Behavioral and degeneration changes in the basal forebrain systems of aged rats: a quantitative study in the region of the basal forebrain after levo-acetyl-carnitine treatments assessed by Abercrombie estimation.

One group of six male control rats [21 months old] and one group of six male rats of the same age, singularly stored in a cage, and treated with acetyl-l-carnitine-HCl (ALCAR: 60 mg/kg/day/p.o.) for six months were tested in the spatial learning/memory Morris maze-water task and for atrophy and cell loss in seven myelo- and cytostructurally defined basal forebrain (BF) cholinergic regions [Gritti et al., 1993 J Comp Neurol 329: 438-457]. Coronal sections 25 mum thick were cut through the BF regions and processed every 200 mum for choline acetyltransferase (ChAT) immunohistochemistry. The ALCAR-treated rats had significantly shorter exit times on the Morris maze-water task test than the control rats (ANOVA-enzyme: F(1,39)=112.5, P=0.0001; sessions: F(3,39)=10.41, P=0.0001; interaction: F(3,39)=5.09, P=0.0044). Degenerative morphological changes in the BF ChAT-positive cells were observed in the control rats, but not in the treated animals, in: the diagonal band of Broca, the magnocellular preoptic nucleus, the olfactory tubercle, the substantia innominata, and the globus pallidus (ANOVA-enzyme: F(1,2)=14, P=0,0003; structures: F(6,7)=4, P=0,0018; interaction: F(6,7)=3, P=0,0043). In the diagonal band of Broca (P<0.0494) and in the magnocellular preoptic nucleus (P<0.0117) there were significantly fewer ChAT-positive neurons in the aged control rats than in the ALCAR-treated rats. These results demonstrate that in rats aged from 15 to 21 months ALCAR treatment significantly attenuated spatial learning/memory impairment on the Morris maze-water task and also importantly reduced the degeneration in size and number of cholinergic cells in the BF.

Self administration of cocaine in monkeys receiving LAAM acutely or chronically.

Polydrug abuse remains a common problem among opioid abusers as well as patients in opioid maintenance programs. Although cocaine abuse has been reported in patients receiving methadone, the incidence of cocaine use in patients receiving l-alpha-acetylmethadol (LAAM) has not been well established. The goal of this study was to determine whether acute or chronic administration of LAAM modified the reinforcing effects of cocaine using a self-administration procedure in rhesus monkeys. Four monkeys responded under a fixed ratio (FR) 30 schedule to receive i.v. infusions of cocaine (0.0032-0.32 mg/kg/infusion) in the absence of other treatment, after acute LAAM administration (0.1-1.0 mg/kg, s.c.), and during daily administration of 1.0 mg/kg of LAAM. Cocaine maintained self-administration responding that exceeded responding maintained by saline; acutely administered LAAM had small and variable effects on self administration of cocaine. Daily LAAM administration increased the number of infusions received of at least one dose of cocaine. These studies indicated that LAAM administration did not attenuate the reinforcing effects of cocaine, suggesting that LAAM would not likely alter cocaine abuse in patients undergoing treatment for opioid abuse.

NO counterbalances HO-1 overexpression-induced acceleration of hepatocyte proliferation in mice.

The trigger for liver regeneration, including shear stress, has been the subject of ongoing debate. Blood vessel-derived gaseous molecules carbon monoxide (CO) and nitric oxide (NO) regulate vascular tone and play an important role in liver regeneration. In heme oxygenase-1 (HO-1) transgenic mice, it has been shown that CO-mediated impairment of vasorelaxation is an NO-dependent event. We therefore studied liver regeneration in HO-1 overexpressing animals in dependency of NO availability. Mice were subjected to (2/3) hepatectomy and were treated with either cobalt protoporphyrin-IX for induction of CO-liberating HO-1, N(omega)-nitro-L-arginine methyl ester (L-NAME) for blockade of NO synthase (NOS) or both. Application of molsidomine in L-NAME treated animals served for resubstitution of NO. Vehicle-treated animals served as respective control animals. We examined 5-bromo-2'-deoxyuridine incorporation and proliferating cell nuclear antigen expression as well as HO-1 and NOS-2 protein levels. Intrahepatic red blood cell velocity and volumetric blood flow were evaluated by in vivo fluorescence microscopy as indicators for microvascular shear stress. Hepatic regeneration remained unaffected by L-NAME application for NOS blockade. However, NOS blockade in HO-1 induced animals caused increased 5-bromo-2'-deoxyuridine and proliferating cell nuclear antigen measures of liver regeneration. In parallel, these animals revealed increased velocities and volumetric blood flow in the terminal afferent vessels and postsinusoidal venules. These local hemodynamic changes including enhanced hepatocyte proliferation could be reversed by NO liberation via molsidomine. The present findings stress the role of NO to counterbalance vascular tone in HO-1 overexpressing animals for maintenance of adequate perfusion and salutary shear force within the hepatic microvasculature upon liver resection.

