Ariana Pérez-Pereira scite author profile

Ketamine is a chiral drug used for various clinical purposes but often misused. It is metabolized to norketamine, an active chiral metabolite. Both substances have been detected in environmental matrices, but studies about their enantioselective toxic effects are scarce. In the present study, the enantiomers of ketamine and norketamine were separated by a semipreparative enantioselective liquid chromatography method, and their toxicity was investigated in different aquatic organisms. The enantioseparation was achieved using a homemade semipreparative chiral column. Optimized conditions allowed the recovery of compounds with enantiomeric purity higher than 99%, except for (R)‐ketamine (97%). The absolute configuration of the enantiomers was achieved by experimental electronic circular dichroism (ECD). The ecotoxicity assays were performed with the microcrustacean Daphnia magna and the protozoan Tetrahymena thermophila using Toxkit MicroBioTests. Different concentrations were tested (0.1–10 000 µg/L) to include environmental levels (~0.5–~100 µg/L), for racemates (R,S) and the isolated enantiomers (R or S) of ketamine and norketamine. No toxicity was observed in either organism at environmental levels. However, at greater concentrations, (R,S)‐ketamine presented higher mortality for D. magna compared with its metabolite (R,S)‐norketamine (85 and 20%, respectively), and the (S)‐ketamine enantiomer showed higher toxicity than the (R)‐ketamine enantiomer. In addition, (S)‐ketamine also presented higher growth inhibition than (R)‐ketamine for T. thermophila at the highest concentrations (5000 and 10 000 µg/L). Contrary to D. magna, growth inhibition was observed for both enantiomers of norketamine and in the same magnitude order of the (S)‐ketamine enantiomer. The results showed that the 2 organisms had different susceptibilities to norketamine and that the toxicity of ketamine at high concentrations is enantioselective for both organisms. Environ Toxicol Chem 2022;41:569–579. © 2020 SETAC

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Enantioselective Monitoring of Biodegradation of Ketamine and Its Metabolite Norketamine by Liquid Chromatography

Pérez-Pereira

Maia

Gonçalves

et al. 2021

Chemosensors

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Ketamine (K) and its main metabolite, norketamine (NK), are chiral compounds that have been found in effluents from wastewater treatment plants (WWTPs) and aquatic environments. Little is known about their enantioselective biodegradation during sewage treatment; however, this information is pivotal for risk assessment, the evaluation of WWTP performance and wastewater epidemiological studies. The aim of this study was to investigate the biodegradation pattern of the enantiomers of K by activated sludge (AS) from a WWTP. For that, an enantioselective liquid chromatography with diode array detection (LC-DAD) method was developed and validated to quantify the enantiomers of K and NK. Both K and NK enantiomers were separated, in the same chromatographic run, using a Lux® 3 µm cellulose-4 analytical column under isocratic elution mode. The method was demonstrated to be linear (r2 > 0.99) and precise (<11.3%). Accuracy ranged between 85.9 and 113.6% and recovery ranged between 50.1 and 86.9%. The limit of quantification was 1.25 µg/mL for the enantiomers of NK and 2.5 µg/mL for K. The method was applied to monitor the biodegradation assay of the enantiomers of K by AS for 14 days. K was poorly biodegraded, less than 15% for both enantiomers, and enantioselectivity in the biodegradation was not observed. The metabolite NK and other possible degradation products were not detected. This work reports, for the first time, the behavior of both enantiomers of K in biodegradation studies.

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Integrated Approach for Synthetic Cathinone Drug Prioritization and Risk Assessment: In Silico Approach and Sub-Chronic Studies in Daphnia magna and Tetrahymena thermophila

et al. 2023

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Synthetic cathinones (SC) are drugs of abuse that have been reported in wastewaters and rivers raising concern about potential hazards to non-target organisms. In this work, 44 SC were selected for in silico studies, and a group of five emerging SC was prioritized for further in vivo ecotoxicity studies: buphedrone (BPD), 3,4-dimethylmethcathinone (3,4-DMMC), butylone (BTL), 3-methylmethcathinone (3-MMC), and 3,4-methylenedioxypyrovalerone (MDPV). In vivo short-term exposures were performed with the protozoan Tetrahymena thermophila (28 h growth inhibition assay) and the microcrustacean Daphnia magna by checking different indicators of toxicity across life stage (8 days sublethal assay at 10.00 µg L−1). The in silico approaches predicted a higher toxic potential of MDPV and lower toxicity of BTL to the model organisms (green algae, protozoan, daphnia, and fish), regarding the selected SC for the in vivo experiments. The in vivo assays showed protozoan growth inhibition with MDPV > BPD > 3,4-DMMC, whereas no effects were observed for BTL and stimulation of growth was observed for 3-MMC. For daphnia, the responses were dependent on the substance and life stage. Briefly, all five SC interfered with the morphophysiological parameters of juveniles and/or adults. Changes in swimming behavior were observed for BPD and 3,4-DMMC, and reproductive parameters were affected by MDPV. Oxidative stress and changes in enzymatic activities were noted except for 3-MMC. Overall, the in silico data agreed with the in vivo protozoan experiments except for 3-MMC, whereas daphnia in vivo experiments showed that at sublethal concentrations, all selected SC interfered with different endpoints. This study shows the importance to assess SC ecotoxicity as it can distress aquatic species and interfere with food web ecology and ecosystem balance.

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Sublethal ecotoxicity assays of an emergent psychoactive substance in Daphnia magna

Pérez-Pereira¹,

Carvalho²,

Castro³

et al. 2022

RevSALUS

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Resumonot planned [1]. Poisoning events (either acute or chronic; accidental or intentional) affect the health of every species, compromising the life of an intoxicated individual and the stability of a population. Direct exposure to some these substances (as diclofenac) may lead to the sudden death of the affected animals (as birds of prey). Recovery centres, researchers, veterinary professionals, and authorities must be permanently aware of this health concern [2]. Objectives: The aim of this review is to provide information regarding poisoning events of wildlife species in Portugal and highlight its importance in a health and nature conservation perspective. Methods: Different search tools (Science Direct®, Scopus® and Google Scholar®) were used to perform this review with the keywords: intoxication; toxic; toxicant; xenobiotic; poison; poisoning; wild; wildlife; fauna; Portugal. The search was also done in Portuguese to include reports in this language. Articles unrelated to the subject or regarding other countries were excluded.Results: Poisoning has been reported as cause of admission and death in Portuguese rescue centres in both mammals and birds [3,4]. Strychnine, insecticides, anticoagulants rodenticides, molluscicides, heavy metals have all been reported in wildlife poisoning events in Portugal. Clinical cases of accidental and intentional poisoning have been reported in carnivorous mammals and birds of prey (4,5). Iberian wolfs, Iberian lynxes, red foxes, vultures, kites, eagles and rooks are among the most frequently reported species. Stomach contents, blood, urine, liver and kidneys are the most used samples to detect these substances and perform the forensic diagnosis [1,5]. Conclusions: Poisoning may represent a threat to some Portuguese fauna, since some of the affected species are endangered and essential to the ecosystem stability. New regulations, monitoring programs and better resources are crucial to quickly intervene in suspicious cases in rehabilitation centres; and minimize the impact of this threat to wild species.

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