Anping Xie1,2, Charlotte Z Woods-Hill3, Anne F King4, Heather Enos-Graves1, Judy Ascenzi5, Ayse P Gurses1,2, Sybil A Klaus6, James C Fackler2, Aaron M Milstone1,4,7. 1. Armstrong Institute for Patient Safety and Quality, Johns Hopkins University, Baltimore, Maryland. 2. Department of Anesthesiology and Critical Care Medicine. 3. Department of Anesthesiology and Critical Care Medicine, Children's Hospital of Philadelphia, Pennsylvania. 4. Division of Infectious Diseases, Department of Pediatrics, Johns Hopkins University School of Medicine, Baltimore, Maryland. 5. Department of Pediatrics, Johns Hopkins Nursing, Baltimore, Maryland. 6. MITRE Corporation, McLean, Virginia. 7. Department of Epidemiology, Johns Hopkins Bloomberg School of Public Health, Baltimore, Maryland.
Abstract
BACKGROUND: Work system assessments can facilitate successful implementation of quality improvement programs. Using a human factors engineering approach, we conducted a work system assessment to facilitate the dissemination of a quality improvement program for optimizing blood culture use in pediatric intensive care units at 2 hospitals. METHODS: Semistructured face-to-face interviews were conducted with clinicians from Johns Hopkins All Children's Hospital and University of Virginia Medical Center. Interview data were analyzed using qualitative content analysis. RESULTS: Blood culture-ordering practices are influenced by various work system factors, including people, tasks, tools and technologies, the physical environment, organizational conditions, and the external environment. A clinical decision-support tool could facilitate implementation by (1) standardizing blood culture-ordering practices, (2) ensuring that prescribing clinicians review the patient's condition before ordering a blood culture, (3) facilitating critical thinking, and (4) empowering nurses to communicate with physicians and advocate for adherence to blood culture-ordering guidelines. CONCLUSION: The success of interventions for optimizing blood culture use relies heavily on the local context. A work system analysis using a human factors engineering approach can identify key areas to be addressed for the successful dissemination of quality improvement interventions.
BACKGROUND: Work system assessments can facilitate successful implementation of quality improvement programs. Using a human factors engineering approach, we conducted a work system assessment to facilitate the dissemination of a quality improvement program for optimizing blood culture use in pediatric intensive care units at 2 hospitals. METHODS: Semistructured face-to-face interviews were conducted with clinicians from Johns Hopkins All Children's Hospital and University of Virginia Medical Center. Interview data were analyzed using qualitative content analysis. RESULTS: Blood culture-ordering practices are influenced by various work system factors, including people, tasks, tools and technologies, the physical environment, organizational conditions, and the external environment. A clinical decision-support tool could facilitate implementation by (1) standardizing blood culture-ordering practices, (2) ensuring that prescribing clinicians review the patient's condition before ordering a blood culture, (3) facilitating critical thinking, and (4) empowering nurses to communicate with physicians and advocate for adherence to blood culture-ordering guidelines. CONCLUSION: The success of interventions for optimizing blood culture use relies heavily on the local context. A work system analysis using a human factors engineering approach can identify key areas to be addressed for the successful dissemination of quality improvement interventions.
Authors: Charlotte Z Woods-Hill; Danielle W Koontz; Anne F King; Annie Voskertchian; Elizabeth A Colantuoni; Marlene R Miller; James C Fackler; Christopher P Bonafide; Aaron M Milstone; Anping Xie Journal: Pediatr Crit Care Med Date: 2020-01 Impact factor: 3.624
Authors: Anping Xie; Charlotte Z Woods-Hill; Sean M Berenholtz; Aaron M Milstone Journal: Qual Manag Health Care Date: 2019 Apr/Jun Impact factor: 0.926
Authors: Charlotte Z Woods-Hill; Danielle W Koontz; Annie Voskertchian; Anping Xie; Judy Shea; Marlene R Miller; James C Fackler; Aaron M Milstone Journal: Pediatr Crit Care Med Date: 2021-09-01 Impact factor: 3.971
Authors: Anping Xie; Danielle W Koontz; Annie Voskertchian; James C Fackler; Aaron M Milstone; Charlotte Z Woods-Hill Journal: Pediatr Qual Saf Date: 2020-04-09
Authors: Charlotte Z Woods-Hill; Laura Lee; Anping Xie; Anne F King; Annie Voskertchian; Sybil A Klaus; Michelle M Smith; Marlene R Miller; Elizabeth A Colantuoni; James C Fackler; Aaron M Milstone Journal: Pediatr Qual Saf Date: 2018-10-16
Authors: Charlotte Z Woods-Hill; Anping Xie; John Lin; Heather A Wolfe; Alex S Plattner; Sara Malone; Kathleen Chiotos; Julia E Szymczak Journal: JAC Antimicrob Resist Date: 2022-01-22