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Patient Safety & Usability of Medical Devices Part I

Patient Safety & Usability of Medical Devices Part I. Gill Ginsburg , M.A.Sc Human Factors & Biomedical Engineer Trillium Health Centre. Erin Barkel , B.A.Sc Patient Safety/Risk Management Specialist Niagara Health System. 2004 Fall CESO Conference. Outline – Part I. Intro to usability

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Patient Safety & Usability of Medical Devices Part I

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  1. Patient Safety & Usability of Medical DevicesPart I Gill Ginsburg, M.A.Sc Human Factors & Biomedical Engineer Trillium Health Centre Erin Barkel, B.A.Sc Patient Safety/Risk Management Specialist Niagara Health System 2004 Fall CESO Conference

  2. Outline – Part I • Intro to usability • Intro to Human Factors Engineering • Why do users make mistakes? • Intro to patient safety & medical error • Canadian Adverse Events Study • Examples

  3. Introduction to Usability Mike’s New CarMonsters, Inc.

  4. Introduction to Usability • Usability issues with Mike’s new car: • Complex dashboard • Too many buttons / switches • Functions are not obvious • No logical grouping • Hood is too high for Mike • Sully doesn’t fit • New & exciting features are too complicated to use…Mike “wants his old car back”!

  5. Introduction to Usability www.baddesigns.com

  6. www.baddesigns.com Introduction to Usability www.baddesigns.com

  7. www.baddesigns.com www.baddesigns.com Introduction to Usability X

  8. http://www.asktog.com/columns/042ButterflyBallot.html Introduction to Usability www.baddesigns.com

  9. Introduction to Usability Other Usability Examples ???

  10. Introduction to HFE • Human Factors Engineering (HFE) ensures that systems are easy-to-use • Multidisciplinary: engineering, medicine, psychology, computing, statistics…etc. • Design of systems according to Human Factors Principles…iterative process incorporating user feedback • Evaluation of systems for usability, safety, efficiency & effectiveness

  11. HFE Principles Easy-to-use systems incorporate these Human Factors Principles: • Good error messages • Prevent errors • Clear closure • Reversible actions • Use user’s language • Users in control • Help & documentation • Visibility of system status • Consistency & standards • Match between system & world • Minimalist design • Minimize memory load • Informative feedback • Flexibility & efficiency

  12. Match between system & world Help and Documentation Reversible actions Minimize memory load Consistency / Standards Visibility of system status Informative feedback Illustration of HFE Principles

  13. Effective Task completed, user’s goals met Efficient Task completed quickly without undue cognitive effort Easy-to-learn System is predictable and consistent An Easy-to-Use System is… • Engaging • User experiences pleasant interaction with the system • User satisfied with how system supports completion of task • Error tolerant • System prevents errors and assists in error recovery

  14. HFE Techniques to Ensure Usability of Systems • Heuristic evaluation • How does the system violate the HFE principles? • What is the severity of the violations? • User testing • Real users • Realistic tasks • What mistakes are made? • What is the severity of the mistakes? • Other performance measures: task completion time, mental workload, user preference

  15. HFE Techniques to Ensure Usability of Systems • Observations • Task analysis • Work domain analysis • Questionnaires • Surveys • Interviews • Focus groups

  16. Work Environment • Light, noise • Distraction/Interruption • Workload Device is easy-to-use • User • Knowledge • Abilities • Expectations • Limitations Device is not easy-to-use • System • Operational requirements, procedures • Complexity • User interface characteristics Why do users make errors? Device Use human error patient injury or death Adapted from Kaye & Crowley, 2000

  17. Examples of Medical Error • Incorrectly sterilizing equipment • Administering wrong medication • Administering wrong dose • Administering wrong blood type • Wrong site surgery • Making an incorrect diagnosis • Burning a patient

  18. “Computers allow us to make mistakes faster than any other invention in history” -Unknown

  19. Canadian Adverse Events Study • Principal Investigators Ross Baker and Peter Norton • Released May 2004 • Based on a review of 3,700 charts from 20 acute care facilities • Year 2000 data

