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Workplace health surveillance

December 15, 2023

Workplace health surveillance or occupational health surveillance (U.S.) is the ongoing systematic collection, analysis, and dissemination of exposure and health data on groups of workers.[1][2] The Joint ILO/WHO Committee on Occupational Health at its 12th Session in 1995 defined an occupational health surveillance system as "a system which includes a functional capacity for data collection, analysis and dissemination linked to occupational health programmes".[3]

The concept is new to occupational health and is frequently confused with medical screening. Health screening refers to the early detection and treatment of diseases associated with particular occupations, while workplace health surveillance refers to the removal of the causative factors.[4]

Aspects edit

Medical surveillance edit

A video about medical testing at a workplace as part of a NIOSH Health Hazard Evaluation Program investigation

The mission of a medical surveillance program is to keep workers healthy and ensure that employers are meeting OSHA standards in health and safety.[5] Medical surveillance has an emphasis on prevention: it is designed to detect potential workplace hazards before irreversible health effects can occur.[6] Clinicians with expertise in occupational health, industrial exposures, and respiratory protection screen workers with physical examinations, blood testing, spirometry (a measurement lung function), and audiometry. Screenings are performed at set intervals, often annually. The clinicians providing medical surveillance services include board-certified occupational and environmental medicine physicians, mid-level practitioners, nurses, and NIOSH-certified spirometry technicians.[5][6]

Medical surveillance targets actual health events or a change in a biologic function of an exposed person or persons. Medical surveillance is a second line of defense behind the implementation of direct hazard controls such as engineering controls, administrative controls, and personal protective equipment. NIOSH recommends the medical surveillance of workers when they are exposed to hazardous materials. The elements of a medical surveillance program generally include the following:[7]

  1. An initial medical examination and collection of medical and occupational histories
  2. Periodic medical examinations at regularly scheduled intervals, including specific medical screening tests when warranted
  3. More frequent and detailed medical examinations as indicated on the basis of findings from these examinations
  4. Post-incident examinations and medical screening following uncontrolled or non-routine increases in exposures such as spills
  5. Worker training to recognize symptoms of exposure to a given hazard
  6. A written report of medical findings
  7. Employer actions in response to identification of potential hazards

When the purpose of a medical surveillance program is to detect early signs of work-related illness and disease, it is considered a type of medical screening, to detect preclinical changes in organ function or changes before a person would normally seek medical care and when intervention is beneficial The establishment of a medical screening program should follow established criteria, and specific disease endpoints must be able to be determined by the test selected.[7]

Medical examinations and tests are used in many workplaces to determine whether an employee is able to perform the essential functions of the job. Medical surveillance of workers is also required by law in the United States when there is exposure to a specific workplace hazard, and OSHA has a number of standards that require medical surveillance of workers In addition to substance-specific standards, OSHA has standards with broader applicability. For example, employers must follow the medical evaluation requirements of OSHA's respiratory protection standard (29 CFR 1910.134) when respirators are necessary to protect worker health. Likewise, the OSHA standard for occupational exposure to hazardous chemicals in laboratories (29 CFR 1910.1450) requires medical consultation following the accidental release of hazardous chemicals. NIOSH also recommends medical surveillance, including screening, of workers when there is exposure to certain occupational hazards.[7]

Hazard surveillance edit

Hazard surveillance involves identifying potentially hazardous practices or exposures in the workplace and assessing the extent to which they can be linked to workers, the effectiveness of controls, and the reliability of exposure measures. Workplace hazards can be chemical, biological, physical, ergonomic, psychosocial, or safety-related in nature.[8] Hazard surveillance is an essential component of any occupational health surveillance effort and is used for defining the elements of the risk management program. Critical elements of a risk management program include recognizing potential exposures and taking appropriate actions to minimize them (for example, implementing engineering controls, employing good work practices, and using personal protective equipment). Hazard surveillance should include the identification of work tasks and processes that involve the production and use of hazardous materials, and should be viewed as one of the most critical components of any risk management program.[7]

