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Factors Influencing Health Care Workers’ Willingness to Respond to Duty during Infectious Disease Outbreaks and Bioterrorist Events: An Integrative Review

Published online by Cambridge University Press:  23 February 2021

Eleanor J. Murray
Affiliation:
Department of Epidemiology, Boston University School of Public Health, Boston, MassachusettsUSA
Matt Mason
Affiliation:
School of Nursing, Midwifery, and Paramedicine, University of the Sunshine Coast, Maroochydore DC, Queensland, Australia Collaborative for the Advancement of Infection Prevention and Control, Queensland, Australia
Vanessa Sparke
Affiliation:
Collaborative for the Advancement of Infection Prevention and Control, Queensland, Australia Discipline of Nursing and Midwifery, James Cook University, Cairns, Queensland, Australia
Peta-Anne P. Zimmerman*
Affiliation:
Collaborative for the Advancement of Infection Prevention and Control, Queensland, Australia School of Nursing and Midwifery, Griffith University, Gold Coast, Queensland, Australia Gold Coast Hospital and Health Service, Southport, Queensland, Australia
*
Correspondence: Peta-Anne P. Zimmerman, DPH School of Nursing and Midwifery, Griffith UniversityGold Coast Hospital and Health Service Collaborative for the Advancement of Infection Prevention and ControlOffice 2.43, G16 Gold Coast Campus Parklands Drive, Southport, QLD, 4215Australia E-mail: [email protected]
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Abstract

Background:

Infectious disease emergencies are increasingly becoming part of the health care delivery landscape, having implications to not only individuals and the public, but also on those expected to respond to these emergencies. Health care workers (HCWs) are perhaps the most important asset in an infectious disease emergency, yet these individuals have their own barriers and facilitators to them being willing or able to respond.

Aim:

The purpose of this review was to identify factors affecting HCW willingness to respond (WTR) to duty during infectious disease outbreaks and/or bioterrorist events.

Methods:

An integrative literature review methodology was utilized to conduct a structured search of the literature including CINAHL, Medline, Embase, and PubMed databases using key terms and phrases. PRISMA guidelines were used to report the search outcomes and all eligible literature was screened with those included in the final review collated and appraised using a quality assessment tool.

Results:

A total of 149 papers were identified from the database search. Forty papers were relevant following screening, which highlighted facilitators of WTR to include: availability of personal protective equipment (PPE)/vaccine, level of training, professional ethics, family and personal safety, and worker support systems. A number of barriers were reported to prevent WTR for HCWs, such as: concern and perceived risk, interpersonal factors, job-level factors, and outbreak characteristics.

Conclusions:

By comprehensively identifying the facilitators and barriers to HCWs’ WTR during infectious disease outbreaks and/or bioterrorist events, strategies can be identified and implemented to improve WTR and thus improve HCW and public safety.

Type
Systematic Review
Creative Commons
Creative Common License - CCCreative Common License - BYCreative Common License - NCCreative Common License - SA
This is an Open Access article, distributed under the terms of the Creative Commons Attribution-NonCommercial-ShareAlike licence (http://creativecommons.org/licenses/by-nc-sa/4.0/), which permits non-commercial re-use, distribution, and reproduction in any medium, provided the same Creative Commons licence is included and the original work is properly cited. The written permission of Cambridge University Press must be obtained for commercial re-use.
Copyright
© The Author(s), 2021. Published by Cambridge University Press on behalf of World Association for Disaster and Emergency Medicine

Introduction

During any emergency situation, health care workers (HCWs) are an important part of the response workforce. The role of HCWs, including those working in emergency response roles, is critical during emergencies such as infectious disease outbreaks or bioterrorist events, particularly for ensuring patient and public well-being. Yet, there are a number of studies that demonstrate a lack of willingness to respond (WTR) to emergencies by HCWs with a particular reluctance to respond during an infectious agent event compared to any other type of emergency, such as a natural disaster, nuclear, radiological, or chemical emergency event. Reference Chaffee1-Reference Qureshi, Gershon and Sherman4 Although there is a growing literature on HCW WTR to infectious disease emergencies, to date, no review has focused on the barriers or facilitators to these specifically.

In order to better prepare for staffing crises due to non-illness-related absenteeism during infectious disease emergencies, it is important to understand who will come to work and why. Previous events such as Severe Acute Respiratory Syndrome (SARS), H1N1 influenza, Ebola, Middle Eastern Respiratory Syndrome (MERS), and the current coronavirus disease 2019 (COVID-19) outbreak highlighted the rapidity with which outbreaks of infectious disease emerge and the importance of understanding barriers and facilitators for WTR to duty among HCWs. Given the reduced WTR to infectious disease emergencies, a review of barriers and facilitators specific to these is vital to understanding and improving response during an outbreak or bioterrorist incident.

The primary objectives of this review are to: (1) describe the rates of willingness of HCWs world-wide to respond to an infectious disease outbreak; and (2) describe the barriers and facilitators for willingness at the individual and organizational levels. This information may help inform disaster preparedness planning and provide direction for interventions that have the potential to decrease non-illness absenteeism across all segments of the health care sector.

