Your search keyword '"MUSTARD gas"' showing total 4,571 results

1. Interface-regulated S-type core–shell PCN-224@TiO2 heterojunction for visible-light-driven generation of singlet oxygen for selective photooxidation of 2-chloroethyl ethyl sulfide.

Author

Hu, Xin, Yang, Ying, Li, Nan, Huang, Chengcheng, Zhou, Yunshan, Zhang, Lijuan, Zhong, Yuxu, Liu, Yanqin, and Wang, Yao

Subjects

*REACTIVE oxygen species, *MUSTARD gas, *ELECTRON-hole recombination, *VISIBLE spectra, *ELECTRIC fields, *SULFOXIDES

Abstract

[Display omitted] Selective oxidation of sulfur mustard gas (HD) to non-toxic sulfoxide by the visible-light-catalyzed generation of singlet oxygen (1O 2) is a promising degradation strategy. Although PCN-224 can absorb visible light, it suffers from rapid electron-hole recombination and low redox capacity, which limits the performance of HD degradation. Titanium dioxide (TiO 2) is an excellent photocatalyst but it lacks visible-light-activity in degrading HD. In this study, PCN-224@TiO 2 heterojunction with S-type core–shell structure was synthesized by in-situ growth method to prolong the visible light absorption capacity of TiO 2 and inhibit the rapid recombination of PCN-224. The interface formation and internal electric field were optimized by adjusting the Zr/Ti ratio to enhance the charge transfer, redox capacity, electron-hole separation, and visible light absorption. In this study, the formation of heterojunction composites based on Zr-O-Ti linkages is demonstrated by a series of characterization methods. It is demonstrated by experiments and theoretical calculations that PCN-224@TiO 2 can generate nearly 100 % 1O 2 under visible light conditions without a sacrificial agent, resulting in efficient and selective oxidation of 2-chloroethyl ethyl sulfide (CEES), a simulant of HD, to non-toxic sulfoxide form. [ABSTRACT FROM AUTHOR]

Published

2024

2. The blistering warfare agent O-mustard (agent T) generates protein-adducts with human serum albumin useful for biomedical verification of exposure and forms intramolecular cross-links.

Author

Blum, Marc-Michael, Schmeißer, Wolfgang, Dentzel, Marina, Thiermann, Horst, and John, Harald

Subjects

*MUSTARD gas, *AMINO acid residues, *CHEMICAL weapons, *SERUM albumin, *MOLECULAR dynamics

Abstract

The highly blistering sulfur mustard analogue agent T (bis(2-chloroethylthioethyl) ether), also known as O-mustard or oxy-mustard, is a common impurity in military grade sulfur mustard (SM) and a component of mixtures such as "HT" that are still found in old munitions. Together with sesquimustard (Q), it is the most important SM analogue and tightly regulated as a Schedule 1 chemical under the Chemical Weapons Convention. We report the adducts of T with nucleophilic Cys34 and other residues in human serum albumin (HSA) formed in vitro. A micro liquid chromatography electrospray ionization high-resolution tandem-mass spectrometry method (µLC-ESI MS/HR MS) was developed for the detection and identification of biomarker peptides alkylated by a T-derived hydroxyethylthioethyloxyethylthioethyl (HETEOETE)-moiety (as indicated by an asterisk below). Following proteolysis of T-exposed human plasma with pronase, the dipeptide Cys34*Pro and the single amino acid residue His* were produced. The use of proteinase K yielded Cys34*ProPhe and the use of pepsin generated ValThrGlu48*Phe, AlaGlu230*ValSerLysLeu, and LeuGlyMet329*Phe. Corresponding peptide-adducts of SM and Q were detected in a common workflow that in principle allowed the estimation of the mustard or mustard composition encountered during exposure. Novel adducts of Q at the Glu230 and Met239 residues were detected and are reported accordingly. Based on molecular dynamics simulations, we identified regular interactions of the Cys34(-HETEOETE)-moiety with several glutamic acid residues in HSA including Glu86, which is not an obvious interaction partner by visual inspection of the HSA crystal structure. The existence of this and other intramolecular cross-links was experimentally proven for the first time. [ABSTRACT FROM AUTHOR]

Published

2024

3. Detoxification of toxic nerve agent sarin utilizing cupric oxide functionalized activated carbon fabric composite for advanced NBC Protective Clothing.

Author

Dhyani, Himanshi, Adivarekar, R.V., Thakare, Vikas. B., Bharati, Suraj, Agarwal, Kavita, Sonkar, Atul K., Roy, Tuhin, and Garg, Prabhat

Subjects

*CHEMICAL warfare agents, *MUSTARD gas, *NERVE gases, *GAS chromatography/Mass spectrometry (GC-MS), *TENSILE tests

Abstract

This investigation delves into the development of cupric oxide functionalized activated carbon fabrics (ACF@CuO) as a filter material for self-decontaminating protective clothing designed to counter chemical warfare agents (CWAs). Three variants of samples were developed by controlling functionalization levels (7.5%, 13.0%, 16.0% w/w) through optimized precursor concentrations, integrating CuO particles onto ACF surfaces. Comprehensive analysis using techniques like FTIR, BET surface area, SEM, EDX, STEM, XRD, TGA, and XPS explored the material's properties. The studies concentrated on evaluating the performance through kinetic studies of self-detoxification of CWA Sarin (GB) using developed ACF@CuO materials analyzed by Gas Chromatography-Mass Spectrometry (GC-MS). ACF@CuO with 16% w/w functionalization exhibited superior self-decontamination against GB, achieving 92.87% efficiency within 18 hours, in contrast to 26.55% for ACF alone. Additionally, materials were tested for tensile strength, air-permeability, and Sulfur Mustard breakthrough time (HDBTT) as per IS 17377:2020 standard. The material with 13% w/w functionalization emerged as the recommended filter layer for CWA protective clothing designed for defense and civilian safety applications. The significant improvements in the self-decontamination efficiency of the material were attributed to the synergistic effects of ACF's adsorption capabilities combined with the decontamination properties of CuO rod-shaped crystals embedded in the surface of ACF. [ABSTRACT FROM AUTHOR]

Published

2024

4. Mesenchymal Stem Cell Therapy Mitigates Acute and Chronic Lung Damages of Sulfur Mustard Analog Exposure.

Author

Tapak, Mahtab, Sadeghi, Somaye, Ghazanfari, Tooba, Mosaffa, Nariman, Mirsanei, S. Zahra, and Masiha Hashemi, Seyed Mahmoud

Subjects

*MUSTARD gas, *TREATMENT effectiveness, *MESENCHYMAL stem cells, *STEM cell treatment, *ENZYME-linked immunosorbent assay

Abstract

Sulfur mustard (SM) is an established chemical weapon that can result in severe damage to parts of the body. Currently, there are no effective treatments available for SM-caused damage. We aimed to investigate the therapeutic potential of adipose-derived mesenchymal stromal cells (AD-MSCs) and conditioned medium (CM-MSCs) in acute and chronic pulmonary mouse models caused by 2- chloroethyl ethyl sulfide (CEES), an SM analog. The mice were divided into 4 experimental groups:(1) CEES+AD-MSCs, (2) CEES+CMMSCs, (3) CEES, and (4) control. The model observation time was divided into 7 days for the short and 6 months for the long term. AD-MSCs were injected into mice via intraperitoneal injection 24 hours after CEES exposure. The therapeutic effects of AD-MSCs on pulmonary tissue damage were assessed using a histopathologic assay, measuring the neutrophil count, and bronchial alveolar lavage fluid (BALF) protein level. The levels of inflammatory and anti-inflammatory cytokines were evaluated using the enzyme-linked immunosorbent assay as the outcomes of interest. Lung damage progression was reduced by AD-MSC treatment in mice after CEES injection into the peritoneum. The proportion of CD11b+F4/80+ macrophages in the peritoneum was significantly lowered by AD-MSC treatment following CEES exposure. AD-MSC administration also reduced the level of pro-inflammatory cytokines, BALF protein, and nitric oxide levels in the peritoneal cavity. By reducing inflammation and enhancing tissue healing, AD-MSCs and CM-MSC help prevent acute lung damage caused by CEES. The current study supports the use of a mouse model as a solid experimental foundation and indicates potential use for future cell treatment. [ABSTRACT FROM AUTHOR]

Published

2024

5. Linker Modulation of Covalent Organic Frameworks at Atomic Level for Enhanced and Selective Photocatalytic Oxidation of Thioether.

Author

Huang, Tianhang, Kou, Jinfang, Yuan, Hua, Guo, Hongyan, Yuan, Kun, Li, Hu, Wang, Fushan, and Dong, Zhengping

Subjects

*PHOTOCATALYTIC oxidation, *MUSTARD gas, *PHOTOCATALYSTS, *CATALYTIC activity, *CHARGE transfer

Abstract

Atomic‐level modulation of covalent organic frameworks (COFs) structure for enhanced photocatalytic oxidation is highly important but still challenging. Herein, a series of β‐ketoenamine‐linked COFs have been synthesized by using 2,4,6‐triformyl‐phloroglucinol (Tp) as a modular molecule, 5,5′‐Diamino‐2,2′‐bipyridine (Bpy), and 3,6‐Pyridazinediamine (Dz) linkers with atomic level N sites substitute 4,4′‐diamino‐bipheny (BD) and 1,4‐phenylenediamine (Pa) to construct COFs with adjustable photocatalytic performance. Mechanism study reveals that in COFs with N sites‐based linkers, 1O2 adsorbed on the pore walls of TpBpy‐COF (−4.23 kcal mol−1) and TpDz‐COF (−4.63 kcal mol−1) with higher adsorption energy than on TpBD‐COF (−2.73 kcal mol−1) and TpPa‐COF (−2.17 kcal mol−1), enabling 1O2 activation and high catalytic performance toward thioether oxidation with almost >99% conversion, outperforming most reported organic photocatalysts. Notably, TpBpy‐COF exhibits a superior catalytic activity for thioether oxidation (e.g., aromatic thioethers, aliphatic sulfide, and Mustard Gas sulfide) because of its narrow bandgap, fast charge separation and transfer ability, and single‐ended activation ability. This study provides a novel and effective strategy for modulating exciton effects and photocatalytic activity of COFs‐based organic photocatalysts at the atomic level. [ABSTRACT FROM AUTHOR]

Published

2024

6. MOF-808@ANFs 气凝胶的制备及其对CEES 的 催化降解.

Author

石磊, 刘红岩, 姜楠, 宋俊, and 庄旭品

Subjects

CHEMICAL warfare, STRUCTURAL stability, AEROGELS, THERMAL properties, MUSTARD gas, THERMAL insulation

Abstract

Copyright of Journal of Tiangong University is the property of Journal of Tianjin Polytechnic University and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

7. GASSING HITLER.

Subjects

WORLD War I, MUSTARD gas, POISONOUS gases, RESPIRATORY protective devices, WAR, PRISONERS of war

