• Title/Summary/Keyword: Health and Safety in Laboratories

Search Result 106, Processing Time 0.02 seconds

An Evaluation of Safety and Health Level in Chemical Laboratories

  • Lee, Keun-Won
    • International Journal of Safety
    • /
    • v.6 no.2
    • /
    • pp.33-37
    • /
    • 2007
  • In recent days, the accidents have happened at experimental laboratories in universities or institutes. In order to improve safety assurance of workers in laboratories, it is required to carry out systematic study concerned with evaluation of safety and health level. The safety and health inspection checklists were developed and conducted the case study. The case study was carried out laboratory safety inspection with 5 inspectors by the checklists to become aware of safety and health level. From the evaluation results of the inspection, we could be made quantification of laboratory through evaluation of safety and health level in laboratory. It was found that was recognized present states of the laboratory and established a plan for improvements in laboratory safety facilities from the case study. The safety inspection checklists can be used as basic data to establish evaluation criteria of safety and health level.

Evaluation of Air Contaminants Concentrations and Ventilation Systems in Governmental Agency and University Laboratories (국내 정부출연연구기관 및 대학교 실험실 공기 오염물질 농도 및 환기시스템 평가)

  • Ha, Ju-Hyun;Shin, Yong-Chul;Lee, Hyun-Seok;Paik, Samuel Y.;Yi, Gwang-Yong;Lee, Byeong-Ku
    • Journal of Korean Society of Occupational and Environmental Hygiene
    • /
    • v.20 no.1
    • /
    • pp.63-69
    • /
    • 2010
  • This study was conducted to compare the concentration of various air contaminants in nine different laboratories during routine activities. Volatile organic compounds (VOC) were sampled and analyzed using NIOSH Method 1500 and asbestos fibers were sampled and analyzed using NIOSH Method 9002 and 7400. Detectable levels of acetone, toluene and ethanol were found in all the laboratories and xylene and n-hexane were detected in eight of the nine laboratories. All the VOC concentrations were well below the Korean Ministry of Labor's Exposure Limit and American Conference of Governmental Industrial Hygienists' (ACGIH) Threshold Limit Values (TLVs). Total VOC concentrations at the university laboratories were significantly higher than those at governmental agency laboratories. Airborne fiber concentrations were below 0.01 fibers/cc, while the concentration of chrysotile was 2% in insulation materials sprayed on the ceiling of one laboratory. While all the governmental agency laboratories (n=4) had fume hoods, two out of the five university laboratories did not have fume hoods. The capture velocity of half of the fume hoods were below the maintenance standard(0.4 m/sec). In conclusion, the study suggests that the current controls in place at both university and government agency laboratories are not sufficient in limiting exposure to harmful chemicals to non-detectable levels, though they appear to be adequate in protecting workers to levels below applicable occupational exposure limits. The study also suggests that researchers working in university laboratories may be exposed to greater levels of contaminant than those working in government agency laboratories.

A Survey and Recommendation on Safety and Health for Occupational Health Laboratories (일부 산업보건관련 기관의 분석실험실 안전보건에 관한 실태와 대책)

  • Yoo, Ke-Mook;Roh, Young-Man;Han, Jin-Gu;Won, Jung-IL
    • Journal of Korean Society of Occupational and Environmental Hygiene
    • /
    • v.10 no.2
    • /
    • pp.150-164
    • /
    • 2000
  • This study was conducted at occupational health laboratories in Seoul and Gyunggi district area from December, 1999 to January, 2000. The main purpose of this study was to survey the actual condition of safety and health by questionnaire and checklist and to assess the performance of fume hoods and the airborne exposures to chemicals in the laboratories. The chemicals in the cabinet were not classified by hazardous properties and the compressed gases were not stored safely. The prevalences of laboratories having first aid kits, fire extinguishers, and safety showers were found to be 18%, 55%, and 9%, respectively. Most laboratory workers were not educated for safety and health. Also, there was no performance evaluation for hazards and risks. The fume hoods in laboratories had not been annually inspected by checklist and the face velocity had been checked more than one time in the previous year for only 18% of them. Five percent of fume hoods had the face velocity more than 4.0 m/sec and 17% had no capture performance. Detected organic solvents were methylenechloride, acetone, ethylbenzene, isopropanol, xylene, methylisobutylketone, trichloroethylene, and toluene. The concentrations of organic solvents were much less than the occupational exposure limits proposed by the Ministry of Labor in Korea. This study showed that the actual condition of safety and health was not appropriate for laboratory workers. It is recommended that laboratory workers should be educated for the treatment and storage of hazardous chemicals and compressed gases to improve the working environment of the occupational safety and health laboratories.