Method

An integrative review methodology was used as it includes various perspectives on a subject or topic and is currently the broadest type of research review, which has been advocated as important to health science and research. Reference Whittemore and Knafl5 The framework developed by Whittemore and Knafl Reference Whittemore and Knafl5 guided this review and includes: problem identification, literature search, data evaluation, data analysis, and presentation of the data. Preferred Reporting Items for Systematic Reviews and Meta-Analysis (PRISMA) was also used to guide study identification and selection. Reference Moher, Liberati, Tetzlaff, Altman and The6

Search Strategies

An electronic database search of the peer-reviewed literature published from October 2000 through April 2020 was conducted to identify all English-language studies on WTR to infectious disease emergencies among HCWs. The search was conducted through CINAHL (EBSCO Information Services; Ipswich, Massachusetts USA); Medline (US National Library of Medicine, National Institutes of Health; Bethesda, Maryland USA); Embase (Elsevier; Amsterdam, Netherlands); and PubMed (National Center for Biotechnology Information, National Institutes of Health; Bethesda, Maryland USA) databases for all articles published during this period. All database queries included the phrase “willingness to respond,” both alone and in combination using the Boolean search term AND with one of the following keywords: “bioterrorism,” “smallpox,” “pandemic,” “influenza,” “SARS,” “Ebola,” “MERS,” “COVID-19,” “terrorism,” “disaster,” and “outbreak.” Tables of contents for all issues of the journals Biosecurity and Bioterrorism, American Journal of Disaster Medicine, and Prehospital and Disaster Medicine since 2000 were reviewed by hand for additional relevant articles.

The initial search identified a total of 149 potential articles from the database search; an additional 34 articles were identified from the scan of journals by hand. After excluding duplicates, 95 articles were initially screened based on title and abstracts for those that met the inclusion criteria, by the first and last author, resulting in 50 full-text articles being screened. For inclusion in the review, articles had to include an assessment of willingness of HCWs to respond to an infectious disease outbreak, but this could have been either a hypothetical outbreak scenario, including during training, or an actual disease incident. At the time of assessing the full-text articles, three were excluded due to not measuring WTR, five for not having a specific measure of WTR for infectious disease emergencies, and two for poor quality (described below). This resulted in 40 studies included in the integrative synthesis. A systematic flow diagram (Figure 1), based on PRISMA, was used to display the search strategy and provides a breakdown of the search results. Reference Moher, Liberati, Tetzlaff, Altman and The6

Figure 1. PRISMA Flow Diagram of Search.

Data Extraction and Synthesis

Each article was assessed for quality, including study design and sample size. In addition, the occupation of participants, location, incident type, pathogen(s), and WTR among HCWs was extracted from each paper (Table 1). Incidents were classified as naturally occurring outbreaks or bioterrorist-related incidents based on the framing of questions used to determine willingness or the specific pathogen incidents or disease described to study participants. All articles discussing hypothetical smallpox outbreaks were assumed to address bioterrorist-related outbreaks. Factors that were either facilitators or barriers for WTR were collated and are presented in Table 2.

Table 1. Willingness to Respond during Infectious Disease Emergencies

Abbreviations: MMAT, Mixed Methods Assessment Tool; EPPM, Extended Parallel Process Model; EMS, Emergency Medical Services; HCW, health care worker; EMT, emergency medical technician; NGO, nongovernmental organization; SARS, Severe Acute Respiratory Syndrome; ED, emergency department; PPE, personal protective equipment.

a Rounded to nearest percentage.

b N/a: data not available.

c Willingness calculated as % reporting willingness level as: extremely, quite a bit, or moderate amount.

d Willingness measures % disagreement with the statement “It would be ethical for health care personnel to abandon their workplace during a pandemic to protect themselves and their families.

e Willingness was calculated from % agreement with statement “I should not be looking after bird flu patients.

fWillingness was measured using the question “Would you remain on duty to treat/care for patients with smallpox if…” followed by a series of scenarios for personal protection. % willingness indicates responses of: probably or definitely. Other response choices were: definitely not, probably not, or maybe.

Table 2. Facilitators and Barriers to Willingness to Respond during Infectious Disease Emergencies

Abbreviations: PPE, personal protective equipment; HCW, health care worker; WTR, willingness to respond; EMT, emergency medical technician.

a Barriers and facilitators apply to all employment groups and infectious disease types queried in a given study.

Quality Assessment

In order to assess the quality of the articles included in the review, the Mixed Methods Appraisal Tool (MMAT) version 2018 was used as it, unlike other appraisal tools, allows for a variety of studies to be included in its assessment including quantitative, qualitative, and mixed methods research designs.Reference Hong, Pluye and Fabregues7 The MMAT has been reported to have reliability and efficiency with interrater reliability scores ranging from moderate to perfect agreement.Reference Hong, Pluye and Fabregues7 The MMAT utilizes a set of five categories, each with five associated specific criteria, including a qualitative set, a randomized set, a non-randomized set, an observational descriptive set, and a mixed method set. The MMAT version 2018 does not recommend scoring against the category criteria, rather a description of what was met or not met.Reference Hong, Pluye and Fabregues7 The included studies were appraised independently by the second and last authors based on the MMAT version 2018 criteria, with two studies excluded based on the quality assessment. Results of the critical appraisal of the papers using the MMAT version 2018 ranged from papers meeting between three and five (out of five) of the criteria.

Results

Forty articles met the inclusion criteria for the final review, four (n = 4; 10.0%) qualitative and 36 (n = 36; 90.0%) quantitative studies, 24 (n = 24; 60.0%) reported on infectious disease outbreaks, eight (n = 8; 20.0%) reported bioterrorist incidents, and eight (n = 8; 20.0%) reported on both in the same study. All articles were published from 2003 through 2020, with 30 (n = 30; 75.0%) from 2003 through 2010, demonstrating an increase in literature on WTR post-SARS-outbreak of 2002-2003 and the H1N1 outbreak of 2009. A large majority of studies were from the United States (n = 30; 75.0%), with other studies included from Singapore, Australia, Taiwan, the Netherlands, the United Kingdom, and an international nongovernment organization (NGO). The majority of the included papers focused on acute hospital HCWs (n = 17; 42.5%), with the remainder primarily focused on public health staff (n = 7; 17.5%), Emergency Medical Service (EMS)/paramedics (n = 6; 15.0%), primary health staff (n = 5; 12.5%), health students (n = 3; 7.5%), and dentists and international NGO HCWs (n = 1; 2.5% each).

