BACKGROUND: Improving patient safety by reducing human error is a priority in all surgical specialties. A model for assessing the myriad of factors affecting performance in the operating room (OR) has yet to be developed. We hypothesized that human factors identified in other domains would similarly be viewed as contributors to error in cardiac surgery. METHODS: As a first step, we utilized a model previously employed in aviation to develop structured interviews of individuals in multiple roles (surgeons and allied health staff). To enhance relevance to the OR, Likert scale questions were formulated based on published sentinel event analyses and focus group studies in which specific factors found to be causally related to error in health care were described. Additional items from other high risk-consequence industries were generated to address theoretically important factors not highlighted previously. RESULTS: Application of the modified model to the interview responses allowed the identification of factors impacting performance in the OR and estimation of their relative importance. Analysis of correlations among responses were consistent with predictions of the model that the origin of errors can be traced to organizational influences that impact supervisory processes, which in turn establish preconditions predisposing to errors. CONCLUSIONS: These data demonstrate a model of error causation derived from aviation can be modified and applied to the cardiac surgery OR. This tool may prove useful in identifying systemic factors impacting human performance and patient safety.
BACKGROUND: Improving patient safety by reducing human error is a priority in all surgical specialties. A model for assessing the myriad of factors affecting performance in the operating room (OR) has yet to be developed. We hypothesized that human factors identified in other domains would similarly be viewed as contributors to error in cardiac surgery. METHODS: As a first step, we utilized a model previously employed in aviation to develop structured interviews of individuals in multiple roles (surgeons and allied health staff). To enhance relevance to the OR, Likert scale questions were formulated based on published sentinel event analyses and focus group studies in which specific factors found to be causally related to error in health care were described. Additional items from other high risk-consequence industries were generated to address theoretically important factors not highlighted previously. RESULTS: Application of the modified model to the interview responses allowed the identification of factors impacting performance in the OR and estimation of their relative importance. Analysis of correlations among responses were consistent with predictions of the model that the origin of errors can be traced to organizational influences that impact supervisory processes, which in turn establish preconditions predisposing to errors. CONCLUSIONS: These data demonstrate a model of error causation derived from aviation can be modified and applied to the cardiac surgery OR. This tool may prove useful in identifying systemic factors impacting human performance and patient safety.
Authors: Daniel Shouhed; Renaldo Blocker; Alex Gangi; Eric Ley; Jennifer Blaha; Daniel Margulies; Douglas A Wiegmann; Ben Starnes; Cathy Karl; Richard Karl; Bruce L Gewertz; Ken R Catchpole Journal: World J Surg Date: 2014-02 Impact factor: 3.352
Authors: Cornelius A Thiels; Tarun Mohan Lal; Joseph M Nienow; Kalyan S Pasupathy; Renaldo C Blocker; Johnathon M Aho; Timothy I Morgenthaler; Robert R Cima; Susan Hallbeck; Juliane Bingener Journal: Surgery Date: 2015-05-29 Impact factor: 3.982
Authors: Douglas A Wiegmann; Ashley A Eggman; Andrew W Elbardissi; Sarah Henrickson Parker; Thoralf M Sundt Journal: Appl Ergon Date: 2010-03-03 Impact factor: 3.661
Authors: Christopher L Tarola; Sameer Hirji; Steven J Yule; Jennifer M Gabany; Alessandro Zenati; Roger D Dias; Marco A Zenati Journal: IEEE Conf Cogn Comput Asp Situat Manag Date: 2018-08-02
Authors: Sarah E Henrickson Parker; Aaron A Laviana; Rishi K Wadhera; Douglas A Wiegmann; Thoralf M Sundt Journal: World J Surg Date: 2010-02 Impact factor: 3.352
Authors: Sarah E Henrickson; Rishi K Wadhera; Andrew W Elbardissi; Douglas A Wiegmann; Thoralf M Sundt Journal: J Am Coll Surg Date: 2009-04-17 Impact factor: 6.113
Authors: Rebecca Lawton; Rosemary R C McEachan; Sally J Giles; Reema Sirriyeh; Ian S Watt; John Wright Journal: BMJ Qual Saf Date: 2012-03-15 Impact factor: 7.035