Zolpidem is one of the most frequently prescribed hypnotics, as it is a very short-acting compound with relatively few side effects. Zolpidem’s short duration of action is partly related to its short elimination half-life, but the associations between plasma levels and pharmacodynamic (PD) effects are not precisely known. In this study, the concentration—effect relationships for zolpidem were modelled. Zolpidem (10 mg) was administered in a double-blind, randomised, placebo-controlled trial to determine PD and pharmacokinetics (PK) in 14 healthy volunteers. Zolpidem was absorbed and eliminated quickly, with a median Tmax of 0.78 h (range: 0.33—2.50) and t1/2 of 2.2 h. Zolpidem reduced saccadic peak velocity (SPV), adaptive tracking performance, electroencephalogram (EEG) alpha power and visual analogue scale (VAS) alertness score and increased body sway, EEG beta power and VAS ‘feeling high’. Short- and long-term memory was not affected. Central nervous system effects normalised more rapidly than the decrease of plasma concentrations. For most effects, zolpidem’s short duration of action could be adequately described by both a sigmoid Emax model and a transit tolerance model. For SPV and EEG alpha power, the tolerance model seemed less suitable. These PK/PD models have different implications for the mechanism underlying zolpidem’s short duration of action. A sigmoid Emax model (which is based on ligand binding theory) would imply a threshold value for the drug’s effective concentrations. A transit tolerance model (in which a hypothetical factor builds up with time that antagonises the effects of the parent compound) is compatible with a rapid reversible desensitisation of GABAergic subunits.
Bateson, AN ( 2002) Basic pharmacologic mechanisms involved in benzodiazepine tolerance and withdrawal. Curr Pharm Des8: 5-21.
2.
Beal, SL, Sheiner, LB, Boeckmann, AJ ( 1989) Version VI Users Guides (1989-2006). Ellicott City, MD: Icon Development Solutions.
3.
Birzniece, V., Turkmen, S., Lindblad, C., Zhu, D., Johansson, IM, Backstrom, T., et al. (2006) GABA(A) receptor changes in acute allopregnanolone tolerance. Eur J Pharmacol535: 125-134.
4.
Borland, RG, Nicholson, AN ( 1975) Comparison of the residual effects of two benzodiazepines (nitrazepam and flurazepam hydrochloride) and pentobarbitone sodium on human performance. Br J Clin Pharmacol2: 9-17.
5.
Brisbare-Roch, C., Dingemanse, J., Koberstein, R., Hoever, P., Aissaoui, H., Flores, S., et al. (2007) Promotion of sleep by targeting the orexin system in rats, dogs and humans. Nat Med13: 150-155.
6.
Coldwell, SE, Kaufman, E., Milgrom, P., Kharasch, ED, Chen, P., Mautz, D., et al. (1998) Acute tolerance and reversal of the motor control effects of midazolam. Pharmacol Biochem Behav59: 537- 545.
7.
Collinson, N., Kuenzi, FM, Jarolimek, W., Maubach, KA, Cothliff, R., Sur, C., et al. (2002) Enhanced learning and memory and altered GABAergic synaptic transmission in mice lacking the alpha 5 subunit of the GABAA receptor. J Neurosci22: 5572-5580.
8.
Crestani, F., Low, K., Keist, R., Mandelli, M., Mohler, H., Rudolph, U. ( 2001) Molecular targets for the myorelaxant action of diazepam . Mol Pharmacol59: 442-445.
9.
Cysneiros, RM, Farkas, D., Harmatz, JS, von Moltke, LL, Greenblatt, DJ ( 2007) Pharmacokinetic and pharmacodynamic interactions between zolpidem and caffeine. Clin Pharmacol Ther82: 54-62.
10.
Danhof, M., Mandema, JW ( 1992) Modelling of the pharmacodynamics and pharmacodynamic interactions of CNS active drugs. Int J Clin Pharmacol Ther Toxicol30: 516-519.
11.
Danjou, P., Paty, I., Fruncillo, R., Worthington, P., Unruh, M., Cevallos, W., et al. (1999) A comparison of the residual effects of zaleplon and zolpidem following administration 5 to 2 h before awakening. Br J Clin Pharmacol48: 367-374.
