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The influence of hospital leadership support on burnout, psychological safety, and safety climate for US infection preventionists during the coronavirus disease 2019 (COVID-19) pandemic

Published online by Cambridge University Press:  13 September 2023

Heather M. Gilmartin*
Affiliation:
Denver/Seattle Center of Innovation for Veteran-Centered and Value Driven Care, Veterans Health Administration Eastern Colorado Healthcare System, Aurora, Colorado Department of Health Systems, Management and Policy, University of Colorado, Colorado School of Public Health, Aurora, Colorado University of Michigan/VA Ann Arbor Patient Safety Enhancement Program, Ann Arbor, Michigan
Sanjay Saint
Affiliation:
VA Ann Arbor Healthcare System, Ann Arbor, Michigan Department of Internal Medicine, University of Michigan Medical School, Ann Arbor, Michigan University of Michigan/VA Ann Arbor Patient Safety Enhancement Program, Ann Arbor, Michigan
David Ratz
Affiliation:
VA Ann Arbor Healthcare System, Ann Arbor, Michigan University of Michigan/VA Ann Arbor Patient Safety Enhancement Program, Ann Arbor, Michigan
Kristin Chrouser
Affiliation:
VA Ann Arbor Healthcare System, Ann Arbor, Michigan Department of Urology, University of Michigan Medical School, Ann Arbor, Michigan University of Michigan/VA Ann Arbor Patient Safety Enhancement Program, Ann Arbor, Michigan
Karen E. Fowler
Affiliation:
VA Ann Arbor Healthcare System, Ann Arbor, Michigan University of Michigan/VA Ann Arbor Patient Safety Enhancement Program, Ann Arbor, Michigan
M. Todd Greene
Affiliation:
VA Ann Arbor Healthcare System, Ann Arbor, Michigan Department of Internal Medicine, University of Michigan Medical School, Ann Arbor, Michigan University of Michigan/VA Ann Arbor Patient Safety Enhancement Program, Ann Arbor, Michigan
*
Author for correspondence: Heather M. Gilmartin, Denver/Seattle Center of Innovation for Veteran-Centered and Value Driven Care, Veterans Health Administration, Eastern Colorado Healthcare System, Aurora, Colorado. E-mail: heather.gilmartin@va.gov
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Abstract

Objective:

To explore infection preventionists’ perceptions of hospital leadership support for infection prevention and control programs during the coronavirus disease 2019 (COVID-19) pandemic and relationships with individual perceptions of burnout, psychological safety, and safety climate.

Design:

Cross-sectional survey, administered April through December 2021.

Setting:

Random sample of non-federal acute-care hospitals in the United States.

Participants:

Lead infection preventionists.

Results:

We received responses from 415 of 881 infection preventionists, representing a response rate of 47%. Among respondents, 64% reported very good to excellent hospital leadership support for their infection prevention and control program. However, 49% reported feeling burned out from their work. Also, ∼30% responded positively for all 7 psychological safety questions and were deemed to have “high psychological safety,” and 76% responded positively to the 2 safety climate questions and were deemed to have a “high safety climate.” Our results indicate an association between strong hospital leadership support and lower burnout (IRR, 0.61; 95% CI, 0.50–0.74), higher perceptions of psychological safety (IRR, 3.20; 95% CI, 2.00–5.10), and a corresponding 1.2 increase in safety climate on an ascending Likert scale from 1 to 10 (β, 1.21; 95% CI, 0.93–1.49).

Conclusions:

Our national survey provides evidence that hospital leadership support may have helped infection preventionists avoid burnout and increase perceptions of psychological safety and safety climate during the COVID-19 pandemic. These findings aid in identifying factors that promote the well-being of infection preventionists and enhance the quality and safety of patient care.

