Evidence of sulfur mustard exposure in victims of chemical terrorism by detection of urinary ß-lyase metabolites.

Background: Sulfur mustard (SM) is a vesicant chemical warfare agent. Ocular, dermal, and respiratory systems are the primary targets of SM exposure. The aims of this study were to perform a quantitative analysis of ß-lyase metabolites of SM as 1,1'-sulfonylbis[2-(methylthio) ethane] (SBMTE) in urine samples of chemical casualties and to investigate the relationship between the measured SBMTE levels and the severity of characteristic symptoms of SM poisoning.Methods: A bioanalytical method which is based on titanium (III) chloride reduction of ß-lyase metabolites was employed to analyze urine samples of individuals (n = 13, collected 30 h after SM exposure) using gas chromatography-tandem mass spectrometry.Results: Various levels of SBMTE were measured in urine samples of seven individuals, confirming SM exposure for each. There was a correlation observed between measured levels of SBMTE in human urine samples and severity of clinical findings including ocular, respiratory, and cutaneous lesions of SM.Discussion: In combination with clinical examination, measurement of SBMTE levels in human urine could be used as a prognostic factor for clinical outcomes in victims of SM exposure. This bioanalytical verification is also important for the documentation of alleged use of SM.Conclusion: SBMTE is an unambiguous biomarker of potential SM poisoning as it does not exist in urine samples of an unexposed population. Quantitation of urinary SBMTE concentrations in victims of SM could be used in order to enable improved interpretation of clinical findings.

Myelosuppression and acute hematological complications of sulfur mustard exposure in victims of chemical terrorism.

Sulfur mustard (SM) is a vesicant chemical warfare agent. Recent studies reported alleged use of SM by non-state actors in Syria and Iraq. It has been shown that SM induced immunological and hematological complications. The aim of this study was to determine acute toxic effects of SM exposure on hematological parameters. Blood samples from a group of Syrian exposed to SM in 2016 were taken daily during the follow-up of the patients in intensive care unit. Initial leukocytosis was observed in all patients (100%) on the first 48 h after exposure. Following leukocytosis, isolated lymphopenia was observed in all patients (100%) between 2nd and 4th days. A decrease in hemoglobin level was noted in five patients (62.5%) between 4th and 5th days. Thrombocytopenia was observed in 75% of patients between 4th and 6th days for mild cases and between 9th and 11th days for severe cases. Three patients (37.5%) developed distinct leucopenia/neutropenia on 11th and 12th days. It was observed that human exposure to high dose of SM has direct toxic effect on hematological cells and bone marrow. New strategies on treatment of SM-induced myelosuppression could reduce the effects of hematological complications and could increase the survival rate in these patients.

Optimized Gas Chromatography-Tandem Mass Spectrometry for 1,1'-sulfonylbis[2-(methylthio) ethane] Quantification in Human Urine.

Sulfur mustard (SM) which is a bifunctional alkylating vesicant is one of the mostly used chemical warfare agent in First World War and the Iran-Iraq War. ß-Lyase metabolites of SM especially 1,1'-sulfonylbis[2-(methylthio)ethane] (SBMTE) is an unequivocal biomarker of the exposure. An optimized gas chromatography-tandem mass spectrometry method was developed and validated for the retrospective detection of SBMTE in human urine. Urine samples were treated with acidic titanium trichloride to reduce ß-lyase metabolites to the single analyte SBMTE. After neutralization and precipitation, SBMTE was extracted from urine by C8 solid-phase extraction cartridge and analyzed in the multiple-reaction monitoring mode. The lower limit of quantification was 1 ng/mL with relative standard deviation of <10%. Acceptable intra-day and inter-day precisions and accuracies were obtained. The developed method was successfully measured various levels of SBMTE which could be used as the forensic evidence of such a chemical attack.

Acute intensive care unit management of mustard gas victims: the Turkish experience.

PURPOSE: Sulphur mustard (SM) is an highly toxic and vesicant chemical weapon that was used in various military conflicts several times in the history. The severity of ocular, dermal, and pulmonary symptoms that may appear following a characteristic asymptomatic period are depending on the SM concentration and exposure duration. The aim of this study is to present the clinical features and share the intensive care unit (ICU) experiences for the medical management of mustard gas victims. MATERIALS AND METHODS: Thirteen Free Syrian Army soldiers near Al-Bab region of North Syria were reportedly exposed to oily blackish smoke with garlic smell due to the explosion of a trapped bomb without causing any blast or thermal effect on 26th November 2016. None of them wore any chemical protective suits or gas masks during explosion. Since they observed skin lesions including bullous formation next day, they were admitted to the Turkish Field Hospital at the Turkish - Syrian border and then evacuated to the State Hospital of Gaziantep Province, Turkey for further management. Eight victims who were very close to point of explosion suffered burning eyes, sore throat, dry cough and dyspnoea after the chemical attack. RESULTS: On admission to hospital, all cases had conjunctivitis, hoarseness and bullae on various body areas. Blepharospasm and opacity were found in 8 patients and 5 of them had corneal erosions and periorbital oedema. Temporary loss of vision in 4 cases lasted for 24 h. Multiple fluid-filled blisters were observed especially on the scalp, neck, arms and hands, where direct skin exposure to the agent occurred. A definitive clinical care and infection prophylaxis measures along with the burn treatment and bronchodilators for respiratory effects were applied in ICU. Two patients received granulocyte-colony-stimulating factor due to the SM-mediated bone marrow suppression on the 16th day of exposure and one of them died because of necrotic bronchial pseudomembrane obstruction resulting in cardiopulmonary arrest. CONCLUSIONS: SM was first used during the First World War and it is still considered one of the major chemical weapons recently used by non-state actors in Syria and Iraq. In case of SM exposure, medical treatment of SM-induced lesions is symptomatic because no antidote or causal therapy does exist even though SM is very well known for over 100 years. However, clinical management in intensive care medicine of SM victims have improved since the 1980s, this study which is one of the largest recent SM-exposed case series since that time is important for the contribution to the clinical experience.

Evaluation of Gamma-Radiation Inactivation of a Bioterrorism Agent, Bacillus anthracis Spores, on Different Materials.

Decontamination of suspected packages, such as sealed envelopes, liquids and tools that are likely contaminated with biological agents is of great importance. In this study, we aimed to determine the gamma radiation dose required for the decontamination of paper, fabric and liquid materials without causing any damage to the structure of these materials. Each study group included 11 pieces of paper, fabric and sterile saline contaminated with 0.8 × 105 virulent Bacillus anthracis (B. anthracis) spores. These specimens were exposed to doses of 5.49, 11.58, 17.21, 21.75, 27 and 33.1 kilogray (kGy) of gamma radiation from a cobalt-60 source. After irradiation of all the samples, a viability assessment of the B. anthracis spores was performed. It was found that full decontamination was achieved with 11.58 kGy on the paper samples and 17.21 kGy on the fabric and liquid samples. It was concluded that a dose of 20 kGy of gamma radiation may be recommended for the inactivation of B. anthracis for some surfaces when especially sensitive and valuable materials cannot be wet decontaminated were exposed. In addition, serologic and molecular assays of the suspected packets can be performed for forensic purposes without damaging existing evidence in a bioterror incident.