In vitro decontamination efficacy of the RSDL® (Reactive Skin Decontamination Lotion Kit) lotion component against riot control agents: Capsaicin, Mace™ (CN) and CS.

The study examined the degradation of riot control agents (RCAs): 2-chloroacetophenone (CN), 2-chlorobenzalmalononitrile (CS), and capsaicin, using the Reactive Skin Decontamination Lotion Kit (RSDL®) lotion and evaluated the the direct liquid phase reactivity of the RSDL lotion component with each RCA. RSDL lotion was mixed with the selected RCAs at different molar ratios. Reactivity of the active ingredient potassium 2,3-butanedione monoximate (KBDO) with the RCA was observed for one hour. Samples of 10 µL were taken and quenched, analyzed for residual RCA using LC-MS. CN, was degraded at molar ratios of two and above in less than 2 min. At a molar ratio of 1:1 KBDO:CN, ∼90 % of CN was degraded within 2 min, the remaining 10 % residual CN was observed for one hour without any change. CS, degradation of more than 68 % of CS was achieved at 20:1 M ratio of KBDO:CS within 1 h of reaction time. For capsaicin, no degradation was observed regardless of the higher molar ratios of up to 20:1 and longer reaction times of up to one hour. This study provides evaluation of neutralizing action of the RSDL lotion without assessment of the physical removal component by the RSDL Kit.

[On the stability of the irritant dibenz-[b,f]-[1,4]-oxazepine (substance CR)].

The objective of the present study was to determine the duration and conditions of persistence of the irritant dibenz-[b,f]-[1,4]-oxazepine (substance CR) on the environmental objects. The quantitative analysis of the substance on cotton fabric specimens was carried out using the approved method of high performance liquid chromatography (HPLC) with UV detection at different time periods and envirobmental conditions. It was shown that the main factor determining the lifetime of dibenz-[b,f]-[1,4]-oxazepine on the cotton fabric is the ambient conditions. By way of example, the "open" and "closed", storage of such specimens during 300 days resulted in the decrease of the amount of substance CR to 22.5 and 79% of the initial level respectively. By the end experiment (day 600) these values lowered to 3 and 52.5% respectively. Taken together, the results of the study indicate that dibenz-[b,f]-[1,4]-oxazepine can be described as a substance resistant to environmental impacts. It is comparable in terms of stability with such known irritants as capsicum oleoresin and pelargonic acid morpholide.

Investigation of accidental secondary exposure to CS agent.

We report on an unusual exposure to o-chlorobenzylidene malononitrile (CS agent) following its use to detect unauthorized stowaways aboard a vehicle, and the subsequent handling of the cargo delivered to retail stores across Scotland. Twenty-one staff in 16 retail stores across Scotland experienced symptoms including itching and running eyes, rhinorhoea, a burning sensation on the face and hands, and a burning throat, following the furniture deliveries. A survey was conducted to assess the extent of exposure to the contaminated furniture and the scale of illness associated with exposure. Experiencing symptoms was significantly associated with having contact with the furniture or packaging (chi(2) = 10.5, p < 0.001). This incident demonstrates the risk of inadvertent secondary exposure and subsequent acute symptoms from contact with residual CS agent when sprayed in the confined spaces of haulage vehicles.

[High performance liquid chromatography identification of chloracetophenone in ocular tissues in burns induced by gas balloons (an experimental study)]. / Identifikatsiia khloratsetofenona v tkaniakh glaza pri ozhogakh soderzhimym gazovykh ballonchikov metodom vysokoéffektivnoi zhidkostnoi khromatografii (éksperimental'noe issledovanie).

The kinetics of chloracetophenone (CN) in rabbit eyes was studied by high-performance liquid chromatography on a model of experimental third-degree burn. By the end of the first hour after exposure to the lacrimate, CN content was high in all the studied tissues: 28.5 +/- 0.563 x 10(-1) mg/kg in the cornea, 5.08 +/- 0.193 x 10(-1) mg/kg in the anterior chamber humor, and 3.26 +/- 0.123 x 10(-1) mg/kg in the vitreous. After 6 h the content of the irritant dropped almost threefold and was 8.5 +/- 0.403 x 10(-1) mg/kg in the cornea, 1.23 +/- 0.062 x 10(-1) mg/kg in the anterior chamber humor, and 0.017 +/- 0.006 x 10(-1) mg/kg in the vitreous. By the end of 24 h these values were 6.6 +/- 0.221, 1.46 +/- 0.123, and 0.015 +/- 0.005 x 10(-1) mg/kg, respectively, and by day 14 only trace amounts of CN were detected. Hence, CN in the Cheremukha gas balloons can penetrate into the inner structures of the eye and cause severe injuries. Persistence of CN for up to 14 days disordered the metabolic processes and anatomy of the eye. High content of CN during the first 7 days after burn requires adequate pathogenetic therapy.

[CS tear gas spray as an injurious agent. Clinical aspects]. / CS-tåregasspray som skadevoldende middel. Kliniske aspekter.

Eight cases are described, in which illegally imported CS-tear gas spray ("self-defence spray") were used in connection with malice or robbery. Analysis of the content of the sprays revealed small amounts of CS (0.2 per cent), but large amounts of solvents and propellants. The latter are presumed to have contributed to the symptoms. Exposure to CS-tear gas spray is usually harmless, but skin manifestations such as ulcerations, Quincke-like oedema in the face and allergic dermatitis have been reported by other authors. Theoretically, CS-particles may adhere to the cornea. Examination of the eye is therefore recommended.

Spectral differentiation and gas chromatographic/mass spectrometric analysis of the lacrimators 2-chloroacetophenone and o-chlorobenzylidene malononitrile.

2-Chloroacetophenone (CN) and o-chlorobenzylidene malononitrile (CS) are the most common chemical agents used as lacrimators in the United States. There is a lack of complete spectral data on these compounds in the literature. Spectral data (ultraviolet, fluorescence, proton nuclear magnetic resonance, and infrared) and a gas-liquid chromatographic/mass spectrometric method are presented that differentiate and identify CN and CS. These methods and data were used to identify a forensic science specimen from an accidental intoxication.

The identification of capsaicinoids in tear-gas spray.

"Natural" capsaicin has been identified in "Halt!" sprays by thin-layer chromatography (TLC), high performance liquid chromatography (HPLC), infrared spectrophotometry (IR), and gas chromatography/mass spectrometry (GC/MS). Individual capsaicinoids have been identified as capsaicin, dihydrocapsaicin, and nordihydrocapsaicin. The recommended analytical procedure for small samples is HPLC followed by GC/MS. The alternative procedure of solvent extraction and preparation TLC followed by IR is recommended for large samples.