  • PDF

Comparison of Laboratory Safety Management States in Organization Type and Research Field by using a Checklist (체크리스트를 이용한 기관형태별, 연구분야별 연구실 안전관리 실태 비교)

  • Park, Jae-Hee;Han, Ou-Sup;Gal, Won-Mo
    • Journal of the Korean Society of Safety
    • /
    • v.25 no.1
    • /
    • pp.72-78
    • /
    • 2010
  • Laboratory accidents have happened incidently. However, laboratory safety management has been out of concerns for a long time. At last, the Korean government established an act called Establishment of safe environment of laboratories in 2005. To support the act and to establish policies on laboratory safety management,a national-wide survey was conducted for the 74 research organizations sampled and their 201 laboratories. For the survey, a safety management checklist with 114 items grouped into 20 categories was developed By using this checklist, safety expert groups investigated the laboratories and evaluated them on the five-point Likert scale. A statistical analysis was conducted to compare the safety management status between different research organization types and between different research fields. The resultsmanaw that the universities are in significant lower level on safety institution and safety education than the public research organizations and theare poration research organizations. In terms of research field, chemistry/chemical engineering laboratories generallymanaw higher level compared with theaothers. Conversely, biology/life science laboratories marked low levels in a number of checklist items.

Development of the KOSHA Proficiency Testing Scheme on Asbestos Analysis in Korea

  • Kwon, Jiwoon;Jang, Konghwa;Hwang, Eunsong;Kim, Ki-Woong
    • Safety and Health at Work
    • /
    • v.8 no.3
    • /
    • pp.318-321
    • /
    • 2017
  • This commentary presents the regulatory backgrounds and development of the national proficiency testing (PT) scheme on asbestos analysis in the Republic of Korea. Since 2009, under the amended Occupational Safety and Health Act, the survey of asbestos in buildings and clearance test of asbestos removal works have been mandated to be carried out by the laboratories designated by the Ministry of Employment and Labor (MOEL) in the Republic of Korea. To assess the performance of asbestos laboratories, a PT scheme on asbestos analysis was launched by the Korea Occupational Safety and Health Agency (KOSHA) on behalf of the MOEL in 2007. Participating laboratories are evaluated once a year for fiber counting and bulk asbestos analysis by phase contrast microscopy and polarized light microscopy, respectively. Currently, the number of laboratory enrollments is > 200, and the percentage of passed laboratories is > 90. The current status and several significant changes in operation, sample preparations, and statistics of assigning the reference values of the KOSHA PT scheme on asbestos analysis are presented. Critical retrospect based on the experiences of operating the KOSHA PT scheme suggests considerations for developing a new national PT scheme for asbestos analysis.

A Study on Status Laboratory Safety and Improvement According to the Safety Consciousness Survey of University Students in Korea

  • Kang, Young-Ra;Kim, Tae-Gu;Lee, Keun-Won
    • International Journal of Safety
    • /
    • v.5 no.1
    • /
    • pp.33-36
    • /
    • 2006
  • In laboratories, researchers frequently work using new methods with new tools and materials. So the workers in laboratories are exposed to risk from dangerous articles all the time. In the case of university laboratories, testing is done by the individual at night. Because of that, the risks in university laboratories are higher than in other places. In addition, students and managers in universities generally have little concern for laboratory safety. So students are sometimes injured or killed in laboratory accidents. In this study, 1,000 university students answered questions about university laboratory safety. Their answers have been analyzed to determine the state of actual conditions and to formulate countermeasures. The results indicate that we need to change the safety awareness of the universities and the students. Adequate safety training and safe practice must be implemented by each university to decrease accidents. Development of systematic safety training program suited to the specific conditions of the individual laboratory and formulation of specific counter plans should accidents occur are required.

Evaluation of Industrial Hygiene Laboratories by on-Site Investigation for Revised Quality Control System (개정된 정도관리제도를 적용한 작업환경측정기관의 실험실 현장 평가)

  • Shin, Jung-Ah;Yi, Gwang-Yong;Park, Seung-Hyun
    • Journal of Korean Society of Occupational and Environmental Hygiene
    • /
    • v.23 no.3
    • /
    • pp.243-249
    • /
    • 2013
  • Objectives: This study assessed the status of domestic industrial hygiene laboratories using data from on-site investigation for revision of quality control systems in 2012-2013. Methods: The target laboratories were 60 industrial hygiene laboratories chosen by random selection and nationwide distribution which had participated in on-site investigations for revision of quality control systems from March 2012 to August 2013. The investigation was performed on-site following standard quality control procedures. The score between each group was compared using Mann-Whitney and Kruskal-Wallis tests, and the correlation between analytical career, sex, academic major of analyst and score of analytical performance was expressed as Spearman's rank correlation coefficient. Results: The assessment revealed that the items to be improved, in sequence, were effort at staff training (score 65.5), ability to calculate data (score 73.4), establishment of internal quality control guidelines (score 75.7), laboratory facilities (score 77.1), degree of understanding and skill at gas chromatography (score 77.1). Analysis performance showed a positive correlation with career of analyst (r=0.56, p<0.01). Conclusions: The practice of on-site investigation for quality control systems showed the current status of industrial hygiene laboratories in the first trial. There were many laboratories which needed improvement and development of analytical systems. This assessment can provide information for the systematic operation and improvement of facilities at each laboratory. Further practice of this investigation will lead to a proficiency testing and accreditation system for autonomous quality control as is the practice in many countries, rather than mandatory practice by legal regulation.