Prenatal opiate exposure attenuates LPS-induced fever in adult rats: role of interleukin-1beta.

Much is known about the immunomodulatory effects of opiate exposure and withdrawal in adult rats. However, little research has delved into understanding the immunological consequences of prenatal opiate exposure and postnatal withdrawal. The purpose of the current study was to measure changes in responding to immune stimulation in adult rats following prenatal opiate exposure. Further, we sought to characterize the role of interleukin (IL)-1beta in these changes. Following prenatal exposure to the long-acting opiate l-alpha-acetylmethadol (LAAM), adult male and female rats were assessed for their fever response to lipopolysaccharide (LPS). Blood and tissue samples were collected to measure circulating IL-1beta and IL-1beta protein in the hypothalamus and spleen. Prenatal LAAM exposure resulted in a blunted fever response to LPS injection without any changes in basal body temperature or in response to saline injection. Circulating IL-1beta was not affected by prenatal LAAM exposure, nor was IL-1beta protein in the spleen. Interestingly, mature IL-1beta protein was elevated in the hypothalamus of prenatally LAAM-treated rats. These results indicate that prenatal opiate exposure blunts the fever response of adult offspring. Direct action of IL-1beta is likely not the cause of the dysfunction reported here. However, alterations in signaling mechanisms downstream from IL-1beta may play a role in the altered fever response in adult rats treated prenatally with opiates.

Differential in vitro inhibition of M3G and M6G formation from morphine by (R)- and (S)-methadone and structurally related opioids.

AIMS: To determine the in vitro kinetics of morphine-3-glucuronide (M3G) and morphine-6-glucuronide (M6G) formation and the inhibition potential by methadone enantiomers and structurally related opioids. METHODS: M3G and M6G formation kinetics from morphine were determined using microsomes from five human livers. Inhibition of glucuronide formation was investigated with eight inhibitors (100 microm) and the mechanism of inhibition determined for (R)- and (S)-methadone (70-500 microm) using three microsomal samples. RESULTS: Glucuronide formation displayed single enzyme kinetics. The M3G Vmax (mean+/-SD) was 4.8-fold greater than M6G Vmax (555+/-110 vs. 115+/-19 nmol mg-1 protein h-1; P=0.006, mean of difference 439; 95% confidence interval 313, 565 nmol mg-1 protein h-1). Km values for M3G and M6G formation were not significantly different (1.12+/-0.37 vs. 1.11+/-0.31 mm; P=0.89, 0.02; -0.29, 0.32 mm). M3G and M6G formation was inhibited (P<0.01) with a significant increase in the M3G/M6G ratio (P<0.01) for all compounds tested. Detailed analysis with (R)- and (S)-methadone revealed noncompetitive inhibition with (R)-methadone Ki of 320+/-42 microm and 192+/-12 microm for M3G and M6G, respectively, and (S)-methadone Ki of 226+/-30 microm and 152+/-20 microm for M3G and M6G, respectively. Ki values for M3G inhibition were significantly greater than for M6G for (R)-methadone (P=0.017, 128; 55, 202 microm) and (S)-methadone (P=0.026, 75; 22, 128 microm). CONCLUSIONS: Both methadone enantiomers noncompetitively inhibited the formation of morphine's primary metabolites, with greater inhibition of M6G formation compared with M3G. These findings indicate a mechanism for reduced morphine clearance in methadone-maintained patients and reduced relative formation of the opioid active M6G compared with M3G.

Blood-brain equilibration kinetics of levo-alpha-acetyl-methadol using a chronically instrumented sheep preparation.

