Hostname: page-component-cd9895bd7-q99xh Total loading time: 0 Render date: 2024-12-26T06:26:16.031Z Has data issue: false hasContentIssue false

An app a day: Results of pre- and post-surveys of knowledge, attitudes, and practices (KAP) regarding antimicrobial stewardship principles among nurses who utilized a novel learning platform

Published online by Cambridge University Press:  02 March 2023

Laura J. Bobbitt*
Affiliation:
Department of Pharmaceutical Services, Vanderbilt University Medical Center, Nashville, Tennessee
Christo Cimino
Affiliation:
Department of Pharmaceutical Services, Vanderbilt University Medical Center, Nashville, Tennessee
Kim V. Garvey
Affiliation:
Department of Anesthesiology; Center for Advanced Mobile Healthcare Learning, Vanderbilt University Medical Center, Nashville, Tennessee
Leanna S. Craft
Affiliation:
Department of Nursing, Vanderbilt University Medical Center, Nashville, Tennessee
Nicole A. Eichenseer
Affiliation:
Department of Nursing, Vanderbilt University Medical Center, Nashville, Tennessee
George E. Nelson
Affiliation:
Division of Infectious Diseases, Department of Medicine, Vanderbilt University Medical Center, Nashville, Tennessee
*
Author for correspondence: Laura J. Bobbitt, PharmD, Department of Pharmaceutical Services, Vanderbilt University Medical Center, 1211 Medical Center Drive, Nashville, TN 37232. E-mail: laura.bobbitt@vumc.org

Abstract

Background:

Nurses perform several functions that are integral for antimicrobial stewardship (AMS). However, nurses are underrepresented in research and underutilized in implementation of AMS interventions. The objective of this pilot study was to assess the effect of asynchronous microlearning on inpatient nursing staff knowledge, attitudes, and practices (KAP) regarding AMS principles.

Methods:

A team of pharmacists, physicians, and nurses developed 9 case-based, multiple-choice questions with accompanying educational explanations on associated AMS principles. One case was delivered to participants daily via an institutional web-based application (QuizTime). A KAP survey with 20 questions on a 5-point Likert scale was administered before and after the intervention. Survey results were compared using a Wilcoxon signed-rank test.

Results:

Participants’ mean survey score after the intervention demonstrated statistically significant improvement for 18 (90%) of 20 items compared to before the intervention. Participants’ confidence improved in key AMS activities: (1) differentiating between colonization and infection (mean difference, 0.63; P < .001), (2) identifying unnecessary urine cultures and inappropriate treatment of urinary tract infections (mean difference, 0.94; P < .001), (3) recognizing opportunities for intravenous to oral therapy conversion (mean difference, 1.07; P < .001), and (4) assessing for antibiotic-associated adverse effects (mean difference, 0.54; P < .001).

Conclusions:

Nursing education provided through an asynchronous, microlearning format via a mobile platform resulted in statistically significant improvement in most KAP topics. Nurses are integral members of a multidisciplinary AMS team, and novel education methods can help equip them with the necessary AMS tools. This pilot study forms the basis for expanded AMS educational efforts in all healthcare professionals.

Type
Original Article
Creative Commons
Creative Common License - CCCreative Common License - BY
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
© The Author(s), 2023. Published by Cambridge University Press on behalf of The Society for Healthcare Epidemiology of America

A multidisciplinary approach to antimicrobial stewardship (AMS) is necessary for success. Reference Dellit, Owens and Mcgowan1,2 Major stakeholders in AMS programs include clinicians, pharmacists, infection preventionists, microbiologists, information technology staff, and nurses. Nurses are uniquely positioned at the frontline of antibiotic administration and the center of communication among the healthcare team. Additionally, their focus on patient advocacy and safety are potential motivators for AMS involvement. Reference Gotterson, Buising and Manias3 Emphasis on engaging nurses in AMS efforts has increased. Reference Olans, Olans and Demaria4Reference Ha, Forte and Olans7 A 2017 white paper by the American Nurses Association (ANA) and the Centers for Disease Control and Prevention (CDC) highlighted daily nursing activities integral for improving antibiotic use such as obtaining early and appropriate cultures, administering antibiotics, recognizing adverse effects of antibiotics, educating patients and families, and taking appropriate allergy histories, among others. 8