Trends in Willingness

Rates of HCW WTR to infectious disease outbreaks ranged widely among the 40 studies located, from 27.9% (n = 31/111) of school nurses asked to respond to a smallpox event when unvaccinatedReference Guillon8 to 86.0% (n = 2,736/3,181) of medical reserve corps for an inhalational anthrax event.Reference Errett, Barnett and Thompson9 For natural infectious disease events, willingness varied from 8.3% (n = 5/60) to 100.0% (n = 60/60) among general practitioners asked to provide care for their own patients during an influenza pandemic without and with assurances of adequate personal protective equipment (PPE), respectivelyReference Shaw, Chilcott, Hansen and Winzenberg10 (Table 1). Fourteen articles reported scenarios where willingness levels were less than 60.0%.Reference Cone and Cummings2,Reference Qureshi, Gershon and Sherman4,Reference Guillon8,Reference Shaw, Chilcott, Hansen and Winzenberg10-Reference Tzeng and Yin20 Willingness to respond varied by occupation, pathogen, disease source, level of perceived risk, degree of familiarity with patient population, and required job tasks.

In general, HCWs appeared to be most willing to respond to infectious disease outbreaks when: (1) the pathogen was non-transmissible; (2) they were provided adequate PPE; or (3) an effective prophylaxis, vaccine, or treatment was provided to both workers and their families (Table 1). The primary factors affecting WTR to naturally occurring outbreaks were individual-level characteristics, such as clinical or non-clinical work, occupation, and prior commitment to provide emergency care. Factors affecting WTR to bioterrorist incidents were typically structural or organizational in nature, such as availability of vaccine or PPE, safety of family members, and provision of information on the pathogen involved.

Barriers to Willingness

Of the 40 studies identified, 33 (n = 33; 82.5%) identified specific barriers to willingness (Table 2).Reference Cone and Cummings2,Reference Qureshi, Gershon and Sherman4,Reference Guillon8-Reference Alexander11,Reference Basta, Edwards and Schulte13-Reference Mortelmans, Bouman and Gaakeer18,Reference Tzeng and Yin20-Reference Wong, Koh and Cheong38 The barriers to willingness could be categorized into the following four groups: concern and perceived risk, interpersonal factors, job-level factors, and outbreak characteristics.

Concern and Perceived Risk

Concern for personal safety or the safety of family members was identified as a barrier to willingness in 12 (n = 12; 30.0%) studies with fear of being infected by a patient and/or fear of transmitting infection to their families primary concerns for HCWs.Reference Dimaggio, Markenson, Loo and Redlener3,Reference Qureshi, Gershon and Sherman4,Reference Guillon8,Reference Irvin, Cindrich, Patterson and Southall16,Reference Masterson, Steffen, Brin, Kordick and Christos17,Reference Cheong, Wong and Lee26,Reference Wong, Koh and Cheong37,Reference Wong, Koh and Cheong38 Three studies (n = 3; 7.5%), all conducted in Singapore, found that HCWs were concerned that either they or their family members would be ostracized or face stigma from community members who might perceive the workers or their families as disease carriers.Reference Cheong, Wong and Lee26,Reference Wong, Koh and Cheong37,Reference Wong, Koh and Cheong38 In addition, lack of PPE was cited as a specific barrier in two studies (n = 2; 5.0%).Reference Shaw, Chilcott, Hansen and Winzenberg10,Reference Rebmann, Charney, Loux, Turner, Abbyad and Silvestros34 In two other studies (n = 2; 5.0%), the required performance of perceived high-risk tasks, such as patient resuscitation, was an important barrier.Reference Basta, Edwards and Schulte13,Reference Butsashvili, Triner, Kamkamidze, Kajaia and McNutt25

Interpersonal Factors

Interpersonal factors were common barriers to WTR among HCWs. Personal responsibilities, such as caring for family members who may fall ill, coupled with a lack of available resources to support these responsibilities, such as child care, elder care, and pet care services, were listed as barriers in seven studies (n = 7; 17.5%).Reference Qureshi, Gershon and Sherman4,Reference Damery, Wilson and Draper14,Reference Irvin, Cindrich, Patterson and Southall16,Reference Masterson, Steffen, Brin, Kordick and Christos17 Another two studies (n = 2; 5.0%) found that staffing shortages were a potential barrier, primarily due to a perception that shortages would lead to conflict among coworkers or being overworked.Reference Shaw, Chilcott, Hansen and Winzenberg10,Reference Cheong, Wong and Lee26 Similarly, concern about potential conflicts arising from working with untrained volunteers was a significant barrier to willingness among some HCWs.Reference Damery, Wilson and Draper14 In addition, HCWs whose spouse or partner also worked in health care, or whose spouse was also an emergency responder, reported different levels of willingness from other HCWs, although the evidence was conflicting: one study found workers were less willing to respond if their spouse was also a HCW,Reference Dimaggio, Markenson, Loo and Redlener3 while a second found that having a spouse who was a first responder increased willingness.Reference Qureshi, Gershon and Sherman4

