• Title/Summary/Keyword: Toxic substance

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Basic Concepts of Western Medicine Toxicology and $LD_{50}$ in Herbal Drugs (서양의학 독성학의 기본적 개념 및 한약의 $LD_{50}$)

  • Park Yeon-Chul;Lee Sun-Dong;Park Kyoung-Sik
    • Journal of Society of Preventive Korean Medicine
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    • v.3 no.2
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    • pp.91-100
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    • 1999
  • Today, toxicology is used for many purpose, in many fields. Classification of special toxic effect is related next 4 important principles. 1. The chemical substance must move to target organ or tissue that can induce Biological effect. For this movement, we have to understand the physical-chemical characteristic of substance, and the rout of absorption, metabolism, diffusion and excretion of toxic substance. 2. Every biological effect that induced by chemical substance is not harmful. For example, some specific chemical substance is not harmful in liver enzyme system. 3. The strength of biological effect induced by chemical substance is deep related with dose. Nearly all substance is not effective below the specific dose, and it may toxic to death over the specific dose. It is the 'Dose - response relationship' But carcinogen may toxic whether it is law dose or not. 4. The information that was obtained by experimental animal test, could have to adapt in human biology. Because biological effect of chemical substance could be different in every biological species. In past, drugs was obtained by animal or plants. But in the future, it could be obtained by biochemistry, and genome project. Therefore, in Oriental medicine, research and approach is needed at this time, and have to develop new method of experience in toxic method.

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Analysis of Toxic Substance (Indotoxin) by Gas Chromatography (기체 크로마토그래피에 의한 독성 물질(내독소)의 분석)

  • 이봉헌;박흥재
    • Journal of Environmental Science International
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    • v.5 no.5
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    • pp.555-560
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    • 1996
  • The toxic substances (endotoxins) from the bacterial cell walls were extracted by using incubator, centrifuge, UV-Vis spectrophotometer, and their fatty acid compositions were analyzed by Gas Chromatography. The lethal toxicities and pyrogenic activities of toxic substances were tested and the results were compared each other. The results of fatty acid analyses showed that the major fatty acid of the toxic substance was tetradecanoic acid for Vibrio vulnificus, dodecanoic acid for Escherichia coli, and decanoic acid for Salmonella typhimurium. These three fatty acids were the main fatty acids ofr three toxic substances (more, than 70%). The unique points in the fatty acid compositions were that tetradecanoic acid was composed as important one (37.15%) for V. vulnificus and that the amount of hexadecanoic acid was very small (below 2%) for three toxic substances. The lethal toxicity in ICR mice of toxic substance from V. vulnificus (LD50 was 52.5 mg/kg) was similar to that of E. coli (56.5mg/kg), but weaker than that of S. typhimurium (37.5mg/kg). Toxic substance from V. vulnificus was more pyrogenic in rabbit than that from E. coli, but less than that from S. typhimurium.

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Studies on the Toxic Substances in Korean Barley Infected with Gibberella Zeae(II) Distribution of the Toxic Substance, Method of its Elimination and Some Detoxifying Agent (적미병 보리의 유독성분에 관한 연구 (제 II 보) 유독성분의 분포, 제거방법 및 제독성 물질에 관하여)

  • Kim, Tae-Bong;Hahn, Bo-Sup;Hahn, Sang-Heyun
    • Journal of the Korean Chemical Society
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    • v.8 no.2
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    • pp.78-81
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    • 1964
  • In this report, some practical problems that are concerned with the infected barley were examined. Most of the toxic substance is present in the bran. It was almost impossible to remove the toxic substance with water or methanol completly, however, we found it is effectively eliminated by soaking the whole grain with 2%, calcium hydroxide suspension for 24 hours. As a detoxifying agent, kieselguhr was very effective; the grain mixed with little amounts (0.4-0.5%) of kieselguhr may be used as an animal feed.

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Identification of Mushroom Brown Blotch Causing Agent from Pseudomonas tolaasii Culture Broth (Pseudomonas tolaasii 배양액으로부터 독성물질의 동정)

  • Park, Chul-Jin;Oh, Sung-Ki;Chun, Uck-Han
    • Applied Biological Chemistry
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    • v.37 no.5
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    • pp.392-396
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    • 1994
  • The toxic substance causing blown blotching on the mushroom cap was extracted and purified from the culture broth of P.tolaasii. Purification and identification of the toxic compound was carried out with the silica gel chromatography, mass spectrum and NMR and appeared to be an aminobenzene in amylamine group. The purified toxic substance showed UV spectrum at 234nm and melting point at $76^{\circ}C$, respectively.

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Effects of Spatio-Temporal Resolution of Diagnostic Wind Field on the Dispersion of Released Substance (바람장의 공간적.시간적 해상도가 누출물질 확산에 미치는 영향)

  • 김영성
    • Journal of Korean Society for Atmospheric Environment
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    • v.16 no.4
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    • pp.327-338
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    • 2000
  • complexity in atmospheric environment coupled with shoreline and complex terrain often causes local variations of meteorology that are distinct from those representative over larger surrounding area, These kinds of local variations are less significant in usual long-term environmental impact analyses dealing with continuous plume. The variations could however be crucial in predicting dispersion of toxic substance released in a relatively small area for a short duration. In the present paper the effects of spatial and temporal resolution of diagnostic wind field on the dispersion of the released substance are investigated by using a puff model. A hypothetical release scenario assumes that a substance is released from a location in the Yochon Industrial Estate and passively dispersed within a few-kilometer distance for an hour. The results show that diagnostic analysis could resolve more spatial variations to some extent by employing smaller grid size. The peak concentrations and puff trajectories obtained from spatially -and/or tmeporally -varing diagnostic wind field are found appreciably different from those obtained from uniform wind field. Attention to high-resolution wind field in the both spatial and temporal spaces is called in the consequence analysis of toxic substance release.