Abstract

This article discusses the possibility that Adolf Hitler was gassed by British artillery during World War I. Hitler himself recounted the experience in his memoir, Mein Kampf, describing the effects of the gas on his eyes and voice. Most historians believe that the gas was mustard gas, although there is some disagreement. The article identifies the British artillery brigades that were likely responsible for firing the gas shells. It also mentions that Hitler's temporary blindness may have been psychosomatic, and that his hospital records from that time have been lost or destroyed. [Extracted from the article]

Published

2024

8. Glutathione conjugation of sesquimustard: in vitro investigation of potential biomarkers.

Author

Cenk, Muharrem, Bekiroğlu Ataş, Havva, and Sabuncuoğlu, Suna

Subjects

*MUSTARD gas, *SULFHYDRYL group, *GLUTATHIONE, *FREE groups, *CELL culture

Abstract

Sesquimustard (Q) is a powerful blistering agent that contains additional sulfur atoms. Sulfur mustard causes covalent bonding by alkylating nucleophilic groups of biologically important macromolecules such as lipids, proteins, DNA, or RNA. Most cells maintain relatively high amounts of a unique tripeptide called glutathione (GSH) (γ-glutamyl-cysteinyl glycine), which possesses a free thiol group, to prevent unwanted reactions caused by reactive chemical entities. Moreover, these thiol groups on cysteines (Cys) are the main target for alkylation. Although Q is the most potent vesicant among sulfur mustards, research studies identifying biomarkers of Q are very limited. Therefore, here in this study, we aimed to identify the GSH and Cys conjugates of Q using mass spectrometric methods and to observe the formation of these conjugates in HaCat cell culture following exposure to different doses. We identified four different conjugates of Q, which are bis-glutathionyl ethylthioethylthioethyl conjugate (GSH-ETETE-GSH), hydroxyethylthioethylthioethyl glutathione conjugate (HETETE-GSH), bis-cysteinyl ethylthioethylthioethyl conjugate (Cys-ETETE-Cys), and hydroxyethylthioethylthioethyl cysteine conjugate (HETETE-Cys). The identity of the conjugates was elucidated using liquid chromatography–high-resolution mass spectrometry (LC-HRMS). We also investigated changes in conjugate formation with exposure concentration and time elapsed after exposure in the cell culture. After exposure, GSH conjugates decreased until 1st hour, while Cys conjugates increased until 6th hour. We also observed that conjugate formation depended on the concentration of Q. This is the first study to elucidate the conjugates of Q dependent on GSH conjugation. As biomarkers are essential tools for evaluating exposure to Q, this study contributes to the limited number of studies identifying biomarkers for Q. [ABSTRACT FROM AUTHOR]

Published

2024

9. Efficient and Selective Aerobic Oxidative Desulfurization of Petroleum Using Dy2Sn2O7 Supported by Ar-C3N4 on Nanofibrous Titanium as a Nanoceramic.

Author

Khoshtabkh, Mostafa, Nobahari, Mehdi, Movahedifar, Seyed Mojtaba, Honarbakhsh, Amin, Zhiani, Rahele, and Sadeghzadeh, Seyed Mohsen

Subjects

*MUSTARD gas, *HETEROGENEOUS catalysts, *CATALYTIC activity, *TITANIUM oxides, *ORGANIC compounds

Abstract

Simultaneously fabricating a fibrous structure and phase junction has the potential to improve the separation of nano titanium oxide, catalytic activity, and catalytic power. It is important to maintain an easy and environmentally-friendly fabrication process. This research led to the successful creation of a sophisticated type of titanium oxide, featuring a TiO2/anatase phase interface and a significant unique outer layer. A unique exterior level was created using an eco-friendly method and modification of deep tunable solvents. This resulted in a 3D structure made of 2D ultrathin nanosheets with mesopores. We synthesized Dy2Sn2O7 nanoparticles and combined them with aromatic ring-doped C3N4 nanosheets (Ar-C3N4; Ar = Ph, Pm, Py,) which were deposited onto nanofibrous titanium (Dy2Sn2O7@Ar-C3N4/NFT) as a nanoceramic. The employment of NFT was discovered to supply numerous hydroxyl groups, enabling consistent loading of Ar-C3N4 via molecular binding engagement. By exploring the potential of fibrous structure in nanoceramic production, a novel and innovative approach is being pursued, which has the potential to revolutionize the field of catalysis in the petroleum industry. Moreover, Ar-C3N4 could adjust fibre sizes and offer active amino group adsorption sites, aiding in chemisorption with organic compounds. The surface features and porous architecture of the Dy2Sn2O7@Ar-C3N4/NFT composite were preserved after Dy2Sn2O7@Ar-C3N4 loading, suggesting the maintained crystalline form. This remarkable catalyst, displays an impressive capability in facilitating the desulfurization process, all while adhering to environmentally friendly conditions. Moreover, in order to further enhance its sustainability credentials, this catalyst has been crafted with the support of oxygen green oxidant, ensuring a greener approach to the desulfurization process. Remarkably, this entire process is carried out at atmospheric pressure and at low temperatures, ensuring energy conservation and minimizing any potential adverse effects. [ABSTRACT FROM AUTHOR]

Published

2024

10. Donor‐Acceptor Truxene‐Based Porous Polymers: Synthesis, Optoelectronic Characterization and Defense‐Related Applications.

Author

Méndez‐Gil, Nayara, Gámez‐Valenzuela, Sergio, Echeverri, Marcelo, Suyo, Gary H., Iglesias, Marta, Delgado, M. Carmen Ruiz, and Gómez‐Lor, Berta

Subjects

*POLYMERIZATION, *POROUS polymers, *MUSTARD gas, *ELECTRON donors, *PHOTOCATALYSTS, *PHOTOCATALYTIC oxidation

Abstract

Four donor‐acceptor (D‐A) polymers are synthesized by combining two different electron donors (truxene and its more electron rich triaza analogue, triindole) with an electron‐deficient monomer (benzothiadiazole) through two different positions (2,7,13 or 3,8,13) and their optoelectronic properties are studied by theoretical and experimental methods. One of the polymers exhibits remarkable sensing capabilities for explosive nitraoaromatics while another demonstrated efficient photocatalytic activity in the aerobic sulfoxidation of the sulfur mustard simulant 2‐chloro‐ethyl ethyl sulfide (MGS) sulfoxidation. These results highlight their potential applications in defense‐related areas. Moreover, the structure‐performance relationships observed among the four polymers have enabled us to deepen the understanding of the mechanisms underlying the performance of these polymers in the aforementioned applications, thereby providing valuable insights to further improve their properties. [ABSTRACT FROM AUTHOR]

Published

2024

11. Research Progress in the Degradation of Chemical Warfare Agent Simulants Using Metal–Organic Frameworks.

Author

Huang, Taotao, Chen, Qian, Jiang, Hui, and Zhang, Kui

Subjects

*CHEMICAL warfare agents, *CHEMICAL decomposition, *METAL-organic frameworks, *MUSTARD gas, *PORE size distribution, *NERVE gases

Abstract

Chemical warfare agents primarily comprise organophosphorus nerve agents, saliva alkaloids, cyanides, and mustard gas. Exposure to these agents can result in severe respiratory effects, including spasms, edema, and increased secretions leading to breathing difficulties and suffocation. Protecting public safety and national security from such threats has become an urgent priority. Porous metal–organic framework (MOF) materials have emerged as promising candidates for the degradation of chemical warfare agents due to their large surface area, tunable pore size distribution, and excellent catalytic performance. Furthermore, combining MOFs with polymers can enhance their elasticity and processability and improve their degradation performance. In this review, we summarize the literature of the past five years on MOF-based composite materials and their effectiveness in degrading chemical warfare agents. Moreover, we discuss key factors influencing their degradation efficiency, such as MOF structure, pore size, and functionalization strategies. Furthermore, we highlight recent developments in the design of MOF–polymer composites, which offer enhanced degradation performance and stability for practical applications in CWA degradation. These composite materials exhibit good performance in degrading chemical warfare agents, playing a crucial role in protecting public safety and maintaining national security. We can expect to see more breakthroughs in the application of metal–organic framework porous materials for degrading chemical warfare agents. It is hoped that these innovative materials will play a positive role in achieving social stability and security. [ABSTRACT FROM AUTHOR]

Published

2024

12. Metabolomics Analysis of Rabbit Plasma after Ocular Exposure to Vapors of Sulfur Mustard.

Author

Bouhlel, Jihéne, Caffin, Fanny, Gros-Désormeaux, Fanny, Douki, Thierry, Benoist, Jean-François, Castelli, Florence A., Chu-Van, Emeline, Piérard, Christophe, Junot, Christophe, and Fenaille, François

Subjects

SULFUR amino acids, INDUCTIVELY coupled plasma mass spectrometry, MUSTARD gas, ALKYLATING agents, OCULAR injuries

Abstract

Sulfur mustard (SM) is a highly potent alkylating vesicant agent and remains a relevant threat to both civilians and military personnel. The eyes are the most sensitive organ after airborne SM exposure, causing ocular injuries with no antidote or specific therapeutics available. In order to identify relevant biomarkers and to obtain a deeper understanding of the underlying biochemical events, we performed an untargeted metabolomics analysis using liquid chromatography coupled to high-resolution mass spectrometry of plasma samples from New Zealand white rabbits ocularly exposed to vapors of SM. Metabolic profiles (332 unique metabolites) from SM-exposed (n = 16) and unexposed rabbits (n = 8) were compared at different time intervals from 1 to 28 days. The observed time-dependent changes in metabolic profiles highlighted the profound dysregulation of the sulfur amino acids, the phenylalanine, the tyrosine and tryptophan pathway, and the polyamine and purine biosynthesis, which could reflect antioxidant and anti-inflammatory activities. Taurine and 3,4-dihydroxy-phenylalanine (Dopa) seem to be specifically related to SM exposure and correspond well with the different phases of ocular damage, while the dysregulation of adenosine, polyamines, and acylcarnitines might be related to ocular neovascularization. Additionally, neither cysteine, N-acetylcysteine, or guanine SM adducts were detected in the plasma of exposed rabbits at any time point. Overall, our study provides an unprecedented view of the plasma metabolic changes post-SM ocular exposure, which may open up the development of potential new treatment strategies. [ABSTRACT FROM AUTHOR]

Published

2024

13. Aerobic Oxidative Desulfurization of Petroleum Refinery Products Using Biogenic Zn2MnO4 Dendritic Fibrous.

Author

Xu, Ning, Li, Yanzi, and Sadeghzadeh, Seyed Mohsen

Subjects

*PETROLEUM products, *CHEMICAL processes, *PETROLEUM refineries, *DESULFURIZATION, *MUSTARD gas, *SUZUKI reaction, *FUEL cells

Abstract

Cutting off refractory organosulfur compounds is an immense need in the modern age of petroleum refineries. The oxidation of these hard organosulfur compounds is dynamic in the course of deep oxidative desulfurization. Atmospheric molecular oxygen is an organic, innocuous, abundant, and economical oxidant. Microorganisms synthesize dendritic fibrous nanoparticles (DFNPs) in exposure to metal ions. In this research, microorganisms were used to produce Zn2MnO4 DFNPs in a biological process instead of a chemical method as a nanocatalyst. This biogenic nanoparticle has been used for the first time as a recyclable catalyst with external magnet and efficient in desulfurization process under environmentally friendly conditions with support of oxygen green oxidant, at atmospheric pressure, at low temperature, green water extraction agent, Distilled with the help of ultrasound as a source of green energy in a shorter time. This strategy has marvelous profits, including high economic yield and tolerance of functional groups. The present study underscores how metabolic processes in anaerobic bacteria could be mixed with green chemical technologies to generate extremely efficient catalytic reactions for ultrasound-assisted oxidative desulfurization of simulated fuel, natural gasoline, and sulfur mustard analogs. [ABSTRACT FROM AUTHOR]

Published

2024

14. Cancer: On the Development of Chemotherapy.

Author

King, Demianna

Abstract

Copyright of Saber & Scroll Historical Journal is the property of Policy Studies Organization and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

15. Analytical methods based on liquid chromatography for the analysis of albumin adducts involved in retrospective biomonitoring of exposure to mustard agents.

