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Now a day's compound poisoning is a problem and in that, Organo phosphorus compound (OPC) poisoning is a global problem and is most common medico-toxic emergency in India and is associated with high rate of mortality, if not diagnosed early and treated adequately. We studied clinical profile, electrocardio graphic changes and electrolyte derangements in patients with OPC poisoning. We studied randomly selected 100 patients of OPC poisoning admitted within 12h of consumption[1]. Clinical profile, electrocardiographic changes and serumelectrolytes derangements wereanalyzed on outcome basis. Analysis of electrocardiographic changes will be a useful parameter in assessing prognosis of organophosphate compound poisoning patients. ECG changes like QTc prolongation are potentially dangerous and indicate the necessity of continuous cardiac monitoring[2]. Serum electrolyte derangements are not helpful in assessing prognosis in organophosphorus compound poisoning patients.
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Objective To elevated the decontam ination properties of commercial nanoscale metal oxides against chemical warfare agents (CWA), and provide more foundation for the satisfactory materials of CWA decontamination. Methods Some nanocrystals of commercial metal oxides such an MgO, TiO2, ZnO and zinc nickel ferrite compound had been chosen to compare their decontamination properties. The nanocrystals were mixed with three representative compounds, sulfur mustard (HD), soman (GD) and S-(2-diisopropylaminoethyl) O-ethyl methylphosphonothioate (VX) at room temperature and natural light. The analogous experiments were conducted without addition of nanocrystals as negative control. After a fixed time, the samples were then analyzed by the methods of T-135, Schoeneman reaction and conversion method to determine the content of CWA. The decontamination properties of nanocrystals were compared with negative control. Results The chosen nanoscale metal oxides excepted nanoscale MgO had good decontamination properties against HD, and they all could decontaminate GD quickly. Nanoscale TiO2 had superior decontamination properties against GD and HD. At the room temperature and natural light, HD was completely decontaminated within 20 hours and GD was completely decontaminated within 4 hours by nanoscale TiO2. The nanocrystals of metal oxides didn′t decontaminate VX effectively. Compared to the activated clay group, nanoscale MgO had superior decontamination properties against VX over other nanocrystals (P<0.05), but the percentage of degradation was lower than 20% within 7 h. Conclusion The chosen nanoscale TiO2 has superior decontamination properties against GD and HD than others in natural condition, but it isn′t a promising agent for the decontamination of VX.
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The performances and characteristics of the functional electrospinning nanofibers were introduced in the field of protection against biological and chemical warfare agents, whose present situation, prospects and advantages were summarized. It's suggested that the functional nanofibers might contribute to increasing the protection ability of the textile against the biological and chemical agents. The difficulty and future trends of the functional nanofibers were analyzed also.
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Objective To elevated the decontamination properties of commercial nanoscale metal oxides against chemical warfare agents (CWA), and provide more foundation for the satisfactory materials of CWA decontamination. Methods Some nanocrystals of commercial metal oxides such an MgO, TiO2, ZnO and zinc nickel ferrite compound had been chosen to compare their decontamination properties. The nanocrystals were mixed with three representative compounds, sulfur mustard (HD), soman (GD) and SI 2-diisopropylaminoethyl) O-ethyl methylphosphonothioate (VX) at room temperature and natural light. The analogous experiments were conducted without addition of nanocrystals as negative control. After a fixed time, the samples were then analyzed by the methods of T-135, Schoeneman reaction and conversion method to determine the content of CWA. The decontamination properties of nanocrystals were compared with negative control. Results The chosen nanoscale metal oxides excepted nanoscale MgO had good decontamination properties against HD, and they all could decontaminate GD quickly. Nanoscale TiO2 had superior decontamination properties against GD and HD. At the room temperature and natural light, HD was completely decontaminated within 20 hours and GD was completely decontaminated within 4 hours by nanoscale TiO2. The nanocrystals of metal oxides didn't decontaminate VX effectively. Compared to the activated clay group, nanoscale MgO had superior decontamination properties against VX over other nanocrystals (P<0.05), but the percentage of degradation was lower than 20% within 7 h. Conclusion The chosen nanoscale TiO2 has superior decontamination properties against GD and HD than others in natural condition, but it isn't a promising agent for the decontamination of VX.
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Chemical Weapons Convention (CWC) and Biological Weapons Convention (BWC) are the two important international conventions in the disarmament field ,aimed to eliminate chemical and biological weapons by prohibiting the development, production, acquisition, stockpiling and use of these weapons .Recently, research and development of sci-ence and technology continue to advance rapidly .A key feature is convergence of science disciplines .This has become a new force to speed up development of science and economy .In particular , the convergence of chemistry and biology , together with the rapid advances in life sciences , has been evident in its remarkable contribution to the developments of pharmaceutics, health care, green chemistry and environmental protection .On the other hand, the convergence of chemistry and biology also has significant implications for the implementation of CWC and BWC .In this article, we summarize the new trends in the convergence of chemistry and biology and its impact on the conventions .
