Food Allergy Tests Are Questionable
Source: IgG Food Allergy Testing by ELISA/EIA - What Do They Really Tell Us?
by Sheryl B. Miller, MT (ASCP), PhD, Clinical Laboratory Director, Bastyr University Natural Health Clinic.
Particularly note the section "What is Really Being Measured in the ELISA/EIA?"
Note: If a word has an asterisk (*) after it, there is a definition for that word after the paragraph.
Adverse reactions to food may initiate a
myriad of physiological effects in the body. These reactions may be immunologically or non-immunologically
mediated and can result in signs and symptoms ranging in severity from mild to
life threatening anaphylaxis.1-9 Although the majority of severe reactions are
thought to be immunological and mediated via IgE, other immune globulins, such
as IgG and IgA, may play a role in adverse reactions to food as well.2 10 11
The clinical laboratory has historically
played an important role in the diagnosis and management of patients with
allergy. This role has been more clearly defined with the diagnosis of IgE
mediated adverse reactions and less well defined with the diagnosis of other
immunologic etiologies (origin) or adverse reactions
of non-immunologic origin. Diagnosis of
food allergy, in particular, has classically involved the detection of IgE
antibodies with a variety of different methodologies.12-17
Of late, a number of clinical laboratories
have set up ELISA/EIA (Enzyme Immunoassays) panels to test the presence of IgG
antibodies in patients to numerous food allergens. This is based on the
findings that certain subclasses of IgG have been associated with the in vitro*
de-granulation* of basophils (white blood cells that
produce histamine & other substances when stimulated) and mast cells (white
blood cells; part of the immune system), the activation of the complement
cascade,* (both of which are important mechanisms in allergy and anaphylaxis)
and the observation that high circulating serum concentrations of some IgG subtypes
have been measured in certain atopic (allergic) individuals.18-23
The premise behind this testing is that high circulating levels of IgG
antibodies are correlated with clinical food allergy signs and symptoms.
These
tests, one might extrapolate, would help the physician pinpoint food allergies
in their patients so that patients might avoid these foods and their associated
signs and symptoms. The ELISA/EIA test itself involves coating a 96 well plate
(glass plate in the laboratory) with food antigens, adding a patient's sera and
looking for a classic antigen/antibody interaction. In addition to the IgG
antibody detected in most of the newer commercial assays, some companies also
detect IgE.
Definitions
-
In Vitro - an experiment
performed in a test tube, outside a living organism.
-
De-granulation
- the release of cellular granule contents.
-
Basophils - white blood
cells that produce histamine & other substances when stimulated.
-
Complement Cascade - A precise sequence of events, usually triggered
by an antigen-antibody complex, in which each component of the complement
system is activated in turn.
Food allergy panels have found an
increasing popularity among physicians who are looking for a reliable method to
aid in the diagnosis of an otherwise difficult diagnostic problem. Up until
now, the only methods for the detection of food allergy included skin tests,
elimination and challenge diets, or double blind placebo controlled oral food
challenges.
Skin tests, although fairly reliable for the detection of IgE to
environmental allergens, are not well correlated with food allergy signs and
symptoms.24-27 Placebo controlled food challenges and elimination/challenge
diets are extremely time-consuming for the patient and practitioner and
elimination/challenge diets require a high degree of patient motivation and
compliance.
The detection of food allergies with the
use of food allergy panels, in contrast to the previously mentioned
methodologies, is easy and convenient for both patient and physician. One need
only submit a blood sample from the patient and the laboratory returns not only
the foods the patient is allergic to but a rotation or elimination diet for the
patient. The cost is moderate to high, running on average between $100 and $400
per panel.
The use of these food allergy panels for
the diagnosis and management of food allergies, however, is fraught with
problems. These problems include reliability in testing, an arguable theory
behind the testing and the prevalence of treatments (food rotations or other
diets) prescribed by these testing laboratories based solely on laboratory test
results. This article will address these problems and others.
