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Occupational Health and Safety Hazards in Public and Governmental Services

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Public and government services encompass a wide variety of industrial and occupational categories. For example, included are workers employed within telecommunications and postal services, inspection and field services, as well as sewage treatment, recycling, landfill and hazardous waste operations. Depending on the individual country, industrial categories such as telecommunications and postal services may be located within either the public or private sector.

Occupational and environmental safety and health hazards in public and government services include exposure to chemicals, ergonomics, blood-borne pathogens, tuberculosis, machinery hazards, violence, motor vehicles and flammable materials. In the future, as public and government services continue to grow and become more complex, it is anticipated that occupational safety and health hazards will increase and become more widespread. In turn, led by tripartite (labour, management and government) initiatives, improvements in occupational safety and health hazard recognition and control will provide improved resolution of identified hazards.

Health Problems and Disease Patterns

Patterns or identifiable trends of occupational health problems have been associated with the type of work (i.e., use of visual display units (VDUs) or chemicals), as well as where the work is performed (i.e., indoors or outdoors).

Indoor work

The primary hazards associated with indoor work are poor or inadequate physical and work organization ergonomics, inadequate indoor air quality or heating, ventilation and air conditioning systems, chemicals, asbestos, workplace violence and electromagnetic fields (low-level radiation).

Health symptoms and disorders or illnesses have been associated with exposure to these hazards. Since the mid-1980s, a large number of ergonomic-related upper extremity physical illnesses have been reported. Disorders include carpal tunnel syndrome, ulnar deviation, thoracic outlet syndrome and tendinitis. Many of these are related to the introduction of new technology, particularly VDUs, as well as the use of hand tools and equipment. Causes of identified illnesses include physical and work organization factors.

Since the engineering and construction of “tight-buildings” in the 1970s, a pattern of increasing incidence of upper respiratory and dermatological health symptoms and illnesses has been observed. Such health problems are associated with improper maintenance of the heating, ventilation and air conditioning systems; chemical contaminants and microbiological agents; and the inadequate provision of fresh air and air flow.

Exposure to chemicals in indoor work environments has been linked to upper respiratory and dermatological health symptoms and illnesses. A variety of different chemical contaminants are emitted from copying machines, furniture, carpets, cleaning materials (solvents) and the heating, ventilation and air conditioning system. One particular syndrome, multiple chemical sensitivity, has been associated with chemical exposures in indoor work environments.

Asbestos exposure may occur when building renovation and service work are performed and asbestos products or materials are deteriorated or damaged, thus causing asbestos fibres to become airborne.

Since the 1980s, workplace violence and associated safety and health problems have become increasingly widespread. Work environments where increasing rates of workplace violence have been documented are characterized as follows: handling money, working with the public, working alone, coming into contact with patients or clients who may be violent and dealing with customer or client complaints.

Health concerns include physical harm and death. For example, homicide was the second leading cause of death in the US workplace in 1992, accounting for 17% of all workplace deaths. In addition, from 1980 to 1989 homicide was the leading cause of death in the workplace for women, as discussed in more detail in the chapter Violence in this Encyclopaedia.

Work with and exposure to electronic equipment and related electromagnetic fields or non-ionizing radiation has become commonplace, as is exposure to high frequency non-ionizing radiation emitting products such as laser and microwave transmission equipment, radio-frequency heat sealers and electric tools and generation equipment. The relationship between such exposures and consequent health effects such as cancer, visual and skin disorders is not yet clear and much research is still needed. Several chapters in this Encyclopaedia are devoted to these areas.

Outdoor work

Outdoor work environment occupational hazards include exposure to chemicals, lead, hazardous and solid waste, environmental conditions, inadequate ergonomics, motor vehicles, electrical and mechanical equipment and electromagnetic field emissions.

Exposure to chemicals occurs in several identified occupational categories including waste disposal operations, water and sanitation services, sewage treatment, domestic waste collection, postal collection and technician jobs in telecommunications. Such exposure has been related to upper respiratory, dermatological, cardiovascular and central nervous system illnesses. Exposure to lead occurs among telecommunications workers while performing splicing operations with and removing lead telecommunications cables. Such exposure has been liked to a variety of health symptoms and illnesses, including anaemia, peripheral and central nervous system disorders, sterility, kidney damage and birth defects.

Hazardous work environments are common to waste disposal operations, water and sanitation services, sewage treatment and domestic waste collection. Occupational safety and health hazards include microbiological and medical waste, chemicals, inadequate ergonomics, motor vehicles, confined spaces and electrical and mechanical equipment. Identified health symptoms and illnesses include upper respiratory, dermatological, upper and lower extremity musculoskeletal, cardiovascular, central nervous system and visual problems. Additional concerns include lacerations, heat exhaustion and stroke.