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Fundamento: la preparación del profesional de la salud para enfrentar las consecuencias de las armas químicas y biológicas en humanos, es una misión de la universidad médica cubana. Objetivo: evaluar la factibilidad y pertinencia de una estrategia pedagógica de superación profesional médica para la enseñanza del diagnóstico y tratamiento de las consecuencias del empleo de las armas químicas y biológicas en humanos. Métodos: se realizó una investigación que culminó con la aplicación de un pre-experimento pedagógico en la sede universitaria Hospital Militar de Holguín, durante el curso 2010-2011. La muestra estuvo constituida por 20 especialistas en Medicina General Integral. Se utilizaron métodos teóricos: histórico-lógico, analítico-sintético y sistémico estructural y funcional; empíricos: la encuesta, criterio de especialistas por el método Delphi; del matemático: la estadística descriptiva con distribución de frecuencias absoluta y en porcientos y la prueba de signos. Resultados: se identificaron insuficiencias en los médicos para el diagnóstico y tratamiento de las consecuencias de las armas químicas y biológicas en humanos, por lo cual se diseñó y aplicó una estrategia pedagógica para la apropiación de los conocimientos y habilidades necesarios en estos casos. Conclusiones: la estrategia elaborada permitió resolver las dificultades para el desarrollo del proceso enseñanza aprendizaje de las enfermedades que resultan del empleo de las armas químicas y biológicas, y una mejor preparación en los médicos en cuanto al diagnóstico y tratamiento de ellas. Los especialistas consideran la estrategia de muy adecuada y bastante adecuada, lo que demuestra el grado de pertinencia y relevancia para su aplicación.
Background: the professional training in order to face the consequences in human beings of the chemical and biological weapons is a mission of the Cuban medical university. Objective: to devise a strategy for the teaching of the diagnosis and treatment of the effects in human beings of the chemical and biological weapons. Methods: a research project was done that culminated in the application of a pedagogical pre-experiment at the University Venue Military Hospital of Holguín during the 2010-2011 academic year. The sample was chosen through a non-probabilistic sampling, composed of 20 specialists in Integral General Medicine. Theoretical methods were used: historical-logical, analytical-synthetic, inductive-deductive, modeling and systemic, structural and functional; empirical: Delphi method and survey; mathematical: descriptive statistics with distribution of absolute frequency and in percentage. Results: insufficiencies were identified among the doctors for the diagnosis and treatment of the effects in human beings of chemical and biological weapons, being this reason why a pedagogical strategy was designed and applied for the acquisition of the knowledge and skills that are necessary in these cases. Conclusions: the designed strategy allows to solve the difficulties for the development of the learning-teaching process of the illnesses resulting from the use of chemical and biological weapons, as well as a better training in doctors regarding their diagnosis and treatment. The specialists assessed the strategy in general as very adequate, what shows the degree of relevance and pertinence for its application.
Subject(s)
Professional Competence , Chemical Warfare Agents , Biological Warfare Agents , General Practitioners/educationABSTRACT
Background: Patients with long-term complications of sulfur mustard (SM) poisoning are often less able to undertake optimum levels of physical activity and adequately control their dietary intake. The aim of present study was to investigate the dietary intake of patients with SM poisoning in comparison to a control group. Methods: The study was undertaken on 55 Iranian male veterans, who had > 25% disabilities due to long-term complications of SM poisoning and 55 men age-matched healthy subjects. A previously validated food frequency questionnaire (FFQ) was used for measuring dietary macro/micro nutrient intake for both groups; and the results were analysed using Dietplan6 software. Results: Analysis of macro/micro nutrients in dietary intakes of the patients versus the controls showed a significantly lower intake of several nutrients including selenium and carbohydrate. On the other hand, the dietary intake of trans-fatty acids and iodine were significantly higher in these patients. Conclusion: Long-term complications of SM poisoning in the Iranian veterans induce both chemical and physical disabilities. Macro/micro nutrient intake in these patients was significantly different in comparison with matched, healthy subjects. Dietary advice for these patients should be strongly recommended to these patients in order to prevent other chronic diseases.
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Using a novel hybrid technology combined differential ion mobility spectrometry ( DMS) with drift time ion mobility spectrometry DMS-IMS2 , we detected the typical chemical warfare agent simulants dimethyl methylphosphonate ( DMMP ) and methyl salicylate ( MS) . With carrier gas 800 mL/min and DMS RF voltage 1100 V, the chemical warfare agents DMMP and MS could be detected and characterized by DMS-IMS2 under DIMS mode. In addition, DMS-IMS2 is capable to monitor positive and negative ions of DMMP and MS simultaneously, and provides the two-dimensional separation parameters DMS compensation voltage ( CV) and IMS drift time ( Td ) , which provides more information for the identification of two chemical warfare agents. DMS-IMS2 has potential application in on-site detection and instrument miniaturization due to its advantages including small size, low power consumption and rapid response time.
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Japanese abandoned chemical weapons (JACWs) are a momentous and eventful historical issue for both China and Japan. Large quantities of chemical weapons abandoned by the Japanese invaders still remain on Chinese soil after 1945 when Japanese invaders were defeated and surrendered. Up to date, JACWs have been found in 19 provinces (cities or districts) of mainland China. The types of JACWs include chemical bombs, chemical aerial bombs, gas cylinders and loose packed barrels. The types of toxic agents include mustard gas, irritant agents, choking agents, systemic poisoning agents and etc. In order to eliminate JACWs to reduce injuries produced by toxic agents, Chinese government, in cooperation with Japanese government, organized a special troop to search, excavate, retrieve, and destroy JACWs. Up to date, about 50,000 pieces of poisonous chemical had retrieved and destroyed. The first operation was officially begun in Nanjing in October 2010. The main points of medical support on the operation of destroying JACWs include proper treatment of the newly discovered patients caused by JACWs, preparedness for handling the emergency medical rescue, and to actively p rovide routine medical support for JACWs operation field.