Hazard surveillance includes elements of hazard and exposure assessment. The hazard assessment involves reviewing the best available information concerning toxicity of materials. Such an assessment may come from databases, texts, and published literature or available regulations or guidelines. Human studies, such as epidemiologic investigations and case series or reports, and animal studies may also provide valuable information. The exposure assessment involves evaluating relevant exposure routes (inhalation, ingestion, dermal, and/or injection), amount, duration, and frequency (i.e., dose), as well as whether exposure controls are in place and how protective they are. When data are not available, this will be a qualitative process.[1]

Occupational Health Indicators (OHIs) edit

In 1998, the Council of State and Territorial Epidemiologists (CSTE) joined the CDC's National Institute for Occupational Safety and Health (NIOSH) to form the Occupational Health Surveillance Work Group in order to prioritize occupational health conditions to be placed under surveillance.[9] The Work Group recommended that states use 19 occupational health indicators based on the availability of easily obtainable statewide data, the public health importance of the occupational health effect or exposure, and the potential for intervention activities.[9]

These indicators are useful in assessing the ongoing policies and preventive measures but they also have some limitations. Among the major limitations are the underreporting of occupational health disorders, the inability to recognize potential occupational association of the disorder by health care workers, difficulties in attributing diseases with long latency or multiple causes (such as lung cancer) to occupational exposures, exclusion of special populations (such as self-employed or military personnel), and differences between state-specific databases.[9]

Data Sources edit

Data for the OHIs come from multiple sources including:

Tools edit

The usefulness of a surveillance tool may depend on what hazards are present in the workplace and the health effects those hazards may cause. For example, hearing tests will be helpful when noise exposures are present, while tests assessing lung function or biomonitoring may be useful when airborne agents are present. It is also important to distinguish between tools using medical surveillance (measuring health effects) and hazard surveillance/exposure assessment (physical measurements of the type and severity of hazard present). Periodic testing, including a baseline exam when an employee is hired, can often help detect a decline in function by comparing previous results.[15]

 
Hearing exam

Medical surveillance tools

  • General
  • Chemical or particulate exposures
    • Pulmonary function testing is a way to measure lung function. It can assist in the early detection of occupational lung diseases and provides information about the severity and staging of asthma and other restrictive lung diseases.[16][17][18]
      • Spirometry tests measure how quickly air can be pushed out from the lungs and is useful in evaluating diseases that cause obstruction to flow.[16]
      • Plethysmography measures lung volume by having the subject perform breathing tests inside of an air tight box.[16]
      • Flow rates can be measured by asking subjects to blow air out of the lungs as fast and as hard as possible from their largest inhaled breathe (inspiration) to the maximum exhaled breathe (expiration). The volume exhaled in the first second is called the forced expiratory volume in one second (FEV1). These flow rates can be indicators of disease that cause obstruction to airflow, such as asthma, chronic bronchitis, and emphysema.[16]
    • Biomonitoring measures total body burden of a hazardous chemical in a worker via analysis of biological specimens such as urine or blood. Non-invasive procedures are preferred when possible.[19]
  • Noise exposures
  • Other
    • Hand arm assessment[21] (vibration) and dermatological assessments[22] (chemical) are other important tools for workplace health surveillance.

Confidentiality of information edit

Most countries have specific regulations for individual health data, which require that the worker be informed if this information is ever shared with any third party. Occupational Health Records (OHR) have the same protections as any medical record that has confidential health information. Employers must store OHR in a secured area free from unauthorized access, use, or disclosure. Workers should have the right to access this information whenever they wish.

References edit

  This article incorporates public domain material from websites or documents of the National Institute for Occupational Safety and Health.