  20. Methodology • Nurses reviewed the charts looking for any of the 18 “triggers” that might indicate that an AE had occurred • 40.8% of charts had at least one trigger • Charts were then reviewed by Doctors • Looking for evidence that an injury that caused disability, death or a prolonged LOS was present • Injury caused by “health care management”

  21. Findings • 1 in 13 patients will experience an AE • 255 of these AEs required an additional 1521 days in hospital • About 1 million bed days nation wide • 5% of AEs resulted in permanent disability • 16,500 deaths

  22. Recommendations • Near Miss/Close Catch Reporting • “Accident Ratio Study” • Incident Reporting • Renewed efforts to promote incident reporting • Using Root Cause Analysis to investigate incidents • Ask why 5x

  23. Niagara Health System • Last of the HSRC amalgamations, and the largest • 7 sites • 6 municipalities • Population based of approximately 450,000

  24. The Challenge • Regionalization • 7 Distinct Site Cultures • Different levels of awareness of patient safety • Different attitudes towards reporting • Different methods of reporting • Need to standardize reporting • Consistent data set • Consistent, conscientious reporting

  25. Standardize Data Collection • In June 2004, 3 of 7 sites were using the Encon Incident Reporting system • The remaining 4 were using homemade forms • Inservice sessions were run at the remaining 4 sites • As of September, all NHS sites are using Encon

  26. Continuing Efforts • Need for continuous inservicing • Maintain staff awareness • Develop awareness of Near Miss/Close Catch situations • Increase visibility of Risk Management initiatives and demonstrate accountability • Address staff fear (e.g. that reporting is punitive)

  27. Cautionary Note • Increased volume is not reflective of a higher error rate • Incidents are presently under reported at most facilities • Education of staff will lead to an increase in reporting

  28. Medication Safety Committee • Part of our Service Excellence Initiative • Reporting to the “Inspiring Excellence Council” • Representatives from Risk Management, Pharmacy, Nursing, Human Resources and Finance

  29. Medication Safety Committee • First Year Goals • Increase incident reporting • Complete/Revise the Regional Medication Administration Policy • Provide education to frontline staff on the policy and the importance of reporting • Work on developing the framework for a “Just Culture” (Marx, 2001) • Creating a list of “Look-a-like, Sound-a-like” drugs in our facilities • Implement a education strategy to reduce errors associated with these drugs

  30. Other Projects “Best-of-Breed” • Joint effort by Finance, Information Technology and Biomedical Departments • Standardize purchasing – only the best products, that are well supported and are usable, will be purchased

  31. Projects at Trillium Health Centre • Infusion pump selection • Usability of bed alarms • Usability of diagnostic imaging systems • Incorporating human factors specifications into Request for Proposal process

  32. IV Pump Selection • Background • Over 500 general-purpose IV pumps in hospital • Existing contract expiring • Need for “smart” features for patient safety • Dose-error reduction • Automated programming • Need for standard pump across hospital

  33. 3 pumps after RFP Similar functionality & features Initial selection process not successful Used HFE to evaluate usability of pumps to: Choose best pump for end users Enhance patient safety IV Pump Selection

  34. IV Pump Selection • Heuristic Evaluation • Based on Human Factors principles • Revealed usability issues • Revealed information about causes of errors • User testing • 5 clinical areas, 14 nurses & 3 anaesthetists • Realistic scenarios • Observed & recorded # of errors & severity • Usability errors • Critical usability errors • Critical undetected usability errors

  35. IV Pump Selection Total Number of Usability Errors

  36. IV Pump Selection Number of Critical Usability Errors

  37. IV Pump Selection Number of Undetected Critical Usability Errors

  38. IV Pump Selection Total # of Errors Across Clinical Areas

  39. IV Pump Selection

  40. IV Pump Selection • Benefits of using HFE to evaluate usability: • Structured & objective approach • User involvement • Feedback to vendors • Customize user training • User familiarity & preference not always an indicator of device usability

  41. Thank you! Gill Ginsburg gginsburg@thc.on.ca 905-848-7580 x 3016 Questions? Erin Barkel EBarkel@niagarahealth.on.ca 905-684-7271 x 4420

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