Author

Avigo, Lorenzo, Hallez, Florine, Combès, Audrey, Desoubries, Charlotte, Albaret, Christine, Bossée, Anne, and Pichon, Valérie

Subjects

*ADDUCTION, *LIQUID chromatography-mass spectrometry, *LIQUID analysis, *LIQUID chromatography, *ALBUMINS, *MUSTARD gas

Abstract

The objective of the present review is to list, describe, compare, and critically analyze the main procedures developed in the last 20 years for the analysis of digested alkylated peptides, resulting from the adduction of albumin by different mustard agents, and that can be used as biomarkers of exposure to these chemical agents. While many biomarkers of sulfur mustard, its analogues, and nitrogen mustards can easily be collected in urine such as their hydrolysis products, albumin adducts require blood or plasma collection to be analyzed. Nonetheless, albumin adducts offer a wider period of detectability in human exposed patients than urine found biomarkers with detection up to 25 days after exposure to the chemical agent. The detection of these digested alkylated peptides of adducted albumin constitutes unambiguous proof of exposure. However, their determination, especially when they are present at very low concentration levels, can be very difficult due to the complexity of the biological matrices. Therefore, numerous sample preparation procedures to extract albumin and to recover alkylated peptides after a digestion step using enzymes have been proposed prior to the analysis of the targeted peptides by liquid chromatography coupled to mass spectrometry method with or without derivatization step. This review describes and compares the numerous procedures including a number of different steps for the extraction and purification of adducted albumin and its digested peptides described in the literature to achieve detection limits for biological samples exposed to sulfur mustard, its analogues, and nitrogen mustards in the ng/mL range. [ABSTRACT FROM AUTHOR]

Published

2024

16. Highly specific and sensitive chromo-fluorogenic detection of sarin, tabun, and mustard gas stimulants: a multianalyte recognition approach.

Author

Tohora, Najmin, Ahamed, Sabbir, Mahato, Manas, Sultana, Tuhina, Chourasia, Jyoti, Maiti, Arpita, and Das, Sudhir Kumar

Subjects

*MUSTARD gas, *CHEMICAL warfare agents, *TABUN, *SARIN, *NERVE gases, *STIMULANTS

Abstract

Nerve agents are the most notorious substances, which can be fatal to an individual because they block the activity of acetylcholinesterase. Fighting against unpredictable terrorist assaults and wars requires the simple and quick detection of chemical warfare agent vapor. In the present contribution, we have introduced a rhodamine-based chemosensor, BDHA, for the detection of nerve gas-mimicking agents diethylchlorophosphate (DCP) and diethylcyanophosphonate (DCNP) and mustard gas-mimicking agent 2-chloroethyl ethyl sulfide (CEES), both in the liquid and vapor phase. Probe BDHA provides the ability for detection by the naked eye in terms of colorimetric and fluorometric changes. It has been revealed that the interaction between nerve agents mimics and probe BDHA facilitates spirolactam ring opening due to the phosphorylation process. Thus, the highly fluorescent and colored species developed while probe BDHA is colorless and non-fluorescent due to the intramolecular spirolactam ring. Moreover, probe BDHA can effectively recognize DCP, DCNP, and CEES in the µM range despite many toxic analytes and could be identified based on the response times and quantum yield values. Inexpensive, easily carried paper strips-based test kits were developed for the quick, on-location solid and vapor phase detection of these mustard gas imitating agents (CEES) and nerve gas mimicking agents (DCP and DCNP) without needing expensive equipment or skilled personnel. More remarkably, the test strips' color and fluorescence can be rapidly restored, exposing them to triethyl amine (TEA) for cyclic use, suggesting a potential application in the real-time identification of chemical warfare agents. To accomplish the on-location application of BDHA, we have experimented with soil samples to find traces of DCP. Therefore, the chromo-fluorogenic probe BDHA is a promising, instantaneous, and on-the-spot monitoring tool for the selective detection of DCP, DCNP, and CEES in the presence of others. [ABSTRACT FROM AUTHOR]

Published

2024

17. Recovery of wipe sampling of urban surfaces contaminated with blistering chemical warfare agents.

Author

Rozsypal, Tomáš and Nekvinda, Václav

Subjects

*CHEMICAL warfare agents, *SURFACE contamination, *CHEMICAL weapons, *SOLVENT extraction, *STANDARD deviations

Abstract

Effective sampling is a key step in the process of proving the use of chemical weapons. An alternative to collecting the respective sample is to perform a wipe of surface contamination. This work deals with the optimization of the wiping process of the surfaces of selected matrices contaminated with bis(2-chloroethyl)sulfide and tris(2-chloroethyl)amine. Optimization of the procedure was carried out in terms of the choice of wiping material, wetting solvent and extraction of the wiped contaminant. Furthermore, the time decrease of surface contamination was monitored. The effect of transport on the change in the observed recovery value was investigated and the measurement deviations of the wipe method were discussed. The resulting values of observed recovery were negatively influenced by the volatility of the analyte, the porosity of the matrix and the time that passed since the contamination. Viscose was evaluated as the most effective wipe material. Low relative standard deviations (≤7 %) were achieved with this material. The optimal wetting solvent was dichloromethane. There was no degradation of contaminants on the surface of the matrices, so the fate was only affected by evaporation and penetration into the material. [ABSTRACT FROM AUTHOR]

Published

2024

18. Divinyl sulfone, an oxidative metabolite of sulfur mustard, induces caspase-independent pyroptosis in hepatocytes.

Author

Li, Zhi, Ma, Bo, Xu, Hua, Gong, Mengqiang, Gao, Pengxia, Wang, Lili, and Xie, Jianwei

Subjects

*PYROPTOSIS, *LIVER cells, *MUSTARD gas, *REACTIVE oxygen species, *LUNGS, *HEPATOCELLULAR carcinoma

Abstract

Sulfur mustard (SM) is a highly toxic blister agent which has been used many times in several wars and conflicts and caused heavy casualties. Ease of production and lack of effective therapies make SM a potential threat to public health. SM intoxication causes severe damage on various target organs, such as the skin, eyes, and lungs. In addition, SM exposure can also lead to hepatotoxicity and severe liver injuries. However, despite decades of research, the molecular mechanism underlying SM-induced liver damage remains obscure. SM can be converted into various products via complex hepatic metabolism in vivo. There are some pieces of evidence that one of the oxidation products of SM, divinyl sulfone (DVS), exhibits even more significant toxicity than SM. Nevertheless, the molecular toxicology of DVS is still hardly known. In the present study, we confirmed that DVS is even more toxic than SM in the human hepatocellular carcinoma cell line HepG2. Further mechanistic study revealed that DVS exposure (200 μM) promotes pyroptosis in HepG2 cells, while SM (400 μM) mainly induces apoptosis. DVS induces gasdermin D (GSDMD) mediated pyroptosis, which is independent of caspases activation but depends on the large amounts of reactive oxygen species (ROS) and severe oxidative stress produced during DVS exposure. Our findings may provide novel insights for understanding the mechanism of SM poisoning and may be helpful to discover promising therapeutic strategies for SM intoxication. [ABSTRACT FROM AUTHOR]

Published

2024

19. Sensitive Materials Used in Surface Acoustic Wave Gas Sensors for Detecting Sulfur-Containing Compounds.

Author

Wang, Yuhang, Yan, Cancan, Liang, Chenlong, Liu, Ying, Li, Haoyang, Zhang, Caihong, Duan, Xine, and Pan, Yong

Subjects

*SURFACE acoustic wave sensors, *SURFACES (Technology), *ACOUSTIC surface waves, *MUSTARD gas, *POLYMER films, *SULFUR compounds

Abstract

There have been many studies on surface acoustic wave (SAW) sensors for detecting sulfur-containing toxic or harmful gases. This paper aims to give an overview of the current state of polymer films used in SAW sensors for detecting deleterious gases. By covering most of the important polymer materials, the structures and types of polymers are summarized, and a variety of devices with different frequencies, such as delay lines and array sensors for detecting mustard gas, hydrogen sulfide, and sulfur dioxide, are introduced. The preparation method of polymer films, the sensitivity of the SAW gas sensor, the limit of detection, the influence of temperature and humidity, and the anti-interference ability are discussed in detail. The advantages and disadvantages of the films are analyzed, and the potential application of polymer films in the future is also forecasted. [ABSTRACT FROM AUTHOR]

Published

2024

20. A miniaturized ozonolysis flow platform for expeditious sulfur mustard warfare simulant neutralization.

Author

Boddaert, Maxime, Bianchi, Pauline, Silva-Brenes, Diana V., Musina, Ancuta, Winter, Marc, Roth, Philippe M. C., Renard, Pierre-Yves, Legros, Julien, and Monbaliu, Jean-Christophe M.