  1. ^ a b "Current Intelligence Bulletin 65: Occupational Exposure to Carbon Nanotubes and Nanofibers". U.S. National Institute for Occupational Safety and Health: 146. April 2013. doi:10.26616/NIOSHPUB2013145. Retrieved 2017-04-27.   This article incorporates text from this source, which is in the public domain.
  2. ^ "Worker Health Surveillance". U.S. National Institute for Occupational Safety and Health. Retrieved 2017-04-27.
  3. ^ "Occupational Safety and Health". International Labour Organization. Retrieved 2017-04-27.
  4. ^ Eliasson, Kristina; Dahlgren, Gunilla; Hellman, Therese; Lewis, Charlotte; Palm, Peter; Svartengren, Magnus; Nyman, Teresia (2021-02-19). "Company Representatives' Experiences of Occupational Health Surveillance for Workers Exposed to Hand-Intensive Work: A Qualitative Study". International Journal of Environmental Research and Public Health. 18 (4): 2018. doi:10.3390/ijerph18042018. ISSN 1660-4601. PMC 7922478. PMID 33669705.
  5. ^ a b "About Us". University of California, Davis Medical Surveillance Program. Retrieved 2012-08-07.
  6. ^ a b "Medical Screening and Surveillance". U.S. Occupational Safety and Health Administration. Retrieved 2012-08-07.
  7. ^ a b c d "Current Intelligence Bulletin 60: Interim Guidance for Medical Screening and Hazard Surveillance for Workers Potentially Exposed to Engineered Nanoparticles". U.S. National Institute for Occupational Safety and Health: 3–5. February 2009. doi:10.26616/NIOSHPUB2009116. Retrieved 2017-04-26.   This article incorporates text from this source, which is in the public domain.
  8. ^ Safety, Government of Canada, Canadian Centre for Occupational Health and. "Hazards | Canadian Centre for Occupational Health and Safety". www.ccohs.ca. Retrieved 2018-01-29.{{cite web}}: CS1 maint: multiple names: authors list (link)
  9. ^ a b c "Indicators for Occupational Health Surveillance" (PDF). Department of Health and Human Services, Centers for Disease Control and Prevention. January 19, 2007. Retrieved February 20, 2018.
  10. ^ "Injuries, Illnesses, and Fatalities". www.bls.gov. Retrieved 2018-02-20.
  11. ^ "Census of Fatal Occupational Injuries (CFOI) – Current and Revised Data". www.bls.gov. Retrieved 2018-02-20.
  12. ^ "National Poison Data System". www.aapcc.org. Retrieved 2018-02-20.
  13. ^ "CDC – Adult Blood Lead Epidemiology and Surveillance (ABLES) – NIOSH Workplace Safety and Health Topic". www.cdc.gov. 2018-01-19. Retrieved 2018-02-20.
  14. ^ "Establishment Search Page | Occupational Safety and Health Administration". www.osha.gov. Retrieved 2018-02-20.
  15. ^ "1910.1025 App B - Employee standard summary | Occupational Safety and Health Administration". www.osha.gov. Retrieved 2021-03-07.
  16. ^ a b c d "Occupational Medicine". www.iaff.org. Retrieved 2018-02-01.
  17. ^ "OSHA Publications – Pulmonary Function Test | Occupational Safety and Health Administration". www.osha.gov. Retrieved 2018-02-01.
  18. ^ "CDC – Spirometry – NIOSH Workplace Safety and Health Topic". www.cdc.gov. 2017-12-08. Retrieved 2018-02-01.
  19. ^ "Biological monitoring (biomonitoring): OSHwiki". oshwiki.eu. Retrieved 2018-02-01.
  20. ^ Walker, Jennifer Junnila; Cleveland, Leanne M.; Davis, Jenny L.; Seales, Jennifer S. (2013-01-01). "Audiometry Screening and Interpretation". American Family Physician. 87 (1): 41–47. ISSN 0002-838X. PMID 23317024.
  21. ^ "HAVS risk assessment guide – SHP – Health and Safety News, Legislation, PPE, CPD and Resources". SHP – Health and Safety News, Legislation, PPE, CPD and Resources. 2008-09-21. Retrieved 2018-02-01.
  22. ^ "Dermatology – Occupational Dermatology – Penn State Health". hmc.pennstatehealth.org. Retrieved 2018-02-01.