Inadequately designed workplace tools and equipment are common to all outside public and government service occupations. Hazards comprise poorly designed hand and power tools, machinery and motor vehicles. Associated health problems include upper and lower extremity musculoskeletal symptoms and illnesses. Safety-related concerns include visual problems, strains, sprains and fractured and broken bones.

Hazards associated with motor vehicles include poorly designed equipment (e.g., hoppers, compaction boxes and aerial equipment), as well as improperly operating machinery and equipment. Associated health problems comprise musculoskeletal injuries and death. Motor vehicle accidents account for the greatest number of injuries and fatalities outdoors.

Hazards associated with electrical and mechanical equipment include poorly designed equipment, electrical shock and electrocution, as well as chemical exposures. Health problems include strains, sprains, broken bones, central nervous and cardiovascular system disorders, as well as upper respiratory and dermatological disorders and death.

Work with or in close proximity to electrical transmission equipment and the associated electromagnetic fields of non-ionizing radiation emissions has been linked with the occurrence of certain central nervous system symptoms and disorders as well as cancer. However, scientific and epidemiological research has, as of yet, not clearly defined the degree of harm posed by electromagnetic fields.

Outdoor public and government services activities present several environmental and public health problems. For example, chemicals, microbiological agents, sewage and domestic waste may be used and disposed of improperly, thus finding their way into the water table as well as streams, lakes and oceans, causing environmental contamination. In turn, such waste may lead to the contamination of public water supplies as well as the creation of toxic dumps or sites. Such contamination has been related to the deterioration and destruction of the environment as well as public health. Associated human health effects include dermatological, central nervous and cardiovascular system health symptoms and disorders, as well as certain types of cancer.

 

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Contents

Preface
Part I. The Body
Part II. Health Care
Part III. Management & Policy
Part IV. Tools and Approaches
Part V. Psychosocial and Organizational Factors
Part VI. General Hazards
Part VII. The Environment
Part VIII. Accidents and Safety Management
Part IX. Chemicals
Part X. Industries Based on Biological Resources
Part XI. Industries Based on Natural Resources
Part XII. Chemical Industries
Part XIII. Manufacturing Industries
Part XIV. Textile and Apparel Industries
Part XV. Transport Industries
Part XVI. Construction
Part XVII. Services and Trade
Education and Training Services
Emergency and Security Services
Entertainment and the Arts
Health Care Facilities and Services
Hotels and Restaurants
Office and Retail Trades
Personal and Community Services
Public and Government Services
Resources
Transport Industry and Warehousing
Part XVIII. Guides

Public and Government Services Additional Resources

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Public and Government Services References

American Conference of Governmental Industrial Hygienists (ACGIH). 1989. Guidelines for the Assessment of Bioaerosols in the Indoor Environment. Cincinnati, OH: ACGIH.

Angerer, J, B Heinzow, DO Reimann, W Knorz, and G Lehnert. 1992. Internal exposure to organic substances in a municipal waste incinerator. Int Arch Occup Environ Health; 64(4):265-273.

Asante-Duah, DK, FK Saccomanno, and JH Shortreed. 1992. The hazardous waste trade: Can it be controlled? Environ Sci Technol 26:1684-1693.

Beede, DE and DE Bloom. 1995. The economics of municipal solid waste. World Bank Research Observer. 10(2):113-115.

Belin, L. 1985. Health problems caused by actinomycetes and moulds in the industrial environment. Allergy Suppl. 40:24-29.

Bisesi, M and D Kudlinski. 1996. Measurement of airborne gram-negative bacteria in selected areas of a sludge dewatering building. Presented at the American Industrial Hygiene Conference and Exposition, 20-24 May, Washington, DC.

Botros, BA, AK Soliman, M Darwish, S el Said, JC Morrill, and TG Ksiazek. 1989. Seroprevalence of murine typhus and fievre boutonneuse in certain human populations in Egypt. J Trop Med Hyg. 92(6):373-378.

Bourdouxhe, M, E Cloutier, and S Guertin. 1992. Étude des risques d’accidents dans la collecte des ordures ménagères. Montreal: Institut de recherche en santé de la sécurité du travail.

Bresnitz, EA, J Roseman, D Becker, and E Gracely. 1992. Morbidity among municipal waste incinerator workers. Am J Ind Med 22 (3):363-378.