12.
Dawson, GR, Maubach, KA, Collinson, N., Cobain, M., Everitt, BJ, MacLeod, AM, et al. (2006) An inverse agonist selective for alpha5 subunit-containing GABAA receptors enhances cognition. J Pharmacol Exp Ther316: 1335-1345.
13.
de Haas, S., Dingemanse, J., Hoever, P., Cohen, A., van Gerven, J. ( 2007a) Pseudohallucinations after zolpidem intake: a case report . J Clin Psychopharmacol27: 728-730.
14.
de Haas, SL, de Visser, SJ, van der Post, JP de smet, M., Schoemaker, RC, rijnbeek, B., et al. (2007b) Pharmacodynamic and pharmacokinetic effects of TPA023, a GABAA {alpha}2,3 subtype-selective agonist, compared to lorazepam and placebo in healthy volunteers. J Psychopharmacol21: 374-383.
15.
de Haas, SL, de Visser, SJ, van der Post, JP, Schoemaker, RC, van Dyck, K., Murphy, MG, et al. (2008a) Pharmacodynamic and pharmacokinetic effects of MK-0343, a GABAA {alpha}2,3 subtype selective agonist, compared to lorazepam and placebo in healthy male volunteers. J Psychopharmacol22: 24-32.
16.
de Haas, SL, Franson, K., Schmitt, JA, Cohen, AF, Fau, J-B., Dubruc, C., et al. (2009) The pharmacokinetic and pharmacodynamic effects of SL65.1498, a GABA-A {alpha}2,3 selective agonist, in comparison with lorazepam in healthy volunteers. J Psychopharmacol23: 625-632.
17.
Dias, R., Sheppard, WF, Fradley, RL, Garrett, EM, Stanley, JL, Tye, SJ, et al. (2005) Evidence for a significant role of alpha3-containing GABAA receptors in mediating the anxiolytic effects of benzodiazepines. J Neurosci25: 10682-10688.
18.
Dingemanse, J., Bury, M., Bock, J., Joubert, P. ( 1995) Comparative pharmacodynamics of Ro 41-3696, a new hypnotic, and zolpidem after night-time administration to healthy subjects. Psychopharmacology (Berl) 122: 169-174.
19.
Drover, D., Lemmens, H., Naidu, S., Cevallos, W., Darwish, M., Stanski, D. ( 2000) Pharmacokinetics, pharmacodynamics, and relative pharmacokinetic/pharmacodynamic profiles of zaleplon and zolpidem. Clin Ther22: 1443-1461.
20.
Drover, DR ( 2004) Comparative pharmacokinetics and pharmacodynamics of short-acting hypnosedatives: zaleplon, zolpidem and zopiclone. Clin Pharmacokinet43: 227-238.
Elliot, EE, White, JM ( 2000) Precipitated and spontaneous withdrawal following administration of lorazepam but not zolpidem. Pharmacol Biochem Behav66: 361-369.
23.
Fahey, JM, Grassi, JM, Reddi, JM, Greenblatt, DJ ( 2006) Acute zolpidem administration produces pharmacodynamic and receptor occupancy changes at similar doses. Pharmacol Biochem Behav83: 21-27.
24.
Griffiths, RR, Sannerud, CA, Ator, NA, Brady, JV ( 1992) Zolpidem behavioral pharmacology in baboons: self-injection, discrimination, tolerance and withdrawal. J Pharmacol Exp Ther260: 1199-1208.
25.
Hallfors, DD, Saxe, L. ( 1993) The dependence potential of short half-life benzodiazepines: a meta-analysis. Am J Public Health83: 1300-1304.
26.
Hindmarch, I., Patat, A., Stanley, N., Paty, I., Rigney, U. ( 2001) Residual effects of zaleplon and zolpidem following middle of the night administration five hours to one hour before awakening. Hum Psychopharmacol16: 159-167.
Holt, RA, Bateson, AN, Martin, IL ( 1996) Chronic treatment with diazepam or abecarnil differently affects the expression of GABAA receptor subunit mRNAs in the rat cortex. Neuropharmacology35: 1457-1463.
29.