Type
Original Article
Creative Commons
Creative Common License - CCCreative Common License - BY
This is a work of the US Government and is not subject to copyright protection within the United States. Published by Cambridge University Press on behalf of The Society for Healthcare Epidemiology of America.
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
© Veterans Health Administration, 2023

The coronavirus disease 2019 (COVID-19) pandemic posed challenges for healthcare providers Reference Sexton, Adair and Proulx1 and hospital-based infection prevention departments. Reference Melnyk, Hsieh, Mu, Jopp and Miller2 Infection preventionists, with backgrounds in nursing, public health, and microbiology, play a critical role in pandemic planning by communicating scientific guidelines. Initially, infection preventionists faced multiple challenges due to rapidly changing information, limited guidance for non–acute-care settings, and insufficient personal protective equipment (PPE) supplies. Reference Rebmann, Alvino, Mazzara and Sandcork3 Over time, infection preventionists roles shifted from training staff to enforcing evolving policies like face shields and contact tracing, which were questioned for their effectiveness and purpose. Reference Rebmann, Alvino, Mazzara and Sandcork3 This shift resulted in many infection preventionists reporting feeling a lack of control and a lack of credibility among staff. Reference Rebmann, Alvino, Mazzara and Sandcork3

Infection prevention departments were positioned front and center during the pandemic and infection preventionists reported a 24-hour-a-day, 7-day-a-week workload that included their regular duties plus time-sensitive pandemic-related dilemmas. Such intensity undermined work–life balance. Reference Pintar and McAndrew4 Additional challenges included the risk of exposure to the coronavirus at work and stigmatization of healthcare providers due to politicization of pandemic response plans and indecision from the Centers for Disease Control and Prevention (CDC). Many infection preventionists reported frustration with hospital leadership due to inadequate staffing on clinical units, financial restraints, or absent political support. Reference Pintar and McAndrew4 These factors contributed to low infection-preventionist morale and reports of deteriorating mental and physical health and increasing reports of burnout. Reference Rebmann, Alvino, Mazzara and Sandcork3,Reference Shah, Becene and Nguyen5

Infection preventionists are critical to patient safety due to their multifaceted roles as educators and implementers of infection prevention practices. Prior research suggests that effective efforts by infection preventionists requires leadership support, a psychologically safe environment, and a strong safety climate. Reference Greene, Gilmartin and Saint6Reference Saint, Kowalski, Banaszak-Holl, Forman, Damschroder and Krein8 Leadership support is expressed through the provision of adequate staffing, finances, and political support along with a commitment to a culture of excellence. Reference Saint, Kowalski, Banaszak-Holl, Forman, Damschroder and Krein8 Psychological safety is the shared belief that team members will not be reprimanded or punished for raising concerns or making mistakes. Reference Greene, Gilmartin and Saint6 High psychological safety has been associated with improved team performance, well-being, and reduced burnout. Reference Newman, Donohue and Eva9 Burnout is an occupational syndrome characterized by a high degree of emotional exhaustion, depersonalization, and a low sense of personal accomplishment at work. 10 Safety climate is a subset of organizational climate that focuses on an individual’s perceptions about the extent to which the organization values safety. Reference Braun, Chitavi, Suzuki, Soyemi and Puig-Asensio7 A safety climate in healthcare has been associated with better patient outcomes and enhanced employee well-being. Reference Sacks, Shannon and Dawes11

Whether the response to the pandemic has affected how psychological safety and safety climate are perceived within the US healthcare system is uncertain, and the impact on infection prevention practices remains unknown. Numerous publications have highlighted the stress and burnout of healthcare workers Reference Sexton, Adair and Proulx1,Reference Linzer, Jin and Shah12,13 and infection preventionists Reference Melnyk, Hsieh, Mu, Jopp and Miller2 during the pandemic. However, few large-scale studies provide a picture of infection preventionist experiences during the pandemic that include data on organizational factors, such as hospital leadership support, psychological safety, safety climate, and infection preventionist well-being. Reference Greene, Gilmartin and Saint6Reference Saint, Kowalski, Banaszak-Holl, Forman, Damschroder and Krein8 In this study, we used data from a 2021 survey to determine (1) the state of hospital leadership support, infection preventionist burnout, psychological safety, and safety climate during the pandemic, and (2) relationships, mitigators, and aggravators among these variables.

