommend that may be easier to understand if this is new

to any of you.

Brian N Hardy, DC, LAc, CCN

WHAT ARE THE CONSEQUENCES OF IMPAIRED DETOXIFICATION?

Toxic exposure results in free radical production which can be damaging to the

body as

antioxidants are depleted. This can result in disorders such as

arteriosclerosis, allergies,

inflammatory joint disease, neurological diseases, fibromyalgia, and chronic

fatigue.

An increased exposure to toxins can deplete glutathione, sulfate, and other

critical nutrients

used in detoxification. The resulting accumulation of toxic intermediate

metabolites can

contribute to chronic fatigue, environmental sensitivities, or other chronic

illnesses.

One of the body's primary self-defense mechanisms is the conversion and

neutralization of metabolic products and toxins into soluble and safe

by-products which can then be eliminated.

Many challenges to this system - a leaky gut, repeated exposure to food-borne

toxic chemicals, environmental pollutants, bacterial endotoxins, and other

substances - can increase the detoxification burden. This overload can lead to

greater production of free radicals and damage to many body systems. Assessing

multiple path-ways with challenge substances provides clinical information about

individuals with imbalanced detoxification.

The innovative Detoxification Profile assesses the body's capacity to carry out

detoxification through functional challenges-caffeine, acetaminophen, and

salicylate-which evaluate specific aspects of the detoxification process and

free radical damage. These functional assessments provide a comprehensive

profile of the body's detoxification capacity and potential susceptibility to

oxidative damage

Clinical relationships

Long term exposure to environmental pollutants and continued affronts to the

detoxifying systems may lead to oxidative stress, high levels of P-450 activity,

and reduced capacity for Phase II conjugation reactions. This can result in

accumulation of the toxic compounds, damage to essential fatty acids, impairment

of oxidative phosphorylation, and reduced energy production.

Patients suffering from toxic burdens may experience a wide range of symptoms,

among them fatigue and poor tolerance for exercise. These processes have been

postulated to be a central factor in the development of Chronic Fatigue Syndrome

(CFS). A recent study reported that many CFS patients had disordered liver

detoxification ability and showed signs of increased toxic exposure.1 Buist

suggests that CFS may be a result of xenobiotic or toxin exposure.2

Bland recently reported the relationship between impaired detoxification

capability, mitochondrial dysfunction and chronic fatigue. His results suggest

that oxidative damage to mitochondria and the detoxification process itself is a

fundamental mechanism in the development of CFS.3

Detoxification processes

All ingested and microbially-produced toxins are presented to the first-pass

clearance system. First-pass clearance involves the biotransformation and

clearance of a chemical from the body before it reaches the systemic

circulation. This clearance may take place in several organ tissues including

the intestinal mucosal wall and the liver.

The liver is the body's primary detoxifying organ. Here, detoxification is

carried out in two related processes known as Phase I and Phase II. Phase I

serves to biotransform substances through oxidation, reduction or hydrolysis,

using the cytochrome P450 mixed-function oxidase enzymes. This process increases

the solubility of molecules and prepares them for Phase II reactions which will

further increase their solubility.4-8

The Phase I reactions are necessary for detoxification, but the resulting

production of reactive oxygen species can at times be very damaging. Thus, the

liver needs to be able to generate oxidation capacity when needed, yet at the

same time generate no more than what is needed. Perhaps this is why Phase I

systems are inducible by different compounds.

In Phase II, conjugation reactions add a polar hydrophilic molecule to the

metabolite or toxin, converting lipophilic substances to water-soluble forms for

excretion and elimination. Phase II reactions may follow Phase I for some

molecules or act directly on the toxin or metabolite. Major Phase II pathways

include glutathione, sulfate, glycine, and glucuronide conjugations.9 Individual

xenobiotics and metabolites usually follow one or two distinct pathways. While

the modification of Phase I and II enzyme activities has its basis in the

research setting, there is growing appreciation of the clinical applications of

such strategies.