Subjects

*MUSTARD gas, *CHEMICAL warfare agents, *OZONOLYSIS, *MILITARY science, *CHEMICAL kinetics

Abstract

This communication introduces a highly efficient, safe and sustainable flow protocol for the oxidative neutralization of sulfur-based chemical warfare agent simulants using ozone. The methodology employs preliminary in silico mechanistic studies and chemical analogy studies with DFT to scout reaction profiles and kinetics. It unveils crucial parameters that guide selectivity and prevent the formation of undesirable overoxidized by-products. This computational foundation is seamlessly translated into real-world neutralization experiments conducted under flow conditions, yielding remarkably swift neutralization rates under mild conditions. Full oxidative neutralization of CWA simulants with ozone is achieved within a second, without the need for additives or catalysts, in an EtOH/water mixture. This convergence of computational insights and experimental validation provides a promising avenue toward new neutralization protocols, foreseeing transformative possibilities with low waste generation and high safety. [ABSTRACT FROM AUTHOR]

Published

2024

21. Mouse Model of Nitrogen Mustard Ocular Surface Injury Characterization and Sphingolipid Signaling.

Author

Basu, Sandip K., Prislovsky, Amanda, Lenchik, Nataliya, Stephenson, Daniel J., Agarwal, Rajesh, Chalfant, Charles E., and Mandal, Nawajes

Subjects

*OCULAR injuries, *NITROGEN mustards, *LABORATORY mice, *SURFACE analysis, *ANIMAL disease models, *MUSTARD gas, *EYE drops

Abstract

Vesicating chemicals like sulfur mustard (SM) or nitrogen mustard (NM) can cause devastating damage to the eyes, skin, and lungs. Eyes, being the most sensitive, have complicated pathologies that can manifest immediately after exposure (acute) and last for years (chronic). No FDA-approved drug is available to be used as medical counter measures (MCMs) against such injuries. Understanding the pathological mechanisms in acute and chronic response of the eye is essential for developing effective MCMs. Here, we report the clinical and histopathological characterization of a mouse model of NM-induced ocular surface injury (entire surface) developed by treating the eye with 2% (w/v) NM solution for 5 min. Unlike the existing models of specific injury, our model showed severe ocular inflammation, including the eyelids, structural deformity of the corneal epithelium and stroma, and diminished visual and retinal functions. We also observed alterations of the inflammatory markers and their expression at different phases of the injury, along with an activation of acidic sphingomyelinase (aSMase), causing an increase in bioactive sphingolipid ceramide and a reduction in sphingomyelin levels. This novel ocular surface mouse model recapitulated the injuries reported in human, rabbit, and murine SM or NM injury models. NM exposure of the entire ocular surface in mice, which is similar to accidental or deliberate exposure in humans, showed severe ocular inflammation and caused irreversible alterations to the corneal structure and significant vision loss. It also showed an intricate interplay between inflammatory markers over the injury period and alteration in sphingolipid homeostasis in the early acute phase. [ABSTRACT FROM AUTHOR]

Published

2024

22. Prevalence of cardiovascular diseases following man-made disasters; a systematic review.

Author

Asl, Yousef Pashaei, Meshkini, Mohammad, and Faridaalaee, Gholamreza

Subjects

DISEASE prevalence, CARDIOVASCULAR diseases, MUSTARD gas, NUCLEAR accidents, DISASTERS

Abstract

Objective: Disasters increase the incidence of infectious and contagious diseases, non-communicable diseases, and trauma. This systematic review aims to investigate the impact of man-made disasters on cardiovascular diseases (CVDs). Methods: This is a systematic review conducted following the PRISMA protocol. The population, intervention, control, outcome (PICO) framework utilized for this research is as follows: P: people with CVDs; I: various manmade disasters; C: no intervention is being compared; O: prevalence, treatment, and management of the disease. In the present study, English-language articles published until November 9, 2022 that investigated CVDs in human-made disasters were included. We conducted an extensive search in Medline, Web of Science, Embase, and SCOPUS. Results: The primary search of the databases resulted in 1878 articles, from which 1219 non-duplicate records. Finally, 18 articles were included; 13 studies were in the area of nuclear and atomic accidents, four studies were related to the sulfur mustard gas, and one was related tomethyl chloride. Conclusion: CVDs increased in prevalence after man-made disasters, particularly among high-risk individuals. The likelihood of developing CVDs is higher with increasing dose, intensity, and duration of exposure. [ABSTRACT FROM AUTHOR]

Published

2024

23. Highly Sensitive and Selective MEMS Gas Sensor Based on WO 3 /Al 2 O 3 /Graphite for 2-Chloroethyl Ethyl Sulfide (2-CEES) Detection.

Author

Yang, Liangpan, Cheng, Wangze, Yan, Wenlong, Wen, Li, Xia, Changyue, Sun, Chuang, Hu, Doumeng, Zhao, Yunong, Guo, Xiaohui, Zeng, Wei, and Wang, Siliang

Subjects

GAS detectors, MUSTARD gas, SENSOR arrays, TUNGSTEN trioxide, COMPOSITE materials, SULFIDES, GRAPHITE

Abstract

The detection and monitoring of toxic and harmful gases play a vital role in environmental protection, human health, and industrial and agricultural production. However, it is still challenging to develop gas sensors for the detection of toxic and harmful gases with high sensitivity, good recovery and excellent selectivity. In this study, WO3/Al2O3/graphite composite materials were used for an MEMS 2-CEES gas sensor (dichlorodiethyl sulfide simulation), and the corresponding sensing properties were explored. The experimental results show that when the working temperature is 340 °C, the response of the sensor to 2-CEES gas with a concentration of 5.70 ppm is 69%, the response time is 5 s and the recovery time is 42 s. The sensor also has the advantages of long-term stability and high selectivity. Furthermore, the MEMS gas sensor array based on WO3/Al2O3/graphite composite materials has been achieved and also exhibits excellent sensing performance. Overall, this study provides a strategy for realizing high-performance dichlorodiethyl sulfide gas sensors. [ABSTRACT FROM AUTHOR]

Published

2024

24. Mustard Gas

Author

Pant, AB

Published

2024

25. New two fold interpenetrating 3D polyoxovanadate-based metal–organic framework as bifunctional catalyst for the removal of 2-chloroethyl ethyl sulfide and phenolic compounds

Author

Shuang Li, Yuan Zheng, Guo-Cheng Liu, Xiao-Hui Li, Zhong Zhang, and Xiu-Li Wang

Subjects

polyoxovanadate, metal–organic framework, bifunctional catalyst, selective oxidation, mustard gas, photodegradation, phenolic compounds, Inorganic chemistry, QD146-197

Abstract

The design and synthesis of a bifunctional catalyst to tackle environmental pollution caused by 2-chloroethyl ethyl sulfide (CEES) and phenolic compounds is meaningful. In this study, a new three-dimensional (3D) polyoxovanadate (POV)-based metal–organic framework, [Co(L)(V4O12)0.5(H2O)]·2H2O (1; L = N,N’-bis(3-methylpyridin-3-yl)-2,6-naphthalenediamide), was synthesized under hydrothermal conditions. 1 was characterized using single-crystal X-ray diffraction analysis, infrared spectroscopy, and powder X-ray diffraction. Structural analysis shows that the [V4O12]4– clusters and pairs of Co2+ cations are alternately connected to form a one-dimensional inorganic chain, eventually generating a 3D (4,4)-connected framework through the expansion of L, which exhibits a two fold interpenetration array. As a bifunctional catalyst, 1 exhibits satisfactory catalytic properties for the selective oxidation of 2-chloroethyl ethyl sulfide to the corresponding sulfoxide, with an effective conversion of > 99% and selectivity of 97%. Furthermore, 1 exhibits excellent photocatalytic degradation activity toward phenol, 2-chlorophenol, and m-cresol under visible light. The degradation efficiencies were above 92.6% for 140 min. The photocatalytic reaction kinetics, mechanisms of photodegradation, and recycling capability of phenol were also investigated in detail.

Published

2024

26. Study of the Long-Term Stability of Bis(2-chloroethyl)sulfide Biomarkers in Biomedical Samples.

Author

Koryagina, N. L., Shachneva, M. D., Leninsky, M. A., Savelieva, E. I., Karakashev, G. V., Kiskina, A. R., Khlebnikova, N. S., Krivorotov, D. V., and Kochura, D. M.

Subjects

*MUSTARD gas, *BIOMARKERS, *PLASMA stability, *SULFIDES, *CHEMICAL storage

Abstract

We studied the stability of plasma samples spiked with sulfur mustard (SM) and urine samples spiked with the SM metabolite, 1,1'-sulfonylbis[2-(methylsulfinyl)ethane] (SBMSE), upon long-term storage. The stability of biomarkers in biomedical samples was evaluated by measuring the concentrations of spiking chemicals during the storage at 4 and 30°C. Plasma samples were analyzed by GC–MS/MS for SM regenerated from protein adducts under the action of conc. HCl and by HPLC–HR-MS/MS for albumin adduct [S-HETE]-CPF. Urine was analyzed for intact SBMSE by HPLC–HR-MS/MS, and SBMSE reduced to 1,1'-sulfonylbis[2-(methylthio)ethane] was determined after its conversion with TiCl3 followed by GC–MS/MS measurements. A reference compound of SBMSE was synthesized and characterized in terms of authenticity and quantitative content. Procedures for the quantification of SM markers in biomedical samples in the concentration range 1–100 ng mL–1 were validated. The plasma samples were stable upon storage at 4 and 30°С for at least 41 days after spiking, whereas the urine samples proved to be unstable upon long-term storage at elevated temperatures. The results of the present study can be taken into account in selecting conditions for the transportation and storage of biosamples and for interpreting the results of the determination of the SM biomarker in samples from individuals affected in incidents related to exposure to sulfur mustard. [ABSTRACT FROM AUTHOR]

Published

2023

27. Life-Cycle-Dependent Toxicities of Mono- and Bifunctional Alkylating Agents in the 3R-Compliant Model Organism C. elegans.

Author

Ruszkiewicz, Joanna, Endig, Lisa, Güver, Ebru, Bürkle, Alexander, and Mangerich, Aswin

Subjects

*ALKYLATING agents, *CAENORHABDITIS elegans, *LIFE cycles (Biology), *MUSTARD gas, *TOXICITY testing, *DOPAMINE receptors, *MATERNAL age

Abstract

Caenorhabditis elegans (C. elegans) is gaining recognition and importance as an organismic model for toxicity testing in line with the 3Rs principle (replace, reduce, refine). In this study, we explored the use of C. elegans to examine the toxicities of alkylating sulphur mustard analogues, specifically the monofunctional agent 2-chloroethyl-ethyl sulphide (CEES) and the bifunctional, crosslinking agent mechlorethamine (HN2). We exposed wild-type worms at different life cycle stages (from larvae L1 to adulthood day 10) to CEES or HN2 and scored their viability 24 h later. The susceptibility of C. elegans to CEES and HN2 paralleled that of human cells, with HN2 exhibiting higher toxicity than CEES, reflected in LC50 values in the high µM to low mM range. Importantly, the effects were dependent on the worms' developmental stage as well as organismic age: the highest susceptibility was observed in L1, whereas the lowest was observed in L4 worms. In adult worms, susceptibility to alkylating agents increased with advanced age, especially to HN2. To examine reproductive effects, L4 worms were exposed to CEES and HN2, and both the offspring and the percentage of unhatched eggs were assessed. Moreover, germline apoptosis was assessed by using ced-1p::GFP (MD701) worms. In contrast to concentrations that elicited low toxicities to L4 worms, CEES and HN2 were highly toxic to germline cells, manifesting as increased germline apoptosis as well as reduced offspring number and percentage of eggs hatched. Again, HN2 exhibited stronger effects than CEES. Compound specificity was also evident in toxicities to dopaminergic neurons–HN2 exposure affected expression of dopamine transporter DAT-1 (strain BY200) at lower concentrations than CEES, suggesting a higher neurotoxic effect. Mechanistically, nicotinamide adenine dinucleotide (NAD+) has been linked to mustard agent toxicities. Therefore, the NAD+-dependent system was investigated in the response to CEES and HN2 treatment. Overall NAD+ levels in worm extracts were revealed to be largely resistant to mustard exposure except for high concentrations, which lowered the NAD+ levels in L4 worms 24 h post-treatment. Interestingly, however, mutant worms lacking components of NAD+-dependent pathways involved in genome maintenance, namely pme-2, parg-2, and sirt-2.1 showed a higher and compound-specific susceptibility, indicating an active role of NAD+ in genotoxic stress response. In conclusion, the present results demonstrate that C. elegans represents an attractive model to study the toxicology of alkylating agents, which supports its use in mechanistic as well as intervention studies with major strength in the possibility to analyze toxicities at different life cycle stages. [ABSTRACT FROM AUTHOR]

Published

2023

28. Changes in hormones, Leukocyte Telomere Length (LTL), and p16INK4a expression in SM-exposed individuals in favor of the cellular senescence.