Methods

Study design, survey instrument, and data collection

This national cross-sectional survey is part of an ongoing project in which, every 4 years since 2005, infection preventionists across the United States are asked about their hospital’s organizational characteristics and infection prevention practices. Reference Krein, Kowalski, Hofer and Saint14Reference Saint, Greene and Fowler20 The 2021 population was based on a random sample of 900 general medical and surgical hospitals with an intensive care unit from the 2013 American Hospital Association database. Before finalizing the sample, an internet search was conducted to confirm each facility’s operating status. Closed facilities or those without general medical beds were removed from the mailing list. For the 2021 survey period, surveys were sent to a random sample of 883 nonfederal community hospitals. Prior to survey distribution, a letter was mailed addressed to the “infection control coordinator” at each nonfederal hospital notifying them of the forthcoming survey.

The initial survey was sent in mid-April 2021, and a reminder was mailed 2 weeks after initial survey distribution, requesting that the hospital infection preventionist (or supervising infection preventionist if there was more than one on staff) complete the survey. The survey could be completed on paper and returned by mail or electronically on a REDCap survey platform. Reference Harris, Taylor and Minor21 Each survey was labeled with a unique study number that provided hospital identification; however, the individual respondents were anonymous. Additional reminder surveys were sent to nonresponding hospitals ∼1, 2, and 3 months following the initial survey distribution. Most surveys were returned by December 2021; just 3 were returned in early 2022. Two survey mailings were returned indicating that the hospitals had closed and were excluded from this analysis, leaving a total eligible sample of 881 nonfederal hospitals. Appropriate institutional review board exemption was obtained from the University of Michigan.

Study measures

The survey assessed general hospital characteristics, including the number of acute-care beds, number of intensive care beds, affiliation with a medical school, patient care involvement of highest-ranking physician and nurse leaders in the organization, infection control program characteristics (ie, staffing, tenure, and certification in infection control and epidemiology), and leadership support for the infection control program. The survey also assessed infection preventionist perceptions of burnout, Reference West, Dyrbye, Sloan and Shanafelt22 psychological safety, Reference Edmondson23 and safety climate. Reference Saint, Greene, Kowalski, Watson, Hofer and Krein24 Strong leadership support was a derived dichotomous variable based on the 5-point Likert scale question, “How would you rank the overall support (eg, staffing, financial, and political) your infection prevention program receives from hospital administrative leadership?” We coded responses of 4 or 5 (very good or excellent) as 1, and 0 otherwise. A previously validated, single-item measure of emotional exhaustion, “I feel burned out from my work” Reference West, Dyrbye, Sloan and Shanafelt22 and 7 psychological safety items were scored on a 5-point ascending Likert scale. Hospitals rating all 7 psychological safety questions as “agree or strongly agree” were deemed to have “high psychological safety” (coded as 1). Reference Greene, Gilmartin and Saint6 Also, 2 questions within this domain were reverse scored so that values would represent positive responses. Reference Greene, Gilmartin and Saint6 The 2 safety climate items were scored on a 5-point Likert scale. Scores were summed to create a safety climate score. Hand hygiene rates were queried using the single item, “What was the last overall hand hygiene compliance rate reported in your hospital (between 0 and 100%)?”

Statistical analysis

Descriptive statistics were reported as percentages for categorical variables with means and standard deviations for continuous variables. For the burnout and psychological safety outcomes, dichotomous outcomes were modeled using Poisson regression with robust standard errors, incidence rate ratio (IRR) estimates, and 95% confidence intervals (CIs). The safety climate score outcome was modeled using linear regression, and β coefficients and 95% CIs. We conducted multivariable regressions to determine associations between hospital leadership support and perceptions of burnout, psychological safety, and safety climate. All models were adjusted for the following hospital characteristics: number of acute-care beds, medical school affiliation, hospital epidemiologist on staff, highest ranking physician and nurse direct patient care activity, and lead infection preventionist infection control certification status. If statistically significant in bivariable analysis with each outcome of interest, additional adjustments for the following respondent-specific characteristics were made: tenure in their position and tenure at the hospital. A P value <.05 was considered significant. All analyses were performed using SAS version 9.4 software (SAS Institute, Cary, NC).

