Pharmacokinetics and Disposition of UDM Comparison of Various Sources for Drug Testing: Urine, Blood, Hair, Saliva Edward J. Cone, Ph.D. Johns Hopkins School of Medicine, Baltimore, MD & ConeChem Research, LLC Severna Park, MD 1
Outline: Pharmacokinetics and Disposition of UDM Comparison of Various Sources for Drug Testing: Urine, Blood, Hair, Saliva Pharmacokinetics Concepts & terminology Drug disposition Blood, saliva, urine, hair Profiles & specimen comparisons Metabolism Interpretational challenges 2
Factors Affecting Drug Concentrations at Site of Action Oral Administration Drug (tablet/capsule) Intravenous Smoked Snorted Sublingual Patch TISSUES Bound Drug Free Drug Dissolution Distribution Absorption SYSTEMIC CIRCULATION Free Drug GI MUCOSA Protein Bound Drug Excretion URINE, FECES SALIVA, SWEAT HAIR DMEs Metabolism LIVER Receptors CNS Peripheral DMEs Oxid Conj Esterase Reductase 3
PK Terminology 4
Testing Terms & Concepts Negative Test Concentration Drug Threshold Positive Tests Positive Negative Test Test Detection Time Lag Time TLCP Gap TLP LOQ LOD Time 5
Specimens and Drugs Urine (aqueous) Water soluble metabolites Blood/plasma (aqueous, protein) Drug & metabolite Oral fluid Saliva (aqueous, mucus) Drug & metabolite Hair (dry, protein-complex) Drug > metabolite 6
Drug Testing with Blood, Saliva, & Hair Higher sensitivity required Specimen differences Different time-courses Each specimen contains a different historical record Some are similar; some are not Unique strengths and weaknesses Blood: best for interpretation of impairment Saliva: similar to blood; detects recent use; noninvasive Hair: best for detection of heavy long term use Test results do not have to agree! 7
Specimen Detection Windows Oral Fluid Sweat (7days) Urine (Acute) Urine (Chronic MJ, PCP) Hair -100-80 -60-40 -20 0 Days C O L L E C T I O N 8
Urine v. Oral Fluid Detection Times Oral Fluid (Acute) Urine (Acute) -4-3 -2-1 0 Days C O L L E C T I O N 9
Now, lets take a look at a few specimen profiles. 10
Cocaine & BZE in Plasma (25 mg Cocaine HCl, IV) (Source: Cone et al, JAT 1995) ng/ml 1000 100 10 COC BZE 1 0 4 8 12 Hours 11
Methamphetamine in Urine (10 mg, oral) (Source: Huestis & Cone, NYAS, 2007) 12000 10000 Methamphetamine (10 mg METH) ng/ml 8000 6000 4000 2000 - - - 500 ng/ml Cutoff 0-24 24 72 120 168 216 Hours 12
Different specimens are not mirror images of each other! 13
Drug Testing Profiles Blood Oral Fluid Urine Concentration Hair Hours Days Weeks Months Time 14
Relationship of Oral Fluid to Blood (Cocaine, 25 mg, IV) (Source: Cone et al, JAT 1995) Cocaine, ng/ml 1000 100 10 1 Oral Fluid/Plasma 2 PL-COC OF-COC 0 2 4 6 Hours 15
Oral Fluid, Plasma & Urine (Smoked Cannabis: Subject G; 3.55%THC; GC-MS) ng/ml 10000 1000 100 10 THC Oral Fluid THC Plasma THCCOOH/CR Urine 1 0.1 0.01 0 1 10 100 (Source: Huestis et al, JAT 2004) Hours 16
Cocaine Disposition in Plasma & Hair COC ng/ml(or mg) 1000 100 10 1 COC-Plasma COC-Hair BZE-Hair 0.1 0 5 10 15 20 Days 17
M E T A B O L I C P R O F I L E S O F P S Y C H O A C T I V E S U B S T A N C E S 18
Metabolism: Heroin/Codeine/Morphine Heroin esterase 6-AM Poppy seeds esterase Codeine oxid/red Hydrocodone Minor CYP2D6 CYP2D6 Morphine oxid/red Hydromorphone Minor 19
Metabolism: Hydrocodone/Hydromorphone Oxycodone/Oxymorphone Hydrocodone Hydromorphone Dihydrocodeine Dihydromorphine (Isomers) (Isomers) Oxycodone Oxymorphone 20
Benzodiazepine Types 5-Aryl-1,4-benzodiazepines azepam R 7 7 R 2 ' 6 R 1 N 1 2' 5 2 R 2 3 N + 4 R 4 R 3 1,2-Triazolo-benzodiazepines azolam R 1 1 N N X 3 4 R 4 N + 8 6 7 R 8 R 5 R 2 ' 2' Chlordiazepoxide Clonazepam Clorazepate Diazepam Flurazepam Halazepam Lorazepam Oxazepam Quazepam Temazepam Alprazolam Estazolam Midazolam Triazolam 21
Diazepam-type Metabolism Medazepam Normedazepam Ketazolam (Adapted from Moody, Handbook of Drug Interactions) Diazepam Oxazolam Norketazolam Temazepam Nordiazepam Oxazepam Clorazepate Demoxepam Norchlordiazepoxide Prazepam Chlordiazepoxide Halazepam 22
Methamphetamine/Amphetamine: Metabolism and Stereo-isomerism Methamphetamine Amphetamine Both can exist as stereo-isomers (d/l) Cannot superimpose structures Requires special tests to distinguish 23
Interpretation can be challenging! 24
What Laboratory Drug Tests Don t Reveal Time of drug use Amount of drug use Frequency of drug use But concentration, metabolite ratios together with toxicological info Helps to establish boundaries Days, weeks months 1 mg, 10 mg, 100 mg, 1000 mg Some specimen types provide more information than others; depends upon the question! 25