Author

Ardestani, Susan K., Jamali, Tahereh, Taravati, Ali, Behboudi, Hossein, Vaez-Mahdavi, Mohamad-Reza, Faghihzadeh, Elham, and Ghazanfari, Tooba

Subjects

*CELLULAR aging, *GENE expression, *LONGEVITY, *P16 gene, *CHEMICAL warfare agents, *TELOMERES, *MUSTARD gas

Abstract

Sulfur mustard (SM) is a chemical warfare agent with well-known severe toxic effects and may cause long-term debilitating injuries. We aimed to evaluate aging and longevity in Iranian SM-exposed survivors using some endocrine and molecular biomarkers for the first time. Dehydroepiandrosterone (DHEA), prolactin (PRL), cortisol, testosterone, and luteinizing hormone (LH) were measured in 289 male SM-veterans and 66 age-matched males using the ELISA method. Leukocyte Telomere Length (LTL) measurement and p16INK4a expression were measured in the peripheral blood leukocytes of 55 males who were exposed to SM. We found a significantly lower serum DHEAS level and higher serum PRL level in SM-exposed groups (without any related to the severity of lung injuries) compared to healthy controls, but no significant difference in serum levels of cortisol, testosterone, and LH. The molar ratio of DHEAS/cortisol was significantly higher in controls compared to the SM-exposed individuals especially those with severe lung damage. Some biological parameters of allostatic load score such as DHEAS and DHEAS/cortisol ratio significantly decreased long-term after the SM exposure. Additionally, we found that LTL was shorter in SM-exposed veterans rather than unexposed controls while p16INK4a gene expression significantly increased in these groups. It seems that DHEAS, DHEAS/cortisol ratio, LTL, and p16INK4a gene expression have changed significantly in favor of cellular senescence in SM-exposed patients. Therefore, it seems that SM exposure increases biological age compared to chronological age in SM-exposed survivors. [ABSTRACT FROM AUTHOR]

Published

2023

29. Multivariate Hydrogen‐Bonded Organic Frameworks with Tunable Permanent Porosities for Capture of a Mustard Gas Simulant.

Author

Yu Gao, Xiang, Wang, Yao, Wu, Enyu, Wang, Chen, Li, Bin, Zhou, Yaming, Chen, Banglin, and Li, Peng

Subjects

*POROUS materials, *NUCLEAR magnetic resonance, *MOLECULAR crystals, *POROSITY, *DENSITY functional theory, *MUSTARD gas

Abstract

Precise synthesis of topologically predictable and discrete molecular crystals with permanent porosities remains a long‐term challenge. Here, we report the first successful synthesis of a series of 11 isoreticular multivariate hydrogen‐bonded organic frameworks (MTV‐HOFs) from pyrene‐based derivatives bearing −H, −CH3, −NH2 and −F groups achieved by a shape‐fitted, π–π stacking self‐assembly strategy. These MTV‐HOFs are single‐crystalline materials composed of tecton, as verified by single‐crystal diffraction, nuclear magnetic resonance (NMR) spectra, Raman spectra, water sorption isotherms and density functional theory (DFT) calculations. These MTV‐HOFs exhibit tunable hydrophobicity with water uptake starting from 50 to 80 % relative humidity, by adjusting the combinations and ratios of functional groups. As a proof of application, the resulting MTV‐HOFs were shown to be capable of capturing a mustard gas simulant, 2‐chloroethyl ethyl sulfide (CEES) from moisture. The location of different functional groups within the pores of the MTV‐HOFs leads to a synergistic effect, which resulted in a superior CEES/H2O selectivity (up to 94 %) compared to that of the HOFs with only pure component and enhanced breakthrough performance (up to 4000 min/g) when compared to benchmark MOF materials. This work is an important advance in the synthesis of MTV‐HOFs, and provides a platform for the development of porous molecular materials for numerous applications. [ABSTRACT FROM AUTHOR]

Published

2023

30. Implementation of a knowledge‐based decision support system for treatment plan auditing through automation.

Author

Liu, Shi, Chapman, Katherine L., Berry, Sean L., Bertini, Julian, Ma, Rongtao, Fu, Yabo, Yang, Deshan, Moran, Jean M., and Della‐Biancia, Cesar

Subjects

*COMPUTERIZED auditing, *DECISION support systems, *AUDITING procedures, *EXTERNAL beam radiotherapy, *INTERNAL auditing, *STANDARDIZATION, *MUSTARD gas

Abstract

Background: Independent auditing is a necessary component of a comprehensive quality assurance (QA) program and can also be utilized for continuous quality improvement (QI) in various radiotherapy processes. Two senior physicists at our institution have been performing a time intensive manual audit of cross‐campus treatment plans annually, with the aim of further standardizing our planning procedures, updating policies and guidelines, and providing training opportunities of all staff members. Purpose: A knowledge‐based automated anomaly‐detection algorithm to provide decision support and strengthen our manual retrospective plan auditing process was developed. This standardized and improved the efficiency of the assessment of our external beam radiotherapy (EBRT) treatment planning across all eight campuses of our institution. Methods: A total of 843 external beam radiotherapy plans for 721 lung patients from January 2020 to March 2021 were automatically acquired from our clinical treatment planning and management systems. From each plan, 44 parameters were automatically extracted and pre‐processed. A knowledge‐based anomaly detection algorithm, namely, "isolation forest" (iForest), was then applied to the plan dataset. An anomaly score was determined for each plan using recursive partitioning mechanism. Top 20 plans ranked with the highest anomaly scores for each treatment technique (2D/3D/IMRT/VMAT/SBRT) including auto‐populated parameters were used to guide the manual auditing process and validated by two plan auditors. Results: The two auditors verified that 75.6% plans with the highest iForest anomaly scores have similar concerning qualities that may lead to actionable recommendations for our planning procedures and staff training materials. The time to audit a chart was approximately 20.8 min on average when done manually and 14.0 min when done with the iForest guidance. Approximately 6.8 min were saved per chart with the iForest method. For our typical internal audit review of 250 charts annually, the total time savings are approximately 30 hr per year. Conclusion: iForest effectively detects anomalous plans and strengthens our cross‐campus manual plan auditing procedure by adding decision support and further improve standardization. Due to the use of automation, this method was efficient and will be used to establish a standard plan auditing procedure, which could occur more frequently. [ABSTRACT FROM AUTHOR]

Published

2023

31. The Use of Laser Doppler Imaging in Nitric Acid Burns: A Case Report and Literature Review.

Author

Owoso, Toluwaniyin, Kankam, Hadyn K N, Abdulsalam, Abdulrazak, and Lewis, Darren

Subjects

LITERATURE reviews, CHEMICAL burns, NITRIC acid, MUSTARD gas, WORK-related injuries, LASERS

Abstract

Laser Doppler imaging (LDI) technology has been validated to assess thermal burn depth by predicting wound healing potential. However, there is no clear evidence for its use in chemical burns. We present a case of an 8% total burn surface area (TBSA) nitric acid burn following an industrial accident, in an otherwise healthy 36-year-old man. LDI assessment was suggestive of poor healing potential of >21 days, warranting surgical management. However, conservative management was opted for based on clinical assessment as the wound eschar appeared thin and more consistent with epithelial staining. Patient follow-up confirmed a total burn healing time of two months, suggesting that the LDI assessment was accurate. A comprehensive literature review was performed using the MEDLINE (PubMed) database to identify animal or clinical studies evaluating the efficacy of LDI in chemical burns. A qualitative synthesis of our findings is presented. We identified two experimental studies in porcine models with sulfur mustard burns, each confirming the accuracy of LDI assessment when compared to the histopathology findings. Limited experimental animal studies on the use of LDI suggest similar validity in chemical burns, and this correlates with the clinical outcome in this case. However, this alone is insufficient to prove its validity and define its role in the assessment of chemical burns. Clinical trials are required to further assess and define the parameters of LDI use and efficacy in this context. [ABSTRACT FROM AUTHOR]

Published

2023

32. NAD + Acts as a Protective Factor in Cellular Stress Response to DNA Alkylating Agents.

Author

Ruszkiewicz, Joanna, Papatheodorou, Ylea, Jäck, Nathalie, Melzig, Jasmin, Eble, Franziska, Pirker, Annika, Thomann, Marius, Haberer, Andreas, Rothmiller, Simone, Bürkle, Alexander, and Mangerich, Aswin

Subjects

*NAD (Coenzyme), *POLY ADP ribose, *ALKYLATING agents, *PROTECTIVE factors, *MUSTARD gas, *DNA repair, *NICOTINAMIDE

Abstract

Sulfur mustard (SM) and its derivatives are potent genotoxic agents, which have been shown to trigger the activation of poly (ADP-ribose) polymerases (PARPs) and the depletion of their substrate, nicotinamide adenine dinucleotide (NAD+). NAD+ is an essential molecule involved in numerous cellular pathways, including genome integrity and DNA repair, and thus, NAD+ supplementation might be beneficial for mitigating mustard-induced (geno)toxicity. In this study, the role of NAD+ depletion and elevation in the genotoxic stress response to SM derivatives, i.e., the monofunctional agent 2-chloroethyl-ethyl sulfide (CEES) and the crosslinking agent mechlorethamine (HN2), was investigated with the use of NAD+ booster nicotinamide riboside (NR) and NAD+ synthesis inhibitor FK866. The effects were analyzed in immortalized human keratinocytes (HaCaT) or monocyte-like cell line THP-1. In HaCaT cells, NR supplementation, increased NAD+ levels, and elevated PAR response, however, did not affect ATP levels or DNA damage repair, nor did it attenuate long- and short-term cytotoxicities. On the other hand, the depletion of cellular NAD+ via FK866 sensitized HaCaT cells to genotoxic stress, particularly CEES exposure, whereas NR supplementation, by increasing cellular NAD+ levels, rescued the sensitizing FK866 effect. Intriguingly, in THP-1 cells, the NR-induced elevation of cellular NAD+ levels did attenuate toxicity of the mustard compounds, especially upon CEES exposure. Together, our results reveal that NAD+ is an important molecule in the pathomechanism of SM derivatives, exhibiting compound-specificity. Moreover, the cell line-dependent protective effects of NR are indicative of system-specificity of the application of this NAD+ booster. [ABSTRACT FROM AUTHOR]