Results

The overall survey response rate was 47% (415 of 881). Select hospital and individual respondent characteristics are displayed in Table 1. There were no statistically significant differences in hospital characteristics between responding hospitals and nonresponders. The mean number of adult acute-care beds reported was 214. More than 34% of respondents reported working in hospitals affiliated with a medical school, 40% reported having a hospital epidemiologist on staff, and 69% indicated the lead infection preventionist was certified in infection control. The average number of full-time and part-time infection preventionists on staff was 2 and 0.3, respectively. In total, 88% of respondents reported having at least 1 full-time infection preventionist, 29% reported having at least 1 part-time infection preventionist, and 17% reported having at least 1 full-time and 1 part-time infection preventionist on staff. The average reported hand hygiene rate was 89%. More than 61% of respondents indicated that their highest-ranking physician (eg, chief medical officer, chief of staff) provided direct patient care, and only 9% reported direct patient-care activities for their highest-ranking nurse (eg, chief nursing officer or director of patient care services). Only 64% of respondents reported very good to excellent hospital leadership support for their infection prevention program. Most respondents reported their role as infection preventionist (85%), with an average of 8 years in their position and 14 years in their current hospital.

Table 1. Select Hospital and Individual Respondent Characteristics

Note. SD, standard deviation.

The responses to the 11 questions addressing burnout, psychological safety, and safety climate are shown in Table 2. In total, 49% of respondents reported feeling burned out from their work. Only 6% of respondents indicated that mistakes were held against employees, and only 18% indicated that staff were too busy to invest time in improvement. More than 90% of respondents indicated that they assert their views on important issues, even though their supervisor may disagree, 77% reported feeling supported to bring up problems and tough issues, and 77% indicated feeling comfortable speaking up when they see a physician not clean his or her hands. When a medical error occurs, >90% reported that their hospital encouraged employees to discuss mistakes to learn how to prevent similar future errors, and 70% reported feeling safe to try something new in their hospital. Approximately 30% of all respondents reported positively for all 7 questions; thus, we deemed them to have high psychological safety. On a scale of 1–10 points, the mean for the safety climate score was 8.33, suggesting that most respondents felt favorably about the safety climate in their respective hospitals.

Table 2. Burnout, Psychological Safety, and Safety Climate Items Rated Agree and Strongly Agree

a Questions were reverse scored; responses of 4 or 5 were positive.

b High psychological safety: defined as answering all 7 questions positively (ie, responses of 4 or 5 on a 5-point Likert-scale question).

c Safety climate score: defined as the sum of the two 5-point Likert scale questions (1, strongly disagree to 5, strongly agree): “I would feel safe being treated here as a patient,” and “Leadership is driving us to be a safety centered institution.” Possible scores ranged from 2 to 10.

Multivariable models

Associations from the multivariable models between hospital and individual characteristics and the burnout, psychological safety, and safety climate outcomes are shown in Table 3. Strong hospital leadership support for the hospital’s infection prevention program was significantly associated with lower burnout (IRR, 0.61; 95% CI, 0.50–0.74), higher perceptions of psychological safety (IRR, 3.20; 95% CI, 2.00–5.10), and safety climate (β, 1.21; 95% CI, 0.93–1.49). Having a hospital epidemiologist on staff was significantly associated with high safety climate (β, 0.39; 95% CI, 0.09–0.69). The lead infection preventionist being certified in infection control was significantly associated with higher burnout (IRR, 1.33; 95% CI, 1.02–1.75). Also, infection preventionist tenure for every 5 years in their current position was significantly associated with higher burnout (IRR, 1.07; 95% CI, 1.01–1.13). Conversely, infection preventionist tenure for every 10 years working at the same hospital was significantly associated with a higher safety climate (β, 0.13; 95% CI, 0.02–0.24). Larger hospitals were significantly associated with higher burnout (IRR, 1.07; 95% CI, 1.02–1.12) and lower safety climate (β, −0.09; 95% CI, −0.16 to −0.02). There were no statistically significant associations with the outcomes of interest for medical school affiliation, or for the highest-ranking physician and nurse providing direct patient care.