External links edit

  • 2013 Report on workplace accidents

December 15, 2023
workplace, health, surveillance, occupational, health, surveillance, ongoing, systematic, collection, analysis, dissemination, exposure, health, data, groups, workers, joint, committee, occupational, health, 12th, session, 1995, defined, occupational, health, . Workplace health surveillance or occupational health surveillance U S is the ongoing systematic collection analysis and dissemination of exposure and health data on groups of workers 1 2 The Joint ILO WHO Committee on Occupational Health at its 12th Session in 1995 defined an occupational health surveillance system as a system which includes a functional capacity for data collection analysis and dissemination linked to occupational health programmes 3 The concept is new to occupational health and is frequently confused with medical screening Health screening refers to the early detection and treatment of diseases associated with particular occupations while workplace health surveillance refers to the removal of the causative factors 4 Contents 1 Aspects 1 1 Medical surveillance 1 2 Hazard surveillance 2 Occupational Health Indicators OHIs 2 1 Data Sources 3 Tools 4 Confidentiality of information 5 References 6 External linksAspects editMedical surveillance edit source source source source source source source source A video about medical testing at a workplace as part of a NIOSH Health Hazard Evaluation Program investigationThe mission of a medical surveillance program is to keep workers healthy and ensure that employers are meeting OSHA standards in health and safety 5 Medical surveillance has an emphasis on prevention it is designed to detect potential workplace hazards before irreversible health effects can occur 6 Clinicians with expertise in occupational health industrial exposures and respiratory protection screen workers with physical examinations blood testing spirometry a measurement lung function and audiometry Screenings are performed at set intervals often annually The clinicians providing medical surveillance services include board certified occupational and environmental medicine physicians mid level practitioners nurses and NIOSH certified spirometry technicians 5 6 Medical surveillance targets actual health events or a change in a biologic function of an exposed person or persons Medical surveillance is a second line of defense behind the implementation of direct hazard controls such as engineering controls administrative controls and personal protective equipment NIOSH recommends the medical surveillance of workers when they are exposed to hazardous materials The elements of a medical surveillance program generally include the following 7 An initial medical examination and collection of medical and occupational histories Periodic medical examinations at regularly scheduled intervals including specific medical screening tests when warranted More frequent and detailed medical examinations as indicated on the basis of findings from these examinations Post incident examinations and medical screening following uncontrolled or non routine increases in exposures such as spills Worker training to recognize symptoms of exposure to a given hazard A written report of medical findings Employer actions in response to identification of potential hazardsWhen the purpose of a medical surveillance program is to detect early signs of work related illness and disease it is considered a type of medical screening to detect preclinical changes in organ function or changes before a person would normally seek medical care and when intervention is beneficial The establishment of a medical screening program should follow established criteria and specific disease endpoints must be able to be determined by the test selected 7 Medical examinations and tests are used in many workplaces to determine whether an employee is able to perform the essential functions of the job Medical surveillance of workers is also required by law in the United States when there is exposure to a specific workplace hazard and OSHA has a number of standards that require medical surveillance of workers In addition to substance specific standards OSHA has standards with broader applicability For example employers must follow the medical evaluation requirements of OSHA s respiratory protection standard 29 CFR 1910 134 when respirators are necessary to protect worker health Likewise the OSHA standard for occupational exposure to hazardous chemicals in laboratories 29 CFR 1910 1450 requires medical consultation following the accidental release of hazardous chemicals NIOSH also recommends medical surveillance including screening of workers when there is exposure to certain occupational hazards 7 Hazard surveillance edit Hazard surveillance involves identifying potentially hazardous practices or exposures in the workplace and assessing the extent to which they can be linked to workers the effectiveness of controls and the reliability of exposure measures Workplace hazards can be chemical biological physical ergonomic psychosocial or safety related in nature 8 Hazard surveillance is an essential component of any