Public Safety

Participating core and specialty programs: Emergency Preparedness and Response, PPT

Employers, workers, professional associations, policy-makers, researchers, and consensus standard organizations use NIOSH information to prevent transmission of infectious disease among public safety workers.

NOTE: Goals in bold in the table below are priorities for extramural research.

  Health Outcome Research Focus Worker Population Research Type
A Infectious disease (e.g., tuberculosis , hepatitis) Adapt guidelines to prevent exposure to blood and bodily fluids Corrections and law enforcement subsectors Intervention
B Infectious disease (e.g., tuberculosis influenza) Exposures to airborne and vector-borne infectious diseases Corrections, law enforcement, fire service, and emergency medical service (EMS) subsectors Basic/etiologic

Surveillance research

C Infectious disease (e.g., tuberculosis, influenza) Underutilization of personal protective equipment (PPE) to prevent infectious disease transmission Corrections and law enforcement subsectors Intervention

Translation

D Infectious disease (e.g., tuberculosis, influenza) No reporting of infectious disease exposures; Industry/occupation variables not included in existing surveillance systems Corrections, law enforcement, and EMS subsectors Surveillance research

Activity Goal 3.6.1 (Basic/Etiologic Research): Conduct basic/etiologic research to better understand relationship between exposures to airborne and vector-borne infectious diseases among public safety workers.

Activity Goal 3.6.2 (Intervention Research): Conduct studies to develop and assess the effectiveness of interventions to prevent the transmission of infectious diseases among law enforcement and corrections workers.

Activity Goal 3.6.3 (Translation Research): Conduct translation research to understand barriers and aids to effective use of PPE to prevent infectious disease transmission among law enforcement and corrections workers.

Activity Goal 3.6.4 (Surveillance Research): Conduct surveillance research to develop new methods and tools to measure infectious disease exposures among public safety workers.

Burden

The public safety sector workforce includes emergency medical service (EMS), corrections, law enforcement and fire service. These public safety professionals can be exposed to airborne and vector-borne infectious diseases and blood and bodily fluid disease causing pathogens in performing their duties. These regularly include tuberculosis, human immunodeficiency virus (HIV), Hepatitis B and C, influenza, and methicillin-resistant Staphylococcus aureus (MRSA), with the additional potential to involve emerging or epidemic threats such as but not limited to Ebola.[Thomas et al. 2017; Roberts 2014; Amiry et al. 2013; Sayed et al.2011; Gershop et al. 2007; Speers 2014; IAFF 2000] EMS and fire service workers provide lifesaving, medical support and other functions in unpredictable and uncontrolled environments and under adverse conditions which can increase the risk of exposure. [Sayed 2011]. Corrections officers can be exposed to a variety of infectious agents when interacting with detainees and inmates [Bick 2007; Gershop et al. 2007]. Infectious agents vary in their routes of transmission and can occur via contact with the skin, mucous membranes such as the eyes and nose, or inhalation. Not wearing appropriate personal protective equipment (PPE) such as respiratory protection, eye/face protection, gloves and gowns can increase the risk of exposures.

Need

Public safety workers, especially law enforcement and corrections officers face volatile work situations and encounters with uncooperative individuals. The work environment often is an uncontrolled setting with the possibility of exposure to large amounts of blood and bodily fluids. Surveillance research needs to be conducted on the development and implementation of new methods and tools to gather data, measure and report the extent of infectious disease exposures among these workers. Basic research needs to be conducted to better define the exposure pathways to airborne and vector-borne diseases among public safety workers. Interventions to prevent exposures and transmissions of infectious diseases needs to be developed and studies conducted to demonstrate their effectiveness. Translational research is needed to understand the barriers to the adoption and use of PPE among law enforcement and corrections workers and to translate OSHA and NIOSH fact sheets and publications to other languages to increase their utility to the public safety workers.

Employers, workers, professional associations, policy-makers, researchers, and standard setting bodies use NIOSH information to prevent dermal exposure to illicit drugs among public safety workers.