Although exhaustive clinical studies have yet to be performed, we have the

biochemical and logical basis upon which to recommend interventions in order to

help patients with evidence of chemical sensitivity or high exposures to toxic

compounds.10-12 It should be noted, however, that nutritional modification of

the P-450 and/or conjugation pathways has strong potential to change drug

metabolism. Due to this potential metabolic impact, practitioners should use

caution and awareness when recommending such strategies in patients taking

prescription medications.13

Assessment of the metabolic status of these major detoxification processes

assists with our understanding of the body's capacity to detoxify foreign

substances. (See Figure 1)4-8

P-450 Phase I oxidation

The family of P-450 enzyme systems is quite diverse, with specific enzyme

systems being inducible by particular drugs or metabolites.9 Caffeine is a

substance capable of testing a number of P-450 systems simultaneously.14

Measurement of salivary caffeine clearance provides a noninvasive procedure for

quantifying hepatic microsomal function, as caffeine is almost completely

absorbed by the intestine and is metabolized in the liver by P-450 enzymes.15

Levels are affected only slightly by the presence of liver disease, although

they are substantially reduced in cirrhotic patients.15,16 P-450 activity and

caffeine clearance is reported to be upregulated by smoking.16,17 A variety of

drugs and xenobiotics are oxidized by the P-450 system (Table 1). Thus, this

system plays a crucial role in the detoxification and removal of many

potentially toxic substances.

Phase II pathways

Salicylates and benzoate are detoxified primarily through glycination. Many

other substances are detoxified as well via the glycine conjugation pathway.

Patients suffering from xenobiotic overloads and environmental toxicity may not

have sufficient glycine reserves for the metabolic load.

Benzoate is present in many food substances and is widely used as a food

preservative. It has been employed in studies of glycination, but one of the

difficulties in assessing benzoate conjugation is the presence of endogenous

levels of benzoate from food and gut sources.18

Aspirin is readily degraded into salicyclic acid and is potentially a better

indicator molecule. Although salicylate is conjugated with glycine, similar to

benzoate, it also is converted to glucuronide derivatives and three oxidized

derivatives. The slower glucuronidation pathway relative to glycine conjugation

makes aspirin a more sensitive challenge to the glycine conjugation capability,

while the oxidized derivatives allow unique insights into free radical status.19

Sulfate conjugation

Neurotransmitters, steroid hormones, certain drugs, and many xenobiotic and

phenolic compounds employ sulfation as their primary route of detoxification.20

Acetaminophen (also known as paracetamol) is an example of a molecule detoxified

primarily through the sulfation pathway. Because acetaminophen is widely

available, intensely researched, and safe under most conditions, Great Smokies

employs it to evaluate the sulfate conjugation pathway.

Steventon identified many poor sulfoxidizers with diminished acetaminophen

sulfate conjugation and reported that these individuals are most susceptible to

environmental illness and problems of the nervous system, including Parkinson's

disease and motor neuron disease.21,22 Acetaminophen sulfate conjugation has

also been shown to be reduced in patients with rheumatoid arthritis.23

Inorganic sulfate for the sulfation reactions may come directly from dietary

sources or indirectly through sulfoxidation reactions (Figure 2). Significant

amounts of sulfate precursors may be provided by direct absorption from ingested

foods. Methionine and cysteine are probably the most important sources of

inorganic sulfate in mammals.24

Glutathione is a reservoir of cysteine, so it also may be an important source of

inorganic sulfate. Inorganic sulfate is activated with two ATP molecules,

producing phosphoadenosyl phosphosulfate (PAPS). It is this PAPS molecule that

then reacts with exotoxins to produce sulfated derivatives. The availability of

free sulfate may be the rate-limiting step for these reactions.

Some individuals accumulate cysteine and have low sulfate levels. In patients

with neurologic disorders such as Alzheimer's disease, Parkinson's disease, and

motor neuron defect, it appears that the enzyme responsible for sulfoxidation of

cysteine to sulfate is often deficient, leading to an elevated plasma

cysteine/sulfate ratio.25

The clinical significance of this is profound. Most people with deficient

sulfate and xenobiotic loads will benefit from cysteine and glutathione

supplementation. Individuals with elevated plasma cysteine/sulfate ratios,

however, may worsen with cysteine supplementation and require inorganic sulfate

as a supplement, in order to bypass this sulfoxidation step.

Molybdenum is a cofactor for sulfite oxidase, one of the enzymes involved in

sulfoxidation. Studies indicate that insufficient molybdenum may be a

rate-limiting nutrient for this reaction, and supplementation may be indicated.

On the other hand, molybdenum, at high levels, can compete with sulfate in its

activation step to PAPS as well as for carrier mediated renal tubular

reabsorption, thus lowering sulfate levels and impairing sulfation capability.

Molybdenum status is therefore important in the assessment of poor sulfation

capability.26

It is worth noting that standard treatments for acetaminophen overdose are

cysteine or the glutathione precursor, N-acetylcysteine (NAC).27 These

compounds, therefore, are likely candidates for nutritional supplementation.28

Glucuronidation

Because of the ready availability of UDP-glucuronate in vivo, glucuronidation is

considered an important detoxification mechanism when sulfation or glycination

is diminished or saturated.29 For most individuals, glucuronidation is a

supplemental pathway. The kinetics of glucuronidation cause it to be a

secondary, slower process than sulfation or glycination. Glucuronidation appears

to be enhanced in obese patients, with the capacity for glucuronidation related

almost linearly to total body weight.30 Thus, obese people have enhanced

capacity for detoxification of molecules that utilize this pathway.