Published

2023

33. Recent advances in oxidative catalytic applications of polyoxovanadate-based inorganic–organic hybrids.

Author

Li, Jikun, Wei, Chuanping, Han, Yinfeng, and Hu, Changwen

Subjects

*MUSTARD gas, *ORGANIC compounds, *TRANSITION metals, *LIGNINS, *THIOPHENE derivatives, *SULFIDES

Abstract

Polyoxovanadates (POVs) have received widespread attention in catalytic applications due to their various structures and remarkable redox properties. By introducing a second transition metal, POV-based inorganic–organic hybrid (POVH) catalysts show increasing stability and more catalytic active sites compared with pure POVs. In this perspective article, POVH materials as oxidative catalysts have been classified into two main categories according to the interactions between transition metal-complex units and POV clusters: (i) hybrids with metal–organic units act as isolated cations and (ii) hybrids with an organic ligand coordinate to the second transition metal, which is further linked to a POV cluster via oxygen bridges directly or indirectly to give zero-, one-, two- or three-dimensional supramolecular structures. The oxidative conversion of organic compounds, including thiophene derivatives, thioethers, alkanes, alcohols, and alkenes, and oxidative detoxification of a sulfur mustard simulant or degradation of lignin, along with the oxidative photo/electrocatalytic transformation of organic compounds catalyzed by POVH materials, are discussed in detail. Furthermore, the challenges and prospects toward the development of POVH catalysts are explored briefly from our perspectives. [ABSTRACT FROM AUTHOR]

Published

2023

34. Polyoxometalate‐Incorporated CuI‐Resorcin[4]arene Metal‐Organic Complexes as Heterogeneous Catalysts for Catalytic Oxidation of Mustard Gas Simulant.

Author

Yu, Ming‐Yue, Liu, Jin‐Hua, Liu, Fang‐Wang, Zou, Fang, Zhang, Li, Gao, Qing‐Ping, Ren, Xiao‐Yan, Zhang, Qian, Liu, Shi‐Zhong, Dong, Chun‐Peng, Guo, Ting‐Ting, Ma, Tian‐Fang, and Pei, Wen‐Yuan

Subjects

*CATALYTIC oxidation, *MUSTARD gas, *HETEROGENEOUS catalysts, *CHEMICAL warfare agents, *METAL clusters

Abstract

Exploring efficient heterogeneous catalysts for catalytic oxidation of chemical warfare agents (CWAs) is highly desired. As a class of discrete anionic metal oxide clusters, polyoxometalates (POMs) provide abundant catalytic active sites, thus resulting their rich redox properties. Here, a family of known POM‐incorporated CuI‐resorcin[4]arene metal‐organic complexes, namely, [Cu4(TPTR4A)2][PW12O40](OH) ⋅ 0.5DMA ⋅ 5H2O (Cu‐PW), [Cu4(TPTR4 A)2][PMo12O40](OH) ⋅ 2DMA ⋅ H2O (Cu‐PMo) and [Cu4(TPTR4A)2][SiW12O40] ⋅ 2.5DMA (Cu‐SiW) were utilized as catalysts to promote the oxidation of 2‐chloroethyl ethyl sulfide (CEES). Strikingly, compared to the novel compound [Cu3Cl6(TPTR4A)(DMA)] ⋅ CH3CH2OH (defined as Cu‐T), the three complexes exhibited excellent stability, indicating that the integration of POMs and metal–organic units could improve the stability of the compounds. Moreover, Cu‐PMo and Cu‐PW showed higher activities for the catalytic oxidation of CEES to CEESO with selectivities both of 99 %. [ABSTRACT FROM AUTHOR]

Published

2023

35. Breathless war: martial bodies, aerial experiences and the atmospheres of empire.

Author

Brandimarte, Italo

Subjects

*WAR, *AIR warfare, *MUSTARD gas, *DRONE warfare, *HISTORY of colonies, *IMAGINATION, *INTIMATE partner violence

Abstract

Following a widespread fascination with drones, the materiality of aerial warfare – its bodies, embodied experiences, technologies – has received increasing attention in International Relations (IR) scholarship. This article pushes for a deeper, political theorisation of air in the study of war in its material and embodied dimensions through a critical reading of the Abyssinian War (1935–1936) – a central yet largely neglected conflict in the colonial history of world politics. Exploring the joint deployment of aeroplanes and mustard gas in Ethiopia via a mosaic of sources – literature, strategic thought, cartoons and memoirs – I argue that aerial relations expose the production of a racialised global order underpinned by more-than-human war experiences. Bringing together geographer Derek McCormack's concept of 'envelopment' and Black Studies scholar Christina Sharpe's idea of 'the weather', I show how Italy's imperial desires – and their international perceptions – cannot be theorised in separation from aerial experiences that are conceived as excessive of human bodies, sensing and imagination. This analysis thus makes two central contributions to the critical study of war in IR. First, an aerial reading of the Abyssinian War highlights the political importance of war experience beyond the human. Second, it challenges studies of drone warfare that reduce discussions of air to either the strategic, technical and ontological plane or to the intimate, embodied and phenomenological one. Instead, the more-than-human aerial experiences of the Abyssinian War call for a theorisation of air as both material and affective, technical and embodied, and grand strategic and intimate. [ABSTRACT FROM AUTHOR]

Published

2023

36. Mechanism of action of chlormethine gel in mycosis fungoides.

Author

Guenova, E., Ortiz‐Romero, P. L., Poligone, B., and Querfeld, C.

Subjects

*MYCOSIS fungoides, *CUTANEOUS T-cell lymphoma, *MUSTARD gas, *DRUG bioavailability, *WORLD War I, *STEM cell transplantation, *DRUG accessibility

Abstract

Mycosis fungoides (MF), the most common type of cutaneous T‐cell lymphoma, is characterized by proliferation of malignant skin‐tropic T cells. Progression from early‐stage disease (skin patches and/or plaques) to more advanced stages (cutaneous tumours, erythroderma or extracutaneous involvement) occurs slowly and can be discontinuous. Prognosis is poor for the ~25% of patients who progress to advanced disease. Patients at any stage of MF may experience reduced health‐related quality of life (QoL) via a spectrum of physically and psychologically debilitating symptoms that can impact many aspects of daily life. Allogeneic stem‐cell transplantation is a curative treatment option for some patients with advanced disease, but otherwise there is currently no cure for MF; patients are often refractory to several treatments and require lifelong management. The goals of therapy are symptom control, prevention of disease progression, avoidance of treatment‐related toxicity and maintenance/improvement of QoL. Although treatment regimens exist it can be difficult to know how to prioritize them, hence therapies are tailored according to patient needs and drug availabilities, following clinical recommendations. International consensus guidelines recommend skin‐directed therapies (SDTs) as first‐line treatment for early‐stage disease, and SDTs combined with systemic therapy for advanced stages. Chlormethine (CL), also known as mechlorethamine, chlorethazine, mustine, HN2, caryolysine and embichin, is a synthetic deoxyribonucleic acid‐alkylating agent that was used as a chemical weapon (mustard gas) during the First World War. Subsequent investigation revealed that survivors of mustard gas exposure had lymphocytopenia, and that CL could inhibit rapidly proliferating malignant T cells. CL has since been developed as a topical treatment for MF and prescribed as such for over 70 years. This review aims to summarize the current knowledge regarding the mechanism of action of CL in the cutaneous micro‐environment, in the specific context of MF treatment. [ABSTRACT FROM AUTHOR]

Published

2023

37. A critical review on emerging photoactive porous materials for sulfide oxidation and sulfur mustard decontamination.

Author

Kalita, Priyanka, Paul, Ratul, Boruah, Ankita, Dao, Duy Quang, Bhaumik, Asim, and Mondal, John

Subjects

*POROUS materials, *MUSTARD gas, *CHEMICAL warfare agents, *WEAPONS of mass destruction, *POROUS polymers, *IRAN-Iraq War, 1980-1988

Abstract

Chemical warfare agents (CWAs) have been classified as fatal weapons of mass destruction because of their toxicity and deadly consequences. Among other CWAs, sulfur mustards (HDs) were employed during the Iraq–Iran war (1984–1988), causing significant fatal effects for 100 000 military and civilian Iranians, and around 45000 people are still suffering from long-term health repercussions. Hence, the detection and detoxification of these acutely dangerous chemicals are critical for protecting ourselves and have thus sparked much scientific interest around the globe. In this regard, studies show that various photoresponsive porous organic materials like activated metal–organic-frameworks (MOFs), porous organic polymers (POPs), covalent organic frameworks (COFs), and TiO2-derived materials are highly effective for the photochemical detoxification of HDs. Given this context, we have traversed through the history of developing various photoresponsive porous materials and their efficacy in detoxifying CWAs, notably HDs. Moreover, we highlighted the numerous research methodologies reported to detect and modulate the excitonic effects in photoporous materials, which can tune the in situ-generated reactive oxygen species (ROS) responsible for HD detoxification. Lastly, we have listed the hurdles in creating photoactive porous materials and functionalizing them for large-scale HD detoxification. Although most of the described porous photocatalysts demonstrated good lab-scale performance, relatively few are accessible for large-scale industrial use. We have also addressed the future needs and potential for employing photoporous materials for efficient detoxification of HDs on an industrial scale to alleviate the issue of CWA/HD stockpiling and their potential use as a weapon of mass destruction. [ABSTRACT FROM AUTHOR]

Published

2023

38. Synthesis of Mo–doped symbiotic mixture of Bi2WO6 and Bi6O6(OH)3(NO3)3·1.5H2O nanosheets with enhanced photocatalytic degradation for mustard gas simulator 2-CEES

Author

Yang, Haoguo, Guo, Yijun, Han, Shitong, Xi, Hailing, Lin, Huaxiang, Yuan, Rusheng, Ding, Zhengxin, Long, Jinlin, and Lin, Qun

Subjects

*MUSTARD gas, *PHOTODEGRADATION, *MOLECULAR structure, *PHOTOCATALYSTS, *CHEMICAL weapons, *LEGUMES

Abstract

Mustard gas is a kind of erosive poison with great harm and used as a chemical weapon since World War. It has suggested that the photocatalytic technology is an effective method to eliminate it. Because the small difference in molecular structure between 2-CEES and Mustard gas, and the less toxic of 2-CEES, 2-CEES is often used as a simulator to evaluate the photocatalytic activity of catalysts. In this work, symbiotic mixture of Bi2WO6 and Bi6O6(OH)3(NO3)3·1.5H2O nanosheets doped with Mo (Mo-B-B) have been synthesized by a facile hydrothermal treatment. The samples were characterized by XRD, DRS, XPS, SEM, TEM, Raman, and PL. The photocatalytic activity of the samples was evaluated by measuring the degradation of 2-CEES under visible light irradiation. The results showed that the doped Mo reduce the Eg of bare symbiotic mixture and improve the separation efficiency of photo-generated carriers that is beneficial to photocatalytic activity. The optimum amount of doped Mo is 5% that exhibits the best activity for degradation for 2-CEES. [ABSTRACT FROM AUTHOR]

Published

2023

39. Advances in Metal–Organic Frameworks for the Removal of Chemical Warfare Agents: Insights into Hydrolysis and Oxidation Reaction Mechanisms.