Table 3. Adjusted Associations With Outcomes

Note. IRR, incidence rate ratio. β, beta coefficient. Bold indicates statistical significance.

a Burnout was defined as answering positively to the burnout question in Table 2.

b High psychological safety was defined as answering positively for the 7 questions presented in Table 2.

c High safety climate was defined as answering positively for the 2 questions presented in Table 2.

Discussion

In our national, cross-sectional survey, we discovered that having strong hospital leadership support (defined in this study as adequate staffing, financial, and political support) for the hospital’s infection prevention program was significantly associated with lower rates of infection preventionist burnout and increased perceptions of psychological safety and safety climate. These findings are consistent with previous research by Zhou et al Reference Zhou, Xu and Wang25 (which demonstrated the protective effects of organizational support on healthcare workers during epidemics using the Job Demands–Resources model) and a review by Schneider et al. Reference Schneider, Talamonti, Gibson and Forshaw26 (which identified organizational support as being protective of the well-being of healthcare workers responding to global pandemics). The next step in this research is to identify specific hospital leadership activities Reference Saint and Chopra27 that individuals and organizations can implement to enhance the well-being of infection preventionists after the pandemic.

The 2022 US Surgeon General report Reference Linzer, Jin and Shah12 outlined multiple leadership actions to build a thriving healthcare workforce. These actions include ensuring safe staffing levels, increasing access to mental health care for clinicians, reducing clinical administrative burdens, and promoting diversity among healthcare workers. Additional recommendations include establishing a chief wellness officer, incorporating well-being metrics into performance indicators for the organization, and linking executive compensation with improvements in healthcare worker well-being. Reference Linzer, Jin and Shah12 Implementing such system-level changes will require leaders at all levels to model the desired behaviors and regularly communicate their commitment to these principles. Healthcare leaders can start by enhancing leadership and staff interactions through structured rounding, interactive huddles, and embracing difficult conversations. Reference Saint and Chopra27 They can also lead with kindness, compassion, and love. Reference Saint and Chopra27 Evidence-based practices from organizations like the Institute for Healthcare Improvement 28 and the National Academy of Medicine 13 can provide additional guidance for leaders seeking to create a culture that prioritizes the health, well-being, and safety of their workforce.

According to our national survey, 49% of respondents reported feeling burned out from their work, which is lower than the 65% reported by infection preventionists in a study by Melnyk et al Reference Melnyk, Hsieh, Mu, Jopp and Miller2 during COVID-19 that used the following single burnout item: “Overall, based on your definition of burnout, how would you rate your level of burnout?” Even before the pandemic, the National Academy of Medicine found that burnout had reached crisis levels, 29 with annual burnout-related turnover costs of $9 billion for nurses and $2.6–6.3 billion for physicians. Reference Linzer, Jin and Shah12 Relevant to our findings, Linzer et al Reference Linzer, Jin and Shah12 reported that the aggravators of burnout during COVID-19 included a lack of control over workload, chaotic workplace environments, challenges with teamwork, and a lack of feeling valued by organizations. Although individual-level solutions - such as yoga, meditation, reframing, and gratitude - are recommended to address burnout in healthcare workers, Reference Gilmartin and Saint30 the findings of this study and those of Linzer et al Reference Linzer, Jin and Shah12 underscore the need for both individual- and organizational-level solutions to prevent burnout. These solutions include hospital leaders who actively and respectively listen to frontline workers, make changes based on feedback, and provide adequate staffing, financial, and political support.

Psychological safety is essential for fostering a culture of open communication and constructive feedback, which can result in better patient care and outcomes. Reference Newman, Donohue and Eva9 In this study, we found a positive relationship between strong hospital leadership support and higher perceptions of psychological safety. Previous research in infection prevention has also shown a relationship between psychological safety, leadership, and use of infection prevention practices. Reference Greene, Gilmartin and Saint6,Reference Gilmartin, Langner and Gokhale31 It is concerning that our study found that infection preventionists feel more comfortable expressing their opinions on important issues than reporting instances of physicians not cleaning their hands. Correcting poor hand hygiene practice is crucial feedback for the individual and can help establish social norms and can discourage erroneous or intentional violations of hand hygiene. Reference Schwappach32 Speaking up about hand hygiene is a critical part of the infection preventionist’s job, but reluctance to do so can be attributed to the risk of damaging social relationships and power hierarchies between physicians and infection preventionists. Reference Schwappach32 To cultivate psychological safety, it is crucial to have support from leadership. When leaders demonstrate strong support for infection prevention activities, such as speaking up about hand hygiene, it can have a positive impact on the well-being and perceptions of a safety climate among infection preventionists.