Several studies have evaluated the knowledge, attitudes, and practices (KAP) of nurses and the barriers to full nursing participation in AMS. Reference Abbas, Lee and Pakyz9Reference Greendyke, Carter and Salsgiver11 Nurses are willing to be involved in AMS but are often uncertain of their role. Reference Gotterson, Buising and Manias3 A major barrier consistently identified is the lack of formal education on antibiotics and microbiology. Reference Monsees, Tamma, Cosgrove, Miller and Fabre6,Reference Greendyke, Carter and Salsgiver11Reference Monsees, Popejoy, Jackson, Lee and Goldman13 Online learning modules have been successful in improving awareness of nurses’ role as antimicrobial stewards and empowering nurses to participate in clinical discussions involving antimicrobials. Reference Wilson, Shick and Carter14,Reference Catanzaro15

Microlearning—a form of spaced learning utilizing small units of information delivered over a short period Reference Triana, White-Dzuro, Siktberg, Fowler and Miller16 —is an emerging education strategy among healthcare professionals. Shorter and more targeted learning material is more easily processed and better retained than traditional longer formats. Reference Barrett, McEvoy and Fowler17 Microlearning has been shown to improve performance among students in health professions. Reference de Gagne, Park, Hall, Woodward, Yamane and Kim18 However, this novel pedagogical approach has not been applied in nursing AMS education. We evaluated the effect of an asynchronous mobile microlearning platform (QuizTime) on nursing staff KAP regarding AMS principles.

Methods

A team of physicians, pharmacists, and nurses developed a course consisting of 9 case-based multiple-choice questions. Topics included defining antimicrobial resistance and understanding nurses’ role in AMS, differentiating a urinary tract infection from asymptomatic bacteriuria, identifying characteristics of sepsis and understanding the importance of early antibiotic administration, ensuring appropriate indications prior to obtaining cultures, identifying intravenous (IV) to oral (PO) conversions, identifying opportunities for de-escalation based on culture results, taking an accurate allergy history, recognizing common adverse effects of antibiotics, and utilizing the 4 moments of antibiotic decision making. Reference Tamma, Miller and Cosgrove19

One question per day was delivered to participants via an institutional web-based application (QuizTime) and was followed by a brief educational explanation on the associated AMS principles (Supplementary Material). The course opened on December 20, 2021, and closed on February 14, 2022. Learners could enroll at any time during the rolling enrollment period and received their first question 24 hours later. Each question allowed 1 reattempt, and any unopened question was resent to learners for another attempt within 48 hours after the final question. Learners could complete the questions from anywhere, including outside the institutional network.

A KAP survey with 20 identical items on a 5-point Likert scale (1, strongly disagree, to 5, strongly agree) was administered to participants before and after the course. The latter survey was completed immediately after course conclusion. The postcourse survey also included additional questions on respondents’ confidence in their ability to participate in AMS, course effectiveness, education format preferences, and barriers to nursing participation in AMS. Survey results before and after the course were compared using a Wilcoxon signed-rank test. All statistical analyses were conducted using SPSS version 26 software (IBM, Armonk, NY).

All inpatient nurses were eligible for participation. An announcement was sent via an institutional nursing listserv, which included ∼3,000 recipients. We also recruited 2 nurse champions who assisted with participant recruitment on their respective units. Continuing nursing education (CNE) credits were awarded to participants based on an estimated completion time of 5–10 minutes per case. The study protocol and surveys were reviewed and exempted from approval by the Vanderbilt University Medical Center institutional review board.

Results

KAP survey

In total, 55 learners enrolled in the QuizTime course “Antimicrobial Stewardship for Nurses” from December 20, 2021, through January 30, 2022. The learners identified their specialties as cancer biology (n = 3), cardiac surgery (n = 6), medicine (n = 8), neurological surgery (n = 11), neurology (n = 9), other (n = 8), surgery (n = 5), and the Vanderbilt-Ingram Cancer Center (n = 5). Of these 55 learners, 41 (75%) completed all 9 questions and 48 (87%) completed more than half of the questions.

