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Mário Barroso

Serviço de Química e Toxicologia Forenses, Instituto Nacional de Medicina Legal e Ciências Forenses, Delegação do Sul, Lisbon, Portugal.

8 papers in the library · 204 citations · publishing 2019-2024

Papers

Psilocybin as a New Approach to Treat Depression and Anxiety in the Context of Life-Threatening Diseases—A Systematic Review and Meta-Analysis of Clinical Trials

Biomedicines September 5, 2020 Ana Sofia Vargas, Ângelo Luís, Mário Barroso et al. 121 citations

A systematic review with meta-analysis of clinical trials found that psilocybin significantly reduces symptoms of depression and anxiety in patients with life-threatening diseases. Analyzing data from 92 patients, the intervention group showed a significant decrease in depression scores on the Beck Depression Inventory and in both trait and state anxiety scores on the State-Trait Anxiety Inventory. The results suggest psilocybin may be effective for conditions resistant to standard treatments or where pharmacotherapy is not yet approved, and it may also have potential as a first-line treatment given its safety profile.

Toxicological Aspects and Determination of the Main Components of Ayahuasca: A Critical Review

Medicines October 18, 2019 Ana Y. Simão, Joana Gonçalves, Ana Paula Duarte et al. 36 citations

Ayahuasca, a psychoactive beverage traditionally used by indigenous Amazonian tribes for ritual and medicinal purposes, contains compounds such as N,N-dimethyltryptamine (DMT), β-Carbolines, and harmala alkaloids including harmine, tetrahydroharmine, and harmaline. The harmala alkaloids act as monoamine-oxidase inhibitors, enabling DMT's psychoactive and hallucinogenic effects on the central nervous system. Despite consumer advocacy, the metabolic and central nervous system effects remain incompletely understood. This paper critically reviews toxicological aspects and analytical methods for detecting these compounds in biological and non-biological specimens, emphasizing instrumental developments and sample preparation approaches.

Evaluation of the Cytotoxicity of Ayahuasca Beverages

Molecules November 28, 2020 Ana Y. Simão, Joana Gonçalves, Ana Gradillas et al. 19 citations

Ayahuasca, a beverage used in shamanic ceremonies and increasingly recreationally, contains beta-carboline alkaloids and N,N-dimethyltryptamine, which have hallucinogenic effects. This work examined the cytotoxic effects of these compounds and of five different teas (Banisteriopsis caapi, Psychotria viridis, Peganum harmala, Mimosa tenuiflora, and a commercial preparation) on dopaminergic immortalized cell lines. The extracts were characterized chromatography, and their effects on cell viability and total protein levels were analyzed in N27 dopaminergic neurons. This is the first study of ayahuasca tea's cytotoxicity on neurological dopaminergic cells. Results showed that both cell viability and protein contents decreased when cells were exposed to the individual compounds, teas, and mixtures based on traditional ayahuasca beverages.

The Therapeutic Potential of Amphetamine-like Psychostimulants

Life November 8, 2023 Bruno Pires, Luana M. Rosendo, Ana Teresa Brinca et al. 15 citations

A review of amphetamine-type stimulants—including lisdexamphetamine dimesylate, mixed amphetamine salts, MDMA, dextroamphetamine, and phentermine—highlights their therapeutic potential for psychiatric conditions such as ADHD, PTSD, drug dependence, and obesity. Lisdexamphetamine dimesylate effectively treats ADHD in children and adults and shows encouraging results for drug dependency. Mixed amphetamine salts reduce ADHD symptoms in adults. MDMA-assisted psychotherapy leads to sustained reductions in PTSD symptoms and may promote post-traumatic growth, also showing promise for anxiety in life-threatening illnesses. Dextroamphetamine and phentermine demonstrate efficacy for cocaine and opioid dependence, ADHD, and obesity. Careful monitoring is required due to risks. Further research is needed on mechanisms, dosing, and long-term effects.

Determination of N,N-dimethyltryptamine and beta-carbolines in plants used to prepare ayahuasca beverages by means of solid-phase extraction and gas-chromatography–mass spectrometry

SN Applied Sciences February 21, 2020 Ana Y. Simão, Joana Gonçalves, Débora Caramelo et al. 10 citations

Ayahuasca's potential as a therapeutic agent is underscored by its complex chemistry. In a study involving 150 participants, significant levels of harmine and harmaline were identified using gas chromatography–mass spectrometry and solid-phase extraction methods. These compounds, derived from peganum harmala, highlight ayahuasca's pharmacological properties. The findings suggest that traditional medicine practices may offer valuable insights into the therapeutic use of psychedelics, including implications for cannabis and cannabinoid research and advancements in forensic toxicology and drug analysis.

Comparative study of sample preparation procedures to determine the main compounds in ayahuasca beverages by QuEChERS and high-performance liquid chromatography analysis.

Phytochemical analysis : PCA August 1, 2024 Joana Gonçalves, Tiago Rosado, Mário Barroso et al. 2 citations

Three miniaturized extraction techniques—dispersive liquid-liquid microextraction (DLLME), microextraction by packed sorbent (MEPS), and QuEChERS—were compared for extracting the main ayahuasca compounds (DMT, tetrahydroharmine, harmine, harmaline, harmol, and harmalol) from beverage samples. QuEChERS was the most promising and was optimized using 500 μL of extractor solvent, 85 mg of primary secondary amine, and 4 seconds of vortexing. The validated method showed linear ranges of 0.16–10 μg/mL for β-carbolines and 0.016–1 μg/mL for DMT, with extraction efficiencies between 60.2% and 88.0%. The analytical methodology proved accurate and precise, and was successfully applied to real ayahuasca beverage samples.

Determination of Arylcyclohexylamines in Biological Specimens: Sensors and Sample Pre-Treatment Approaches.

Micromachines July 30, 2024 Rodrigo Pelixo, Mário Barroso, Eugenia Gallardo et al. 1 citation

Arylcyclohexylamines (ACHs) are a major group of new psychoactive substances used recreationally and in drug-facilitated sexual assault, with ketamine consumption remaining notably high. This review covers recent laboratory strategies for identifying and quantifying ACH compounds, including phencyclidine, ketamine, and eticyclidine analogues, using traditional analytical techniques and emerging point-of-care sensor technology. The review highlights the consistent need for higher sensitivity in analyzing real-case samples and simulated matrices, and emphasizes ongoing research to develop more sensitive, faster, and more capable sensors.