Job-Level Factors

Requirements to work longer hours during an outbreak and part-time status among a general group of HCWs were associated with lower WTR, as was volunteer status among emergency medical technicians (EMTs).Reference Cone and Cummings2,Reference Dimaggio, Markenson, Loo and Redlener3,Reference Damery, Wilson and Draper14 A lack of inclusion of training and education in health curriculum for disaster medicine and public health preparedness was found to also be a barrier for students entering the workforce.Reference Mortelmans, Bouman and Gaakeer18,Reference Tzeng and Yin20,Reference Kaiser, Barnett, Hsu, Kirsch, James and Subbarao33 Health care workers were typically more willing to respond to an outbreak if they were likely to provide care to their own patients rather than to unfamiliar patients.Reference Shaw, Chilcott, Hansen and Winzenberg10,Reference Crane, McCluskey, Johnson and Harbison28

Outbreak Characteristics

Although concern, perceived risk, and level of knowledge regarding the pathogen involved in the outbreak were clear barriers to willingness, only limited information was available on other outbreak characteristics. One study found that WTR may decrease as an outbreak continues due to a reduction in perceived duty to treat.Reference Alexander11 This may suggest that WTR will vary over the duration of outbreaks of long duration, with HCWs becoming less willing to respond as the outbreak progresses. In addition, outbreak location may be important: HCWs in one study were less willing to respond to outbreak situations outside their home town or state.Reference Crane, McCluskey, Johnson and Harbison28 Willingness was also influenced by the availability of a vaccineReference Rebmann, Charney, Loux, Turner, Abbyad and Silvestros34 or the unknown nature of the pathogen,Reference Taylor, Rutkow and Barnett36 creating a barrier to responding in some reported studies.

Facilitators of Willingness

Only four of the 40 (n = 4; 10.0%) studies did not identify at least one facilitator of willingness among HCWs (Table 2).Reference Butsashvili, Triner, Kamkamidze, Kajaia and McNutt25,Reference Cheong, Wong and Lee26,Reference Wong, Koh and Cheong37,Reference Wong, Koh and Cheong38 The facilitators of willingness could be categorized into the following five groups: availability of PPE and/or vaccine, level of training, professional ethics, family and personal health and safety, and worker support systems.

Availability of PPE and/or Vaccine

Overall, nine (n = 9; 22.5%) studies mentioned infection control, vaccination, or PPE as an important facilitator of HCW WTR.Reference Qureshi, Gershon and Sherman4,Reference Damery, Wilson and Draper14-Reference Irvin, Cindrich, Patterson and Southall16,Reference Syrett, Benitez, Livingston and Davis19,Reference Crane, McCluskey, Johnson and Harbison28,Reference Gershon, Vandelinde, Magda, Pearson, Werner and Prezant30,Reference Shabanowitz and Reardon39 Lack of adequate provisions to prevent infection among HCWs significantly impacted WTR: the lowest level of WTR noted was the 8.3% (n = 5/60) of general practitioners in Tasmania, Australia willing to provide care to patients during an influenza pandemic if they were not provided with PPE; however, when assured that they would be provided with appropriate PPE, 100.0% (n = 60/60) were willing to provide care to their own patients.Reference Shaw, Chilcott, Hansen and Winzenberg10 Comparisons between studies further support the importance of providing adequate PPE and vaccination, as HCWs were generally willing to respond to smallpox outbreaks with vaccine (65.0% [535/823] of EMTsReference Dimaggio, Markenson, Loo and Redlener3 and 61.1% [n = 3,447/5,645] of clinical and non-clinical HCWsReference Qureshi, Gershon and Sherman4); however, only approximately thirty percent of both physicians (n = 174/526; 33.1%) and school nurses (n = 31/111; 27.9%) were willing to respond to a smallpox outbreak when informed that they would not have access to vaccine (Table 1).Reference Guillon8,Reference Alexander11

Level of Training

Nine of the 40 (n = 9; 22.5%) studies included in this review specifically identified the amount of training received as a facilitator of willingness.Reference Dimaggio, Markenson, Loo and Redlener3,Reference Qureshi, Gershon and Sherman4,Reference Guillon8,Reference Alexander11,Reference Damery, Wilson and Draper14,Reference Irvin, Cindrich, Patterson and Southall16,Reference Masterson, Steffen, Brin, Kordick and Christos17,Reference Crane, McCluskey, Johnson and Harbison28,Reference Gershon, Vandelinde, Magda, Pearson, Werner and Prezant30 Health care workers who felt adequately prepared to respond in an infectious disease emergency were also willing to respond.Reference Alexander11 Training on bioterrorism, weapons of mass destruction, or other terrorism scenarios,Reference Dimaggio, Markenson, Loo and Redlener3 especially following the events of 9/11, were particularly important for increasing WTR.Reference Guillon8,Reference Alexander11 In addition, the HCWs’ existing level of knowledge about emergency response for infectious diseases, coupled with a belief in the importance of bioterrorism or preparedness training, were associated with WTR.Reference Crane, McCluskey, Johnson and Harbison28 Finally, confidence in one’s ability to diagnose and treat bioterrorism-related diseases was also important;Reference Mas, Hsu, Jacobson and Zoretic40 and training opportunities in preparedness, response, and use of PPE were identified in several studies as a factor that could improve willingness.Reference Gershon, Vandelinde, Magda, Pearson, Werner and Prezant30,Reference Katz, Nekorchuk, Holck, Hendrickson, Imrie and Effler41,Reference Katz, Nekorchuk, Holck, Hendrickson, Imrie and Effler42

