Abstract
Rationale
Infrahuman and human studies suggest that a determinant of the abuse potential of a drug is rate of onset of subjective effects.
Objectives
This study sought to determine if the rate of onset of subjective effects and abuse potential of alprazolam would be increased when administered via inhalation vs. the oral route.
Methods
Placebo, inhaled alprazolam (0.5, 1, and 2 mg), and oral alprazolam (1, 2, and 4 mg) were administered under double-blind, double-dummy conditions using a crossover design in 14 healthy participants with histories of drug abuse. Participant and observer ratings and behavioral and cognitive performance measures were assessed repeatedly during 9-h sessions.
Results
Both routes of administration produced orderly dose and time-related effects, with higher doses producing greater and longer-lasting effects. Onset of subjective effects following inhaled alprazolam was very rapid (e.g., 2 vs. 49 min after 2 mg inhaled vs. oral). On measures of abuse potential (e.g., liking and good effects), inhaled alprazolam was more potent, as evidenced by a leftward shift in the dose–response curve. Despite the potency difference, at the highest doses, peak ratings of subjective effects related to abuse potential (e.g., “drug liking”) were similar across the two routes. On other measures (e.g., sedation and performance), the routes were equipotent.
Conclusions
The inhaled route of administration modestly increased the abuse potential of alprazolam despite significantly increasing its rate of onset. If marketed, the reduced availability and increased cost of inhaled alprazolam may render the societal risk of increased abuse to be low.
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References
Abreu ME, Bigelow GE, Fleisher L, Walsh SL (2001) Effect of intravenous injection speed on responses to cocaine and hydromorphone in humans. Psychopharmacol (Berl) 154:76–84
Alexza Pharmaceuticals (2014a) Investigator’s brochure for study AZ-002
Alexza Pharmaceuticals (2014b) Product Website frequently asked questions (FAQ). Available online at: http://www.alexza.com/products/faq. Accessed 30 May 2014
Alexza Pharmaceuticals (2014c) Product Website frequently asked questions (FAQ). Available online at: http://www.alexza.com/products/faq. Accessed on June 26, 2014
Avram MJ, Henthorn TK, Spyker DA, Krejcie TC, Lloyd PM, Cassella JV, Rabinowitz JD (2007) Recirculatory pharmacokinetic model of the uptake, distribution, and bioavailability of prochlorperazine administered as a thermally generated aerosol in a single breath to dogs. Drug Metab Dispos 35:262–267
Avram MJ, Spyker DA, Henthorn TK, Cassella JV (2009) The pharmacokinetics and bioavailability of prochlorperazine delivered as a thermally generated aerosol in a single breath to volunteers. Clin Pharmacol Ther 85:71–77
Avram MJ, Spyker DA, Kehne JH, Cassella JV (2013) The pharmacokinetics and pharmacodynamics of zaleplon delivered as a thermally generated aerosol in a single breath to volunteers. J Clin Pharmacol 53(2):140–150
Balster RL, Schuster CR (1973) Fixed-interval schedule of cocaine reinforcement: effect of dose and infusion duration. J Exp Anal Behav 20:119–129
Carter LP, Richards BD, Mintzer MZ, Griffiths RR (2006) Relative abuse liability of GHB in humans: a comparison of psychomotor, subjective, and cognitive effects of supratherapeutic doses of triazolam, pentobarbital, and GHB. Neuropsychopharmacology 31:2537–2551
Carter LP, Griffiths RR, Mintzer MZ (2009) Cognitive, psychomotor, and subjective effects of sodium oxybate and triazolam in healthy volunteers. Psychopharmacol (Berl) 206:141–154
de Wit H, Bodker B, Ambre J (1992) Rate of increase of plasma drug level influences subjective response in humans. Psychopharmacol (Berl) 107:352–358
de Wit H, Dudish S, Ambre J (1993) Subjective and behavioral effects of diazepam depend on its rate of onset. Psychopharmacol (Berl) 112:324–330
Evans SM, Funderburk FR, Griffiths RR (1990) Zolpidem and triazolam in humans: behavioral and subjective effects and abuse liability. J Pharmacol Exp Ther 255:1246–1255
Fischman MW, Schuster CR (1984) Injection duration of cocaine in humans. Fed Poc 43:570
Gorelick DA (1998) The rate hypothesis and agonist substitution approaches to cocaine abuse treatment. Adv Pharmacol 42:995–997
Greenblatt DJ, Wright CE (1993) Clinical pharmacokinetics of alprazolam. Therapeutic implications. Clin Pharmacokinet 24:453–471
Griffiths RR, McLeod DR, Bigelow GE, Liebson IA, Roache JD (1984) Relative abuse liability of diazepam and oxazepam: behavioral and subjective dose effects. Psychopharmacol (Berl) 84:147–154