Perceptions of safety climate and psychological safety are interrelated and form a critical foundation for promoting patient safety and employee well-being. Traditionally, these topics have been examined independently. Reference Wagner, Rieger and Manser33 The rates of leadership support and perceptions of psychological safety and safety climate found in this study were similar to those reported by respondents in our 2017 survey. Reference Greene, Gilmartin and Saint6 Additionally, we confirmed that strong leadership support was also statistically significantly associated with increased perceptions of psychological safety and safety climate in 2017. Since this finding was also noted in the 2021 results, further promotion of dedicated leadership efforts to communicate that safety is a top priority and ensuring psychological safety between infection prevention and clinical teams appears to be warranted. A recent review summarized the 4 areas in which leadership can improve psychological safety: inclusiveness (welcoming and valuing member contributions); trustworthiness (promoting an environment of respect wherein members exhibit trust towards leadership); change oriented (empowering members to influence change without fear of reprisal); and ethical (high moral standards, truthfulness). Reference Aranzamendez, James and Toms34 Concerted efforts by hospital leadership to focus and iteratively improve these areas may lead to improvements in safety climate and effective teamwork within infection prevention programs, subsequently leading to improvements in patient care and employee well-being. Burnout was not assessed in the 2017 survey.

This study had several limitations. Although the response rate for our national survey was reasonable considering the pandemic, it was lower than previous survey administrations. We relied on self-report from the lead infection preventionist, nurse manager, or hospital epidemiologist at each hospital. As such, our findings may not reflect the overall views or beliefs of hospital employees and may not be generalizable to other departments. Although we surveyed ∼10% of all US hospitals and employed a sampling strategy to obtain a nationally representative sample, the hospitals choosing to participate may differ from those choosing not to participate, and staff suffering from burnout may be less likely to respond to surveys, affecting generalizability. Because of the cross-sectional nature of the study, causality cannot be inferred; however, the strength of the associations detected supports the meaningfulness of leadership support in relation to our outcomes. Finally, the hospital leadership support item may not have captured all aspects of the concept because several distinct issues (eg, staffing, financial, and political support) were combined into a single question, limiting our understanding of the most influential concept. This is also true for the burnout and psychological safety items, which are multidimensional concepts and were assessed through abbreviated survey questions.

Limitations notwithstanding, our results suggest that improving hospital leadership support is a critical organization-level solution that could meaningfully address the current challenges of high burnout and low psychological safety and safety climate for infection preventionists. Further research is needed to prospectively test interventions designed to build leadership support for infection prevention departments. We trust that these findings will increase attention to the role leadership support plays in infection preventionist well-being and ultimately the quality and safety of patient care.

Acknowledgments

We thank the healthcare workers and leaders who participated in the survey. Jason M. Engle, MPH, provided assistance in preparing and editing the manuscript. The views expressed in this article are those of the author(s) and do not necessarily represent the views of the Department of Veterans’ Affairs.

Financial support

Dr. Gilmartin is supported by a Career Development Award (no. 1IK2HX002587-01A1) from the US Department of Veterans’ Affairs Health Services Research & Development Service of the VA Office of Research and Development. This study was partially supported by a VA National Center of Patient Safety funded Patient Safety Center of Inquiry. The funding organization played no role in the design and conduct of the study; collection, management, analysis, and interpretation of the data; preparation, review, or approval of the manuscript; or decision to submit the manuscript for publication.