Professional Ethics

Eleven (n = 11; 27.5%) studies identified HCWs’ feelings of moral or ethical responsibility to provide care during an infectious disease outbreak as an important factor in willingness.Reference Dimaggio, Markenson, Loo and Redlener3,Reference Guillon8,Reference Shaw, Chilcott, Hansen and Winzenberg10,Reference Alexander11,Reference Gershon, Magda and Canton15,Reference Masterson, Steffen, Brin, Kordick and Christos17 Health care workers who believed they had a duty to treat patients with serious communicable diseases, such as HIV/AIDS, or a duty to treat patients during an epidemic were more willing to respond during infectious disease emergencies than HCWs who did not perceive these duties.Reference Alexander11 Overall, a sense of duty,Reference Dimaggio, Markenson, Loo and Redlener3,Reference Masterson, Steffen, Brin, Kordick and Christos17 a perceived moral obligationReference Shaw, Chilcott, Hansen and Winzenberg10 to treat patients regardless of personal risk,Reference Guillon8 a belief that coworkers would respondReference Dimaggio, Markenson, Loo and Redlener3 and need help,Reference Shaw, Chilcott, Hansen and Winzenberg10 or that their patients really needed helpReference Gershon, Magda and Canton15 were all important facilitators. A perception of one’s importance to the organization further facilitated willingness.Reference Balicer, Omer, Barnett and Everly12

Family and Personal Health and Safety

Four (n = 4; 10.0%) studies identified availability of vaccines and prophylaxis for HCWs’ families as a critical facilitator of willingness.Reference Qureshi, Gershon and Sherman4,Reference Damery, Wilson and Draper14,Reference Gershon, Magda and Canton15,Reference Syrett, Benitez, Livingston and Davis19 In addition, having a personal preparedness planReference Qureshi, Gershon and Sherman4 or an institutional preparedness planReference Qureshi, Gershon and Sherman4,Reference Damery, Wilson and Draper14 which included provisions for child care, elder care, and pet care were identified as important facilitators.Reference Cone and Cummings2,Reference Damery, Wilson and Draper14

Worker Support Systems

Six (n = 6; 15.0%) studies identified worker support systems to help facilitate willingness.Reference Cone and Cummings2,Reference Damery, Wilson and Draper14,Reference Irvin, Cindrich, Patterson and Southall16,Reference Crane, McCluskey, Johnson and Harbison28,Reference Rutkow, Paul, Taylor and Barnett35,Reference Shabanowitz and Reardon39 Valued supports included telephone and email access,Reference Cone and Cummings2 transportation support,Reference Cone and Cummings2,Reference Damery, Wilson and Draper14,Reference Shabanowitz and Reardon39 provision of foodReference Cone and Cummings2 and accommodation,Reference Cone and Cummings2,Reference Damery, Wilson and Draper14 and guaranteed financial supports, such as life and/or disability insurance or hazard pay.Reference Damery, Wilson and Draper14,Reference Shabanowitz and Reardon39 A study of WTR among nursing students further supported the value of providing food, opportunities for rest and personal hygiene (eg, showers), and organizational programs to support mental and spiritual health, such as available chaplains.Reference Tzeng and Yin20 Another aspect that facilitated WTR was having clear roles within the response and/or their respective organizations and associated expectations of input towards control of the infectious disease emergency.Reference Alexander11,Reference Balicer, Omer, Barnett and Everly12,Reference Balicer, Barnett and Thompson21-Reference Barnett, Levine and Thompson23

Beyond Acute HCW

Although available evidence suggested many HCWs may not be willing to respond during an infectious disease emergency, there was some indication that staffing shortfalls or surge capacity could be provided for using workers or volunteers from other occupational groups. Identification of surge capacity workforces was not a focus of the current review; nevertheless, the search strategy returned a number of papers on WTR among non-hospital HCWs, which appeared valuable.

Groups which may be highly willing to respond to infectious disease emergencies included veterinarians, pharmacists, health department employees, and medical or health science students or faculty. For example, 90.1% (n = 471/523) of US medical students in one study reported WTR to pandemic influenza,Reference Kaiser, Barnett, Hsu, Kirsch, James and Subbarao33 and 79.0% (n = 384/486) of pharmacists in Florida (USA) reported WTR to a bioterrorist incident.Reference Crane, McCluskey, Johnson and Harbison28 In another study of medical students in the Netherlands, only 65.9% (n = 659/999) were willing to respond to a bioterrorist event and 43.0% (n = 430/999) to an Ebola type outbreak.Reference Mortelmans, Bouman and Gaakeer18 However, the ability for planners to rely on students as surge capacity may be highly dependent on outbreak characteristics and perceived risk, and students’ concerns appeared to be similar to those of HCWs. In one study for instance, only 56.9% (n = 128/225) of nursing students in Taiwan were willing to respond to an avian influenza outbreak.Reference Tzeng and Yin20

Finally, seven (n = 7, 17.5%) studies suggested that health department employees were willing to respond to biological emergencies.Reference Balicer, Omer, Barnett and Everly12,Reference Basta, Edwards and Schulte13,Reference Barnett, Balicer and Thompson22,Reference Barnett, Thompson and Errett24,Reference Rutkow, Paul, Taylor and Barnett35,Reference Taylor, Rutkow and Barnett36,Reference Rutkow, Vernick, Thompson, Hudson and Barnett43 A series of studies conducted by a research group at Johns Hopkins University (Baltimore, Maryland USA) found that fifty-four percent to ninety-four percent of local health department employees in the US were willing to respond to pandemic influenza.Reference Balicer, Omer, Barnett and Everly12,Reference Barnett, Balicer and Thompson22,Reference Barnett, Thompson and Errett24 A study of county health department employees in Florida found that 92.3% (n = 2,228/2,414) were willing to respond to pandemic influenza, although when asked about performing high-risk tasks, willingness dropped to 56.2% (n = 1,357/2,414).Reference Basta, Edwards and Schulte13

It should be noted that the prospect of working with untrained volunteers had been demonstrated to reduce WTR among HCWs.Reference Damery, Wilson and Draper14 Therefore, care should be taken to ensure that adequate training is provided to all volunteers and surge capacity workers.