What Laboratory Drug Tests Reveal Drug or drug class But not always what was administered (Drug source) Sometimes easy Sometimes difficult/impossible Metabolite(s) Parent/metabolite ratio Concentration/quantity Isomeric ratio Requires a special test Important for amphetamines Specimen information, e.g., creatinine content, specific gravity 26
Summary Each type of specimen provides a unique historical picture Results between specimens do not have to agree Understanding characteristics and differences between specimens is essential to interpretation of drug tests Urine Oral Fluid Time Hair 27
The End! I wonder if I left time for questions? 28
Appendix Slides 29
PK & Chemical Parameters of Opioids Drug Dose, mg T1/2, hrs Fabs (oral) pka Log P Hydrocodone 5-10 4-6 - 8.9 0.14 Hydromorphone 6-10 2.4-4.1 0.51 8.08 0.16 Oxycodone 2.5-10 2-4 0.42 8.5 0.24 Oxymorphone 5-10 7-9 0.10 8.5 -.11 Morphine 1.3-6.7 0.25 8.1 0.08 Codeine 30-60 1.4-3.5 0.50 8.2 0.54 Fentanyl 0.1-0.2 3-12 - 8.4 High Buprenorphine 2-8 3-40 - 8.2 High 30
Testing Terminology Threshold ( Cutoff ): Determines presence (positive) or absence (negative) of a drug/metabolite above or below a chosen concentration Detection time: average duration of time a drug or metabolite is detectable; frequently based on single dose data Lag time: time after drug use before appearance of drug in sufficient concentration to produce a positive test Gap: intervening time between positive specimens when some are negative LOQ/LOD: limit of quantitation/limit of detection TLCP: time to last consecutive positive TLP: time to last positive 31
Metabolism of Morphine-Related Opioids Drug Administered Metabolite Hydrocodone Codeine Morphine Dihydrocodeine* Hydromorphone Pholcodine Oxymorphone Oxycodone Heroin Drug & Metabolite Diacetylmorphine Yes No No No No No No No No 6-Acetylmorphine Yes No No No No No No No No Morphine Yes Yes Yes No No No No No Yes Codeine No No Yes No No No No No No Hydrocodone No No Yes Yes Yes No No No No Hydrocodol** No No Yes? Yes Yes No No No No Hydromorphone Yes? Yes Yes? Yes Yes? Yes No No Yes? Hydromorphol** Yes? Yes? Yes? Yes Yes Yes No No Yes? Oxycodone No No No No No No Yes No No Oxycodol** No No No No No No Yes No No Oxymorphone No No No No No No Yes Yes No Oxymorphol** No No No No No No Yes Yes No Pholcodine No No No No No No No No Yes *Dihydrocodeine is same as 6-alpha-Hydrocodol **Two isomers may be produced; 6-alpha- and 6-beta-isomers Yes = Reported metabolite Yes? = Not reported, but possible based on known metabolic pathways, very minor amounts No = No reported metabolic pathway? = Not studied, but not likely 32
Drug Disposition in Blood, Urine, Saliva and Hair Drug Blood/ Plasma Cannabis THCCOOH > THC Cocaine BZE > COC > EME; CE (ethanol) Heroin/morphine MOR-G > MOR > 6-AM > HER Codeine COD-G > COD > MOR > NCOD Urine Saliva (Oral Fluid) THCCOOH THC >> THCCOOH BZE > COC MOR-G > MOR > 6-AM > HER COD-G > COD > MOR > NCOD BZE > COC; CE (ethanol) 6-AM MOR > HER COD > MOR Hair THC >> THCCOOH COC > BZE; CE (ethanol) 6-AM > MOR COD > MOR> NCOD PCP PCP PCP > HO-PCP PCP PCP Amphetamine AMP AMP AMP AMP Methamphetamine METH > AMP METH > AMP METH > AMP METH > AMP MDA/MDMA/MDEA MDA/MDMA/ MDEA MDA/MDMA/ MDEA MDA/MDMA/ MDEA MDA/MDMA/ MDEA 33
Interpretation---SPECIAL ISSUES Opiate Source Differentiation? You have a positive test for morphine Where did it come from? Possible sources Heroin Codeine Morphine Poppy seeds Aids in interpretation 6-AM (heroin) heroin biomarker Other heroin biomarkers, e.g., 6-AC, papaverine Codeine (ratio of codeine to morphine) Sometimes easy, sometimes difficult 34
Interpretation---SPECIAL ISSUES Benzodiazepine Source Differentiation? You have a positive test for oxazepam Where did it come from? Possible sources (US only) Chlordiazepoxide Diazepam Chlorazepate Halazepam Temazepam Aids in interpretation Look for parent drug and other metabolites Temazepam only goes to Oxazepam Rx history; foreign travel Sometimes easy, sometimes difficult 35
Interpretation---SPECIAL ISSUES Methamphetamine Source Differentiation? You have a positive test for methamphetamine Where did it come from? What is isomeric composition? Possible sources (US) Illicit methamphetamine (mostly d-isomer, but can be d/l Desoxyn Selegiline (metabolized to methamphetamine and amphetamine) Vicks and other generic nasal sprays (l-methamphetamine) Drugs metabolized to methamphetamine (and amphetamine) Benzphetamine (US); Famprofazone; Fencamine; Furfenorex Aids in interpretation Use of nasal sprays Obtain d/l-analysis Rx history; foreign travel Sometimes easy, sometimes difficult 36