As free radical stress can lead to damage of the mitochondrial oxidative

phosphorylation mechanism, it is reasonable to hypothesize that people suffering

from oxidative stress may have diminished capacity for Phase II glucuronide

conjugation. An interesting example of decreased glucuronidation occurs in

subjects with Gilbert's syndrome. It is caused by diminished bilirubin

glucuronosyl transferase activity, leading to accumulation of bilirubin in

vivo.29

Detoxification-intestinal permeability relationship

The intestinal mucosa is the primary barrier to permeation of toxic compounds

and macromolecules. Abnormalities of the intestinal barrier system as detected

by intestinal permeability assessment may lead to enhanced uptake of

inflammatory luminal macromolecules, endotoxins and xenobiotics. Impairment of

intestinal integrity dramatically increases mucosal absorption of substances

that are normally excluded.

These foreign chemicals are presented to the liver's detoxifying system for

processing and elimination. They can stress the detoxification capability of the

liver or be partially processed and accumulate in the liver and adipose tissue.

It has been speculated that the combination of leaky gut and dysfunctional liver

detoxification can lead to increased tissue stores of toxic compounds and

depressed immune status.

Using the Detoxification Profile

In the Detoxification Profile, one caffeine caplet (200 mg) is taken in the

morning and its clearance is assessed from two salivary specimens collected two

and eight hours after ingestion.

Aspirin and acetaminophen are ingested in the evening and the products of

detoxifying reactions are assessed in a 10-hour overnight urine specimen. The

challenge dose consists of two capsules of aspirin (650 mg total) and two

capsules of acetaminophen (650 mg total). The only side effect is potential

drowsiness.

In the Comprehensive version of this profile, the urine specimen is analyzed for

levels of lipid peroxides. In addition, glutathione, glutathione peroxidase,

superoxide dismutase, plasma cysteine, and plasma sulfate are assessed from

fasting blood specimens.

Interpreting the Detoxification Profile

Interpreting the Detoxification Profile For more detailed information, refer to

our Detoxification Profile Interpretive Guidelines.

Low caffeine clearance (Phase I): Indicates slow P-450 enzyme activity and

metabolic detoxification difficulty; may also reflect use of medications such as

amphetamines, cimetidine, and oral contraceptives.

High caffeine clearance (Phase I): Reflects excessive P-450 enzyme induction,

possibly due to toxin exposure; also implies greater production of free

radicals.

Low acetaminophen mercapturate, salicyluric acid, acetaminophen sulfate or

acetaminophen glucuronide (Phase II): Indicate inadequate Phase II conjugation

reactions. Low levels may reflect depletion of the particular amino acids or

nutrient cofactors used in the reactions, or diminished enzymatic capacity for

conjugation.

Elevated Phase I/Phase II ratios: May reflect elevated (induced) Phase I

processes or diminished Phase II conjugation reactions. The ratio of Phase I to

Phase II detoxification processes is important in determining the toxicity of

certain drugs, and these ratios may be significant indicators of the balance of

biological processes.

The following markers are included in the comprehensive version of the

Detoxification Profile. For more detailed information on the oxidative stress

markers, refer to our Oxidative Stress Interpretive Guidelines.

Elevated plasma cysteine/sulfate ratio: Suggests possible impairment of the

sulfoxidation reaction that converts cysteine to the inorganic sulfate required

for sulfation. Elevated ratios have been noted in neurological disorders such as

Parkinson's disease, Alzheimer's, and motor neuron disease.

Elevated plasma cysteine: Indicates sulfoxidation impairment, other blocks in

cysteine metabolism, excess intake of cysteine and related molecules, or

excessive catabolism. Checking the levels of plasma sulfate and glutathione

provides further information.

Depressed plasma sulfate: Suggests sulfoxidation impairment, especially when

plasma cysteine is elevated. Organic sulfate precursors such as L-cysteine,

N-acetyl cysteine, or glutathione may be contraindicated in these cases.

Low reduced glutathione: Suggests low amount of glutathione available for

removal of toxic intermediates, generation of cysteine and sulfate reserves, and

antioxidant activity.