Griffiths RR, Lamb RJ, Ator NA, Roache JD, Brady JV (1985) Relative abuse liability of triazolam: experimental assessment in animals and humans. Neurosci Biobehav Rev 9:133–151
Kato S, Wakasa Y, Yanagita T (1987) Relationship between minimum reinforcing doses and injection speed in cocaine and pentobarbital self-administration in crab-eating monkeys. Pharmacol Biochem Behav 28:407–410
Macleod DB, Habib AS, Ikeda K, Spyker DA, Cassella JV, Ho KY, Gan TJ (2012) Inhaled fentanyl aerosol in healthy volunteers: pharmacokinetics and pharmacodynamics. Anesth Analg 115:1071–1077
Marsch LA, Bickel WK, Badger GJ, Rathmell JP, Swedberg MD, Jonzon B, Norsten-Hoog C (2001) Effects of infusion rate of intravenously administered morphine on physiological, psychomotor, and self-reported measures in humans. J Pharmacol Exp Ther 299:1056–1065
McLeod DR, Griffiths RR, Bigelow GE, Yingling J (1982) An automated version of the digit symbol substitution test (DSST). Behav Res Methods & Instrum 14:463–466
Mumford GK, Evans SM, Fleishaker JC, Griffiths RR (1995a) Alprazolam absorption kinetics affects abuse liability. Clin Pharmacol Ther 57:356–365
Mumford GK, Rush CR, Griffiths RR (1995b) Abecarnil and alprazolam in humans: behavioral, subjective and reinforcing effects. J Pharmacol Exp Ther 272:570–580
Nelson RA, Boyd SJ, Ziegelstein RC, Herning R, Cadet JL, Henningfield JE, Schuster CR, Contoreggi C, Gorelick DA (2006) Effect of rate of administration on subjective and physiological effects of intravenous cocaine in humans. Drug Alcohol Depend 82:19–24
Neubauer DN (2010) ZolpiMist: a new formulation of zolpidem tartrate for the short-term treatment of insomnia in the US. Nat Sci Sleep 2:79–84
Oldendorf WH (1992) Some relationships between addiction and drug delivery to the brain. NIDA Res Monogr 120:13–25
Rabinowitz JD, Wensley M, Lloyd P, Myers D, Shen W, Lu A, Hodges C, Hale R, Mufson D, Zaffaroni A (2004) Fast onset medications through thermally generated aerosols. J Pharmacol Exp Ther 309:769–775
Rabinowitz JD, Lloyd PM, Munzar P, Myers DJ, Cross S, Damani R, Quintana R, Spyker DA, Soni P, Cassella JV (2006) Ultra-fast absorption of amorphous pure drug aerosols via deep lung inhalation. J Pharm Sci 95:2438–2451
Reissig CJ, Carter LP, Johnson MW, Mintzer MZ, Klinedinst MA, Griffiths RR (2012) High doses of dextromethorphan, an NMDA antagonist, produce effects similar to classic hallucinogens. Psychopharmacol (Berl) 223:1–15
Roset PN, Farre M, de la Torre R, Mas M, Menoyo E, Hernandez C, Cami J (2001) Modulation of rate of onset and intensity of drug effects reduces abuse potential in healthy males. Drug Alcohol Depend 64:285–298
Rush CR, Frey JM, Griffiths RR (1999) Zaleplon and triazolam in humans: acute behavioral effects and abuse potential. Psychopharmacol (Berl) 145:39–51
Smith RB, Kroboth PD, Vanderlugt JT, Phillips JP, Juhl RP (1984) Pharmacokinetics and pharmacodynamics of alprazolam after oral and IV administration. Psychopharmacol (Berl) 84:452–456
Spyker DA, Munzar P, Cassella JV (2010) Pharmacokinetics of loxapine following inhalation of a thermally generated aerosol in healthy volunteers. J Clin Pharmacol 50:169–179
Wakasa Y, Takada K, Yanagita T (1995) Reinforcing effect as a function of infusion speed in intravenous self-administration of nicotine in rhesus monkeys. Nihon Shinkei Seishin Yakurigaku Zasshi 15:53–59
Woolverton WL, Wang Z (2004) Relationship between injection duration, transporter occupancy and reinforcing strength of cocaine. Eur J Pharmacol 486:251–257
Acknowledgments and disclosures
Conduct of this research was supported by Alexza Pharmaceuticals, Inc. and NIH grant T32DA07209. Manuscript preparation was supported in part by NIH grant R01DA03889. We thank Janna Steinberg and Jill Griffith for serving as assistant session monitors, John Yingling for technical assistance, and Linda Felch for statistical assistance. The study was conducted in compliance with US laws. Dr. Carter is an employee of Jazz Pharmaceuticals, Inc. and has received stock and stock options for shares of Jazz Pharmaceuticals plc. Dr. Reissig is an employee of the US Food and Drug Administration (FDA), however, the views presented in this article do not necessarily reflect those of the FDA and no official support or endorsement of this article by the FDA is intended or should be inferred.
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Reissig, C.J., Harrison, J.A., Carter, L.P. et al. Inhaled vs. oral alprazolam: subjective, behavioral and cognitive effects, and modestly increased abuse potential. Psychopharmacology 232, 871–883 (2015). https://doi.org/10.1007/s00213-014-3721-0
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DOI: https://doi.org/10.1007/s00213-014-3721-0