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Journal of Analytical Toxicology, Vol. 21, September 1997
Excretion of Cannabinoids in Urine after
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Ingestion of Cannabis Seed OilT
of the
oil, which contained the highest THC content (1500
Federal Office of PublicHealth, Division of Food Science, W-3097
Gas chromatographic-mass spectrometric (CC-MS) quantitation of 25 cannabis sed oils determined
was determined by CC-MS. Urine samples werefound cannabis positive for up to six days with
oil. concentrations from 3 toIn a pilot study, themorning urine of six volunteers who had ingested 11 or 22
wascollected for six days. The urine samples were screened byimmunoassay, and the content of
equivalent concentrations up to 243
by the CC-MS method. All subjects reported THC-specific psychotropic effects.
IntroductionHemp
0.5% tetrahydrocannabinol [THC]) or THC)(1) can be legally cultivated in Switzerland when used for indus-trial purposes but not for narcotic production. The Swiss FederalOffice of Agriculture even sponsors farmers if they use seeds of controlled origin and of the fiber type. In addition, the productshave to be manufactured and marketed by known companies.Stem fibers are used for textiles, ropes, construction material, and
paper. The essential oil is added to cosmetics, and the seed fattyoil is processed to pharmaceutical, cosmetic, technical, and food
products. Literature data about the THC content of cannabisseeds are rare.et al. (2) reported that no cannabinoidswere detectable in ungerminated cannabis seeds.
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In order to evaluate a possible psychotropic potency of cannabis seed oil, the THC content of 25 oil samples was deter-mined by gas chromatography-mass(GC-MS).The oil with the highest THC content was ingested by volunteers,
their urine was screened by immunoassay, and the content of
Abstract
Author to
immunoassay and
of Pharmacy, University of
Sager*, and R.
(THCCOOH) was determined by CC-MS.
L.) of the fiber type
addressed
contents from 5 to 431
drug type
by the Abuscreen
iebefeld, Switzerland
0.5%
5,
Bern, Switzerland and
ExperimentalCannabis seed oil samplesTen cannabis seed oil samples were obtained from differentcommercial sources in Switzerland (hemp shops, health foodstores, oil manufacturers, farmers). Fifteen oils were produced
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in our laboratory using cannabis seeds of different types and ori-gins. Cannabis seed oil samples were kept refrigerated at 4°Cuntil analyzed.Urine samplesCannabis seed oil (II g [corresponding to 1 tablespoon or 12
wasadministered in the evening as salad oil to six healthy volunteers.Their morning urine was collected over the following six daysand analyzed by Abuscreen(Roche Diagnostic Systems,Branchburg, NJ) and GC-MS. The urine samples were frozen(-24°C) until analyzed.Analytical procedures
Immunoassay, Urine samples were analyzed by the Abuscreen
assay according to the manufacturer’s instructions (3)on a
THCCOOH was generated using Abuscreen
with twice-distilled water and reanalyzed. The cutoff value was set at 50
Mira Plus analyzer (Roche Diagnostic Systems, Easel,Switzerland), A calibration curve ranging from 0 to 150
werediluted
Cannabis seed oil samples were quantitated by thefollowing method: 250 mg oil was spiked with 5
(Radian, Austin, TX) as the internal standard and rigorously
shaken with 5of methanol. The oil was separated byfreezing (-20°C for 8 h), and 4of the supernatant wasevaporated to dryness. The residue was redissolved in 500of n-hexane and transferred onto a preconditioned
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Bond Elut Certify (Varian, Harbor City, CA) solid-phase extrac-tion column. Cannabinoids were eluted with 5of a mixtureof n-hexanediethylether was injected intothe GC-MS. A DB-5MS capillary column (25m x 0.2-mm
and 22
calibrators. Samples producing results
with the highest THC content (1500
and 1
150
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film thickness, J&W Scientific, Folson, CA), an HP 7673
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autosampler, and an HP 5890 series ITwith an HP 5972 massselective detector were used. The oven temperature was initiallyheld at 70°C for 1.15 min, increased to 120°C atthento 295°C atand held for 6 min. Splitless injection wasused at a temperature of 250°C.THC peak identification was achieved by the comparison of theretention time (17.30 min) and the relative abundance of four characteristicand 231) withthe deuterated internal standard
314) versus the peak area of the corresponding ion of the
seed oil. The coefficient of variation at a concentration of 20= 6).The content of THC acid A in the cannabis seed oils was deter-mined at the same conditions as mentioned above but by onlinederivatization (Methelute, Pierce, Rockford, IL) at an injector temperature of 225°C. THC acid A reference material was isolated
according to (4).
urine wasspiked with 200 ng
317). The limit of quantitation was1
(Research Triangle Institute,
Research Triangle Park, NC) as the internal standard.
(270was added, and the urine was hydrolyzed in a water
bath4.5 with
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700
SPEC microcolumn disc of 15-mg sorbent weight (Ansys,Irvine, CA). The disc was washed with 1
with (501%trimethylchlorosilane were added, and the disc was
for 15 min. The disc was dried under a stream of nitrogen andextracted with 100in an ultrasonic bath. After filtra-tion, a
aliquot of the extract was injected into a DB-5 MS cap-illary column (25 m xfilm thickness, J&WScientific). The same instrumentation as mentioned previously wasused. The oven temperature was initially held at 200°C for 1 min,increased to 280°C at
was based on the comparison of
retention time (16.59 min) and relative abundance of three char-acteristic confirming ions
374). The limit of quantitationwas 1
and held for 12 min. Splitlessinjection was performed at a temperature of 260°C.