occupational health surveillance effort and is used for defining the elements of the risk management program Critical elements of a risk management program include recognizing potential exposures and taking appropriate actions to minimize them for example implementing engineering controls employing good work practices and using personal protective equipment Hazard surveillance should include the identification of work tasks and processes that involve the production and use of hazardous materials and should be viewed as one of the most critical components of any risk management program 7 Hazard surveillance includes elements of hazard and exposure assessment The hazard assessment involves reviewing the best available information concerning toxicity of materials Such an assessment may come from databases texts and published literature or available regulations or guidelines Human studies such as epidemiologic investigations and case series or reports and animal studies may also provide valuable information The exposure assessment involves evaluating relevant exposure routes inhalation ingestion dermal and or injection amount duration and frequency i e dose as well as whether exposure controls are in place and how protective they are When data are not available this will be a qualitative process 1 Occupational Health Indicators OHIs editIn 1998 the Council of State and Territorial Epidemiologists CSTE joined the CDC s National Institute for Occupational Safety and Health NIOSH to form the Occupational Health Surveillance Work Group in order to prioritize occupational health conditions to be placed under surveillance 9 The Work Group recommended that states use 19 occupational health indicators based on the availability of easily obtainable statewide data the public health importance of the occupational health effect or exposure and the potential for intervention activities 9 These indicators are useful in assessing the ongoing policies and preventive measures but they also have some limitations Among the major limitations are the underreporting of occupational health disorders the inability to recognize potential occupational association of the disorder by health care workers difficulties in attributing diseases with long latency or multiple causes such as lung cancer to occupational exposures exclusion of special populations such as self employed or military personnel and differences between state specific databases 9 Data Sources edit Data for the OHIs come from multiple sources including Death certificates with contributing and underlying causes of death which all states send to the National Vital Statistics System in CDC s National Center for Health Statistics Cancer registries such as the North American Association of Central Cancer Registries State hospital discharge data State Worker s Compensation systems Occupational safety and health professionals Survey of occupational injuries and illnesses with results provided in the Bureau of Labor Statistics BLS Annual Survey of Occupational Injuries and Illnesses 10 BLS Census of Fatal Occupational Injuries 11 Poison Control Centers PCCs which submit real time data to the American Association of Poison Control Centers for inclusion in the Toxic Exposure Surveillance System 12 Adult Blood Lead Epidemiology and Surveillance ABLES 13 OSHA s Integrated Management Information System IMIS which maintains worksite inspection data to determine compliance with health and safety standards 14 Tools editThis section does not cite any sources Please help improve this section by adding citations to reliable sources Unsourced material may be challenged and removed April 2017 Learn how and when to remove this template message The usefulness of a surveillance tool may depend on what hazards are present in the workplace and the health effects those hazards may cause For example hearing tests will be helpful when noise exposures are present while tests assessing lung function or biomonitoring may be useful when airborne agents are present It is also important to distinguish between tools using medical surveillance measuring health effects and hazard surveillance exposure assessment physical measurements of the type and severity of hazard present Periodic testing including a baseline exam when an employee is hired can often help detect a decline in function by comparing previous results 15 nbsp Hearing examMedical surveillance toolsGeneral Epidemiological cohort and case control studies investigate associations between causative agents and specific health effects Physical examinations assess the overall well being of the worker and identify health related issues Chemical or particulate exposures Pulmonary function testing is a way to measure lung function It can assist in the early detection of occupational lung diseases and provides information about the severity and staging of asthma and other restrictive lung diseases 16 17 18 Spirometry tests measure how quickly air can be pushed out from the lungs and is useful in evaluating diseases that cause obstruction to flow 16 Plethysmography measures lung volume by having the subject perform breathing tests inside of an air tight