Of the 55 participants who completed the course, 46 (78%) completed the surveys both before and after the course. Participant characteristics are reported in Supplementary Table S1. Most of these participants (78%) held bachelor’s degrees in nursing; 56% had <5 years of experience and 39% had >10 years of experience. Also, 86% of participants reported that they administer antibiotics to >50% of their patients; 50% of respondents reported that >75% of their patients receive antibiotics. Only 2 participants (4.3%) reported attending an antibiotic-related seminar in the prior year.

The mean scores for each item on the precourse survey are presented in Supplementary Tables S2 and S3. Only 41% of participants either agreed or strongly agreed that they were familiar with the term “antimicrobial stewardship.” However, 98% were familiar with the term “antimicrobial resistance,” and 96% of participants agreed that antibiotic use can lead to antimicrobial resistance. Almost all participants (93%) agreed or strongly agreed that antibiotic use can lead to adverse drug effects. Furthermore, 82% reported understanding the relationship between antibiotics and Clostridioides difficile, and 87% agreed that they could usually recognize whether their patient’s change in clinical status is due to a possible infection. Also, 61% of participants felt that they had little control over what antibiotics their patients received. Additionally, 39% thought that they served as antibiotic stewards for their patients, and 43% of respondents believed that their nurse colleagues functioned as antibiotic stewards. However, 78% of those surveyed agreed that nurses should be involved in AMS. Finally, only 4% of participants were familiar with the 4 moments of antibiotic decision making. Reference Tamma, Miller and Cosgrove19

The postcourse survey results were compared to the precourse scores (Figs. 1 and 2). The mean score significantly improved for 18 (90%) of 20 items. The following items showed the largest change: (1) familiarity with the 4 moments of antibiotic decision making Reference Tamma, Miller and Cosgrove19 (mean difference, 1.98; P < .001), (2) familiarity with the term “antimicrobial stewardship” (mean difference, 1.31; P < .001), (3) confidence in identifying opportunities for IV to PO conversions (mean difference, 1.07; P < .001), (4) beliefs that participants have little control over what antibiotics their patients receive (mean difference, −1.05; P < .001), (5) beliefs that participants serve as antibiotic stewards for their patients (mean difference, 1.00; P < .001), and (6) confidence in reviewing microbiology results to help guide optimal selection of antibiotics (mean difference, 1.00; P < .001). After course completion, 96% of participants felt more confident in their ability to participate in AMS, 93% of participants thought the course filled knowledge gaps about AMS, and 89% believed that the course was an effective teaching tool. Also, 70% of participants agreed that they preferred to receive education in a spaced, microlearning format rather than in a single sitting.

Fig. 1. Participant knowledge, attitudes, and practices (KAP) regarding antimicrobial stewardship principles.

Fig. 2. Participant confidence in ability to participate in antimicrobial stewardship activities.

Discussion

A pilot study assessing the use of asynchronous microlearning was effective in improving nursing KAP surrounding AMS. Participants demonstrated a baseline understanding of antimicrobial resistance (mean precourse score, 4.41) and antibiotic adverse effects (mean precourse score, 4.20), but larger gains were demonstrated for more specific AMS roles and responsibilities. After course completion, participants felt more confident in their ability to recognize antibiotic adverse effects, colonization versus infection, unnecessary urine cultures, and opportunities for IV to PO conversion of antimicrobials. After course completion, more nurses agreed that they have some control over what antibiotics their patients receive and believed that they could serve as antibiotic stewards.