1.--The delayed onset and long duration of action of the opioid agonist levo-alpha-acetyl-methadol (LAAM) has been attributed to the formation of active metabolites. However, at present, little is known about the time course of blood-brain equilibration of LAAM itself. 2.--The cerebral kinetics of LAAM were quantified using physiologically based kinetic models and a conscious chronically instrumented sheep preparation. Seven sheep were administered 4 min intravenous infusions of 30 mg LAAM. Concentrations of LAAM and N-demethylated metabolites (nor-LAAM and di-nor-LAAM) in whole blood (0-75 min) were measured using a validated HPLC assay. 3.--LAAM did not alter cerebral blood flow, mean arterial pressure or cause significant respiratory depression. Cardiac output was similar to baseline at 4 min, but decreased by 30% at 10 min and remained at this level for the duration of the 75 min study period. 4.--Cerebral kinetics were best described by a membrane-limited model, with a relatively slow blood-brain tissue equilibration half-life of 22 min due to intermediate permeability (56 ml min(-1)) and a large cerebral distribution volume (724 ml). 5.--In conclusion, pharmacokinetic-pharmacodynamic modelling of LAAM should account for the large equilibration delay between brain and blood caused by slow equilibration kinetics. This may account for some of the delay in onset of effect previously attributed to the delayed appearance of active metabolites in blood.

Predictors of outcome in LAAM, buprenorphine, and methadone treatment for opioid dependence.

This study examined (1) predictors of treatment outcome for opioid-dependent participants in a single-site controlled trial comparing methadone, buprenorphine, and LAAM treatments and (2) the extent to which various subpopulations of patients may have more successful outcomes with each medication. The relationships between patient demographics, drug use history, and psychological status and outcome measures of treatment retention, opiate use, and cocaine use were assessed. We believe this study to be the first to demonstrate that predictors of treatment success appear to be largely similar in LAAM, buprenorphine, and methadone treatment for opioid dependence. We did not find any factors that would strongly guide selection of one medication over others.

Cross-tolerance and mu agonist efficacy in pigeons treated with LAAM or buprenorphine.

The mechanism responsible for decreased opioid use during opioid substitution therapy is not fully understood. To examine whether l-alpha-acetylmethadol (LAAM) or buprenorphine attenuate behavioral effects of opioids through cross-tolerance, discriminative stimulus effects of high and low efficacy mu agonists were examined following 3- or 7-day treatment with LAAM or buprenorphine in pigeons discriminating between saline and heroin or between saline and buprenorphine, respectively. Heroin, buprenorphine and nalbuphine occasioned high levels of drug-appropriate responding in both groups; kappa opioids and non-opioids occasioned predominantly saline-appropriate responding. Administration of LAAM (3.2 mg/kg) or buprenorphine (3.2 mg/kg) occasioned predominantly heroin- or buprenorphine-appropriate responding, respectively. After discontinuation of LAAM treatment, the potency in occasioning heroin-key responding was markedly decreased for nalbuphine, slightly decreased for buprenorphine, and unchanged for heroin. Following discontinuation of buprenorphine treatment, the potency in occasioning buprenorphine-key responding was decreased for nalbuphine and unchanged for buprenorphine and heroin. Thus, greater cross-tolerance developed from LAAM and buprenorphine to low efficacy mu agonists as compared to a higher efficacy agonist. Failure of LAAM and buprenorphine treatment to modify the effects of heroin, under conditions that attenuate the effects of lower efficacy mu opioids, provides a possible rationale for why heroin abuse persists in some patients receiving large doses of agonists in substitution therapy.

Relative efficacy of buprenorphine, nalbuphine and morphine in opioid-treated rhesus monkeys discriminating naltrexone.

Efficacy is one determinant of whether a drug is an agonist or an antagonist under a particular set of conditions. Relative efficacy among the micro opioid receptor (MOR) ligands buprenorphine, nalbuphine, and morphine was examined in monkeys dependent on morphine (3.2 mg/kg/day) or l-alpha-acetylmethadol (LAAM) (1.0 mg/kg twice daily) and that discriminated naltrexone (0.0178 mg/kg) from saline. In morphine-treated monkeys, buprenorphine and not nalbuphine substituted for naltrexone. When administered before naltrexone in morphine-treated monkeys, morphine and nalbuphine shifted the naltrexone dose-effect curve to the right, while buprenorphine shifted the naltrexone dose-effect curve to the left. Under conditions of acute morphine deprivation, naltrexone-lever responding was slightly attenuated by buprenorphine and markedly attenuated by nalbuphine and morphine. In LAAM-treated monkeys, buprenorphine substituted completely for naltrexone in only one monkey, while nalbuphine and morphine failed to substitute in any monkey. When administered before naltrexone in LAAM-treated monkeys, buprenorphine, nalbuphine, and morphine dose dependently shifted the naltrexone dose-effect curve to the right, with the exception of one monkey in which buprenorphine shifted the naltrexone dose-effect curve to the left. These results demonstrate that a low efficacy MOR ligand can exert agonist or antagonist actions in the same animal depending on immediate pharmacologic history. The qualitatively different effects of buprenorphine in morphine- and LAAM-treated monkeys might be related to magnitude of dependence insofar as dependence can determine the efficacy required for agonist activity. Thus, buprenorphine has markedly different effects across different levels of opioid dependence.

