OBJECTIVE: To understand the nature of emerging electronic documentation practices, disconnects between documentation workflows and computing systems designed to support them, and ways to improve the design of electronic documentation systems. MATERIALS AND METHODS: Time-and-motion study of resident physicians' note-writing practices using a commercial electronic health record system that includes an electronic documentation module. The study was conducted in the general medicine unit of a large academic hospital. RESULTS: During the study, 96 note-writing sessions by 11 resident physicians, resulting in close to 100 h of observations were seen. Seven of the 10 most common transitions between activities during note composition were between documenting, and gathering and reviewing patient data, and updating the plan of care. DISCUSSION: The high frequency of transitions seen in the study suggested that clinical documentation is fundamentally a synthesis activity, in which clinicians review available patient data and summarize their impressions and judgments. At the same time, most electronic health record systems are optimized to support documentation as uninterrupted composition. This mismatch leads to fragmentation in clinical work, and results in inefficiencies and workarounds. In contrast, we propose that documentation can be best supported with tools that facilitate data exploration and search for relevant information, selective reading and annotation, and composition of a note as a temporal structure. CONCLUSIONS: Time-and-motion study of clinicians' electronic documentation practices revealed a high level of fragmentation of documentation activities and frequent task transitions. Treating documentation as synthesis rather than composition suggests new possibilities for supporting it more effectively with electronic systems.
OBJECTIVE: To understand the nature of emerging electronic documentation practices, disconnects between documentation workflows and computing systems designed to support them, and ways to improve the design of electronic documentation systems. MATERIALS AND METHODS: Time-and-motion study of resident physicians' note-writing practices using a commercial electronic health record system that includes an electronic documentation module. The study was conducted in the general medicine unit of a large academic hospital. RESULTS: During the study, 96 note-writing sessions by 11 resident physicians, resulting in close to 100 h of observations were seen. Seven of the 10 most common transitions between activities during note composition were between documenting, and gathering and reviewing patient data, and updating the plan of care. DISCUSSION: The high frequency of transitions seen in the study suggested that clinical documentation is fundamentally a synthesis activity, in which clinicians review available patient data and summarize their impressions and judgments. At the same time, most electronic health record systems are optimized to support documentation as uninterrupted composition. This mismatch leads to fragmentation in clinical work, and results in inefficiencies and workarounds. In contrast, we propose that documentation can be best supported with tools that facilitate data exploration and search for relevant information, selective reading and annotation, and composition of a note as a temporal structure. CONCLUSIONS: Time-and-motion study of clinicians' electronic documentation practices revealed a high level of fragmentation of documentation activities and frequent task transitions. Treating documentation as synthesis rather than composition suggests new possibilities for supporting it more effectively with electronic systems.
Authors: Kai Zheng; Hilary M Haftel; Ronald B Hirschl; Michael O'Reilly; David A Hanauer Journal: J Am Med Inform Assoc Date: 2010 Jul-Aug Impact factor: 4.497
Authors: S Trent Rosenbloom; Joshua C Denny; Hua Xu; Nancy Lorenzi; William W Stead; Kevin B Johnson Journal: J Am Med Inform Assoc Date: 2011-01-12 Impact factor: 4.497
Authors: Kevin A Kerber; Timothy P Hofer; William J Meurer; A Mark Fendrick; Lewis B Morgenstern Journal: BMC Health Serv Res Date: 2011-03-24 Impact factor: 2.655
Authors: Thomas H Payne; Sarah Corley; Theresa A Cullen; Tejal K Gandhi; Linda Harrington; Gilad J Kuperman; John E Mattison; David P McCallie; Clement J McDonald; Paul C Tang; William M Tierney; Charlotte Weaver; Charlene R Weir; Michael H Zaroukian Journal: J Am Med Inform Assoc Date: 2015-05-28 Impact factor: 4.497
Authors: Abigail E Huang; Michelle R Hribar; Isaac H Goldstein; Brad Henriksen; Wei-Chun Lin; Michael F Chiang Journal: AMIA Annu Symp Proc Date: 2018-12-05
Authors: Courtney A Denton; Hiral C Soni; Thomas G Kannampallil; Anna Serrichio; Jason S Shapiro; Stephen J Traub; Vimla L Patel Journal: Appl Clin Inform Date: 2018-09-12 Impact factor: 2.342
Authors: Judith W Dexheimer; Huaxiu Tang; Andrea Kachelmeyer; Melanie Hounchell; Stephanie Kennebeck; Imre Solti; Yizhao Ni Journal: Pediatr Emerg Care Date: 2019-12 Impact factor: 1.454