References

Sexton, JB, Adair, KC, Proulx, J, et al. Emotional exhaustion among US healthcare workers before and during the COVID-19 pandemic, 2019–2021. JAMA Netw Open 2022;5:e2232748.CrossRefGoogle ScholarPubMed
Melnyk, BM, Hsieh, AP, Mu, J, Jopp, DA, Miller, S. Associations among infection prevention professionals’ mental/physical health, lifestyle behaviors, shift length, race, and workplace wellness support during COVID-19. Am J Infect Control 2023;51:6269.CrossRefGoogle ScholarPubMed
Rebmann, T, Alvino, RT, Mazzara, RL, Sandcork, J. Infection preventionists’ experiences during the first nine months of the COVID-19 pandemic: findings from focus groups conducted with Association of Professionals in Infection Control & Epidemiology (APIC) members. Am J Infect Control 2021;49:10931098.CrossRefGoogle ScholarPubMed
Pintar, PA, McAndrew, NS. An unheard voice: infection prevention professionals reflect on their experiences during the COVID-19 pandemic. Am J Infect Control 2023;51:890894.CrossRefGoogle ScholarPubMed
Shah, AH, Becene, IA, Nguyen, KTNH, et al. A qualitative analysis of psychosocial stressors and health impacts of the COVID-19 pandemic on frontline healthcare personnel in the United States. SSM Qual Res Health 2022;2:100130.CrossRefGoogle ScholarPubMed
Greene, MT, Gilmartin, HM, Saint, S. Psychological safety and infection prevention practices: results from a national survey. Am J Infect Control 2020;48:26.CrossRefGoogle ScholarPubMed
Braun, BI, Chitavi, SO, Suzuki, H, Soyemi, CA, Puig-Asensio, M. Culture of safety: impact on improvement in infection prevention process and outcomes. Curr Infect Dis Rep 2020;22:141.CrossRefGoogle ScholarPubMed
Saint, S, Kowalski, CP, Banaszak-Holl, J, Forman, J, Damschroder, L, Krein, SL. The importance of leadership in preventing healthcare-associated infection: results of a multisite qualitative study. Infect Control Hosp Epidemiol 2010;31:901907.CrossRefGoogle ScholarPubMed
Newman, A, Donohue, R, Eva, N. Psychological safety: a systematic review of the literature. Human Res Manag Rev 2017;27:521535.Google Scholar
Addressing health worker burnout: The US Surgeon General’s advisory on building a thriving health workforce. US Surgeon General’s Office website. https://www.hhs.gov/surgeongeneral/priorities/health-worker-burnout/index.html. Accessed September 8, 2023.Google Scholar
Sacks, GD, Shannon, EM, Dawes, AJ, et al. Teamwork, communication and safety climate: a systematic review of interventions to improve surgical culture. BMJ Qual Saf 2015;24:458467.CrossRefGoogle ScholarPubMed
Linzer, M, Jin, JO, Shah, P, et al. Trends in clinician burnout with associated mitigating and aggravating factors during the COVID-19 pandemic. JAMA Health Forum 2022;3:e224163.CrossRefGoogle ScholarPubMed
National plan for health workforce well-being. National Academy of Medicine. https://nap.nationalacademies.org/catalog/26744/national-plan-for-health-workforce-well-being. Accessed April 24, 2023.Google Scholar
Krein, SL, Kowalski, CP, Hofer, TP, Saint, S. Preventing hospital-acquired infections: a national survey of practices reported by US hospitals in 2005 and 2009. J Gen Intern Med 2012;27:773779.CrossRefGoogle Scholar
Krein, SL, Hofer, TP, Kowalski, CP, et al. Use of central venous catheter–related bloodstream infection prevention practices by US hospitals. Mayo Clin Proc 2007;82:672678.CrossRefGoogle ScholarPubMed
Krein, S, Kowalski, C, Damschroder, L, Forman, J, Kaufman, SR, Saint, S. Preventing ventilator-associated pneumonia in the United States: a multicenter mixed-methods study. Infect Control Hosp Epidemiol 2008;29:933940.CrossRefGoogle ScholarPubMed
Krein, S, Olmstead, RN, Hofer, TP, et al. Translating infection prevention evidence into practice using quantitative and qualitative research. Am J Infect Control 2006;34:507512.CrossRefGoogle ScholarPubMed
