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Jordi Ortuño

Pompeu Fabra University

11 papers in the library · 873 citations · publishing 2000-2004

Papers

Pharmacology of MDMA in Humans

Annals of the New York Academy of Sciences September 1, 2000 Rafael de la Torre, Magı́ Farré, P. N. Roset et al. 178 citations

Recreational doses of MDMA (50 to 150 mg) in healthy volunteers cause pupil dilation, increases in systolic and diastolic blood pressure, heart rate, and pupillary diameter. Oral temperature changes are biphasic: a slight decrease at 1 hour followed by increases at 2 and 4 hours. Psychomotor performance shows slight dose-dependent impairment. Plasma cortisol and prolactin concentrations rise markedly. The drug's elimination half-life is about 8-9 hours. Peak drug concentrations and physiological effects occur between 1 and 2 hours and return to baseline 4-6 hours after administration.

Usefulness of Saliva for Measurement of 3,4-Methylenedioxymethamphetamine and Its Metabolites: Correlation with Plasma Drug Concentrations and Effect of Salivary pH

Clinical Chemistry October 1, 2001 Mèonica Navarro, Simona Pichini, Magí Farré et al. 135 citations

After a single 100-mg dose of MDMA, concentrations in saliva ranged from 1728.9 to 6510.6 μg/L, peaking at 1.5 hours, then declining to a mean of 126.2 μg/L at 24 hours. The saliva-to-plasma ratio varied from 32.3 to 1.2, with a peak of 18.1 at 1.5 hours. Salivary pH decreased by 0.6 units after drug administration, from a predose mean of 7.4 to 6.9 at 1.5 hours and 6.8 at 4 hours. Measuring MDMA in saliva offers a noninvasive alternative to plasma testing for clinical and toxicologic studies.

Determination of MDMA and its Metabolites in Blood and Urine by Gas Chromatography-Mass Spectrometry and Analysis of Enantiomers by Capillary Electrophoresis

Journal of Analytical Toxicology April 1, 2002 Nieves Pizarro, Jordi Ortuño, Mercè Farré et al. 113 citations

A gas chromatography-mass spectrometry method simultaneously measured MDMA and its metabolites MDA, HMMA, and HMA in plasma and urine from healthy volunteers given 100 mg of MDMA. Samples were hydrolyzed, extracted with solid-phase columns, and analyzed as trifluoroacyl derivatives. Linear calibration covered plasma and urine ranges of 25–400 ng/mL and 250–2000 ng/mL for MDMA and HMMA, and 2.5–40 ng/mL and 100–1000 ng/mL for MDA and HMA. A capillary electrophoresis method using (2-hydroxy)propyl-beta-cyclodextrin as chiral selector resolved enantiomers without derivatization, with linear ranges for each enantiomer of MDMA, MDA, and HMMA. Stereoselective disposition of MDMA and MDA was confirmed, while HMMA showed an enantiomer ratio near 1 and constant over time, contradicting MDMA findings.

3,4-Dihydroxymethamphetamine (HHMA). A Major in Vivo 3,4-methylenedioxymethamphetamine (MDMA) Metabolite in Humans

Chemical Research in Toxicology August 2, 2001 Mireia Segura, Jordi Ortuño, Magı́ Farré et al. 105 citations

A new method using strong cation-exchange solid-phase extraction and high-performance liquid chromatography with electrochemical detection was validated for measuring the metabolite 3,4-dihydroxymethamphetamine (HHMA) in plasma and urine. Applied to samples from healthy volunteers given MDMA (ecstasy), HHMA appeared as a major metabolite, with peak plasma concentrations (154.5 microg/L) and overall exposure (AUC 1990.9 microg/L h) similar to those of MDMA itself. Urinary recovery of HHMA over 24 hours accounted for 17.7% of the 100 mg MDMA dose, raising total recovery of MDMA and its metabolites to 58%. The method is accurate and precise for pharmacokinetic studies, and measuring HHMA may help clarify its role in MDMA metabolism and potential neurotoxicity.

Determination of N,N-dimethyltryptamine and β-carboline alkaloids in human plasma following oral administration of Ayahuasca

Journal of Chromatography B October 11, 2002 Mercedes Yritia, Jordi Riba, Jordi Ortuño et al. 84 citations

A method to measure the four main alkaloids in ayahuasca (DMT, harmine, harmaline, and tetrahydroharmine) plus two major metabolites (harmol and harmalol) in human plasma is described. DMT is extracted with n-pentane and quantified by gas chromatography with nitrogen-phosphorus detection, achieving 74% recovery, precision and accuracy better than 9.9%, and a limit of quantification of 1.6 ng/ml. The beta-carbolines and metabolites are measured by high-performance liquid chromatography with fluorescence detection after solid-phase extraction, with recoveries above 87%, accuracy and precision better than 13.4%, and limits of quantification from 0.3 to 1.0 ng/ml. The methods allow adequate characterization of the pharmacokinetics of these compounds, including two major metabolites not previously described.

