The purpose of this multicenter-study is to investigate safety of psychopharmacological treatment and rates of adverse drug reactions in gerontopsychiatric inpatients. Elderly people are at higher risk for developing side effects under pharmacological treatment due to an altered metabolic situation, higher comorbidity rates and often polypharmacy. Furthermore gerontopsychiatric patients can often not articulate their symptoms clearly, for example due to pronounced cognitive impairment.
The aim of the study is to gain valid data of possible adverse drug reaction rates, their potential risk factors and outcome, as well as medical prescription practises.
To assess these outcomes an intensive pharmacovigilance-monitoring will be conducted at the five participating study sites.
At Baseline demographic data, previous and present disorders, use of drugs, previous and present medication, quality of life, cognitive function, physical examination results, laboratory results and ECG will be assessed.
Afterwards patients are visited weekly and screened for possible adverse drug reactions. All adverse drug reactions will be coded in the MedDRA-system.
In case of a possible serious adverse drug reaction serum levels of all psychotropic substances applicated will be assessed. Drug combinations will be analysed using an established advanced bioinformatic tool (mediQ). Diagnosis, medication intake and possible adverse drug reactions are documented continually.
2 weeks after discharge from the ward, patients will be contacted by phone to assess catamnestic data.

开始日期2015-01-01

申办/合作机构

Hannover Medical School

100 项与溴西泮相关的临床结果

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100 项与溴西泮相关的转化医学

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100 项与溴西泮相关的专利（医药）

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1,991

项与溴西泮相关的文献（医药）

2025-03-01·Journal of Chromatography B

Experimental and computational analysis of lipophilicity and plasma protein binding properties of potent tacrine based cholinesterase inhibitors

Article

作者: Šukalović, Vladimir ; Mosić, Mirjana ; Jevtić, Ivana ; Šegan, Sandra

The lipophilicity of thirteen tacrine/piperidine-4-carboxamide derivatives was assessed using reversed-phase thin-layer chromatography (RP-TLC) with MeOH and acetonitrile (ACN) as organic modifiers. Among the parameters evaluated, the R_M⁰ and C⁰ values obtained using MeOH were identified as the most reliable for characterizing the lipophilicity of the investigated compounds. The observed differences in lipophilicity among the derivatives resulted from a delicate interplay of substituent effects (hydrophobicity, polarity, steric hindrance, and electronic effects), positional influence, and characteristics of the organic modifier. The plasma protein-binding (PPB) properties of the tacrine derivatives were analyzed using an HPLC method with a human serum albumin (HSA) stationary phase and a mobile phase composed of phosphate buffer (pH = 7) and 2-propanol. The experimental %PPB values calculated using from two experiments ranged from 82.38 % to 94.54 %, and 84.29 % to 98.16 % suggesting that most compounds bind efficiently but not excessively to plasma proteins. Docking analysis revealed that all investigated ligands bind to Sudlow site I within HSA, which is the main binding site for heterocyclic aromatic compounds such as warfarine, azoprazone and tacrine. The key binding interactions are primarily hydrogen bonding and aromatic interactions. Principal component analysis (PCA), conducted on both experimentally determined and predicted lipophilicity values, as well as on predicted adsorption and experimentally and predicted distribution data, underscored the significant role of lipophilicity in influencing adsorption and distribution processes.

2025-03-01·Journal of Food Composition and Analysis

Advanced monitoring of psychoactive substances in hard candy using optimized ultrasound-assisted dispersive liquid-liquid microextraction and LC-MS/MS

作者: Setyaningsih, Widiastuti ; Mirahayu ; Palma, Miguel

Psychoactive substances, including narcotics and psychotropics, are frequently abused for recreational purposes, leading to addiction and severe health complications.Their deliberate contamination of foods also poses significant health risks.Effective monitoring and developing robust anal. methods to detect these substances are crucial.This study developed an ultrasound-assisted dispersive liquid-liquid microextraction (UA-DLLME) method that minimizes solvent and sample volume requirements, coupled with liquid chromatog.-tandem mass spectrometry (LC-MS/MS) for the simultaneous determination of eight psychoactive substances in hard candy.A Box-Behnken Design (BBD) evaluated three key factors influencing extraction efficiency: extraction solvent volume (X₁; 1.5-2.5 mL), sodium chloride (NaCl) concentration (X₂; 0-10 %), and pH (X₃; 8-10).The response surface methodol. (RSM) optimized analyte recovery, identifying optimal conditions as 1.5 mL Et acetate, 3.33 % NaCl, and pH 8.14.Validation of the UA-DLLME-LC-MS/MS technique, performed according to international guidelines, demonstrated low limits of detection, reaching 0.004 μg g^-1 (ketamine) and quantification (0.01 μg g^-1) while providing high precision (coefficient of variation lower than 15 %), and accuracy (recoveries up to 106.50 %).This method successfully determined eight psychoactive substances in com. available hard candy.

2025-02-01·Forensic Science International

Investigating 3-CMC metabolism: Insights from liver microsomes and postmortem biological matrix

Article

作者: Delavenne, Xavier ; Pipet, Julia ; Hodin, Sophie ; Feliu, Catherine ; Panther, Tania ; Hattat, Elodie ; Tholance, Yannick ; Bidat, Carolyne

3-Chloromethcathinone (3-CMC) is a synthetic cathinone that has been identified as a new psychoactive substance (NPS) by the European Monitoring Centre for Drugs and Drug Addiction. Despite its increasing prevalence in the recreational drug market since 2014, scientific literature on 3-CMC remains limited. This study employed a multi-step approach to investigate 3-CMC metabolism. First, an in-silico prediction was conducted to compile a list of potential metabolites. Then, in vitro assays were performed using human liver microsomes at two concentrations of 3-CMC. Samples were analyzed using an ultra-performance liquid chromatography system coupled with a high-resolution mass spectrometer. Chromatographic separation was obtained with an Acquity UPLC HSS C18 1.8 µm, 2.1 × 150 mm column on an Ultimate 3000 system chromatography coupled with a QExactivePlus mass spectrometer). Finally, data mining for metabolite identification was conducted using Compound Discoverer software. The combined in silico and in vitro approaches identified four primary metabolites of 3-CMC in HLM assays:1) hydroxylation of the aliphatic group to give M1 2) followed by reduction of the β-keto group, yielding M4; 3) N-demethylation, affording M2; and 4) Reduction of the β-keto group, yielding M3. Subsequent analysis of biological samples from two postmortem cases revealed that urine was the most informative matrix for detecting 3-CMC and its metabolites. The M3 metabolite, was identified as the third abundant metabolite in human liver microsome but was identified as the predominant metabolite in human postmortem samples. Identifying these key metabolites is crucial for improving the accuracy of forensic investigations and extending the detection window beyond the parent compound.

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外链

KEGG	Wiki	ATC	Drug Bank
D01245	溴西泮	N05BA08	DB01558

研发状态

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适应症	国家/地区	公司	日期
焦虑症	日本	山德士有限公司	1976-08-20
抑郁症	日本	山德士有限公司	1976-08-20
睡眠异常	日本	山德士有限公司	1976-08-20
恐惧	日本	山德士有限公司	1976-08-20
神经症性障碍	日本	山德士有限公司	1976-08-20