Saint, S, Olmstead, RN, Fakih, MG, et al. Translating healthcare-associated urinary tract infection prevention research into practice via the bladder bundle. Jt Comm J Qual Patient Saf 2009;35:449455.Google Scholar
Krein, SL, Fowler, KE, Ratz, D, Meddings, J, Saint, S. Preventing device-associated infections in US hospitals: national surveys from 2005 to 2013. BMJ Qual Saf 2015;24:385392.CrossRefGoogle ScholarPubMed
Saint, S, Greene, MT, Fowler, KE, et al. What US hospitals are currently doing to prevent common device-associated infections: results from a national survey. BMJ Qual Saf 2019;28:741749.CrossRefGoogle ScholarPubMed
Harris, PA, Taylor, R, Minor, BL, et al. The REDCap consortium: building an international community of software platform partners. J Biomed Informat 2019;95:103208.CrossRefGoogle ScholarPubMed
West, CP, Dyrbye, LN, Sloan, JA, Shanafelt, TD. Single item measures of emotional exhaustion and depersonalization are useful for assessing burnout in medical professionals. J Gen Intern Med 2009;24:13181321.CrossRefGoogle ScholarPubMed
Edmondson, A. Psychological safety and learning behavior in work teams. Admin Sci Qrtrly 1999;44:350383.CrossRefGoogle Scholar
Saint, S, Greene, MT, Kowalski, CP, Watson, SR, Hofer, TP, Krein, SL. Preventing catheter-associated urinary tract infections in the United States: a national comparative study. JAMA Intern Med 2013;173:874879.CrossRefGoogle ScholarPubMed
Zhou, T, Xu, C, Wang, C, et al. Burnout and well being of healthcare workers in the postpandemic period of COVID-19: a perspective from the job demands-resources model. BMC Health Serv Res 2022;22:115.CrossRefGoogle ScholarPubMed
Schneider, J, Talamonti, D, Gibson, B, Forshaw, M. Factors mediating the psychological well-being of healthcare workers responding to global pandemics: a systematic review. J Health Psychol 2022;27:18751896.CrossRefGoogle ScholarPubMed
Saint, S, Chopra, V. Thirty Rules for Healthcare Leaders. Ann Arbor: University of Michigan Press; 2019.Google Scholar
Psychological PPE: promote healthcare workforce mental health and well-being. Institute for Healthcare Improvement. https://www.ihi.org/resources/Pages/Tools/psychological-PPE-promote-health-care-workforce-mental-health-and-well-being.aspx. Accessed April 24, 2023.Google Scholar
Taking action against clinician burnout: a systems approach to professional well-being. The National Academies Press website. https://nap.nationalacademies.org/catalog/25521/taking-action-against-clinician-burnout-a-systems-approach-to-professional. Accessed June 3, 2022.Google Scholar
Gilmartin, H, Saint, S. Finding joy in medicine: a remedy for challenging times. N Engl J Med Catalyst September 1, 2022. NEJM Catalyst website. https://catalyst.nejm.org/doi/full/10.1056/CAT.22.0215. Accessed August 20, 2023.Google Scholar
Gilmartin, HM, Langner, P, Gokhale, M, et al. Relationship between psychological safety and reporting nonadherence to a safety checklist. J Nurs Care Qual 2018;33:5360.CrossRefGoogle ScholarPubMed
Schwappach, DL. Speaking up about hand hygiene failures: a vignette survey study among healthcare professionals. Am J Infect Control 2018;46:870875.CrossRefGoogle ScholarPubMed
Wagner, A, Rieger, MA, Manser, T, et al. Healthcare professionals’ perspectives on working conditions, leadership, and safety climate: a cross-sectional study. BMC Health Serv Res 2019;19:53. https://doi.org/10.1186/s12913-018-3862-7 CrossRefGoogle ScholarPubMed
Aranzamendez, G, James, D, Toms, R. Finding antecedents of psychological safety: a step toward quality improvement. Nurs Forum 2015;50:171178.CrossRefGoogle ScholarPubMed
Figure 0

Table 1. Select Hospital and Individual Respondent Characteristics

Figure 1

Table 2. Burnout, Psychological Safety, and Safety Climate Items Rated Agree and Strongly Agree

Figure 2

Table 3. Adjusted Associations With Outcomes