Nurses perceive they have a role in AMS, but knowledge gaps of microbiology and antibiotic use principles are perceived barriers to integrating nurses into AMS. Reference Monsees, Tamma, Cosgrove, Miller and Fabre6,Reference Greendyke, Carter and Salsgiver11Reference Monsees, Popejoy, Jackson, Lee and Goldman13 Carter et al Reference Carter, Greendyke and Furuya10 reported that practices such as questioning the need for urine cultures, ensuring proper culturing technique, recording an accurate penicillin allergy history, encouraging a prompt switch from IV to PO antibiotics, and initiating antibiotic timeouts are perceived as an extension of nurses’ role. Hamdy et al Reference Hamdy, Neal, Nicholson, Ansusinha and King20 conducted 12 focus groups with 90 pediatric nurses on their role in AMS. They reported that nursing roles in AMS may include advocating for the patient, communicating with the team, administering antibiotics safely, educating caregivers, and educating themselves. Reference Hamdy, Neal, Nicholson, Ansusinha and King20 The role of nurses in AMS has also been endorsed by the American Nurses Association (ANA) and the Centers for Disease Control and Prevention (CDC). 8 Nursing competency in AMS is one of the key components of a proposed AMS nursing practice framework that emphasizes the need for development of targeted AMS nursing education programs. Reference Manning, Pogorzelska-Maziarz and Hou21

Microlearning is an emerging approach in healthcare continuing education. This innovative pedagogy has demonstrated a positive effect on knowledge acquisition, confidence, and in some cases, clinical practice, but data on using this approach in nursing education are lacking. Reference de Gagne, Park, Hall, Woodward, Yamane and Kim18 Some of the benefits of microlearning include the shorter time requirement and the flexibility of completing the activities at the convenience of the learner. In the age of mobile phone applications, learners tend to prefer shorter, more informal content. Reference Tennyson, Smallheer and de Gagne22 Microlearning may be particularly suitable for healthcare professionals, who are often managing multiple patients and tasks at one time. In addition, educational modalities, such as QuizTime, allow for scalable learning interventions in which rapid dissemination of information to large numbers of learners is possible. Reference Triana, White-Dzuro, Siktberg, Fowler and Miller16 Once a question bank is created, the application can deploy the education to more users with little effort by study personnel. Furthermore, this approach promotes high learner engagement with sustained knowledge acquisition. Reference Barrett, McEvoy and Fowler17

Although additional education remains an important opportunity to increase nursing participation in AMS, another major barrier is prescriber pushback and challenges with interdisciplinary communication. Reference Davey and Aveyard23 One participant in our study stated, “Nurses are not the ones deciding on when to start antibiotics or which [antibiotics] to use. We can advocate for our patients but at times nurses can be overruled by physicians.” This sentiment was a prominent finding in a survey of 451 nurses, in which 92% of respondents reported that initiating discussions with a prescriber about antibiotic changes would benefit their patients but only 16% thought that this could be implemented without difficulty. Reference Greendyke, Carter and Salsgiver11 Interdisciplinary communication is vital for successful nurse-driven AMS interventions. Reference Ha, Forte and Olans7 The SBAR (situation, background, assessment, and recommendation) tool is a successful communication style utilized in health care. A proposed AMS nursing practice framework advocates for using the SBAR to strengthen communication between nurses and providers, and the familiar SBAR tool could be adapted for use regarding AMS nursing interventions. Reference Monsees, Tamma, Cosgrove, Miller and Fabre6

This study had several limitations. Notably, participation in the intervention was low, which is unsurprising for a pilot study; therefore, our findings lack generalizability to other medical centers. Recruitment was challenged by nursing shortages and increased use of agency and per diem staff due to the COVID-19 pandemic. Even though any inpatient nurse was eligible to participate in the study by receipt of advertisement via an e-mail listserv, many participants joined after engagement by one of our selected nursing champions and thus our sample was not randomly chosen. Additionally, our KAP survey did not undergo reliability and validity testing. Although nurses were included in the development of the survey, we did not assess psychometric properties, which would be valuable prior to large-scale implementation. Also, we did not assess whether our intervention led to meaningful changes in clinical practice, though research has previously demonstrated changes in clinical practice following spaced education interventions. Reference Kerfoot, Lawler, Sokolovskaya, Gagnon and Conlin24Reference McEvoy, Dear and Buie27

In this pilot study, we focused on the implementation and utility of the QuizTime platform for AMS education. Future efforts could focus on improving participation, assessing long-term impact, and scaling similar interventions to a broader population. Recruitment could be improved by targeted e-mails rather than through a listserv, repeated notifications rather than a single posting, and increased visibility throughout the institution. Future studies could measure the long-term retention of learned topics as repeated education may be needed for sustained impact. The QuizTime platform may facilitate the ease of subsequent education since the number of participants does not increase the workload for course organizers.