Low glutathione peroxidase (GSH-Px): Implies inadequate defense against

accumulation of oxidized lipids in cell membranes. Low levels are found in

conditions such as Down's syndrome, Alzheimer's dementia, and beta-thalassemia

minor and may indicate insufficient nutrient cofactors.

High/low superoxide dismutase (SOD): Decreased in conditions associated with

inflammation, impaired glucose metabolism, and zinc deficiency. High levels

occur in systemic sclerosis, myositis and malignant melanoma, and may also

indicate exposure to agricultural pesticides.

Elevated Urine Lipid Peroxides: Suggest increased cellular lipid peroxidation

and the need for antioxidant protection of body lipids.

High Hydroxyl Radicals: Indicate the potential for oxidative damage, such as

that occurring in the pathogenesis of diabetes and other illnesses. May also

reflect the presence of an inflammatory process.

Substances which may induce P-450 enzymes

• Acetate

• Alcohol

• Barbiturates

• Carbon Tetrachloride

• Charcoal-broiled meats

• Dioxin

• Exhaust fumes

• High protein diets

• Niacin

• Oranges

• Organophosphorus pesticides

• Paint fumes

• Riboflavin

• Sassafras

• Saturated fats

• Steroid hormones

• Sulfonamides

• Tangerines

Frequently Asked Questions

Toxic Waste in Your Body?

Chronic health problems can develop from your body's impaired detoxification

ability. Uncover the link between your symptoms and your liver function.

What role does the liver play in detoxification? The liver is a key organ in

your body's self-defense system. It changes, or detoxifies, many harmful

substances into forms which your body can safely eliminate.

How do these toxins get into the body?

In today's world of processed foods and pollution, toxic substances exist almost

everywhere. They are in the food you eat, the water you drink (from fertilizers,

chemicals and other additives such as colorings and preservatives), and the air

you breathe (from automobile emissions, pesticides and industrial pollutants).

Some of the body's own compounds must be detoxified as well.

How does the liver detoxify substances?

A healthy liver uses two mechanisms, called Phase I and Phase II detoxification,

to remove toxins. In Phase I, your body's enzymes activate toxic substances to

make them more accessible to Phase II. In Phase II, other enzymes convert toxins

to more water-soluble forms, which your body eliminates through urine or stool.

What happens during impaired liver detoxification?

An unhealthy liver does not detoxify substances as rapidly or as completely as a

healthy liver. Slower detoxification results in more toxic substances

circulating in the body. Unchanged or partially changed toxins are not easily

eliminated and instead pass from the liver into the body. Eventually, the toxins

are stored in fatty body tissue, including the brain and central nervous system

cells. Stored toxins may be slowly released into the blood, contributing to many

chronic illnesses.

How is liver function damaged?

A number of conditions affect how well the liver performs its detoxifying

duties. Repeated exposure to chemicals and toxins in food, water and the

environment increases the detoxification burden.

If you have a " leaky gut, " your intestine allows large, undigested molecules to

pass into the body. Increased amounts of toxic substances can travel through the

liver and overload its capacity to detoxify them.

Musiclear wrote:

The liver is responsible for taking potentially harmful compounds and

breaking them down into less harmful compounds. It will allow some to reenter

the blood, others to be expelled through bile and in some situations, the liver

will store them in fat.

This is part of the normal process of the liver.

Bile flow is an important aspect of the " detox " process otherwise, the

liver has trouble getting rid of the compounds and is forced to either allow

them back to the blood or store them in fat.

If a person has had liver Qi stag, it is my belief that the liver will be

holding on to more toxins than if the Qi was moving freely.

If a person improves bile and Qi flow or biochemistry, then the liver is

more able to resume the job of getting rid of toxins. If there has been an

abundance of toxin stored, there may be a lot of toxins dumped into bile or

blood

which could give a person symptoms that many would call a " Healing Crisis " .

IMHO,

Chris

In a message dated 8/11/2004 3:16:18 AM Eastern Daylight Time,

writes:

I ran across this post. I hate to be a jerk but what do others think a liver

detox is? I'm not

coming down on Chris, it's just I hear this all the time and i realized I

don't know what it

means.

doug

> Methylation is a key process in helping the liver detox, so given Sam-e

> adds some key ingredients to the methylation cycle, it could improve liver

> detox function if it has been over worked with toxins and the methylation

cycle

> has been diminished.

>

> IMHO,

>

> Chris

August 11, 2004

Cool Chris! Thank you for taking the time to forward all of this information!

Brian Hardy <mischievous00 wrote:The following information was taken

from http://gsdl.com/, this is one of several labs that I use in my practice

depending on the tests that I order.