SIMPLE WAY TO BEAT URINE TESTS -- JUST DRINK WATER
Report from American Academy of Forensic Sciences
Forensic Drug Abuse Advisor, Vol. 6, Issue 3, March 1994
Workplace drug testing programs can be foiled by adulterating the specimen,
and the adulterants can be added inside or outside of the body. Last
summer it became apparent that many peole were cheating by adding solutions
of concentrated glutaraldehyde (Urinaid) to their voided sample. New
data, presented in February at the annual meeting of the American Academy
of Forensic Sciences (AAFS), suggests that there is a simpler way to foil
urine screening tests: drink lots of water.
Dr. Edward Cone of the Addiction Research Center (ARC) in Baltimore,
described the results of a study he had undertaken at the request of Donna
Smith, Acting Director of the Department of Transportation's (DOT) Office
of Drug Enforcement. Smith was concerned that advertising claims for some
herbal teas and "internal cleansing" agents might actually be
true. Cone
was at first skeptical, but, as he reported at the AAFS meeting, the study
was a "sleeper."
Cone set up a series of experiments designed to assess the effect of
various measures on "in vivo adulteration." Two of the most popular
"teas"
were chosen for study; Naturally Klean Herbal Tea" and "Golden
Seal"
root capsules. Healthy drug-free volunteers with a history of recent drug
use were recruited for the study. They were housed in a closed ward for
six weeks. The participants were tested under a number of different
protocols during that six week period.
At 9:00 AM on the morning of Day One the study subjects smoked a
standardized marijuana cigarette (3.58% THC). On Day Three they snorted
40
mg of cocaine. Twenty three hours after each drug was given, they drank
one of the following combinations: (1) "Naturally Klean Herbal Tea"
in
one gallon of water, (2) one gallon of water without any "cleansing
agent" (3) one gallon of water with 50 mg of hydrochlorothiadize (a
diuretic), (4) four "Golden Seal" capsules and one gallon of water,
or (5)
twelve ounces of water. Each participant was tested under each protocol
and all of the urine was collected.
The urine specimens were then tested by EMIT II assay for cannabinoids at
a
50 ng / ml cutoff, and cocaine at a 300 ng / ml cutoff. Specific gravity
and creatinine content was measured for each sample, and the two indicators
were found to co-vary almost identically. Just drinking 12 ounces of water
was enough to cause a significant decrease in both specific gravity and
creatinine, but not enough to cause a negative test response. For example,
urine cannabinoids levels which were higher than 10,000 ng / ml dropped
to
the low 100's after drinking 12 ounces of water. After drinking a gallon
of water, with or without one of the "cleansing agenst" added,
it only
took an hour for the specific gravity to drop to less than 1.005.
When one gallon of water was drunk, not only did specific gravity fall to
very low levels (creatinine<20, and specific gravity <1.003), but
the
marijuana assay turned negative and stayed that way, even after specific
gravity levels had returned to normal! The cocaine tests turned negative
for a few hours, but then turned positive again. The same results were
observed whether or not tea was used, however, when diuretics were given,
the test for both cannabinoids and cocaine turned negative and stayed that
way.
Cone concluded that "drug test outcome is highly susceptible to water
dilution; and the effects of dilution are reflected concurrently in
creatinine and specific gravity measures."
COMMENT: This observation will cause some consternation in the drug
testing community, and create more problems than glutaraldehyde and Urinaid
adulteration did. It is not that difficult to develop detection strategies
for chemicals like glutaraldehyde. That may explain why the practice is
already starting to disappear, but setting standards for dilution will be
much more difficult. Eventually, it may be necessary to measure drug /
creatinine ratios to rule out dilution. Since tests may remain negative
even after the specific gravity returns toward normal, it appears that low
specific gravities cannot be relied upn to reveal "adulterated"
specimens.
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