Author

Oliver, Madeleine C. and Huang, Liangliang

Subjects

*CHEMICAL warfare agents, *METAL-organic frameworks, *MUSTARD gas, *NERVE gases, *CHEMICAL warfare

Abstract

The destruction of chemical warfare agents (CWAs) is a crucial area of research due to the ongoing evolution of toxic chemicals. Metal–organic frameworks (MOFs), a class of porous crystalline solids, have emerged as promising materials for this purpose. Their remarkable porosity and large surface areas enable superior adsorption, reactivity, and catalytic abilities, making them ideal for capturing and decomposing target species. Moreover, the tunable networks of MOFs allow customization of their chemical functionalities, making them practicable in personal protective equipment and adjustable to dynamic environments. This review paper focuses on experimental and computational studies investigating the removal of CWAs by MOFs, specifically emphasizing the removal of nerve agents (GB, GD, and VX) via hydrolysis and sulfur mustard (HD) via selective photooxidation. Among the different MOFs, zirconium-based MOFs exhibit extraordinary structural stability and reusability, rendering them the most promising materials for the hydrolytic and photooxidative degradation of CWAs. Accordingly, this work primarily concentrates on exploring the intrinsic catalytic reaction mechanisms in Zr-MOFs through first-principles approximations, as well as the design of efficient degradation strategies in the aqueous and solid phases through the establishment of Zr-MOF structure–property relationships. Recent progress in the tuning and functionalization of MOFs is also examined, aiming to enhance practical CWA removal under realistic battlefield conditions. By providing a comprehensive overview of experimental findings and computational insights, this review paper contributes to the advancement of MOF-based strategies for the destruction of CWAs and highlights the potential of these materials to address the challenges associated with chemical warfare. [ABSTRACT FROM AUTHOR]

Published

2023

40. Differential Expression of miR-21-5p, miR-20a-5p, TGF-β1, and TGF-β Receptor 2 in Skin, Serum, and Lung Samples Exposed to Sulfur Mustard.

Author

Valizadeh, Mohadeseh, Irani, Shiva, Tavallaei, Mahmood, and Soleimani, Masoud

Subjects

*GENE expression, *MUSTARD gas, *DNA synthesis, *RECEIVER operating characteristic curves, *TRANSFORMING growth factors-beta

Abstract

Sulfur mustard (SM) or mustard gas is a blister chemical agent that causes pulmonary damage by triggering inflammation and oxidative injury. Alterations in microRNA (miR) transcript levels are found in pulmonary diseases and even inflammation. Therefore, we evaluated the expression levels of miR-20a-5p, miR-21-5p, and two target transcripts (transforming growth factor-beta [TGF-β1] and TGF-β receptor 2 [TGFR2]) in lung, serum, and skin samples from patients exposed to SM. Total RNA was extracted from lung, serum, and skin samples of patients with moderate (n=10) and high (n=10) SM exposure, as well as 10 healthy subjects. Following the synthesis of complementary deoxyribonucleic acid using real-time polymerase chain reaction, we determined the expression levels of miR-20a-5p, miR-21-5p, TGF-β1, and TGFR2 transcripts. Furthermore, we evaluated the sensitivity and specificity of the chosen microRNAs by employing receiver operating characteristic (ROC) curves and calculating the area under the ROC curve. The results showed that miR-20a-5p and miR-21-5p expressions in the groups with moderate and high SM exposure were significantly lower than the normal controls. The expression analysis demonstrated that TGFR2 was significantly less expressed in skin samples exposed to SM in both groups of patients compared with healthy controls. Furthermore, the TGF-β1 expression in the skin samples of the group with moderate SM exposure was lower than that of the control group. Our findings suggest that miR-20a-5p, miR-21-5p, TGF-β1, and TGFR2 expressions could be used as potential biomarkers for discriminating SM-exposed patients from healthy individuals. [ABSTRACT FROM AUTHOR]

Published

2023

41. HMSCs exosome‐derived miR‐199a‐5p attenuates sulfur mustard‐associated oxidative stress via the CAV1/NRF2 signalling pathway.

Author

Gong, Chuchu, Gu, Zhengyan, Zhang, Xinkang, Xu, Qingqiang, Mao, Guanchao, Pei, Zhipeng, Meng, Wenqi, Cen, Jinfeng, Liu, Jihao, He, Xiaowen, Sun, Mingxue, and Xiao, Kai

Subjects

OXIDATIVE stress, CELLULAR signal transduction, MESENCHYMAL stem cells, CHEMICAL warfare agents, MUSTARD gas

Abstract

Sulfur mustard (SM) is a blister‐producing chemical warfare agent which could lead to a cascade of systemic damage, especially severe acute lung injury. Oxidative stress is considered to be vital processes for the SM toxicity mechanism. We previously proved the therapeutic effect of exosomes derived from bone marrow mesenchymal stromal cells in promoting the repair of alveolar epithelial barrier and inhibiting apoptosis. However, the key functional components in exosomes and the underlying mechanisms have not been fully elaborated. This research shed light on the function of the key components of human umbilical cord mesenchymal stem cell‐derived exosomes (HMSCs‐Ex). We noted that HMSCs‐Ex‐derived miR‐199a‐5p played a vital role in reducing pneumonocyte oxidative stress and apoptosis by reducing reactive oxygen species, lipid peroxidation products and increasing the activities of antioxidant enzymes in BEAS‐2B cells and mouse models after exposure to SM for 24 h. Furthermore, we demonstrated that the overexpression of miR‐199a‐5p in HMSCs‐Ex treatment induced a further decrease of Caveolin1 and the activation of the mRNA and protein level of NRF2, HO1 and NQO1, compared with HMSCs‐Ex administration. In summary, miR‐199a‐5p was one of the key molecules in HMSCs‐Ex that attenuated SM‐associated oxidative stress via regulating CAV1/NRF2 signalling pathway. [ABSTRACT FROM AUTHOR]

Published

2023

42. MG53 Mitigates Nitrogen Mustard-Induced Skin Injury.

Author

Li, Haichang, Li, Zhongguang, Li, Xiuchun, Cai, Chuanxi, Zhao, Serena Li, Merritt, Robert E., Zhou, Xinyu, Tan, Tao, Bergdall, Valerie, and Ma, Jianjie

Subjects

*SKIN injuries, *TOPICAL drug administration, *HUMAN stem cells, *SOFT tissue injuries, *HAIR follicles, *MUSTARD gas

Abstract

Sulfur mustard (SM) and nitrogen mustard (NM) are vesicant agents that cause skin injury and blistering through complicated cellular events, involving DNA damage, free radical formation, and lipid peroxidation. The development of therapeutic approaches targeting the multi-cellular process of tissue injury repair can potentially provide effective countermeasures to combat vesicant-induced dermal lesions. MG53 is a vital component of cell membrane repair. Previous studies have demonstrated that topical application of recombinant human MG53 (rhMG53) protein has the potential to promote wound healing. In this study, we further investigate the role of MG53 in NM-induced skin injury. Compared with wild-type mice, mg53−/− mice are more susceptible to NM-induced dermal injuries, whereas mice with sustained elevation of MG53 in circulation are resistant to dermal exposure of NM. Exposure of keratinocytes and human follicle stem cells to NM causes elevation of oxidative stress and intracellular aggregation of MG53, thus compromising MG53′s intrinsic cell membrane repair function. Topical rhMG53 application mitigates NM-induced dermal injury in mice. Histologic examination reveals the therapeutic benefits of rhMG53 are associated with the preservation of epidermal integrity and hair follicle structure in mice with dermal NM exposure. Overall, these findings identify MG53 as a potential therapeutic agent to mitigate vesicant-induced skin injuries. [ABSTRACT FROM AUTHOR]

Published

2023

43. Gut microbiota and chronic obstructive pulmonary disease: a Mendelian randomization study.

Author

Yi Wei, Xuechao Lu, and Chao Liu

Subjects

CHRONIC obstructive pulmonary disease, GUT microbiome, RANDOMIZATION (Statistics), GENOME-wide association studies, MUSTARD gas, ADRENERGIC beta agonists

Abstract

Background: A growing number of studies implies a strong association between gut microbiota and chronic obstructive pulmonary disease (COPD). However, the causal impact between gut microbiota and COPD remains unclear. As a result, we used a two-sample Mendelian randomization (MR) method to investigate the connection between gut microbiota and COPD in this study. Methods: The largest available genome-wide association study (GWAS) of gut microbiota was obtained from the MiBioGen consortium. Summary-level dataset for COPD were obtained from the FinnGen consortium. The main analysis method for determining the causal link between gut microbiota and COPD was inverse variance weighted (IVW). Subsequently, pleiotropy and heterogeneity tests were performed to determine the reliability of the results. Results: IVW method identified 9 bacterial taxa nominally associated with the risk of COPD. Class Actinobacteria (p = 0.020), genus Allisonella (p = 0.024), genus Coprococcus2 (p = 0.002) and genus Oscillospira (p = 0.018) were protective against COPD. In addition, order Desulfovibrionales (p = 0.011), family Desulfovibrionaceae (p = 0.039), family Peptococcaceae (p = 0.020), family Victivallaceae (p = 0.012) and genus Marvinbryantia (p = 0.017) were associated with a higher risk of COPD. No pleiotropy or heterogeneity were found. Conclusion: According to the findings of this MR analysis, a causal relationship exists between certain gut microbiota and COPD. New insights into the mechanisms of COPD mediated by gut microbiota are provided. [ABSTRACT FROM AUTHOR]

Published

2023

44. INTERNATIONAL RED CROSS AND RED CRESCENT MOVEMENT - THE SECOND ITALO-ETHIOPIAN WAR (1935-1936).

Author

HAPA, Anamaria and Munteanu, Nicoleta Annemarie

Subjects

POISONOUS gases, WAR, MUSTARD gas, HUMAN rights

Abstract

During the Second Italo-Ethiopian War (1935-1936), the mission led to the criticism of the Red Cross in the global arena because it violated the very same purpose that it promised to guard when establishing this international humanitarian movement as the institution failed to protect not only the Ethiopians but also their people are given the fact that they were the primary target of the Italians, their ambulances and hospitals being under attack. Italians were using asphyxiating gases and, most importantly, mustard gas which was prohibited in 1925. The Red Cross violated basic human rights when it refused to hold Italy accountable for its actions and let the Red Cross representatives be seriously injured without demanding justice on their part, without even criticizing the usage of the illegal gas. By not condemning fascist Italy, the Red Cross would gain personal benefits from it, but it did so at the expense of violating basic human rights. [ABSTRACT FROM AUTHOR]