Interactions of the narcotic l-alpha-acetylmethadol with human cardiac K+ channels.

l-alpha-acetylmethadol is a long-acting narcotic analgesic that is used in the treatment of opiate addiction. However, the drug has been associated with cases of QT interval prolongation and ventricular arrhythmia. To understand the mechanism underlying these clinical findings, we examined the effects of l-alpha-acetylmethadol on the cloned human cardiac K(+) channels HERG (human ether-a-go-go-related gene), KvLQT1/minK and Kv4.3. Using patch clamp electrophysiology, we found that l-alpha-acetylmethadol inhibited HERG channel currents in a voltage-dependent manner displaying an IC(50) value of 3 microM. The major active metabolite of l-alpha-acetylmethadol, noracetylmethadol, inhibited HERG with an estimated IC(50) values of 12 microM. l-alpha-acetylmethadol had little or no effect on Kv4.3 or KvLQT1/minK K(+) channel currents at concentration up to 10 microM. We conclude that the proarrhythmic effects of l-alpha-acetylmethadol are due to specific blockade of the HERG cardiac K(+) channel and that its active metabolite noracetylmethadol may provide a safer alternative in the treatment of opiate addiction.

Influence of opioid agonists on cardiac human ether-a-go-go-related gene K(+) currents.

We have evaluated the ability of various opioid agonists, including methadone, L-alpha-acetylmethadol (LAAM), fentanyl, meperidine, codeine, morphine, and buprenorphine, to block the cardiac human ether-a-go-go-related gene (HERG) K(+) current (I(HERG)) in human cells stably transfected with the HERG potassium channel gene. Our results show that LAAM, methadone, fentanyl, and buprenorphine were effective inhibitors of I(HERG), with IC(50) values in the 1 to 10 microM range. The other drugs tested were far less potent with respect to I(HERG) inhibition. Compared with the reported maximal plasma concentration (C(max)) after administration of therapeutic doses of these drugs, the ratio of IC(50)/C(max) was highest for codeine and morphine (>455 and >400, respectively), thereby indicating that these drugs have the widest margin of safety (of the compounds tested) with respect to blockade of I(HERG). In contrast, the lowest ratios of IC(50)/C(max) were observed for LAAM and methadone (2.2 and 2.7, respectively). Further investigation showed that methadone block of I(HERG) was rapid, with steady-state inhibition achieved within 1 s when applied at its IC(50) concentration (10 microM) for I(HERG) block. Results from "envelope of tails" tests suggest that the majority of block occurred when the channels were in the open and/or inactivated states, although approximately 10% of the available HERG K(+) channels were apparently blocked in a closed state. Similar results were obtained for LAAM. These results demonstrate that LAAM and methadone can block I(HERG) in transfected cells at clinically relevant concentrations, thereby providing a plausible mechanism for the adverse cardiac effects observed in some patients receiving LAAM or methadone.

Heroin discriminative stimulus effects of methadone, LAAM and other isomers of acetylmethadol in rats.

RATIONALE: LAAM (alpha- l-acetylmethadol) is a derivative of the synthetic mu-opiate agonist methadone and is one of the four isomers of acetylmethadol. Methadone and LAAM have similar pharmacological properties and both are approved medications for the treatment of heroin dependency disorders. Few studies have reported on the pharmacology of acetylmethadol's other isomers and most of these have focused on their potential analgesic activity. OBJECTIVES: The purpose of the present investigation was to examine the discriminative stimulus effects of LAAM, the other isomers of acetylmethadol, and methadone in rats trained to discriminate heroin from water, and to compare the duration of the discriminative stimulus effects of heroin, methadone, and LAAM. METHODS: Long-Evans rats were trained to discriminate 0.3 mg/kg heroin from water under a fixed ratio 10 (FR10) schedule of food reinforcement. Dose-response functions for heroin, methadone, LAAM, three other isomers of acetylmethadol: alpha- d-acetylmethadol, beta- d-acetylmethadol, beta- l-acetylmethadol, and its precursor, beta- l-methadol were examined. Additionally, the time course effects for heroin, methadone, and LAAM were examined. RESULTS: LAAM and methadone dose-dependently occasioned heroin-like discriminative stimulus effects. Two of acetylmethadol's isomers, alpha- d-acetylmethadol and beta- d-acetylmethadol, were more potent than LAAM in producing heroin-like effects. The beta- l-methadol precursor and beta- l-acetylmethadol did not fully substitute for heroin's discriminative stimulus. LAAM elicited heroin-like discriminative stimulus effects for at least 6 h and generated partial generalization up to 36 h following administration. CONCLUSIONS: Methadone, LAAM, beta- d-acetylmethadol and alpha- d-acetylmethadol, but not beta- l-acetylmethadol and beta- l-methadol evoke heroin-like discriminative stimulus effects.