box 16 Flow rates can be measured by asking subjects to blow air out of the lungs as fast and as hard as possible from their largest inhaled breathe inspiration to the maximum exhaled breathe expiration The volume exhaled in the first second is called the forced expiratory volume in one second FEV1 These flow rates can be indicators of disease that cause obstruction to airflow such as asthma chronic bronchitis and emphysema 16 Biomonitoring measures total body burden of a hazardous chemical in a worker via analysis of biological specimens such as urine or blood Non invasive procedures are preferred when possible 19 Noise exposures Audiometry remains the mainstay of diagnosis of noise induced hearing loss which is the most common reported occupational disease in all parts of the world 20 Other Hand arm assessment 21 vibration and dermatological assessments 22 chemical are other important tools for workplace health surveillance Confidentiality of information editMost countries have specific regulations for individual health data which require that the worker be informed if this information is ever shared with any third party Occupational Health Records OHR have the same protections as any medical record that has confidential health information Employers must store OHR in a secured area free from unauthorized access use or disclosure Workers should have the right to access this information whenever they wish References edit nbsp This article incorporates public domain material from websites or documents of the National Institute for Occupational Safety and Health a b Current Intelligence Bulletin 65 Occupational Exposure to Carbon Nanotubes and Nanofibers U S National Institute for Occupational Safety and Health 146 April 2013 doi 10 26616 NIOSHPUB2013145 Retrieved 2017 04 27 nbsp This article incorporates text from this source which is in the public domain Worker Health Surveillance U S National Institute for Occupational Safety and Health Retrieved 2017 04 27 Occupational Safety and Health International Labour Organization Retrieved 2017 04 27 Eliasson Kristina Dahlgren Gunilla Hellman Therese Lewis Charlotte Palm Peter Svartengren Magnus Nyman Teresia 2021 02 19 Company Representatives Experiences of Occupational Health Surveillance for Workers Exposed to Hand Intensive Work A Qualitative Study International Journal of Environmental Research and Public Health 18 4 2018 doi 10 3390 ijerph18042018 ISSN 1660 4601 PMC 7922478 PMID 33669705 a b About Us University of California Davis Medical Surveillance Program Retrieved 2012 08 07 a b Medical Screening and Surveillance U S Occupational Safety and Health Administration Retrieved 2012 08 07 a b c d Current Intelligence Bulletin 60 Interim Guidance for Medical Screening and Hazard Surveillance for Workers Potentially Exposed to Engineered Nanoparticles U S National Institute for Occupational Safety and Health 3 5 February 2009 doi 10 26616 NIOSHPUB2009116 Retrieved 2017 04 26 nbsp This article incorporates text from this source which is in the public domain Safety Government of Canada Canadian Centre for Occupational Health and Hazards Canadian Centre for Occupational Health and Safety www ccohs ca Retrieved 2018 01 29 a href Template Cite web html title Template Cite web cite web a CS1 maint multiple names authors list link a b c Indicators for Occupational Health Surveillance PDF Department of Health and Human Services Centers for Disease Control and Prevention January 19 2007 Retrieved February 20 2018 Injuries Illnesses and Fatalities www bls gov Retrieved 2018 02 20 Census of Fatal Occupational Injuries CFOI Current and Revised Data www bls gov Retrieved 2018 02 20 National Poison Data System www aapcc org Retrieved 2018 02 20 CDC Adult Blood Lead Epidemiology and Surveillance ABLES NIOSH Workplace Safety and Health Topic www cdc gov 2018 01 19 Retrieved 2018 02 20 Establishment Search Page Occupational Safety and Health Administration www osha gov Retrieved 2018 02 20 1910 1025 App B Employee standard summary Occupational Safety and Health Administration www osha gov Retrieved 2021 03 07 a b c d Occupational Medicine www iaff org Retrieved 2018 02 01 OSHA Publications Pulmonary Function Test Occupational Safety and Health Administration www osha gov Retrieved 2018 02 01 CDC Spirometry NIOSH Workplace Safety and Health Topic www cdc gov 2017 12 08 Retrieved 2018 02 01 Biological monitoring biomonitoring OSHwiki oshwiki eu Retrieved 2018 02 01 Walker Jennifer Junnila Cleveland Leanne M Davis Jenny L Seales Jennifer S 2013 01 01 Audiometry Screening and Interpretation American Family Physician 87 1 41 47 ISSN 0002 838X PMID 23317024 HAVS risk assessment guide SHP Health and Safety News Legislation PPE CPD and Resources SHP Health and Safety News Legislation PPE CPD and Resources 2008 09 21 Retrieved 2018 02 01 Dermatology Occupational Dermatology Penn State Health hmc pennstatehealth org Retrieved 2018 02 01 External links edit2013 Report on workplace accidents Retrieved from https en wikipedia org w index php title Workplace health surveillance amp oldid 1161592051, wikipedia, wiki, book, books, library,

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