Published

2023

45. The predictive association between radiological findings and lung cancer development in patients exposed to sulfur mustard gas: 4 decades follow up of 719 victims

Author

Shahin Kavousi, Hossein Akbarialiabad, Davood Mehrabani, Alireza Mohamadian, Aria Ghahramani, Ali Shirkhoda, and Reza Jalli

Subjects

Mustard gas, Lung neoplasms, Bronchiolitis obliterans, Pulmonary fibrosis, Bronchiectasis, Diseases of the respiratory system, RC705-779

Abstract

Abstract Background Respiratory diseases are the leading cause of morbidity and mortality in the survivors exposed to Sulfur Mustard (SM). The late abnormalities can be present as chronic bronchitis, tracheobronchial stenosis, asthma, bronchiectasis, airway narrowing, lung fibrosis, and lung cancers. This study aims to investigate the association between radiological findings and lung cancer development in patients exposed to sulfur mustard gas. Methods We entered 719 victims exposed to SM during the Iran–Iraq war into our follow-up study in a consensus manner. They were periodically followed with Chest HRCT scans from 2001 to an interval of 2014–2019. The mean year interval between exposure and the last follow-up was 38 years. For confirming the lung cancer in those with evidence of malignancy in their imaging, fine needle aspiration/biopsy and/or surgical intervention were done. Results Among 719 patients, 57% were free from any pathologic findings in their HRCT scan. Among the subjects who had the abnormal radiologic findings, Air Trapping (AT), Lung Fibrosis (LF), Bronchiectasis (B), and the evidence of lung cancer were found in 265 (36.9%), 207 (28.8%), 151 (21.0%), and 42 (5.8%), respectively. Adenocarcinoma (38.1%) was the most common type of cancer. The right lung was involved more than the left one regarding LF, B, and cancer (p value

Published

2022

46. Therapeutic Benefits of Stem Cells and Exosomes for Sulfur-Mustard-Induced Tissue Damage.

Author

Bosholm, Carol Christine, Zhu, Hainan, Yu, Pengfei, Cheng, Kun, Murphy, Sean Vincent, McNutt, Patrick Michael, and Zhang, Yuanyuan

Subjects

*STEM cells, *LUNGS, *MUSTARD gas, *EXOSOMES, *STEM cell treatment, *OCULAR injuries, *REGENERATION (Biology), *COATED vesicles

Abstract

Sulfur mustard (SM) is a highly toxic chemical agent that causes severe tissue damage, particularly to the eyes, lungs, and skin. Despite advances in treatment, there is a need for more effective therapies for SM-induced tissue injury. Stem cell and exosome therapies are emerging as promising approaches for tissue repair and regeneration. Stem cells can differentiate into multiple cell types and promote tissue regeneration, while exosomes are small vesicles that can deliver therapeutic cargo to target cells. Several preclinical studies demonstrated the potential of stem cell, exosome, or combination therapy for various tissue injury, showing improvements in tissue repairing, inflammation, and fibrosis. However, there are also challenges associated with these therapies, such as the requirement for standardized methods for exosome isolation and characterization, the long-term safety and efficacy and reduced SM-induced tissue injury of these therapies. Stem cell or exosome therapy was used for SM-induced eye and lung injury. Despite the limited data on the use for SM-induced skin injury, this therapy is a promising area of research and may offer new treatment options in the future. In this review, we focused on optimizing these therapies, evaluating their safety and efficacy, and comparing their efficacy to other emerging therapeutic approaches potentially for SM-induced tissue injury in the eye, lung, and skin. [ABSTRACT FROM AUTHOR]

Published

2023

47. Mustard Gas Exposure Actuates SMAD2/3 Signaling to Promote Myofibroblast Generation in the Cornea.

Author

Sinha, Nishant R., Tripathi, Ratnakar, Balne, Praveen K., Suleiman, Laila, Simkins, Katherine, Chaurasia, Shyam S., and Mohan, Rajiv R.

Subjects

*CORNEA, *CHEMICAL weapons, *ALKYLATING agents, *OCULAR injuries, *OPHTHALMIC drugs, *NITROGEN mustards, *MUSTARD gas

Abstract

Sulfur mustard gas (SM) is a vesicating and alkylating agent used as a chemical weapon in many mass-casualty incidents since World War I. Ocular injuries were reported in >90% of exposed victims. The mechanisms underlying SM-induced blindness remain elusive. This study tested the hypothesis that SM-induced corneal fibrosis occurs due to the generation of myofibroblasts from resident fibroblasts via the SMAD2/3 signaling pathway in rabbit eyes in vivo and primary human corneal fibroblasts (hCSFs) isolated from donor corneas in vitro. Fifty-four New Zealand White Rabbits were divided into three groups (Naïve, Vehicle, SM-Vapor treated). The SM-Vapor group was exposed to SM at 200 mg-min/m3 for 8 min at the MRI Global facility. Rabbit corneas were collected on day 3, day 7, and day 14 for immunohistochemistry, RNA, and protein lysates. SM caused a significant increase in SMAD2/3, pSMAD, and ɑSMA expression on day 3, day 7, and day 14 in rabbit corneas. For mechanistic studies, hCSFs were treated with nitrogen mustard (NM) or NM + SIS3 (SMAD3-specific inhibitor) and collected at 30 m, 8 h, 24 h, 48 h, and 72 h. NM significantly increased TGFβ, pSMAD3, and SMAD2/3 levels. On the contrary, inhibition of SMAD2/3 signaling by SIS3 treatment significantly reduced SMAD2/3, pSMAD3, and ɑSMA expression in hCSFs. We conclude that SMAD2/3 signaling appears to play a vital role in myofibroblast formation in the cornea following mustard gas exposure. [ABSTRACT FROM AUTHOR]

Published

2023

48. Accelerating synergistic effects of preconditioned mesenchymal stem cells with Crocin and dexamethasone in pulmonary epithelial cells injury.

Author

Jamshidi, Vahid, Halabian, Raheleh, Saeedi, Pardis, Bagheri, Hasan, and Nobakht Motlagh Ghoochani, Bibi Fatemeh

Subjects

MESENCHYMAL stem cells, EPITHELIAL cells, CROCIN, MUSTARD gas, ENZYME-linked immunosorbent assay, DEXAMETHASONE

Abstract

Chemical warfare victims suffer from bronchiolitis and chronic pulmonary obstruction caused by sulfur mustard (SM) toxicity. Despite the mesenchymal stem cells capacity to alleviate inflammation, their low survival rate under oxidative stress severely limits their effectiveness. This study aimed to examine how natural (Crocin) and synthetic (Dexamethasone) antioxidants might affect MSC efficacy. MSCs were treated with the optimal doses of Crocin (Cr.), Dexamethasone (Dex.), and their combination. The A549 cells line was pretreated with the optimal dose of the CEES to mimic the lung disease. Then, the affected A549 cells were exposed to the preconditioned MSCs and conditioned media, and then their survival rates were estimated by MTTor2,5-diphenyl-2H-tetrazolium bromide (MTT) assay. Annexin-V PI apoptosis test was conducted for MSCs and A549 cells. Reactive Oxygen Species (ROS) assay and Enzyme-linked immunosorbent assay (ELISA) test demonstrated the percentage of production of ROS and the cytokines levels in A549/CEES, respectively. The results revealed significant increases in Cr. + Dex. treated MSCs (P < .01) and A549 cells treated with MSCs-CM/Cr/Dex (P < .01) groups' survival. The apoptosis rate and ROS production were reduced in the MSCs-CM/Cr/Dex. Also, considerable decreases in IL-1β (P < .01) and IL-6 (P < .01) and a significant increase in IL-10 (P < .05) in treated A549/CEES by Cr/Dex and MSCs-CM/Cr/Dex supported the synergistic effects of Crocin and Dexamethasone. [ABSTRACT FROM AUTHOR]

Published

2023

49. The Use of Hydrogel Dressings in Sulfur Mustard-Induced Skin and Ocular Wound Management.

Author

Caffin, Fanny, Boccara, David, and Piérard, Christophe

Subjects

HYDROCOLLOID surgical dressings, DRUG delivery devices, WOUND healing, SKIN injuries, MUSTARD gas, ANALGESIA, OCULAR injuries

Abstract

Over one century after its first military use on the battlefield, sulfur mustard (SM) remains a threatening agent. Due to the absence of an antidote and specific treatment, the management of SM-induced lesions, particularly on the skin and eyes, still represents a challenge. Current therapeutic management is mainly limited to symptomatic and supportive care, pain relief, and prevention of infectious complications. New strategies are needed to accelerate healing and optimize the repair of the function and appearance of damaged tissues. Hydrogels have been shown to be suitable for healing severe burn wounds. Because the same gravity of lesions is observed in SM victims, hydrogels could be relevant dressings to improve wound healing of SM-induced skin and ocular injuries. In this article, we review how hydrogel dressings may be beneficial for improving the wound healing of SM-induced injuries, with special emphasis placed on their suitability as drug delivery devices on SM-induced skin and ocular lesions. [ABSTRACT FROM AUTHOR]

Published

2023

50. The take-off of Drosophila research in 1930–1950s Edinburgh.

Author

Beaven, Robin

Subjects

DROSOPHILA, MUSTARD gas, ANIMAL genetics, DROSOPHILA melanogaster, FRUIT flies

Abstract

The fruit fly, Drosophila melanogaster, is a simple and powerful model organism. It has played a critical role over more than a century, for example in establishing the field of genetics, and in foundational insights into the molecular basis of development. From the 1930s until today, researchers at the University of Edinburgh have used Drosophila to tackle questions in basic and biomedical science. Here the history of the initial decades of this research is explored, beginning with the introduction of Drosophila research to Edinburgh by Francis Albert Eley Crew, in the newly established Institute of Animal Genetics. This period of research includes the discovery that chemicals can cause genetic mutation. This was demonstrated by research of the effects of mustard gas on flies by Charlotte Auerbach and colleagues, guided by the future Nobel laureate Hermann Muller. Drosophila research was also formative in Conrad Hal Waddington's conceptual thinking about developmental biology, including in his vision of the epigenetic landscape. This holistic, systems-level view of the control of development was far before its time and has continued to be influential to this day in our conceptualisation of developmental biology and in the increasingly important field of systems biology. Waddington's experiments with Drosophila in Edinburgh also gave rise to the evolutionary concept of genetic assimilation, in which an environmentally induced phenotype subsequently becomes genetically encoded. [ABSTRACT FROM AUTHOR]

Published

2023