Effects of LAAM and methadone utilization in an opiate agonist treatment program.

The development and approval of levo-alpha-acetylmethadol (LAAM) as a pharmacotherapeutic agent in opioid agonist therapy provided an alternative to methadone. Clinicians recognized the potential benefits that LAAM, a synthetic mu agonist with pharmacological properties which differ from those of methadone,could have in the treatment management of addicts in opioid agonist therapy. We report our experience utilizing LAAM from 1995 to 1999 at the Hines VA opioid agonist therapy clinic. The addition of LAAM to the clinic's treatment armamentarium has resulted in management options that have improved the areas of patient recruitment, patient retention, patient traffic, take-home medication, detoxification, and treatment outcomes.

Chronic l-alpha-acetylmethadol (LAAM) in rhesus monkeys: tolerance and cross-tolerance to the antinociceptive, ventilatory, and rate-decreasing effects of opioids.

Although l-alpha-acetylmethadol (LAAM) is a maintenance treatment for opioid dependence, few studies have systematically assessed the behavioral effects of LAAM and other drugs in LAAM-treated subjects. In the current study, we assessed the ventilatory, antinociceptive, and rate-decreasing effects of drugs (s.c. except dynorphin, which was administered i.v.) in rhesus monkeys (n = 3 or 4) before and during chronic treatment with 1.0 mg/kg/12 h LAAM (s.c.). Minute volume (V(E)) was reduced to 62% of baseline during LAAM treatment and remained depressed after more than 10 months of LAAM treatment. A cumulative dose of 10.0 mg/kg morphine decreased V(E) to similar values under baseline (53%) and LAAM-treated (52%) conditions; however, larger doses of morphine (up to 56.0 mg/kg) could be administered safely to LAAM-treated monkeys. LAAM treatment produced dependence as evidenced by a 220% increase in V(E) after a dose of naltrexone (0.032 mg/kg) that did not modify ventilation under baseline conditions. Compared with baseline, LAAM treatment increased the ED(50) values for the rate-decreasing effects of nalbuphine, morphine, and alfentanil by 7-, 7-, and 2-fold, respectively, in monkeys responding under a fixed ratio 10 schedule of food presentation. Similarly, LAAM treatment increased ED(50) values for the antinociceptive effects of morphine and alfentanil by 5- and 3-fold, respectively. LAAM treatment also increased the ED(50) values for the antinociceptive effects of the kappa-agonist enadoline by 5-fold and not those of U-50,488. That tolerance developed differentially to the ventilatory, rate, and antinociceptive effects of mu-agonists in LAAM-treated monkeys suggests that cross-tolerance might not be a safe therapeutic approach for the treatment of some opioid abusers.

[New drugs for substitution treatment of opioid dependence. Buprenorphine and 1-alpha-acetylmethadol (LAAM) ]. / Nye medikamenter til substitutionsbehandling af opioidafhaengige. Buprenorphin og 1-alpha-acetylmethadol (LAAM).

Two new long-acting opioid agonists have recently been introduced for the substitutional treatment of opioid-dependent patients: Orlaam (LAAM) and Subutex (buprenorphine). Both have a dose-related duration of action two to three times that of methadone, and can be given only three times a week instead of daily, thus reducing the need for take-home doses. Further, the longer duration of action provides a smoother blood level with fewer fluctuations between doses. With the availability of buprenorphine and LAAM as alternatives to methadone, agonist treatment can be more differentiated, and one can hope that this will increase the quality of the treatment.

