Lisa M McElroy1, Kelly M Collins2, Felicitas L Koller3, Rebeca Khorzad4, Michael M Abecassis3, Jane L Holl4, Daniela P Ladner4. 1. Center for Healthcare Studies and Center for Education in Health Sciences, Institute for Public Health and Medicine, Northwestern University Feinberg School of Medicine, Chicago, IL; Northwestern University Transplant Outcomes Research Collaborative (NUTORC), Comprehensive Transplant Center, Northwestern University Feinberg School of Medicine, Chicago, IL. Electronic address: lisa.mcelroy@northwestern.edu. 2. Section of Transplantation, Department of Surgery, Washington University School of Medicine, St. Louis, MO. 3. Northwestern University Transplant Outcomes Research Collaborative (NUTORC), Comprehensive Transplant Center, Northwestern University Feinberg School of Medicine, Chicago, IL. 4. Center for Healthcare Studies and Center for Education in Health Sciences, Institute for Public Health and Medicine, Northwestern University Feinberg School of Medicine, Chicago, IL; Northwestern University Transplant Outcomes Research Collaborative (NUTORC), Comprehensive Transplant Center, Northwestern University Feinberg School of Medicine, Chicago, IL.
Abstract
BACKGROUND: The goal of this study was to assess systems and processes involved in the operating room (OR) to intensive care unit (ICU) handoff in an attempt to understand the criticality of specific steps of the handoff. METHODS: We performed a failure modes, effects, and criticality analysis (FMECA) of the OR to ICU handoff of deceased donor liver transplant recipients using in-person observations and descriptions of the handoff process from a multidisciplinary group of clinicians. For each step in the process, failures were identified along with frequency of occurrence, causes, potential effects and safeguards. A Risk Priority Number (RPN) was calculated for each failure (frequency × potential effect × safeguard; range 1-least risk to 1,000-most risk). RESULTS: Using FMECA, we identified 37 individual steps in the OR to ICU handoff process. In total, 81 process failures were identified, 22 of which were determined to be critical and 36 of which relied on weak safeguards such as informal human verification. Process failures with the greatest risk of harm were lack of preliminary OR to ICU communication (RPN 504), team member absence during handoff communication (RPN 480), and transport equipment malfunction (Risk Priority Number 448). CONCLUSION: Based on the analysis, recommendations were made to reduce potential for patient harm during OR to ICU handoffs. These included automated transfer of OR data to ICU clinicians, enhanced ICU team member notification processes and revision of the postoperative order sets. The FMECA revealed steps in the OR to ICU handoff that are high risk for patient harm and are currently being targeted for process improvement.
BACKGROUND: The goal of this study was to assess systems and processes involved in the operating room (OR) to intensive care unit (ICU) handoff in an attempt to understand the criticality of specific steps of the handoff. METHODS: We performed a failure modes, effects, and criticality analysis (FMECA) of the OR to ICU handoff of deceased donor liver transplant recipients using in-person observations and descriptions of the handoff process from a multidisciplinary group of clinicians. For each step in the process, failures were identified along with frequency of occurrence, causes, potential effects and safeguards. A Risk Priority Number (RPN) was calculated for each failure (frequency × potential effect × safeguard; range 1-least risk to 1,000-most risk). RESULTS: Using FMECA, we identified 37 individual steps in the OR to ICU handoff process. In total, 81 process failures were identified, 22 of which were determined to be critical and 36 of which relied on weak safeguards such as informal human verification. Process failures with the greatest risk of harm were lack of preliminary OR to ICU communication (RPN 504), team member absence during handoff communication (RPN 480), and transport equipment malfunction (Risk Priority Number 448). CONCLUSION: Based on the analysis, recommendations were made to reduce potential for patient harm during OR to ICU handoffs. These included automated transfer of OR data to ICU clinicians, enhanced ICU team member notification processes and revision of the postoperative order sets. The FMECA revealed steps in the OR to ICU handoff that are high risk for patient harm and are currently being targeted for process improvement.
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