Hopfenbeck, JR, Cowley, DS, Radant, A., Greenblatt, DJ, Roy-Byrne, PP ( 1995) Effects of diphenhydramine on human eye movements. Psychopharmacology (Berl) 118: 280-286.
30.
Ihmsen, H., Albrecht, S., Hering, W., Schuttler, J., Schwilden, H. ( 2004) Modelling acute tolerance to the EEG effect of two benzodiazepines . Br J Clin Pharmacol57: 153-161.
31.
Kalant, H., LeBlanc, AE, Gibbins, RJ ( 1971) Tolerance to, and dependence on, some non-opiate psychotropic drugs. Pharmacol Rev23: 135-191.
32.
Kroboth, PD, Bertz, RJ, Smith, RB ( 1993) Acute tolerance to triazolam during continuous and step infusions: estimation of the effect offset rate constant. J Pharmacol Exp Ther264: 1047-1055.
33.
Lader, MH ( 1999) Limitations on the use of benzodiazepines in anxiety and insomnia: are they justified? Eur Neuropsychopharmacol9 (Suppl. 6): S399-S405.
34.
Laurijssens, BE, Greenblatt, DJ ( 1996) Pharmacokinetic-pharmacodynamic relationships for benzodiazepines . Clin Pharmacokinet30: 52-76.
35.
Low, K., Crestani, F., Keist, R., Benke, D., Brunig, I., Benson, JA, et al. (2000) Molecular and neuronal substrate for the selective attenuation of anxiety. Science290: 131-134.
36.
Mager, Dewe, Jusko, WJ ( 2003) Diversity of mechanism-based pharmacodynamic models. Drug Metab Dispos31: 510-518.
37.
Mattila, MJ, Vanakoski, J., Kalska, H., Seppala, T. ( 1998) Effects of alcohol, zolpidem, and some other sedatives and hypnotics on human performance and memory. Pharmacol Biochem Behav59: 917-923.
38.
Mintzer, MZ, Frey, JM, Yingling, JE, Griffiths, RR ( 1997) Triazolam and zolpidem: a comparison of their psychomotor, cognitive, and subjective effects in healthy volunteers. Behav Pharmacol8: 561- 574.
39.
Mohler, H., Fritschy, JM, Rudolph, U. ( 2002) A new benzodiazepine pharmacology. J Pharmacol Exp Ther300: 2-8.
40.
Morlock, RJ, Tan, M., Mitchell, DY ( 2006) Patient characteristics and patterns of drug use for sleep complaints in the United States: analysis of National Ambulatory Medical Survey data, 1997-2002. Clin Ther28: 1044-1053.
41.
Patat, A., Paty, I., Hindmarch, I. ( 2001) Pharmacodynamic profile of Zaleplon, a new non-benzodiazepine hypnotic agent. Hum Psychopharmacol16: 369-392.
42.
Pericic, D., Strac, DS, Jembrek, MJ, Vlainic, J. ( 2007) Allosteric uncoupling and up-regulation of benzodiazepine and GABA recognition sites following chronic diazepam treatment of HEK 293 cells stably transfected with alpha1beta2gamma2S subunits of GABA (A) receptors . Naunyn Schmiedebergs Arch Pharmacol375: 177-187.
43.
Perrault, G., Morel, E., Sanger, DJ, Zivkovic, B. ( 1992) Lack of tolerance and physical dependence upon repeated treatment with the novel hypnotic zolpidem. J Pharmacol Exp Ther263: 298-303.
44.
Porchet, HC, Benowitz, NL, Sheiner, LB ( 1988) Pharmacodynamic model of tolerance: application to nicotine . J Pharmacol Exp Ther244: 231-236.
45.
Richens, A., Mercer, AJ, Jones, DM, Griffiths, A., Marshall, RW ( 1993) Effects of zolpidem on saccadic eye movements and psychomotor performance: a double-blind, placebo controlled study in healthy volunteers . Br J Clin Pharmacol36: 61-65.
46.
Rickels, K., Schweizer, E., Case, WG, Greenblatt, DJ ( 1990) Long-term therapeutic use of benzodiazepines. I. Effects of abrupt discontinuation. Arch Gen Psychiatry47: 899-907.
47.