Reliability in Testing
From a laboratory point of view, there are
two essential components of any laboratory test. One is the validity of a test by showing a correlation to a disease state or condition. In laboratory statistics, this is closely related to the
positive predictive value (PPV) of a laboratory test. This will be discussed
later in the article.
Before the validity of a laboratory test can be assessed,
however, the reproducibility or reliability of the test must be evaluated and
confirmed. In the world of laboratory testing, if a test is not reproducible,
it is considered worthless. The validity of a test or its correlation with
disease states is irrelevant if a test is not reliable.
Almost all laboratories do in-house
reproducibility checks. The majority of good laboratories not only does in-house
checks, but, submits to unknown reproducibility checks via testing agencies like
the CAP (College of American Pathologists). Another option for outside reliability testing,
when CAP is not available, is for the testing laboratory to have physicians
regularly send in patient split samples (with the cost assumed by the testing
laboratory).
When a sample is split, acceptable variance between the two
specimens is 10% or less, according to universal laboratory standards If more
than two split samples are evaluated, there should not be more than 20%
variance between the high and low end values. The participation of laboratories
in outside reproducibility checks, however, is voluntary. It remains the
responsibility of the physician using a particular laboratory to check if their
laboratory does reproducibility testing and if so, what type they do.
As part of our ongoing effort to
investigate and evaluate all laboratory tests done in-house and sent-out, we at
Bastyr University Natural Health Clinic Laboratory
have recently investigated the reproducibility of food allergy testing panels
from the three different laboratories we routinely send samples to. These
investigations are part of our normal quality control of laboratories.
The
testing recently involved sending six specimens apiece (drawn all from the same
patient at the same time) to the three labs. Three specimens were sent at the
time of the draw and three specimens were sent frozen (according to outside
laboratory processing guidelines) a week later. Although all specimens were
from the same patient, all specimens were given different names.
Two of the three laboratories (Lab A and
Lab B) to which we send our specimens report numerical values and
interpretations for these values. High numerical values represent high
circulating levels of IgG (according to the laboratory) and are associated with
foods that should be avoided. Low values represent lower circulating levels and
are associated with foods that may be eaten.
The third laboratory (Lab C)
reports semi-quantitative numerical values (1+, 2+,
etc.) but interprets all positives the same. In other words, all foods that
give even the slightest reaction (1+) should be avoided, according to this
laboratory.
Two laboratories (Lab A and B) had
numerical variances that were incredibly high. Lab A had an average numerical
variance of 73%. What that means is for any one food (eg.
American cheese), there was an average of 73% between the high and low
numerical values.
Lab B had an average numerical variance of 49%. The numerical
variances, however, mean very little to the average physician. What most
doctors care about are the interpretations. Therefore,
we examined the interpretations (clinical recommendations) from the labs as
well. Lab A had a 59% average variance in clinical interpretation. What that
means is that for any one food, the recommendations to eat or not eat were
contradicted in 59% of the foods tested in at least two of the six samples.
Lab
B had an acceptable clinical variance of 7%. Only in 7% of the foods tested
were clinical interpretations contradicted. Of special note is that Lab A, upon
learning of the results of our split samples requested to be tested again. We
complied several weeks later with three split samples (drawn from the same
patient at the same time and sent to the lab immediately). This time there was
a clinical variance of 46%, but with only three samples!
Lab C had more reasonable variances in its
testing results. There was only an average 9% numerical variance between all
the samples. This correlated to a 9% clinical variance because all positives by
this lab were considered significant. Both of the variances from Lab C,
numerical and clinical interpretation, were well within accepted laboratory
standards.
In conclusion, two of three labs tested had
numerical variances outside acceptable laboratory standards and are not
considered reliable. In addition, one of these labs had clinical
interpretations outside these limits as well. It is important to note that
these results have no relation at all to the accuracy of this testing or the
closeness to the real value.