Nursing education and engagement in AMS provided in an asynchronous, microlearning format resulted in significant improvement in the KAP among inpatient nursing staff. Nurses are integral members of a multidisciplinary AMS team and focused AMS education may empower nurses to help reduce unnecessary antibiotic use in their patients. This pilot study supports expanded AMS educational efforts for all healthcare professionals.

Supplementary material

To view supplementary material for this article, please visit https://doi.org/10.1017/ash.2023.131

Acknowledgments

We thank our nursing liaison Rachel Kromer for her support of this project.

Financial support

No financial support was provided relevant to this article.

Conflicts of interest

All authors report no conflicts of interest relevant to this article.

Footnotes

PREVIOUS PRESENTATION: This research was presented at IDWeek on October 22, 2022, in Washington, DC.

References

Dellit, TH, Owens, RC, Mcgowan, JE, et al. Infectious Diseases Society of America and the Society for Healthcare Epidemiology of America guidelines for developing an institutional program to enhance antimicrobial stewardship. Clin Infect Dis 2007;44:159177.CrossRefGoogle Scholar
Core elements of hospital antibiotic stewardship programs. Centers for Disease Control and Prevention website. https://www.cdc.gov/antibiotic-use/core-elements/hospital.html. Published 2019. Accessed April 30, 2022.Google Scholar
Gotterson, F, Buising, K, Manias, E. Nurse role and contribution to antimicrobial stewardship: an integrative review. Int J Nurs Stud 2021;117.Google ScholarPubMed
Olans, RN, Olans, RD, Demaria, A. The critical role of the staff nurse in antimicrobial stewardship—unrecognized, but already there. Clin Infect Dis 2016;62:8489.Google Scholar
Olans, RD, Olans, RN, Witt, DJ. Good nursing is good antibiotic stewardship. Am J Nurs 2017;117:5863.CrossRefGoogle ScholarPubMed
Monsees, EA, Tamma, PD, Cosgrove, SE, Miller, MA, Fabre, V. Integrating bedside nurses into antibiotic stewardship: a practical approach. Infect Control Hosp Epidemiol 2019;40:579584.CrossRefGoogle ScholarPubMed
Ha, DR, Forte, MB, Olans, RD, et al. A multidisciplinary approach to incorporate bedside nurses into antimicrobial stewardship and infection prevention. Jt Comm J Qual Patient Saf 2019;45:600605.Google ScholarPubMed
Redefining the antibiotic stewardship team: recommendations from the American Nurses Association/Centers for Disease Control and Prevention workgroup on the role of registered nurses in hospital antibiotic stewardship practices. JAC Antimicrob Resist 2019;1:dlz037.CrossRefGoogle Scholar
Abbas, S, Lee, K, Pakyz, A, et al. Knowledge, attitudes, and practices of bedside nursing staff regarding antibiotic stewardship: a cross-sectional study. Am J Infect Control 2019;47:230233.CrossRefGoogle ScholarPubMed
Carter, EJ, Greendyke, WG, Furuya, EY, et al. Exploring the nurses’ role in antibiotic stewardship: a multisite qualitative study of nurses and infection preventionists. Am J Infect Control 2018;46:492497.CrossRefGoogle ScholarPubMed
Greendyke, WG, Carter, EJ, Salsgiver, E, et al. Exploring the role of the bedside nurse in antimicrobial stewardship: survey results from five acute-care hospitals. Infect Control Hosp Epidemiol 2018;39:360362.CrossRefGoogle ScholarPubMed
Monsees, E, Goldman, J, Vogelsmeier, A, Popejoy, L. Nurses as antimicrobial stewards: recognition, confidence, and organizational factors across nine hospitals. Am J Infect Control 2020;48:239245.CrossRefGoogle ScholarPubMed