371, 473, and 488) with thedeuterated internal standard
Quantitation was based upon the peak area of a single ion371) versus the peak area of the corresponding ion of the deuterated internal
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standard
The coefficient of variation deter-mined at a concentration of 50
Results and DiscussionCannabis seed oil analysis
The THC content of 25 cannabis seed oilsamples analyzed ranged from 3 to 1500
oil.374
and 234).Quantitation was based on the peak area of a single ion
less than 10% of therespective THC content.Psychotropic effects
Urine samples were quantitated as follows: 4
Identification of
= 6). The cutoff value was set at 15
internal standard
dried under vacuum, and transferred into a vial.
was 6.1%
glacial acetic acid and subsequently extracted with a
and 50
for 15
The urine was then adjusted to
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ions
374,476, and 491).
was 6.8%
diluted acetic acid
andTable22
Subjects
Time after ingestion1 2 3 4 5 60 0 0 0 0 0 012 298 378 280 81 431 28136 154 186 121 104 242 26360 65 71 77 54 57 21384 35 30 78 10 49 69108 12 13 31 13 12 46132 11 9 24 6 5 30*Subjects 1-3 ingested 22
of Cannabis Seed
Urine
at
There was
tent. This must have been due to an inappropriate harvestingtechnique resulting in a contamination of the seeds with theTHC-rich leaflets. Of the oils, 88% showed
tolerated maximum concentration of 50
mercially available oils had contents above the maximum tol-erated value. Seed samples of the cannabis fiber type recom-mended for cultivation by the Swiss Federal Office of
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Agriculture showed THC contents of 10
15 Federal Office of Public Health (5).oils prepared in our laboratory from fiber-type and from drug-type cannabis seedshad THC contents of 30
or less. Theamount of THC acid A, the major cannabinoid in fresh-drug-type cannabis plantswhich was decarboxylated in the CCinjector to THC, in the oil samples
All six subjects reported THC-specific psychotropic symp-
toms starting 90 to 150 min after ingestion of cannabis seed oiland lasting 8 to 16 h (subjective qualitative statements). Thetypical THC effects were time distortion, increased acoustic
perception, light confusion, and drowsiness.Urine analysis
hours after ingestion of 11 and 22 g cannabis seed oil,which corresponded to doses of 16.5 and 33 mg THC (0.23 to0.56 mg THC per kg body weight), respectively,
cannabis seed oil, and subjects
six subjectsTable
of After Ingestion of llg or 22Cannabis Seed Oil(Corresponding to 16.5 mg or 33 mg THC) Determined
by Abuscreen Online and
Time
12 6 636 6 660 6 684 3 5108 2 2132 1 2*Cutoff 50
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Cutoff 15
Concentrations
as Analyzed by
only one oil with an extraordinarily high THC
Number of Cannabis-Positive Urine Samples
ingestion
journal oi Analytical Toxicology,
ingested
Abuscreen Online’
or less, whereas 30% of the
after Ingestion of 11
0
cannabis
levels below
by the
=
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Journal of Analytical Toxicology, Vol. 21, September 1997
showed positive results with the Abuscreen
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reagents. Neither the immunoassay nor the GC-MS results correlatedwith the dosage of THC. A 22-g aliquot of cannabis seed oil of
immunoassay showing THCCOOH-equivalent levels between171 and 243h, all subjects still had con-centrations above the cutoff of 50Creatinine was notdetermined.All immunoassay results could be verified by CC-MS withTHCCOOH concentrations from 5 to 431Some negativeimmunoassay results 84 h and longer after ingestion still
showed positive THCCOOH levels with the GC-MS method(Tables I and II). This is in accordance with the findings of other authorsand is due to the hydrolysis of THCCOOHglucuronides before GC-MS and unknown crossreactivity of these conjugated metabolites with the Abuscreen
THCwould theoretically be absorbed by the body. This dosage cer-tainly would be psychotropically inactive but could possibly
produce a cannabinoid positive urine level, Giroud and Rivier (10) found radioimmunoassay-positive THCCOOH urine con-centrations (cutoff, 50
THC (officially tolerated maximum content) wouldresult in an ingestion of 1.1 mg THC. Considering the oral
bioavailability of THC of about 5-20%
The GC-MSand Abuscreen Online levels were below the cutoffs.
ConclusionWe conclude that cannabis seed oil produced from properlycollected and processed cannabis seeds contains very low
after an oral ingestion of 36 g of cannabis seed oil with a THC content of 10
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of THC. An oil produced from resin-contaminated
urine. After
55-220
seeds may have a THC content high enough to cause typicalTHC effects and cannabis-positive immunoassay results.References1.2.3.4.5.6.7.
8.9.10.C.E. Turner, M.A.T. Lehmann andAnal. 3: 88-90 (1992).Circular No.2 of the Swiss Federal Office of Public Health, March13, 1996.M.A. Huestis,
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Turner, and P.G. Mahlberg. Cannabinoid con-tent of individual plant organs from different geographical strainsof Cannabis
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Automated Assays for Drug Abuse. THC.Roche Diagnostic Systems, Branchburg, NJ, September
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