Accuracy is impossible to measure for food allergy
IgG ELISA/EIA because there is no acceptable gold standard in food allergy
testing to measure this against. This leads us to the question of validity of
food allergy testing via IgG ELISAs.
Theory Behind Testing
Second to reliability is
validity when it comes to evaluating laboratory testing. Part of the validity
evaluation is to either compare a new test to currently accepted gold standards
for the particular substance being measured or to initiate studies that show
the positive predictive value (PPV) of the new test. In other words, what
percentage of the population with an abnormal or positive test will have a
particular disease/condition/set of defined signs and symptoms?
A simple
mathematical formula exists for PPV that takes into consideration the true
positives (those correctly classified with a positive test) and false positives
(those incorrectly classified with a positive test). This PPV is of extreme
importance when no gold standard exists for a newly measured substance like IgG
for food allergy.
At this time, after extensive literature
searches and interviews with various companies offering this test, we at Bastyr are unaware of any peer-reviewed published study
examining the positive predictive values of IgG for the diagnosis of food
allergy or the association of this test with food allergy signs and symptoms.
Only one company, (in Florida) of all we interviewed, reports that a study
examining correlation of food IgG levels and elimination diets is currently
underway.
Therefore, with regard to high serum levels of IgG and the
aforementioned in vitro work on basophils, mast cells
and complement, it is a large extrapolation that IgG to food antigens is
correlated to signs and symptoms of food allergy. Furthermore, the clinical
meaning of elevated IgG levels in atopic individuals
has caused much debate of late, including the premise of IgG as a blocking
antibody.1, 28, 29
What is Really Being Measured in the ELISA/EIA?
In addition to the lack of documented
correlation between IgG and food allergy, it is uncertain if numerous companies
doing this assay are even measuring what they think they are. Upon interviewing
the companies that we send our patient samples to, we learned that all of these
companies do their own in-house ELISAs/EIA.
What that means is they designed their own
EIA/ELISA tests from scratch. The questions that arise concerning in-house ELISAs are how and where the companies obtained the food antigens
that coat the 96 well ELISA plates. In other words, what are the circulating
antibodies in patient sera binding to?
One of the labs that we evaluated claimed
proprietary information as to the manufacture of their antigens but the other
two labs both bought the food antigens for their ELISA panels from a company in
Oklahoma. Interviewing the chief technologist from this Oklahoma company gave some surprising
insights into their food antigen preparation. The foods to make the antigens were obtained from a local Oklahoma market
(they tried to buy organic foods whenever they could). The foods were then
chopped finely and diluted to make the antigens. Other than several rinses with
an organic solvent (acetone), the food antigens were not purified.
The problems that may be associated with
this preparation are enormous. For one,
all food (organic and non-organic) is coated with microorganisms. The most common of these include bacteria and fungi, but viruses and parasites
may also be found on fruits, vegetables, grains, milk
and meat products.
Microorganisms have many antigens that are highly
immunogenic. It is common knowledge that most people have high circulating
levels of IgG to a number of common microorganisms.
To this likely wealth of microorganisms in the
testing wells, there is the presence of
possible pesticides and organic solvents that are not (according to the
technologist interviewed) rinsed away during preparation.
Therefore, what is really being measured in
these panels? Is it an immune reaction
to certain foods or is it a person's exposure to common bacteria and fungi?
What about a person's previous exposure to pesticides and organic solvents?
Numerous studies have shown high levels of IgG to pesticides and organic
solvents in persons with high exposure rates. It is possible that there are
many antigens in each well. If that is true, then one would see a high number
of non-specific antigen/antibody interactions, giving a high number of false
positives in these tests.
Are there a high amount of non-specific
binding and false positives occurring in these tests? There is no way to test
this easily, at the present time. However, what was seen in our small study
correlates with this hypothesis.
