Fraser Albert D, Worth David
Department of Pathology & Laboratory Medicine, Queen Elizabeth II Health Sciences Centre, 1278 Tower Road, Halifax, Nova Scotia, Canada B3H 2Y9.
Forensic Sci Int. 2003 Nov 26;137(2-3):196-202. doi: 10.1016/j.forsciint.2003.07.011.
Huestis and Cone reported in [J. Anal. Toxicol. 22 (1998) 445] that serial monitoring of Delta9-THC-COOH/creatinine ratios in paired urine specimens collected at least 24h apart could differentiate new drug use from residual Delta(9)-THC-COOH excretion following acute marijuana use in a controlled setting. The best accuracy (85.4%) for predicting new marijuana use was for a Delta(9)-THC-COOH/creatinine ratio > or = 0.5 (dividing the Delta9-THC-COOH/creatinine ratio of specimen no. 2 by the specimen no. 1 ratio). In previous studies in this laboratory [J. Anal. Toxicol. 23 (1999) 531 and Forensic Sci. Int. 133 (2003) 26], urine specimens were collected from chronic marijuana users > or = 24 h or > = 48 h apart in an uncontrolled setting. Subjects with a history of chronic marijuana use were screened for cannabinoids with the EMIT II Plus cannabinoids assay (cut-off 50 ng/ml) followed by confirmation for Delta9-THC-COOH by GC-MS (cut-off 15 ng/ml). Creatinine was analyzed as an index of dilution. The objective of the present study was to evaluate whether creatinine corrected specimens could differentiate new marijuana or hashish use from the excretion of residual Delta(9)-THC-COOH in chronic marijuana users based on the Huestis 0.5 ratio. Urine specimens (N=376) were collected from 29 individuals > or = 96 h between urine collections. The mean urinary Delta9-THC-COOH concentration was 464.4 ng/ml, mean Delta9-THC-COOH/creatinine ratio (ng/(ml Delta9-THC-COOH mmoll creatinine)) was 36.8 and the overall mean Delta9-THC-COOH/creatinine ratio of specimen 2/mean Delta9-THC-COOH/creatinine ratio of specimen 1 was 1.37. The Huestis ratio calculation indicated new drug use in 83% of all sequentially paired urine specimens. The data were sub-divided into three groups (Groups A-C) based on mean Delta9-THC-COOH/creatinine values. Interindividual mean Delta9-THC-COOH/creatinine values ranged from 4.7 to 13.4 in Group A where 80% of paired specimens indicated new drug use (N=10) and 20.4-39.6 in Group B where 83.6% of paired specimens indicated new drug use (N=7). Individual mean Delta9-THC-COOH/creatinine values ranged from 44.2 to 120.2 in Group C where 84.5% of paired urine specimens indicated new marijuana use (N=12). Correcting Delta9-THC-COOH excretion for urinary dilution and comparing Delta9-THC-COOH/creatinine concentration ratios of sequentially paired specimens (collected > or = 96 h apart) may provide an objective indicator of ongoing marijuana or hashish use in this population.
休斯蒂斯和科恩在[《分析毒理学杂志》22 (1998) 445]中报告称,对至少间隔24小时采集的成对尿液样本中的Δ⁹-四氢大麻酚-COOH/肌酐比值进行连续监测,能够在受控环境下区分新的药物使用与急性吸食大麻后残留的Δ⁹-四氢大麻酚-COOH排泄情况。预测新吸食大麻的最佳准确率(85.4%)是当Δ⁹-四氢大麻酚-COOH/肌酐比值≥0.5时(用样本2的Δ⁹-四氢大麻酚-COOH/肌酐比值除以样本1的该比值)。在本实验室之前的研究[《分析毒理学杂志》23 (1999) 531和《法医学国际杂志》133 (2003) 26]中,在不受控环境下从慢性大麻使用者那里间隔≥24小时或≥48小时采集尿液样本。有慢性大麻使用史的受试者先用EMIT II Plus大麻素检测法(临界值50纳克/毫升)筛查大麻素,然后用气相色谱-质谱联用仪(临界值15纳克/毫升)确认Δ⁹-四氢大麻酚-COOH。分析肌酐作为稀释指标。本研究的目的是基于休斯蒂斯的0.5比值,评估经肌酐校正的样本能否区分慢性大麻使用者中新的大麻或哈希什使用与残留的Δ⁹-四氢大麻酚-COOH排泄情况。从29名个体那里采集尿液样本(N = 376),尿液采集间隔≥96小时。尿液中Δ⁹-四氢大麻酚-COOH的平均浓度为464.4纳克/毫升,Δ⁹-四氢大麻酚-COOH/肌酐的平均比值(纳克/(毫升Δ⁹-四氢大麻酚-COOH毫摩尔肌酐))为36.8,样本2的总体平均Δ⁹-四氢大麻酚-COOH/肌酐比值与样本1的平均Δ⁹-四氢大麻酚-COOH/肌酐比值之比为1.37。休斯蒂斯比值计算表明,在所有连续配对的尿液样本中,83%存在新的药物使用情况。根据Δ⁹-四氢大麻酚-COOH/肌酐的平均值,将数据分为三组(A - C组)。A组个体的平均Δ⁹-四氢大麻酚-COOH/肌酐值在4.7至13.4之间,其中80%的配对样本显示有新的药物使用情况(N = 10);B组该值在20.4至39.6之间,其中83.6%的配对样本显示有新的药物使用情况(N = 7)。C组个体的平均Δ⁹-四氢大麻酚-COOH/肌酐值在44.2至120.2之间,其中84.5%的配对尿液样本显示有新的大麻使用情况(N = 12)。对尿液稀释进行校正后计算Δ⁹-四氢大麻酚-COOH排泄量,并比较连续配对样本(采集间隔≥96小时)的Δ⁹-四氢大麻酚-COOH/肌酐浓度比值,可能为该人群中持续的大麻或哈希什使用情况提供一个客观指标。
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