Brophy, M. 1991. Confined space entry programs. Water Pollution Control Federation Safety and Health Bulletin (Spring):4.

Brown, JE, D Masood, JI Couser, and R Patterson. 1995. Hypersensitivity pneumonitis from residential composting: residential composter’s lung. Ann Allergy, Asthma & Immunol 74:45-47.

Clark, CS, R Rylander, and L Larsson. 1983. Levels of gram-negative bacteria, aspergillus fumigatus, dust and endotoxin at compost plants. Appl Environ Microbiol 45:1501-1505.

Cobb, K and J Rosenfield. 1991. Municipal Compost Management Home Study Program. Ithaca, NY: Cornell Waste Management Institute.

Cointreau-Levine, SJ. 1994. Private Sector Participation in MSW Services in Developing Countries: The Formal Sector, Vol. 1. Washington, DC: World Bank.

Colombi, A. 1991. Health risks for waste disposal industry workers (in Italian). Med Lav 82(4):299-313.

Coughlin, SS. 1996. Environmental justice: The role of epidemiology in protecting unempowered communities from environmental hazards. Sci Total Environ 184:67-76.

Council for International Organizations of Medical Sciences (CIOMS). 1993. International Ethical Guidelines for Biomedical Research Involving Human Subjects. Geneva: CIOMS.

Cray, C. 1991. Waste Management Inc.: An Encyclopedia of Environmental Crimes and Other
Misdeeds, 3rd (revised) edition. Chicago, IL: Greenpeace USA.

Crook, B, P Bardos, and J Lacey. 1988. Domestic waste composting plants as source of airborne microorganisms. In Aerosols: Their Generation, Behavior and Application, edited by WD Griffiths. London: Aerosol Society.

Desbaumes, P. 1968. Study of risks inherent in industries treating refuse and sewage (in French). Rev Med Suisse Romande 88(2):131-136.

Ducel, G, JJ Pitteloud, C Rufener-Press, M Bahy, and P Rey. 1976. The importance of bacterial exposure in sanitation employees when collecting refuse (in French). Soz Praventivmed 21(4):136-138.

Dutch Occupational Health Association. 1989. Protocol Onderzoeksmethoden Micro-biologische Binnenlucht- verontreinigingen [Research Methods in Biological Indoor Air Pollution]. Working Group Report. The Hague, The Netherlands: Dutch Occupational Health Association.

Emery, R, D Sprau, YJ Lao, and W Pryor. 1992. Release of bacterial aerosols during infectious waste compaction: An initial hazard evaluation for healthcare workers. Am Ind Hyg Assoc J 53(5):339-345.

Gellin, GA and MR Zavon. 1970. Occupational dermatoses of solid waste workers. Arch Environ Health 20(4):510-515.

Greenpeace. 1993. We’ve Been Had! Montreal’s Plastics Dumped Overseas. Greenpeace International Toxic Trade Report. Washington, DC: Greenpeace Public Information.

—. 1994a. The Waste Invasion of Asia: A Greenpeace Inventory. Greenpeace Toxic Trade Report. Washington, DC: Greenpeace Public Information.

—. 1994b. Incineration. Greenpeace Inventory of Toxic Technologies. Washington, DC: Greenpeace Public Information.

Gustavsson, P. 1989. Mortality among workers at a municipal waste incinerator. Am J Ind Med 15(3):245-253.

Heida, H, F Bartman, and SC van der Zee. 1975. Occupational exposure and indoor air quality monitoring in a composting facility. Am Ind Hyg Assoc J 56(1): 39-43.

Johanning, E, E Olmsted, and C Yang. 1995. Medical issues related to municipal waste composting. Presented at the American Industrial Hygiene Conference and Exposition, 22-26 May, Kansas City, KS.

Knop W. 1975. Work safety in incinerator plants (in German) Zentralbl Arbeitsmed 25(1):15-19.

Kramer, MN, VP Kurup, and JN Fink. 1989. Allergic bronchopulmonary aspergillosis from a contaminated dump site. Am Rev Respir Dis 140:1086-1088.

Lacey, J, PAM Williamson, P King, and RP Barbos. 1990. Airborne Microorganisms Associated with Domestic Waste Composting. Stevenage, UK: Warren Spring Laboratory.

Lundholm, M and R Rylander. 1980. Occupational symptoms among compost workers. J Occup Med 22(4):256-257.

Malkin, R, P Brandt-Rauf, J Graziano, and M Parides. 1992. Blood lead levels in incinerator workers. Environ Res 59(1):265-270.

