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Klaus Langohr

5 papers in the library · 578 citations · publishing 2006-2012

Papers

Acute Effects of a Single, Oral dose of d9-tetrahydrocannabinol (THC) and Cannabidiol (CBD) Administration in Healthy Volunteers

Current Pharmaceutical Design September 12, 2012 Rocío Martín‐Santos, José Alexandre S. Crippa, Albert Batalla et al. 288 citations

Delta-9-tetrahydrocannabinol (THC), but not cannabidiol (CBD), produces marked acute behavioral and physiological effects. In a randomized, double-blind, placebo-controlled trial with 16 healthy male volunteers, oral THC (10 mg) caused anxiety, dysphoria, positive psychotic symptoms, physical and mental sedation, subjective intoxication, and increased heart rate relative to placebo and CBD. CBD (600 mg) showed no differences from placebo on any symptomatic or physiological measure, indicating it is safe and well tolerated. The two main cannabis constituents thus have quite different acute effects.

γ‐Hydroxybutyrate (GHB) in Humans

Annals of the New York Academy of Sciences August 1, 2006 Sergio Abanades, Magı́ Farré, Mireia Segura et al. 124 citations

Gamma-hydroxybutyrate (GHB) produces dose-related changes in subjective effects, showing a mixed stimulant-sedative pattern: initial feelings of euphoria, high, and liking, followed by mild-to-moderate sedation with impaired performance and balance. Single oral doses of 40, 50, 60, and 72 mg/kg were given to eight volunteers. Mean peak plasma concentrations ranged from 79.1 to 130.1 μg/L. Physiological and subjective effects were dose-dependent and related to plasma concentrations. Urinary excretion was mainly related to dose. The results suggest high abuse liability at the doses typically consumed.

Relative Abuse Liability of γ-Hydroxybutyric Acid, Flunitrazepam, and Ethanol in Club Drug Users

Journal of Clinical Psychopharmacology December 1, 2007 Sergio Abanades, Magı́ Farré, Diego Barral et al. 69 citations

A single oral dose of gamma-hydroxybutyric acid (GHB) at 40 or 60 mg/kg produces euphoria and pleasurable effects with slightly higher ratings than those from flunitrazepam (1.25 mg) or ethanol (0.7 g/kg) in healthy male recreational club drug users. GHB shows a biphasic time profile: an initial stimulant-like effect as plasma concentrations rise, followed by a later sedative effect unrelated to its kinetics. GHB increases blood pressure and pupil diameter, while flunitrazepam produces marked sedation. Both GHB and flunitrazepam impair psychomotor performance, including digit symbol substitution and balance tasks, whereas ethanol only mildly affects balance. The findings suggest a high abuse liability of GHB and flunitrazepam in this population.

Cognitive performance in recreational ecstasy polydrug users: a two-year follow-up study

Journal of Psychopharmacology January 21, 2008 Susana de Sola Llopis, Mónica Miguélez-Pan, Jordi Peña‐Casanova et al. 58 citations

Recreational ecstasy use, often alongside cannabis, is linked to lasting cognitive deficits. Over two years, regular ecstasy users performed worse than cannabis-only users and non-users on tests of verbal fluency, working memory, and processing speed. Heavier users (more than 100 tablets) also showed impairments in episodic memory. These deficits persisted across the study period. The findings suggest that ecstasy, possibly combined with cannabis, causes subtle but lasting cognitive harm, though pre-existing differences between groups cannot be ruled out.

Combined immunomodulating properties of 3,4‐methylenedioxymethamphetamine (MDMA) and cannabis in humans

Addiction May 22, 2007 Roberta Pacifici, Piergiorgio Zuccaro, Magı́ Farré et al. 39 citations

People who use both MDMA (ecstasy) and cannabis show long-term changes in immune function, including lower levels of interleukin-2 and higher levels of anti-inflammatory transforming growth factor beta-1, along with fewer total lymphocytes, CD4 cells, and natural killer cells. These immune alterations persisted over one year. Regular users of both drugs had a higher rate of mild infections compared to occasional users and those who used only cannabis or neither drug. Cannabis-only users showed intermediate immune changes. The findings suggest that sustained disruption of immune balance may lead to poorer general health and greater susceptibility to infections.