  Health Outcome Research Focus Worker Population Research Type
A Fatality, systemic toxicity Exposure to fentanyl and other illicit drugs Law enforcement and emergency medical service (EMS) subsectors Basic/etiologic

Surveillance research

B Fatality, systemic toxicity How to respond to potential exposures to fentanyl and other illicit drugs Law enforcement and EMS subsectors Intervention

Activity Goal 3.7.1 (Basic/Etiologic Research): Conduct basic/etiologic research to better understand the health effects of dermal exposures to illicit drugs among law enforcement and EMS workers.

Activity Goal 3.7.2 (Intervention Research): Conduct studies to develop and assess the effectiveness of interventions to mitigate potential dermal exposures to illicit drugs among law enforcement and EMS workers.

Activity Goal 3.7.3 (Surveillance Research): Conduct surveillance research to develop new methods and tools to measuring dermal exposures to illicit drugs among law enforcement and EMS workers.

Burden

Between 2000 and 2014, the death rate from drug over dosage in the U.S. has more than doubled, and in 2014, 61% of drug overdose deaths involved some type of opioid, including heroin [CDC 2016]. The rate of drug overdose deaths involving synthetic opioids (e.g., fentanyl and tramadol) and non-pharmaceutical fentanyl manufactured in illegal laboratories (illicit fentanyl) nearly doubled between 2013 and 2014 [CDC 2016]. Reports from law enforcement agencies indicate that synthetic opioid overdoses may be due to illegally made fentanyl. Over the past decade, the U.S. Drug Enforcement Administration (DEA) has noted the increasing risks of law enforcement and emergency medical service (EMS) personnel contacting these drugs in the course of law enforcement and emergency response activities through inhalation and skin (dermal) absorption exposures [DEA 2017]. Exposure to these drugs may result in adverse health effects such as accidental overdose or even death.

Need

Surveillance research needs to be conducted to development new procedures, methods, and tools for gathering illicit drug exposure data for law enforcement and EMS workers. Basic research is needed to better understand the physical health effects of contacting opioids and the emotional effects including trauma, long term stress resulting from illicit drug exposures among law enforcement and EMS workers. Studies need to be completed to assess the modes of exposure that are of greatest risk and the effectiveness of interventions to mitigate the potential exposures to illicit drugs among law enforcement and EMS workers.

Amiry AA, Bissell RA, Maguire RJ, Alves DW [2013]. Methicillin-resistant staphylococcus aureus nasal colonization prevalence among Emergency Medical Services personnel. Prehosp Disaster Med 28(4):348-352.

Bick R [2007]. Infection control in jails and prisons. Clin Infect Dis 45(8):1047-1055.

CDC [2016]. Increases in drug and opioid overdose deaths – United States, 2000-2014. MMWR 64(50);1378-82 https://www.cdc.gov/mmwr/preview/mmwrhtml/mm6450a3.htm

DEA [2017]. DEA warns local law enforcement and first responders about the dangers of fentanyl exposure. Washington, DC: U.S. Department of Justice, U.S. Drug Enforcement Administration, https://www.dea.gov/divisions/hq/2017/hq060617.shtmlExternal

Gershon RRM, Sherman MF, Mitchell C, et al. [2007]. Prevalence and factors for bloodborne exposure and infection in correctional care workers. Infect Control Hosp Epidemiol 28:24-30.

Reed E, Daya MR, Jui J, Grellman K, Gerber L, Loveless MO. [1993]. Occupational infectious disease exposures in EMS personnel. J Emerg Med 11(1):9-16.

IAFF (International Association of Fire Fighters) [2000]. 2000 death and injury survey. Washington DC: International Association of Fire Fighters. http://www.iaff.org/hs/PDF/2000%20D&I.pdfCdc-pdfExternal

Roberts MC [2014]. Environment surface sampling in 33 Washington State fire stations for methicillin-resistant and methicillin-susceptible Staphylococcus aureus. Am J Infect ControlExternal 42(6):591-596.

Sayed ME, Kue R, McNeil C, Dyer KS [2011]. A descriptive analysis of occupational health exposures in an urban emergency medical services system: 2007-2009. Prehosp Emerg Care 15(4):506-510.

Speers D [2014]. Infectious disease and the prehospital practitioner. Australasian J Paramed 1(1):1-9.

Thomas B, O’Meara P, Spelton E [2017]. Everyday dangers – the impact infectious disease has on the health of paramedics: a scoping review. Prehosp Diseaster Med. Epub 2017 Jan 30.

Page last reviewed: April 24, 2018