Methodological Limitations

Although there is a growing body of literature on HCW WTR during infectious disease emergencies, few of the located studies presented participants with a range of outbreak scenarios, limiting the comparability of willingness levels between outbreak types, locations, or scenarios. In addition, few studies asked participants to provide feedback on the relative importance of specific barriers or facilitators of willingness in determining their decisions to report to work. Finally, no studies compared WTR with data on actual response levels during previous disease outbreaks.

Discussion

Low levels of WTR to infectious disease emergencies among HCWs may have catastrophic implications during large-scale bioterrorist events, outbreaks, or pandemics. However, HCW non-illness-related absenteeism is often overlooked. This review identified only 40 studies published over 20 years. Many of these studies focused primarily on ability to respond during outbreaks rather than willingness. However, these studies suggest that HCW WTR to large-scale biological incidents may be less than fifty percent and is unlikely to be higher than eighty percent, highlighting the importance of considering willingness of HCW to respond in preparing for biological emergencies. Preparedness planners who exclusively focus on factors affecting ability to respond, such illness-related absenteeism, may significantly over-estimate the availability of HCWs during an infectious disease outbreak. However, planners have the opportunity to enhance willingness significantly by including provisions that ensure the risk to HCWs and their families is minimizedReference Rutkow, Vernick, Thompson, Pirrallo and Barnett44 and that help ease the child, elder, or pet care responsibilities that HCW face.

Vaccination

The importance of vaccination availability during an outbreak is evident from the literature. In particular, a lack of available smallpox vaccine greatly reduced HCW WTR to a hypothetical outbreak of smallpox, from around sixty percent to seventy percent down to only thirty percent of HCWs.Reference Dimaggio, Markenson, Loo and Redlener3,Reference Qureshi, Gershon and Sherman4,Reference Guillon8,Reference Alexander11 Although it is unlikely that HCWs would be denied vaccine during a smallpox outbreak, or during any outbreak for which a vaccine was available, it is unclear how apprehension and lack of acceptance of a vaccine might affect HCW WTR. In the case of smallpox, refusal to be vaccinated may be high. A study of private physicians found that only twenty-two percent of physicians surveyed were willing to be vaccinated in advance of a smallpox outbreak.Reference Cowan, Ching, Clark and Kemper45

Vaccine availability and attitudes towards vaccinations became highly controversial issues during the H1N1 pandemic. Importantly, a study conducted from June through September of 2009 in Mexico found that HCWs were generally willing to receive the H1N1 vaccine and to recommend the vaccine to their patients.Reference Esteves-Jaramillo, Omer and Gonzalez-Diaz46 However, nineteen percent of HCWs answered that they would refuse the vaccine and twenty-two percent would not recommend the vaccine to their patients, largely due to a belief that the vaccine would not work, that it would be harmful, or that it would weaken the recipient’s immune system.Reference Esteves-Jaramillo, Omer and Gonzalez-Diaz46 Unfortunately, this study was conducted before a vaccine against H1N1 influenza became available, so no comparison of perceived acceptance and actual uptake was available.

Whether refusal to accept vaccine would influence the decision of HCWs to respond to an influenza pandemic, smallpox outbreak, or other type of biological emergency is at present unknown and should be explored.

Ethical Concerns

Several studies highlighted the importance of codes of ethics in determining whether HCWs respond during infectious disease emergencies and noted the current lack of universal ethical guidance. Such guidelines may help workers balance responsibilities to patients and their own family members, and the development of such guidelines should be considered.

Recommendations

Professional ethical guidelines that address personal risks and concerns are needed to guide HCWs during an infectious disease outbreak. The findings of this review may help to inform these guidelines. In addition, employers should work with HCWs to ensure that they are familiar with their organization’s preparedness plans, including what is expected of workers, what services (such as child care, pet care, overtime pay, sick leave, and transportation aid) the employer will provide, and what provisions exist for providing prophylaxis or medical care to family members of HCWs. Employers should also work with employees to ensure that every HCW has a personal preparedness plan.

Preparedness planners should consider reaching out to groups such as veterinarians; nursing, medical, veterinary, or public health students and faculty; and health department employees when developing surge capacity strategies. However, planners should remember that students may not be willing to respond during more severe emergencies, such as avian influenza or bioterrorism events.Reference Mortelmans, Bouman and Gaakeer18,Reference Tzeng and Yin20,Reference Kaiser, Barnett, Hsu, Kirsch, James and Subbarao33

Finally, training programs should be developed to provide guidance to HCWs on managing patient load during outbreaks and on the delivery of patient care, including altered standards of care, during outbreaks. Training programs should also ensure that HCWs have a good understanding of the use of PPE and of vaccines, and other prophylaxis measures that may be used during a biological disaster, to ensure maximum uptake of these measures during an outbreak. In addition, training programs for volunteers are crucial to ensuring safety of volunteers, HCWs, and patients, as well as supporting WTR among HCWs.

Conflicts of interest

The listed authors declare no conflict of interest in the production or publication of this manuscript.