Relative potency of levo-alpha-acetylmethadol and methadone in humans under acute dosing conditions.

levo-alpha-Acetylmethadol (LAAM) and methadone are full mu-opioid agonists used to treat opioid dependence. Current labeling indicates that LAAM is less potent than methadone. Clinical studies have not determined the relative potency of these drugs. This study compared the effects of acute doses of LAAM and methadone and also examined the ability of naloxone to reverse their effects. Five occasional opioid users received once weekly doses of either placebo, LAAM, or methadone (15, 30, or 60 mg/70 kg p.o.) in agonist exposure sessions and then received naloxone (1.0 mg/70 kg i.m.) 24, 72, and 144 h after agonist exposure. Subject-rated, observer-rated, and physiological measures were assessed regularly. Comparisons of physiological and subjective measures collected in agonist exposure sessions indicate that LAAM is not less potent than methadone under acute dosing conditions. For some measures, LAAM was significantly more potent. Three subjects who entered the study were withdrawn for safety reasons due to greater than anticipated and clinically relevant respiratory depression after receiving 60 mg of LAAM. Naloxone did not fully reverse the pupil constriction produced by 60 mg of LAAM. Acute agonist effects suggest that LAAM may be more potent than methadone and more potent than current labeling indicates. An accurate LAAM:methadone relative potency estimate will aid determination of adequate doses for opioid-dependent patients inducted onto LAAM and for methadone maintenance patients who choose to switch to more convenient thrice-weekly LAAM.

Chronic l-alpha acetylmethadol in rhesus monkeys: discriminative stimulus and other behavioral measures of dependence and withdrawal.

This study characterized discriminative stimulus and other effects of naltrexone in rhesus monkeys treated daily with the long-acting opioid l-alpha acetylmethadol (LAAM). An initial dose-finding study assessed the rate-decreasing effects of naltrexone in three monkeys receiving LAAM daily (0.32-1.78 mg/kg); subsequently, these monkeys and a fourth received 1.0 mg/kg/12 hr of LAAM although discriminating between naltrexone and saline. Responding occurred on the saline lever after the administration of LAAM, whereas >90% drug-lever responding occurred after the administration of 0.1 mg/kg of naltrexone that also elicited signs of withdrawal. Naloxone and quadazocine, but not morphine, nalbuphine or ketamine, substituted for naltrexone. Morphine and nalbuphine shifted the naltrexone dose-effect curve to the right. Compared to precipitated withdrawal, deprivation-induced withdrawal occasioned less naltrexone-lever responding and fewer observable signs of withdrawal. Maximal naltrexone-level responding occurred 24 to 48 hr after the discontinuation of LAAM treatment; the frequency of other withdrawal signs also peaked 24 to 48 hr after the discontinuation of LAAM. Partial naltrexone-lever responding occurred for up to 10 days after discontinuation of LAAM treatment; 4 and 8 days after the discontinuation of LAAM treatment, 0.1 mg/kg of naltrexone did no further increase naltrexone-lever responding or withdrawal signs suggesting that less-then-maximal naltrexone-lever responding was not due to long-lasting effects of LAAM or its metabolites. The discriminative stimuli that are associated with LAAM deprivation might be different from the stimuli associated with either training condition. This study is the first antagonist discrimination in non-humans primates treated chronically with LAAM and the results indicate that the naltrexone stimulus is related to opioid withdrawal.

Intravenous and oral l-alpha-acetylmethadol: pharmacodynamics and pharmacokinetics in humans.

Levo-alpha-acetylmethadol (LAAM) is a long-acting opioid agonist approved for use as a maintenance treatment for opioid dependence. Previous clinical studies report that the onset of the effects of LAAM is slower after parenteral administration than oral administration; however, preclinical studies suggest otherwise. This study examined the pharmacodynamic and pharmacokinetic profile of LAAM when given orally and intravenously to humans. Opioid-experienced volunteers (n = 6), who were not physically dependent on opioids, received LAAM (20 and 40 mg/70 kg i.v. and p.o.) and placebo under double-blind, double-dummy conditions during five weekly experimental sessions. Behavioral, physiological, subjective and pharmacokinetic measures were collected before and for 96 hr after drug administration. Intravenous LAAM produced significant subjective and physiological effects that appeared within 5 min, whereas the effects of oral LAAM appeared more slowly within 1 to 2 hr after drug administration. Pharmacokinetic data indicate that the immediate effects of intravenous LAAM are largely attributable to the parent drug rather than the active metabolites, nor-LAAM and dinor-LAAM. LAAM produced prototypic opioid agonist effects (i.e., miosis, subjective ratings of high, nodding) that were of equal magnitude across routes, dose-related and of long duration (up to 60 hr). These data are in contrast to previous clinical reports and indicate that LAAM produces effects of immediate onset when administered parenterally, which suggests that intravenous LAAM possesses greater abuse potential than previously believed.