Capsaicinoids, Chloropicrin and Sulfur Mustard: Possibilities for Exposure Biomarkers

Pesonen, Maija; Vähäkangas, Kirsi; Halme, Mia; Vanninen, Paula; Seulanto, Heikki; Hemmilä, Matti; Pasanen, Markku; Kuitunen, Tapio

doi:10.3389/fphar.2010.00140

Cited by 20 publications

(14 citation statements)

References 129 publications

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“…chlorine) (Gaskin et al, ); (3) vesicating agents (e.g. sulfur mustard) (Pesonen et al, ); and (4) organophosphorous compounds (i.e. nerve agents) (Pereira et al, ).…”

Section: Introductionmentioning

confidence: 99%

Comparison of four different fuller's earth formulations in skin decontamination

Roul

Gustin

et al. 2017

J of Applied Toxicology

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Industrial accidents, wars and terrorist threats are potential sources of skin contamination by highly toxic chemical warfare agents and manufacturing compounds. We have compared the time-dependent adsorption capacity and decontamination efficiency of fuller's earth (FE) for four different formulations for the molecular tracer, 4-cyanophenol (4-CP), in vitro and ex vivo using water decontamination as standard. The adsorption capacity of FE was assessed in vitro for 4-CP aqueous solutions whereas decontamination efficiency was investigated ex vivo by tracking porcine skin 4-CP content using attenuated total reflectance Fourier transform infrared spectroscopy. Decontamination was performed on short time, exposed porcine skin to 4-CP by application of FE: (1) as free powder; (2) loaded on adhesive tape; (3) on powdered glove; or (4) in suspension. Removal rate of 4-CP from aqueous solutions correlates with the amount of FE and its contact time. Decontamination efficiency estimated by the percentage of 4-CP recovery from contaminated porcine skin, achieved 54% with water, ranged between ~60 and 70% with dry FE and reached ~90% with FE suspension. Successful decontamination of the FE suspension, enabling a dramatic reduction of skin contamination after a brief exposure scenario, appears to be rapid, reliable and should be formulated in a new device ready to use for self-application.

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“…chlorine) (Gaskin et al, ); (3) vesicating agents (e.g. sulfur mustard) (Pesonen et al, ); and (4) organophosphorous compounds (i.e. nerve agents) (Pereira et al, ).…”

Section: Introductionmentioning

confidence: 99%

Comparison of four different fuller's earth formulations in skin decontamination

Roul

Gustin

et al. 2017

J of Applied Toxicology

View full text Add to dashboard Cite

show abstract

“…Furthermore, in view of the hypothesis of SM accumulation in adipose depots (Kehe et al 2008;Pesonen et al 2010;Somani and Babu 1989) mentioned in several reports but no animal experimental evidences to support this assumption, experiments on the tissue distribution of SM in rats after percutaneous exposure at three doses were performed. The distribution and the toxicokinetic behavior of intact SM in adipose tissues were initially investigated.…”

Section: Introductionmentioning

confidence: 99%

Accumulation of intact sulfur mustard in adipose tissue and toxicokinetics by chemical conversion and isotope-dilution liquid chromatography–tandem mass spectrometry

Zong

Zhang

et al. 2016

Arch Toxicol

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product, the real concentration of intact SM in biological samples was obtained accurately. The toxicokinetics and tissue distribution studies of intact SM in rats were successfully profiled by the novel method after intravenous (10 mg/kg) or cutaneous administration (1, 3 and 10 mg/ kg). The SM level in blood with peak time at 30-60 min determined in cutaneous exposure experiment was found much higher than previously reported, and the mean residence time in blood extended to 1-1.5 h. A significant accumulation of intact SM was observed in adipose tissues, including the perirenal fat, epididymal fat, subcutaneous fat and brown fat, in which the concentrations of SM were at least 15 times greater than those in non-adipose tissues in cutaneous exposed rats. The recovery of SM in body fat was calculated as 3.3 % of bioavailable SM (the bioavailability after cutaneous exposure was evaluated as 16 %). Thus, the adipose tissue was important for SM distribution and toxicity, which may pioneer a new model for both the prevention and treatment of SM exposure.Abstract Sulfur mustard (SM) is a powerful vesicant and one of the most harmful chemical warfare agents. Although having been studied for a long time, it is still difficult to fully elucidate the mechanisms of SM poisoning, and there is no effective antidote or specific treatment for SM injury. The investigations on toxicokinetics and tissue distribution of SM will help to understand its toxicity and provide a theoretical basis for pretreatment and therapy of SM poisoning. But the metabolic trajectory or fate of intact SM in vivo remains unclear, and there are insufficient experimental data to elucidate, due to its high reactivity and difficulty in biomedical sample analysis. In this paper, a sensitive method for the detection and quantification of intact SM in blood or tissues using isotope-dilution LC-MS/ MS coupled with chemical conversion was developed. By transforming highly reactive SM into stable derivative Bin Xu and Cheng Zong have contributed equally to this work. Electronic supplementary materialThe online version of this article (

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“…[114][115][116] Despite the different mode-of-action of SMs (hydrolysis and conjugation to glutathione involving β-lyase and S-oxidation) many studies indicate that DNA alkylation is related to its toxicity. 117 The alkylation pathway of both mustards follow a similar mechanism through a three-membered heterocycle and preferentially modifying the N7 position of guanine in DNA, comparable to the natural products leinamycin and azinomycin discussed in the previous section. In a first step the aziridium or episulfonium is attacked by a guanine residue.…”

Section: Artificial Chemical Agents Acting On Nucleobasesmentioning

confidence: 85%

Properties and reactivity of nucleic acids relevant to epigenomics, transcriptomics, and therapeutics

2016

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Developments in epigenomics, toxicology, and therapeutic nucleic acids all rely on a precise understanding of nucleic acid properties and chemical reactivity. In this review we discuss the properties and chemical reactivity of each nucleobase and attempt to provide some general principles for nucleic acid targeting or engineering. For adenine-thymine and guaninecytosine base pairs, we review recent quantum chemical estimates of their Watson-Crick interaction energy, - stacking energies, as well as the nuclear quantum effects on tautomerism. Reactions that target nucleobases have been crucial in the development of new sequencing technologies and we believe further developments in nucleic acid chemistry will be required to deconstruct the enormously complex transcriptome.

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Capsaicinoids, Chloropicrin and Sulfur Mustard: Possibilities for Exposure Biomarkers

Cited by 20 publications

References 129 publications

Comparison of four different fuller's earth formulations in skin decontamination

Comparison of four different fuller's earth formulations in skin decontamination

Accumulation of intact sulfur mustard in adipose tissue and toxicokinetics by chemical conversion and isotope-dilution liquid chromatography–tandem mass spectrometry

Properties and reactivity of nucleic acids relevant to epigenomics, transcriptomics, and therapeutics

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