Usefulness of Sweat Testing for the Detection of MDMA after a Single-Dose Administration*

Journal of Analytical Toxicology July 1, 2003 Simona Pichini, M.d. Sánchez Navarro, Roberta Pacifici et al. 66 citations

After a single 100-mg dose of MDMA, the drug appears in sweat within 1.5 hours and peaks at 24 hours, but the amount varies up to 30-fold between individuals, ranging from 3.2 to 1326.1 ng per patch. Only traces of the metabolite MDA are detected. An onsite sweat strip test is positive at 1.5 hours, though 18% false-negative results occur in the first 6 hours. Sweat patch and onsite strip testing offer noninvasive ways to monitor MDMA use.

Cell‐Mediated Immune Response in MDMA Users After Repeated Dose Administration

Annals of the New York Academy of Sciences June 1, 2002 Roberta Pacifici, P. Zuccaro, Magı́ Farré et al. 58 citations

Repeated use of MDMA ('ecstasy') causes time-dependent immune dysfunction similar to a single dose, but the second dose extends the period of impaired immunocompetence. The drug decreases CD4 T-helper cells, increases natural killer (NK) cells, and reduces lymphocyte responsiveness to stimulation. In poor metabolizers, MDMA accumulation produces greater immunomodulatory effects, including significant differences in NK cell function. Recreational MDMA users show long-term alterations: reduced lymphocytes, T cells, and CD4 cells (though within normal limits), and NK cells reduced to one-third of healthy levels. Over two years, a subgroup showed statistically significant decreases in immune parameters, potentially increasing susceptibility to infection and immune disorders.

Sweat Testing of MDMA with the Drugwipe(R) Analytical Device: A Controlled Study with Two Volunteers

Journal of Analytical Toxicology March 1, 2001 Roberta Pacifici, Magı́ Farré, Simona Pichini et al. 50 citations

After a single 100 mg oral dose of MDMA, the Drugwipe immunochemical strip test detected the drug in sweat from two volunteers as early as 2 hours and up to 12 hours later. However, one volunteer showed a faint positive result before dosing, when plasma and urine were negative, and this persisted beyond 48 hours. Gas chromatography-mass spectrometry measured peak plasma concentrations of MDMA and its metabolite HMMA at 2-4 hours, with levels above 20 ng/mL and 40 ng/mL respectively still present at 24 hours. Urine remained positive for both substances over 48 hours. These results suggest sweat testing with Drugwipe may be useful for monitoring MDMA use.

Immunomodulating Activity of MDMA

Annals of the New York Academy of Sciences September 1, 2000 Roberta Pacifici, P. Zuccaro, Magı́ Farré et al. 44 citations

MDMA (ecstasy) use produces neurochemical, behavioral, and endocrine changes similar to acute stress, acting as a chemical stressor. In rats, MDMA rapidly suppressed lymphocyte proliferation, decreased circulating lymphocytes, and increased plasma corticosterone. In humans, acute MDMA caused time-dependent immune dysfunction: CD4+ T-cells and lymphocyte responsiveness to stimulation decreased, while natural killer cells increased; total leukocyte count remained unchanged. Cortisol rose similarly to the rat model, suggesting MDMA triggers corticotrophin-releasing factor release from the hypothalamus, activating the HPA axis and sympathetic nervous system. These findings indicate MDMA ingestion may increase risk for immune system-related diseases.

The rewarding properties of MDMA are preserved in mice lacking µ‐opioid receptors

European Journal of Neuroscience July 15, 2004 Patricia Robledo, Victoria Mendizábal, Jordi Ortuño et al. 40 citations

The rewarding effects of MDMA do not require µ-opioid receptors, unlike those of opioids, ethanol, nicotine, and THC. In mice lacking µ-opioid receptors, MDMA still produced a conditioned place preference and increased dopamine release in the nucleus accumbens, while decreasing dopamine metabolites DOPAC and HVA. Basal dopamine and metabolite levels were similar between knockout and wild-type mice. The findings indicate that MDMA's effects on dopamine neurons are independent of µ-opioid receptor activation.

Non‐linear pharmacokinetics of MDMA (‘ecstasy’) in humans

British Journal of Clinical Pharmacology February 1, 2000 Rafael de la Torre, Magı́ Farré, Jordi Ortuño et al.

MDMA (ecstasy) shows nonlinear pharmacokinetics in humans: as the dose increases, plasma concentrations rise disproportionately, meaning small dose increases lead to much higher drug levels. In a controlled trial with 14 healthy volunteers given 50–150 mg, urinary recovery of the metabolite HMMA stayed constant while MDMA recovery rose, suggesting saturation or inhibition of the demethylenation metabolic step. Nonrenal clearance was dose-dependent while urinary clearance remained constant. This nonlinearity occurs regardless of CYP2D6 genotype, implying that even moderate dose increases in recreational use can produce unexpectedly high plasma concentrations, raising the risk of acute toxicity for all users, not just the 10% genetically deficient in CYP2D6.