THE ACCURACYOF HAIR MINERAL ANALYSIS

By Lawrence Wilson, MD

© revised, LD Wilson Consultants, Inc., December 2007

 

                  We recently received an interesting letter from a client.  Joan, age 52, stated that she sent in a hair sample three months ago.  She received her report and her program, but states that she did not follow the program.  She just sent in a new hair sample and was dismayed to see the differences in the original and the new hair analyses.  Note the significant differences on the two tests: 

 

 

Readings are in milligrams per 100 grams or parts per one hundred thousand.

 

Joan asked why the tests varied, and questioned the accuracy of the test.  Let us explore several possibilities:  1) laboratory error, 2) incorrect sampling procedure on one or even both samples, 3) variation in hair products or hair washing procedure just before sampling, and 4) changes in body chemistry over the three months. 

 

1) LABORATORY ACCURACY

 

                  Russell Madarash, laboratory director and chief chemist at Accutrace Laboratories, supplied the findings of an independent testing organization that checks results of the testing at his laboratory.  They check both accuracy - the ability to hit the correct number, and precision or reliability - the repeatability of the test.

                  In both cases, Analytical Research Labs scored well, in the top 1/3 of about 200 testing laboratories in the nation.  The accuracy and reliability of ARL's hair analysis within two standard deviations (or 95% of the time) is between plus or minus 3 to 6%.  Some variation occurs and depends on the mineral tested and on the level of the mineral in the hair.  This accuracy is well within acceptable laboratory standards, and equal or better than most blood or urine tests.  Laboratory error is thus an unlikely possibility. 

 

2) THE SAMPLING PROCEDURE

 

                  For accurate hair test results:

  1) Hair must be cut at or as close as possible to the scalp, not at the ends of the hair.  Any hair over 1 to 1.5 inches from the scalp must be cut off and thrown away.

  2) Hair must be clean - washed within 12-24 hours before sampling, preferably in soft water with a non-irritating and basic shampoo.

  3) Samples must be from the same area of the body for an accurate comparison reading.  If possible, use the same area of the head, such as the back or one side.

                  Errors in sampling include 1) using long hair, 2) sending in the long ends of the hair, 3) not sampling close to the scalp, 4) sending dirty, oily or sweaty hair, or 5) sending hair from different parts of the body without notifying the laboratory.  Poor sampling procedure is a common cause of inaccurate results.

 

3) VARIATION IN HAIR WASHING OR SAMPLING PROCEDURES                

 

                  This topic has been covered in the preceding section.  Some people do not send in the same hair sample each time, preferring to take hair from different parts of the head.  This, by itself, will not make a large difference.  However, if the type of shampoo is varied, or the hair is not clean, it may affect the sample.

 

4) VARIATIONS IN BODY CHEMISTRY OVER A THREE-MONTH PERIOD OF TIME. 

 

This is the most likely possibility in this case.  I will explain why.  First, I assume that the patient followed instructions for preparing the hair and cutting the sample.  It is possible, though not likely, that she did not.  I also assume that the testing laboratory did not make an error.  They seldom do err, and it would not likely be such a variation as we see on these two tests.

                  Note first that on both tests, Joan would be classified as a fast oxidizer.  I say this because her calcium/potassium ratio is less than 4:1 and her sodium/ magnesium ratio is greater than 4.17:1.  This is how we define fast oxidation.  See the articles on fast and slow oxidation on this website for more details about the rationale for these determinations.

                  One of the key characteristics of fast oxidizers is their volatility.  This is the reason we always recommend retests for fast oxidizers within three or four months.  Fast oxidation is difficult to maintain.  It is inherently an unstable pattern that can change quickly.

It is a sympathetic state of body chemistry.  This means that the sympathetic or fight-or-flight nervous system is dominant at the time of the testing.  This response of the body is called an alarm reaction in the stress theory of disease as elaborated by Dr. Hans Selye, MD.  Dr. Selye also called this the General Adaptation Synddrome or GAS.  He wrote about this in several of his books, such as The Stress Of Life, Calciphylaxis and Stress Without Distress.  The books by Dr. Selye are essential to understand to gain a complete understanding and appreciation for the brilliance of the work of Dr. Paul Eck and to understand properly how to interpret a hair mineral analysis.  

For the reasons above, we see large variations in the oxidation rate more often in fast oxidizers than in slow oxidizers.  The latter are not in a sympathetic state of body chemistry. Instead, they are more tired and their bodies have moved into a more parasympathetic state by default.  This means that the sympathetic nervous system can no longer maintain its level of intensity and the result is an exhaustion of the system.  As a result, the body moves into an unhealthy parasympathetic state of life.      Here are several possible factors that could explain the differences on Joan's first and second tests:

a) Events In Joan’s Life.  The first test was cut just before Christmas.  For some people, the Christmas season is highly stressful with family gatherings, parties to attend and more.  This could also influence her tissue mineral patterns, especially as a fast oxidizer.  These individuals are often high-strung and oversensitive to others.  Calcium and magnesium, in particular, are psychological buffering elements.  Joan is deficient in both of these in here hair sample and most likely in her body’s tissues.

Other possible events are too numerous to list, and could be any type of stress.  It could include a job change, an illness in herself or a close friend or family member, a death in the family or any of a hundred others.

b) Climate.  Yes, even this is possible.  The first sample was cut as winter began, while the second was at the end of the winter season.  In a few cases, the seasonal change can cause shifts in body chemistry.  Joan’s oxidation rate slowed dramatically on the second test.  If, for example, winter was a stressful time for Joan, this could account for the variation.

 

Copper Toxicity.  Here is another possibility to explain the variation in Joan’s tests.  Note the elevated copper level on her first test. An ideal copper level in the hair is about 2.5 mg% or 25 parts per million.  Joan's copper level of 37 mg% on the first test is extremely elevated. 

This often indicates what we call a “copper personality”.  These individuals are very sensitive to stress and often react with emotion to almost any situation.  Copper enhances the biogenic amines, epinephrine, norepinephrine and dopamine.  These are stimulatory neurotransmitters.  Copper toxicity is associated with accentuated emotions, mood swings, anxiety and panic attacks.  Individuals with high copper often go through swings of emotions that affect the oxidation rate as well as general body chemistry.

                 

A Rare Combination.  The combination of fast oxidation and elevated copper is quite rare.  This raises another possibility to explain the variation in the two tests.  Most fast oxidizers a have low hair copper.

                  Joan has a combination of the volatility of a high copper level without the buffering action of adequate tissue calcium and magnesium levels.  This makes her body chemistry especially prone to large fluctuations or variations.

                  Perhaps it should be no surprise that Joan listed among her symptoms anxiety, compulsive behavior, emotional sensitivity, irritability, nervousness, stress and volatility.     

 

THE ECK INSTITUTE BULLETIN

VOLUME 15         JUNE 1999             NUMBER 6

                    

Original Copyright: 1999 by The Eck Institute Of Applied Nutrition and Bioenergetics, Ltd.  Material is for educational purposes only.

 

 

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