Analytische Chemie
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Drug facilitated sexual assaults (chemical submission) consists in the criminal administration of psychoactive substances without the permission of the victim. Among these compounds, scopolamine (SCP) (commonly well-known as burundanga} has emerged as the perfect psychotropic substance for aggressors because its ingestion induces automatism in the brain of the victim causing a state of submission. Physiologically, an appealing feature of SCP is their relevant role as a non-competitive muscarinic acetylcholine receptor antagonist with rapid and robust antidepressant effects in humans and other species. Specifically, SCP is able to block or dampen the biological response because of binding to an allosteric recombinant human muscarinic acetylcholine receptor M2/CM2 (Mi-AChR) site that is separate from the active recognition site of acetylcholine, thereby inhibiting the effects of the natural substrate and even of a potent agonist such as bethanechol. Here, a straightforward portable strip in combination with bioinspired hybrid nanomaterials for SCP drug in situ and at site detection was developed. The strips allow direct identification of SCP in diluted saliva down to 40 nM in less than 15 min using a smartphone for readout. For this purpose, we prepared a nanosensor based on mesoporous silica nanoparticles {MSNs) loaded with a fluorescent dye and functionalized with bethanechol. Attachment of the M2-AChR 'cap' to the silica scaffold enabled pore closure through non-covalent recognition. interactions with the anchored bethanechol moieties. In the presence of SCP pores were opened, due to the preferential interaction of the drug with receptor, thus releasing the encapsulated reporter and allowing it to be detected. Additionally, to a single-track strip, the extraordinary modularity of the hybrid biosensor materials in combination with the strip-pattering technologies enabled us to obtain a dual-channel strip for SCP and cannibal drug detection in a simple way, providing comparable analytical performance, while enabling further tailoring to the user's needs.
γ-Hydroxybutyric acid (GHB) is a natural metabolite, which is currently used as a date rape drug. Particularly, GHB is rapidly eliminated and its detection in realistic environments is only possible within 6-12 h after ingestion. Owing to the increasing use of GHB for criminal purposes, a need has arisen to develop simple and in situ efficient assays for its identification in aqueous and alcoholic drinks. Based on the above, we report herein an indicator displacement assay (IDA) for GHB detection that consists of a Cu2+ complex with a tetradentate ligand and the fluorescent dye coumarin 343 (IDA probe 1). Firstly, the tetradentate ligand was synthesized by reductive amination of a 1,2-cyclohexyl diamine with 2-quinoline carboxaldehyde. Subsequently, this ligand was reacted with Cu(CF3SO3)2 to obtain the corresponding copper complex, which generates the final sensing ensemble by coordinating with coumarin 343 (IDA probe 1). The sensing mechanism relies on a displacement of coumarin 343 from the sensing ensemble 1 thus restoring its fluorescence, as a consequence of the higher binding constant between GHB and complex, showing a high sensitivity in MES buffer (50 mM, pH 6.0) (detection limit of 0.03 μM). Likewise, system design and optimization led to a straightforward integration into a lateral-flow assay without further treatment or conditioning of the test strips while guaranteeing fast overall assay times of 1 min (Figure 1). In this way, IDA probe 1 was incorporated into a coated PEG-glass fibre (PEG-GF) membrane to obtain a highly robust and sensitive lateral flow assay for GHB detection in spiked alcoholic drinks with a detection limit of 0.1 μM in less than 1 min coupled to smartphone readout.
A vast number of emerging pollutants is being detected in the environment. Another lingering problem are health-threatening contaminants, such as mycotoxins, that deteriorate food and feed.
Analytical methods, suitable for trace analysis, are needed that are desirably also fast, inexpensive and, if possible, robust, and portable. Immunoanalytical, i.e., anti-body-based technologies, which are available in a broad range of formats, can be profitably used here to analyze for the distribution and the concentration trends of contaminants.
Some of these formats are single-analyte but high-throughput methods. To use them wisely, indicator substances or sum parameters must be established to be used in screening approaches. Other methods are suitable to be performed on portable in-strumentation in the field (on-site), more precisely at the point-of-need. Furthermore, there are array technologies that allow for parallel analysis of several analytes of interest (multiplexing). The talk reports on methods and data for compounds con-sidered as anthropogenic contamination markers (the antiepileptic carbamazepine, the analgesic diclofenac, the anti-histaminic cetirizine, the steroid hormone estrone, the antimicrobial amoxicillin, the stimulants caffeine and cocaine, the endocrine disruptor bisphenol A, and a bile acid). Some work on mycotoxins (ochratoxin A and ergot alkaloids) is also presented. It is demonstrated that antibody-based technolo-gies have a huge potential to gain analytical insights at the point-of-need.