References

Chaffee, M. Willingness of health care personnel to work in a disaster: an integrative review of the literature. Disaster Med Public Health Prep. 2009;3(1):4256.CrossRefGoogle Scholar
Cone, D, Cummings, B. Hospital disaster staffing: if you call, will they come? Am J Disaster Med. 2006;1(1):2836.CrossRefGoogle ScholarPubMed
Dimaggio, C, Markenson, D, Loo, GT, Redlener, I. The willingness of US Emergency Medical Technicians to respond to terrorist incidents. Biosecur Bioterror. 2005;3(4):331337.CrossRefGoogle Scholar
Qureshi, K, Gershon, R, Sherman, M, et al. Health care workers’ ability and willingness to report to duty during catastrophic disasters. J Urban Health. 2005;82(3):378388.CrossRefGoogle ScholarPubMed
Whittemore, K, Knafl, K. The integrative review: updated methodology. J Advan Nurs. 2005;52(5):546553.CrossRefGoogle ScholarPubMed
Moher, D, Liberati, A, Tetzlaff, J, Altman, D; The, Prisma Group. Preferred reporting items for systematic reviews and meta-analyses: the PRISMA Statement. http://prisma-statement.org/prismastatement/flowdiagram.aspx. Published 2009. Accessed November 2020.CrossRefGoogle Scholar
Hong, Q, Pluye, P, Fabregues, S, et al. Mixed Methods Appraisal Tool (MMAT) Version 2018. Canada: Canadian Intellectual Property Office; 2018.Google Scholar
Guillon, J. School nurses as volunteers in a bioterrorism event. Biosecur Bioterror. 2004;2(2):112117.CrossRefGoogle Scholar
Errett, NA, Barnett, DJ, Thompson, CB, et al. Assessment of medical reserve corps volunteers’ emergency response willingness using a threat- and efficacy-based model. Biosecur Bioterror. 2013;11(1):2940.CrossRefGoogle ScholarPubMed
Shaw, K, Chilcott, A, Hansen, E, Winzenberg, T. The GP’s response to pandemic influenza: a qualitative study. Fam Pract. 2006;23(3):267272.CrossRefGoogle ScholarPubMed
Alexander, G, MK W. Ready and willing? Physicians’ sense of preparedness for bioterrorism. Health Aff. 2003;22(5):189197.CrossRefGoogle Scholar
Balicer, R, Omer, S, Barnett, D, Everly, G. Jr Local public health workers’ perceptions toward responding to an influenza pandemic. BMC Public Health. 2006;6:99.CrossRefGoogle Scholar
Basta, NE, Edwards, SE, Schulte, J. Assessing public health department employees’ willingness to report to work during an influenza pandemic. J Public Health Manag Pract. 2009;15(5):375383.CrossRefGoogle ScholarPubMed
Damery, S, Wilson, S, Draper, H, et al. Will the NHS continue to function in an influenza pandemic? A survey of healthcare workers in the West Midlands, UK. BMC Public Health. 2009;9:142155.CrossRefGoogle Scholar
Gershon, R, Magda, L, Canton, A, et al. Pandemic-related ability and willingness in home healthcare workers. Am J Disaster Med. 2010;5(1):1526.CrossRefGoogle ScholarPubMed
Irvin, C, Cindrich, L, Patterson, W, Southall, A. Survey of hospital health care personnel response during a potential avian influenza pandemic: will they come to work? Prehosp Disaster Med. 2008;23(4):328333.CrossRefGoogle ScholarPubMed
Masterson, L, Steffen, C, Brin, M, Kordick, MF, Christos, S. Willingness to respond: of emergency department personnel and their predicted participation in mass casualty terrorist events. J Emerg Med. 2009;36(1):4349.CrossRefGoogle ScholarPubMed
Mortelmans, LJM, Bouman, SJM, Gaakeer, MI, et al. Dutch senior medical students and disaster medicine: a national survey. Int J Emerg Med. 2015;8(1):15.CrossRefGoogle ScholarPubMed
Syrett, J, Benitez, J, Livingston, WR, Davis, E. Will emergency health care providers respond to mass casualty incidents? Prehosp Disaster Med. 2007;11(1):4954.Google ScholarPubMed
Tzeng, H-M, Yin, C-Y. Nurses’ fears and professional obligations concerning possible human-to-human avian flu. Nursing Ethics. 2006;13(5):455470.CrossRefGoogle ScholarPubMed
Balicer, RD, Barnett, DJ, Thompson, CB, et al. Characterizing hospital workers’ willingness to report to duty in an influenza pandemic through threat- and efficacy-based assessment. BMC Public Health. 2010;10:436.CrossRefGoogle Scholar
Barnett, D, Balicer, R, Thompson, C, et al. Assessment of local public health workers’ willingness to respond to pandemic influenza through application of the Extended Parallel Process Model. PLoS ONE. 2009;4(7):e6365.CrossRefGoogle ScholarPubMed
Barnett, DJ, Levine, R, Thompson, CB, et al. Gauging US Emergency Medical Services workers’ willingness to respond to pandemic influenza using a threat- and efficacy-based assessment framework. PLoS ONE. 2010;5(3):e9856.CrossRefGoogle Scholar
Barnett, DJ, Thompson, CB, Errett, NA, et al. Determinants of emergency response willingness in the local public health workforce by jurisdictional and scenario patterns: a cross-sectional survey. BMC Public Health. 2012;12:164.CrossRefGoogle ScholarPubMed
Butsashvili, M, Triner, W, Kamkamidze, G, Kajaia, M, McNutt, L-A. Knowledge and anticipation behavior of health care workers in response to an outbreak of pandemic influenza in Georgia. J Infect Developing Countries. 2007;1(3):329332.CrossRefGoogle Scholar