The
patient whose blood was drawn for our reproducibility studies is in very good
health with no current signs and symptoms of food allergy. This person,
however, tested reactive in 76% of Lab A's test (73 positive/96 foods), in 29%
(28 positive/95 foods) of Lab B's test, and reactive in 22% (22 positive/102
foods) of Lab C's test.
Therapeutic Diets
Last, but certainly not least, of the
problems associated with food allergy testing are the therapeutic elimination
or rotation diets that are sent back with the test results from most of the
laboratories performing IgG food allergy testing. Although these diets are
usually sent to the physician ordering the test, they may be sent directly to
patients by certain labs via physician requests.
There are several problems
with this practice. Included in these problems are the distribution of
therapeutics by a laboratory, the prescription of therapeutics based solely on
the basis of laboratory testing and the possibility that therapy
recommendations are based on a lab test that may not be correct.
The
first of these problems mentioned above is that laboratories do not have a
license to practice medicine by prescribing treatments or therapeutics.
Licensed laboratories have the right to perform quality laboratory testing and
to provide consultation on interpretation of these lab tests to physicians when
necessary.
This stops short of prescribing therapeutics. This also applies to NDs or MDs working for the testing laboratory. Although the
laboratories that perform food allergy testing may argue that diets are not
treatments, one may vehemently disagree with this due to the fact that most
Naturopaths and some Allopaths use dietary changes
(including elimination or rotation diets) as a major constituent of many
treatment plans.
These treatment plans are made by the doctor, often in consultation with a qualified nutritionist, after very thorough histories and physical exams
are performed with the patients. This brings me to the second problem.
At Bastyr University, a very important part of the ND student's clinical
education is the emphasis on the history of the patient. Medical students are
taught that the majority of diagnoses can be made from listening to patients
and asking the right questions. Another major constituent of diagnosis is a
complete physical exam of the patient. Laboratory testing is taught to be used only as required.
That is, to confirm or rule out a diagnosis. An important
guideline taught by our chief medical officer about laboratory testing is: If
the results of a laboratory test may change the way you treat a patient, then
it is valid to order. If not, then don't order it and waste your patient's time
and money. In this author's opinion, prescribing therapy based solely on the
results of laboratory testing is as far away from holistic medical practice as
one can get.
Another problem to consider in the practice
of therapy based solely on lab tests is what if the test is incorrect? Although
it is unlikely serious harm will come to patients if they avoid certain foods,
one has to consider the effort, anguish, time, and cost involved in removing
many foods from a diet that may not be causing harm to patients.
In addition,
there is the potentiality of promoting nutritional deficiencies if certain food
groups are removed from the diet for long periods of time. There is also the
possibility that an allergic food may be missed from an inaccurate test. This,
however, is less likely due to the extremely high number of foods an average
person is allergic to in the typical test reports we have received.
An
additional point is the cost to the patient of a laboratory test that is
neither reliable nor valid. If a test is not reliable or valid, this cost is
excessive no matter how much it is.
Conclusions
In conclusion, food allergy testing by IgG
ELISA/EIA panels is a convenient and easy way to diagnose food allergies in a
patient. It is, however, a testing method that is questionable in both its
theory and validity. It is also costly and may not be reliable, depending on
which laboratory you use.
An argument in its favor by certain
physicians is that it is extremely popular with patients because it gives
printed proof to the patient that the patient is allergic to certain foods.
This makes it easier for the doctor to convince the patient that they need to
change their diet. Is this printed proof however, a very costly substitute for
discussion with and education of patients? Would patients insist on this test
if they knew they may not be reliable?
After preliminary investigation of food
allergy testing panels offered by three different laboratories, it is this
author's suggestion that physicians give serious consideration to the
aforementioned issues before ordering these panels for the diagnosis and
management of patients with food allergies.
If one does order these tests, it
is highly recommended that reproducibility of these tests be investigated. At
the very least, physicians should consider the possibility of sending split
samples to their testing lab (at the cost to the lab) on a regular basis.
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