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Different Characteristics of Toxic Substance/poison Exposure Data that Collected from Pre-hospital Telephone Response and Emergency Department (일부 지역의 전화상담을 통해 얻어진 독성물질 노출정보와 응급실 기반 중독 정보 분석)

  • Kim, Su-Jin;Choa, Min-Hong;Park, Jong-Su;Lee, Sung-Woo;Hong, Yun-Sik
    • Journal of The Korean Society of Clinical Toxicology
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    • v.12 no.1
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    • pp.1-7
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    • 2014
  • Purpose: The purpose of this study is to find differences in the demographics of toxic exposed patients and substance between call based poison information data and hospital based poison information data. Methods: Seoul 1339 call-response data were used as call based poison data and toxic related injury surveillance data of the Korean center for disease control and prevention (KCDC) were used as hospital based poison data. Age, sex, the kind of exposed substance, reasons for exposure, and exposure routes were compared between two data sets. We analyzed the presence or not of documentation on the name and amount of exposed substance, symptoms after exposure in call based poison data. Results: Seoul1339 poison data included a total of 2260 information related to toxic exposure and KCDC poison data included 5650 poison cases. There was no difference in sexual distribution. Pediatric exposure and accidental exposure were more common in call based poison data. The most common exposed substances were household products in call based poison data and medicines in hospital based poison data, respectively. Documents regarding amount and time of toxic exposure and symptoms after toxic exposure were not recorded exactly in call based poison data. Conclusion: There were significant differences in age, reasons for toxic exposure, and the kinds of exposed substances. Poison information data from both pre-hospital and hospital must be considered.

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Respones of Photobacterium phosphoreum to toxic substances (독성물질 농도에 따른 Photobacterium phosphoreum의 bioluminescence 변화)

  • 정계훈;정성제;이용제;허문석;전억한
    • Microbiology and Biotechnology Letters
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    • v.28 no.1
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    • pp.45-51
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    • 2000
  • Photobacterium phosphoreum was used for the study of bioluminescence response to toxic substances including phenol, As2O3, SoO2, and CrO3 in view of developing monitoring system. measurement of inhibition of bioluminescence in P. phosphoreum has been proposed as a sensitive and raped procedure to monitor toxic substances. The concentration of toxic substance causing 50% light reduction(EC50) in bioluminescence intensity was determined with free and immobilized P. phosphoreum, The minimum inhibitory concentrations (MICs) for bioluminescence emission were found to be 400ppm for As2O3, 800ppm for phenol, 60ppm for SeO2 and 60ppm for CrO3 , respectively. The linear correlation between Gamma value and the concentration of toxic substances was obtained and EC50 wa calculated from the linear correlation. The free cells were shown to be more sensitive to toxic substances than cells immobilized on Sr-alginate and Ca-alginate. However, the linear regression curves were derived from the Sr-alginate immobilized cells indicating the immobilization method in s useful tool for monitoring of toxic substances under the more stable condition of bioluminescence.

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A Study on the Introduction of TURA for the Reduction Toxic Chemicals (독성물질 저감을 위한 TURA 도입방안에 대한 연구)

  • Chae, Jayoung;Lee, Juyoun;Hong, Kyungpyo;Kang, Taesun
    • Journal of Korean Society of Occupational and Environmental Hygiene
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    • v.27 no.4
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    • pp.257-268
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    • 2017
  • Objectives: This study was conducted to review the Toxic UseReduction Act of Massachusetts, USA, which has been evaluated as a successfulcase of a chemical reduction policy, and to search for ways to introduce it inKorea. Methods: We analyzed the implementation of the TURA by attending TUR Planning Course of the Toxic Use Reduction Institute in Massachusetts and researching the related literature. Results: As TURA took effect, the use of chemicals in Massachusetts was reduced, and cost savings were achieved in workplaces. The success factors for the legislation are considered to be support form the federal and state governments and the active participation of business and civic group. Domestic efforts to reduce toxic substances have already begun, so if the process of TURA is appropriately applied to domestic legislation of chemicals control, it would be expected to produce visible results. Therefore, we reviewed the 'Act on Chemicals Registration and Assessment', 'Act on Chemical Control' and 'Act on the Integrated Control of Pollutant-Discharging Facilities' and sought solution for applying TURA to each piece of legislation. For the first case, 'Toxic or Hazardous Substance List' and 'Establishment of Toxic Use Fee' is applicable. For the second case, 'Annual Toxic or Hazardous Substance Reports' is applicable. For the third case, 'Toxic Reduction Plans' and 'Toxics Use Reduction Institute and 'Toxic Use Reduction Planners' is applicable. Conclusions: The government should take notice appropriateness for the reduction of toxic chemicals and provide financial support. Businesses should invest in technologies that build trust with local communities, improve productivity, and reduce costs. Finally, civic group should cooperate with government and businesses.

The Toxic Effect Of Marine V. Vulnificus Endotoxin OH the Blood Component in Rat (해양 V. vulnificus의 내독소가 rat의 혈액 성분에 미치는 독성 효과)

  • 이봉헌
    • Journal of Environmental Science International
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    • v.6 no.1
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    • pp.69-73
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    • 1997
  • Endotoxin from the cell wall of marine V. vujnificus was .extracted using the hot phenol-water method, injected endotoxin into rat, and tested the toxic effect of endotoxin on the blood component In rat blood. The results showed that blood glucose, blood urea nitrogen, white blood cell, and reticulocyte were Increased and red blood cell was the same as the number of control group(normal blood), but platelet was decreased. Above results suggested that endotoxin induced a malfunction of liver and that the Increase of white blood cell was for the removal of foreign toxic substance.

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