Cheong, S, Wong, T, Lee, H, et al. Concerns and preparedness for an avian influenza pandemic: a comparison between community hospital and tertiary hospital healthcare workers. Industrial Health. 2007;45:653661.CrossRefGoogle ScholarPubMed
Considine, J, Mitchell, B. Chemical, biological and radiological incidents: preparedness and perceptions of emergency nurses. Disasters. 2009;33(3):482497.CrossRefGoogle ScholarPubMed
Crane, JS, McCluskey, JD, Johnson, GT, Harbison, RD. Assessment of community healthcare providers ability and willingness to respond to emergencies resulting from bioterrorist attacks. J Emerg Trauma Shock. 2010;3(1):1320.Google ScholarPubMed
Gee, S, Skovdal, M. The role of risk perception in willingness to respond to the 2014-2016 West African Ebola outbreak: a qualitative study of international health care workers. Glob Health Res Policy. 2017;2:21.CrossRefGoogle ScholarPubMed
Gershon, R, Vandelinde, N, Magda, L, Pearson, J, Werner, A, Prezant, D. Evaluation of a pandemic preparedness training intervention for emergency medical services personnel. Prehosp Disaster Med. 2009;24(6):508511.CrossRefGoogle ScholarPubMed
Hayanga, HK, Barnett, DJ, Shallow, NR, et al. Anesthesiologists and disaster medicine: a needs assessment for education and training and reported willingness to respond. Anesth Analg. 2017;124(5):16621669.CrossRefGoogle ScholarPubMed
Hogg, W, Huston, P, Martin, C, Soto, E. Enhancing public health response to respiratory epidemics: are family physicians ready and willing to help? Canadian Family Physician. 2006;52(10):12551260.Google Scholar
Kaiser, HE, Barnett, DJ, Hsu, EB, Kirsch, TD, James, JJ, Subbarao, I. Perspectives of future physicians on disaster medicine and public health preparedness: challenges of building a capable and sustainable auxiliary medical workforce. Disaster Med Public Health Prep. 2009;3(4):210216.CrossRefGoogle ScholarPubMed
Rebmann, T, Charney, RL, Loux, TM, Turner, JA, Abbyad, YS, Silvestros, M. Emergency Medical Services personnel’s pandemic influenza training received and willingness to work during a future pandemic. Prehosp Emerg Care. 2020;24(5):601609.CrossRefGoogle ScholarPubMed
Rutkow, L, Paul, A, Taylor, HA, Barnett, DJ. Perceived facilitators and barriers to local health department workers’ participation in infectious disease emergency responses. J Public Health Manag Pract. 2017;23(6):644650.CrossRefGoogle ScholarPubMed
Taylor, HA, Rutkow, L, Barnett, DJ. Local preparedness for infectious disease outbreaks: a qualitative exploration of willingness and ability to respond. Health Sec. 2018;16(5):311319.CrossRefGoogle ScholarPubMed
Wong, T, Koh, G, Cheong, S, et al. Concerns, perceived impact and preparedness in an avian influenza pandemic - a comparative study between healthcare workers in primary and tertiary care. Ann Acad Med Singapore. 2008;37(2):96102.Google Scholar
Wong, T, Koh, G, Cheong, S, et al. A cross-sectional study of primary-care physicians in Singapore on their concerns and preparedness for an avian influenza outbreak. Ann Acad Med Singapore. 2008;37:458464.Google ScholarPubMed
Shabanowitz, R, Reardon, J. Avian flu pandemic - flight of the healthcare worker? HEC Forum. 2009;21(4):365385.CrossRefGoogle ScholarPubMed
Mas, FS, Hsu, CE, Jacobson, H, Zoretic, J, Felán M. Physician assistants and bioterrorism preparedness. Biosecur Bioterror. 2006;4(3):301306.CrossRefGoogle Scholar
Katz, A, Nekorchuk, D, Holck, P, Hendrickson, L, Imrie, A, Effler, P. Dentists’ preparedness for responding to bioterrorism. J Am Dent Assoc. 2006;137:461467.CrossRefGoogle ScholarPubMed
Katz, A, Nekorchuk, D, Holck, P, Hendrickson, L, Imrie, A, Effler, P. Hawaii physician and nurse bioterrorism preparedness survey. Prehosp Disaster Med. 2006;21(6):403412.Google ScholarPubMed
Rutkow, L, Vernick, JS, Thompson, CB, Hudson, R, Barnett, DJ. Local health department workers, public policy, and willingness to respond during emergencies. Am J Disaster Med. 2015;10(1):4150.CrossRefGoogle ScholarPubMed
Rutkow, L, Vernick, JS, Thompson, CB, Pirrallo, RG, Barnett, DJ. Emergency preparedness law and willingness to respond in the EMS workforce. Prehosp Disaster Med. 2014;29(4):358363.CrossRefGoogle ScholarPubMed
Cowan, AE, Ching, PL, Clark, SJ, Kemper, AR. Willingness of private physicians to be involved in smallpox preparedness and response activities. Biosecur Bioterror. 2005;3(1):1622.CrossRefGoogle ScholarPubMed
Esteves-Jaramillo, A, Omer, SB, Gonzalez-Diaz, E, et al. Acceptance of a vaccine against novel influenza A (H1N1) virus among healthcare workers in two major cities in Mexico. Arch Med Res. 2009;40:705711.CrossRefGoogle ScholarPubMed
Figure 0

Figure 1. PRISMA Flow Diagram of Search.

Figure 1

Table 1. Willingness to Respond during Infectious Disease Emergencies

Figure 2

Table 2. Facilitators and Barriers to Willingness to Respond during Infectious Disease Emergencies