Monsees, E, Popejoy, L, Jackson, MA, Lee, B, Goldman, J. Integrating staff nurses in antibiotic stewardship: opportunities and barriers. Am J Infect Control 2018;46:737742.CrossRefGoogle ScholarPubMed
Wilson, BM, Shick, S, Carter, RR, et al. An online course improves nurses’ awareness of their role as antimicrobial stewards in nursing homes. Am J Infect Control 2017;45:466470.CrossRefGoogle ScholarPubMed
Catanzaro, MT. Antibiotic stewardship for nurses: using e-learning modules to bridge the education gap. Antimicrob Steward Healthc Epidemiol 2022;2:e7.CrossRefGoogle ScholarPubMed
Triana, AJ, White-Dzuro, CG, Siktberg, J, Fowler, BD, Miller, B. Quiz-based microlearning at scale: a rapid educational response to COVID-19. Med Sci Educ 2021;31:17311733.CrossRefGoogle Scholar
Barrett, TW, McEvoy, MD, Fowler, LC, et al. Impact of an asynchronous spaced education learning intervention on emergency medicine clinician opioid prescribing. Cureus 2021;13:e18165.Google ScholarPubMed
de Gagne, JC, Park, HK, Hall, K, Woodward, A, Yamane, S, Kim, SS. Microlearning in health professions education: scoping review. JMIR Med Educ 2019;5:e13997.CrossRefGoogle ScholarPubMed
Tamma, PD, Miller, MA, Cosgrove, SE. Rethinking how antibiotics are prescribed: incorporating the 4 moments of antibiotic decision making into clinical practice. JAMA 2019;321:139140.CrossRefGoogle ScholarPubMed
Hamdy, RF, Neal, W, Nicholson, L, Ansusinha, E, King, S. Pediatric nurses’ perceptions of their role in antimicrobial stewardship: a focus group study. J Pediatr Nurs 2019;48:1017.CrossRefGoogle ScholarPubMed
Manning, ML, Pogorzelska-Maziarz, M, Hou, C, et al. A novel framework to guide antibiotic stewardship nursing practice. Am J Infect Control 2022;50:99104.CrossRefGoogle ScholarPubMed
Tennyson, CD, Smallheer, BA, de Gagne, JC. Microlearning strategies in nurse practitioner education. Nurse Educ 2022;47:23.CrossRefGoogle ScholarPubMed
Davey, K, Aveyard, H. Nurses’ perceptions of their role in antimicrobial stewardship within the hospital environment: an integrative literature review. J Clin Nurs 2022;31:30113020.CrossRefGoogle ScholarPubMed
Kerfoot, BP, Lawler, EV, Sokolovskaya, G, Gagnon, D, Conlin, PR. Durable improvements in prostate cancer screening from online spaced education: a randomized controlled trial. Am J Prev Med 2010;39:472478.CrossRefGoogle ScholarPubMed
Shaw, T, Long, A, Chopra, S, Kerfoot, BP. Impact on clinical behavior of face-to-face continuing medical education blended with online spaced education: a randomized controlled trial. J Contin Educ Health Prof 2011;31:103108.CrossRefGoogle ScholarPubMed
Barrett, TW, McEvoy, MD, Fowler, LC, et al. Impact of an asynchronous spaced education learning intervention on emergency medicine clinician opioid prescribing. Cureus 2021;13:e18165.Google ScholarPubMed
McEvoy, MD, Dear, ML, Buie, R, et al. Effect of Smartphone app–based education on clinician prescribing habits in a learning healthcare system: a randomized cluster crossover trial. JAMA Netw Open Published online 2022:E2223099.CrossRefGoogle Scholar
Figure 0

Fig. 1. Participant knowledge, attitudes, and practices (KAP) regarding antimicrobial stewardship principles.

Figure 1

Fig. 2. Participant confidence in ability to participate in antimicrobial stewardship activities.

Supplementary material: Image

Bobbitt et al. supplementary material

Bobbitt et al. supplementary material 1

Download Bobbitt et al. supplementary material(Image)
Image 478.6 KB
Supplementary material: PDF

Bobbitt et al. supplementary material

Bobbitt et al. supplementary material 2

Download Bobbitt et al. supplementary material(PDF)
PDF 1.4 MB