Rowlett, JK, Platt, DM, Lelas, S., Atack, JR, Dawson, GR ( 2005) Different GABAA receptor subtypes mediate the anxiolytic, abuse-related, and motor effects of benzodiazepine-like drugs in primates . Proc Natl Acad Sci U S A102: 915-920.
48.
Rudolph, U., Crestani, F., Mohler, H. ( 2001) GABA(A) receptor subtypes: dissecting their pharmacological functions. Trends Pharmacol Sci22: 188-194.
49.
Rush, CR ( 1998) Behavioral pharmacology of zolpidem relative to benzodiazepines: a review. Pharmacol Biochem Behav61: 253-269.
50.
Rush, CR, Griffiths, RR ( 1996) Zolpidem, triazolam, and temazepam: behavioral and subject-rated effects in normal volunteers. J Clin Psychopharmacol16: 146-157.
51.
Rush, CR, Madakasira, S., Goldman, NH, Woolverton, WL, Rowlett, JK ( 1997) Discriminative stimulus effects of zolpidem in pentobarbital-trained subjects: II. Comparison with triazolam and caffeine in humans. J Pharmacol Exp Ther280: 174-188.
52.
Schweizer, E., Rickels, K. ( 1998) Benzodiazepine dependence and withdrawal: a review of the syndrome and its clinical management. Acta Psychiatr Scand Suppl393: 95-101.
53.
Shah, VP, Midha, KK, Findlay, JW, Hill, HM, Hulse, JD, McGilveray, IJ, et al. (2000) Bioanalytical method validation-a revisit with a decade of progress. Pharm Res17: 1551-1557.
54.
Soldatos, CR, Dikeos, DG, Whitehead, A. ( 1999) Tolerance and rebound insomnia with rapidly eliminated hypnotics: a meta-analysis of sleep laboratory studies. Int Clin Psychopharmacol14: 287-303.
55.
Sun, YN, Jusko, WJ ( 1998) Transit compartments versus gamma distribution function to model signal transduction processes in pharmacodynamics. J Pharm Sci87: 732-737.
56.
Tuk, B., van Gool, T., Danhof, M. ( 2002) Mechanism-based pharmacodynamic modeling of the interaction of midazolam, bretazenil, and zolpidem with ethanol. J Pharmacokinet Pharmacodyn29: 235- 250.
57.
van Rijnsoever, C., Tauber, M., Choulli, MK, Keist, R., Rudolph, U., Mohler, H., et al. (2004) Requirement of alpha5-GABAA receptors for the development of tolerance to the sedative action of diazepam in mice. J Neurosci24: 6785-6790.
58.
van Steveninck, AL, Gieschke, R., Schoemaker, RC, Roncari, G., Tuk, B., Pieters, MS, et al. (1996) Pharmacokinetic and pharmacodynamic interactions of bretazenil and diazepam with alcohol. Br J Clin Pharmacol41: 565-573.
59.
van Steveninck, AL, Schoemaker, HC, Pieters, MS, Kroon, R., Breimer, DD, Cohen, AF ( 1991) A comparison of the sensitivities of adaptive tracking, eye movement analysis and visual analog lines to the effects of incremental doses of temazepam in healthy volunteers. Clin Pharmacol Ther50: 172-180.
60.
van Steveninck, AL, Verver, S., Schoemaker, HC, Pieters, MS, Kroon, R., Breimer, DD, et al. (1992) Effects of temazepam on saccadic eye movements: concentration-effect relationships in individual volunteers. Clin Pharmacol Ther52: 402-408.
61.
van Steveninck, AL, Wallnofer, AE, Schoemaker, RC, Pieters, MS, Danhof, M., van Gerven, JM, et al. (1997) A study of the effects of long-term use on individual sensitivity to temazepam and lorazepam in a clinical population. Br J Clin Pharmacol44: 267-275.
62.
Vermeeren, A. ( 2004) Residual effects of hypnotics: epidemiology and clinical implications. CNS Drugs18: 297-328.
63.
Victorri-Vigneau, C., Dailly, E., Veyrac, G., Jolliet, P. ( 2007) Evidence of zolpidem abuse and dependence: results of the French Centre for Evaluation and Information on Pharmacodependence (CEIP) network survey. Br J Clin Pharmacol64: 198-209.