Malmros, P and P Jonsson. 1994. Wastes management: Planning for recycling workers’ safety. Waste Management & Resource Recovery 1:107-112.

Malmros, P, T Sigsgaard and B Bach. 1992. Occupational health problems due to garbage sorting. Waste Management & Research 10:227-234.

Mara, DD. 1974. Bacteriology for Sanitary Engineers. London: Churchill Livingstone.

Maxey, MN. 1978. Hazards of solid waste management: bioethical problems, principles, and priorities. Environ Health Perspect 27:223-230.

Millner, PD, SA Olenchock, E Epstein, R Rylander, J Haines, and J Walker. 1994. Bioaerosols associated with composting facilities. Compost Science and Utilization 2:3-55.

Mozzon, D, DA Brown, and JW Smith. 1987. Occupational exposure to airborne dust, respirable quartz and metals arising from refuse handling, burning and landfilling. Am Ind Hyg Assoc J 48(2):111-116.

Nersting, L, P Malmros, T Sigsgaard, and C Petersen. 1990. Biological health risk associated with resource recovery, sorting of recycle waste and composting. Grana 30:454-457.

Paull, JM and FS Rosenthal. 1987. Heat strain and heat stress for workers wearing protective suits at a hazardous waste site. Am Ind Hyg Assoc J 48(5):458-463.

Puckett, J and C Fogel 1994. A Victory for Environment and Justice: The Basel Ban and How It Happened. Washington, DC: Greenpeace Public Information.

Rahkonen, P, M Ettala, and I Loikkanen. 1987. Working conditions and hygiene at sanitary landfills in Finland. Ann Occup Hyg 31(4A):505-513.

Robazzi, ML, E Gir, TM Moriya, and J Pessuto. 1994. The trash collection service: Occupational risks versus damages to health (in Portuguese). Rev Esc Enferm USP 28(2):177-190.

Rosas, I, C Calderon, E Salinas, and J Lacey. 1996. Airborne microorganisms in a domestic waste transfer station. In Aerobiology, edited by M Muilenberg and H Burge. New York: Lewis Publishers.

Rummel-Bulska, I. 1993. The Basel Convention: A global approach for the management of hazardous wastes. Paper presented at the Pacific Basin Conference on Hazardous Waste, University of Hawaii, November.

Salvato, JA. 1992. Environmental Engineering and Sanitation. New York: John Wiley and Sons.

Schilling, CJ, IP Tams, RS Schilling, A Nevitt, CE Rossiter, and B Wilkinson. 1988. A survey into the respiratory effects of prolonged exposure to pulverised fuel ash. Br J Ind Med 45(12):810-817.

Shrivastava, DK, SS Kapre, K Cho, and YJ Cho. 1994. Acute lung disease after exposure to fly ash. Chest 106(1):309-311.

Sigsgaard, T, A Abel, L Donbk, and P Malmros. 1994. Lung function changes among recycling workers exposed to organic dust. Am J Ind Med 25:69-72.

Sigsgaard, T, B Bach, and P Malmros. 1990. Respiratory impairment among workers in a garbage-handling plant. Am J Ind Med 17(1):92-93.

Smith, RP. 1986. Toxic responses of the blood. In Casarett and Doull’s Toxicology, edited by CD Klaassen, MO Amdur, and J Doull. New York: Macmillan Publishing Company.

Soskolne, C. 1997. International transport of hazardous waste: Legal and illegal trade in the context of professional ethics. Global Bioethics (September/October).

Spinaci, S, W Arossa, G Forconi, A Arizio, and E Concina. 1981. Prevalence of functional bronchial obstruction and identification of groups at risk in a population of industrial workers (in Italian). Med Lav 72(3):214-221.

Southam News. 1994. Export ban on toxic waste proposed. Edmonton Journal (9 March):A12.

van der Werf, P. 1996. Bioaerosols at a Canadian composting facility. Biocycle (September): 78-83.
Vir, AK. 1989. Toxic trade with Africa. Environ Sci Technol 23:23-25.

Weber, S, G Kullman, E Petsonk, WG Jones, S Olenchock, and W Sorensen. 1993. Organic dust exposures from compost handling: Case presentation and respiratory exposure assessment. Am J Ind Med 24:365-374.

Wilkenfeld, C, M Cohen, SL Lansman, M Courtney, MR Dische, D Pertsemlidis, and LR Krakoff. 1992. Heart transplantation for end-stage cardiomyopathy caused by an occult pheochromocytoma. J Heart Lung Transplant 11:363-366.