Concentrations and environmental influences of airborne fungi at university laboratories, hospital diagnostic laboratories (대학실험실과 병원진단검사실에서의 부유진균 농도와 환경영향인자)

  • Hwang, Sung-Ho;Park, Dong-Uk;Ha, Kwon-Chul;Park, Hyun-Hee;Joo, Se-Ik;Yoon, Chung-Sik
    • Journal of Korean Society of Occupational and Environmental Hygiene
    • /
    • v.20 no.4
    • /
    • pp.256-262
    • /
    • 2010
  • This study evaluated the airborne concentrations of fungi in university laboratories, hospital diagnostic laboratories in Seoul. The incubated fungi was identified by lactophenol cotton blue (LPCB) staining method. Variables such as types of ventilation, temperature and relative humidity were investigated to explain laboratory airborne fungal concentrations. A total of 97 air samples were collected from 10 facilities in two institutions. Aspergilus spp., including Aspergilus niger, Aspergillius flavos and Penicillium spp. were found as predominant species. Airborne fungal concentrations ranged from not detected (ND) to 1,890 CFU/$m^3$. Airborne fungal concentrations were high in general-ventilated facilities and in laboratories where relative humidity ( > 60 %) were high ( p < 0.001). Therefore, we suggest that relative humidity should be maintained to properly reduce the concentration of fungal in university and hospital laboratories.

Biorisk Assessment of Medical Diagnostic Laboratories in Nigeria

  • Oladeinde, Bankole Henry;Omoregie, Richard;Odia, Ikponmwonsa;Osakue, Eguagie Osareniro;Imade, Odaro Stanley
    • Safety and Health at Work
    • /
    • v.4 no.2
    • /
    • pp.100-104
    • /
    • 2013
  • Background: The aim of this study was to assess public and private medical diagnostic laboratories in Nigeria for the presence of biosafety equipment, devices, and measures. Methods: A total of 80 diagnostic laboratories in biosafety level 3 were assessed for the presence of biosafety equipment, devices, and compliance rate with biosafety practices. A detailed questionnaire and checklist was used to obtain the relevant information from enlisted laboratories. Results: The results showed the presence of an isolated unit for microbiological work, leak-proof working benches, self-closing doors, emergency exits, fire extinguisher(s), autoclaves, and hand washing sinks in 21.3%, 71.3%, 15.0%, 1.3%, 11.3%, 82.5%, and 67.5%, respectively, of all laboratories surveyed. It was observed that public diagnostic laboratories were significantly more likely to have an isolated unit for microbiological work (p = 0.001), hand washing sink (p = 0.003), and an autoclave ($p{\leq}0.001$) than private ones. Routine use of hand gloves, biosafety cabinet, and a first aid box was observed in 35.0%, 20.0%, and 2.5%, respectively, of all laboratories examined. Written standard operating procedures, biosafety manuals, and biohazard signs on door entrances were observed in 6.3%, 1.3%, and 3.8%, respectively, of all audited laboratories. No biosafety officer(s) or records of previous spills, or injuries and accidents, were observed in all diagnostic laboratories studied. Conclusion: In all laboratories (public and private) surveyed, marked deficiencies were observed in the area of administrative control responsible for implementing biosafety. Increased emphasis on provision of biosafety devices and compliance with standard codes of practices issued by relevant authorities is strongly advocated.

Analysis of Variation in Total Airborne Bacteria Concentration to Assess the Performance of Biological Safety Cabinets in Microbial Laboratories

  • Hwang, Sung Ho;Park, Hyun Hee;Yoon, Chung Sik
    • Safety and Health at Work
    • /
    • v.5 no.1
    • /
    • pp.23-26
    • /
    • 2014
  • Background: The purpose of this study was to compare the concentration of total airborne bacteria (TAB) in biosafety cabinets (BSCs) at universities and hospital microbial laboratories to assess the performance of BSCs. Methods: TAB was determined by using the single-stage Anderson sampler (BioStage Viable Cascade Impactor). The samples were obtained three times (with the BSC turned off and the shield open; with the BSC turned off and the shield closed; and with the BSC tuned on and operating) from the areas in front of 11 BSCs. Results: TAB concentrations of accredited and nonaccredited BSCs were determined. No significant differences were observed in the TAB concentrations of the accredited BSCs and the nonaccredited BSCs for the areas outside the BSCs in the laboratories (p > 0.05). TAB concentrations for the BSCs sampled with the shield open and the instrument turned off showed differences based on the sampling site outside the BSC in each laboratory. Conclusion: These results imply that TAB concentration is not altered by the performance of the BSCs or TAB itself and/or concentration of TAB outside the BSC is not a good index of BSC performance.