Copenhagen, Denmark
Onsite/Online

ESTRO 2022

Session Item

Sunday
May 08
16:55 - 17:55
Poster Station 1
15: Advances in patient care & treatment verifications
Hans Paul van der Laan, The Netherlands
Poster Discussion
RTT
Impact of implementing an electronic radiation oncology-specific in-house incident learning system.
Laura Adamson, Australia
PD-0662

Abstract

Impact of implementing an electronic radiation oncology-specific in-house incident learning system.
Authors:

Laura Adamson1,2, Krystle Crouch3, Rachael Beldham-Collins4, Jonathan Sykes4,2, David Thwaites2,4

1Crown Princess Mary Cancer Centre, Radiation Thearpy, Sydney, Australia; 2School of Physics, Institute of Medical Physics, University of Sydney, School of Physics, Sydney, Australia; 3Crown Princess Mary Cancer Centre, Radiation Therapy , Sydney, Australia; 4Crown Princess Mary Cancer Centre, Radiation Therapy, Sydney, Australia

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Purpose or Objective

Incident learning systems (ILS) provide a formalised framework for incident reporting, analysis, data visualisation, feedback, and learning. Robust ILS can identify quality improvement (QI) areas and strengthen quality assurance (QA) pathways. A QI project to develop a digital in-house radiation oncology (RO) ILS was undertaken, with success demonstrated in the first 12 months of use.

Material and Methods

A needs assessment was performed in 2019, including an in-house survey on staff knowledge and understanding of current incident reporting methods, ILS and the safety culture climate. Additionally, relevant literature was reviewed. From this, the QI team designed and implemented an electronic reporting system to suit departmental needs and tested its impact at 12 months via a follow-up survey.

Results

The needs assessment identified that the paper-based ILS in use required improvement. Barriers to reporting were perceived by 67% of respondents and most staff (75%) preferred an electronic in-house system.  The state-wide hospital-level reporting system did not meet the detailed needs of RO.  Therefore, a customised electronic departmental-level reporting system was developed on the Varian AriaTM oncology information system platform. It supported actual incident reporting and  lower level reporting (e.g., near miss, protocol non-compliance) to increase capacity for learning and QA/QI guidance.  It works in parallel with the state-wide system to ensure clinical governance of higher-level reports being reported correctly. The new ILS includes a dedicated triage team, ensuring accurate data capture and rapid coordination of further analysis/escalation when required. Increased data accuracy has been demonstrated in the new ILS, with easy access for all staff to see reports. Clear data visualisation tools are used in Microsoft ExcelTM and Power BITM. The triage team provides increased communication and rapid feedback to staff and management when needed for urgent QI, education or reminders. Monthly meetings to discuss learning opportunities and potential QI ideas are now open to all, rather than the previous separate senior staff meetings. Follow up survey results after 12-months of system use showed:  decreased perception of barriers (from 67% to 57%); increased participation in reporting (48% to 70% of respondents having been involved); increased perception of a no-blame culture (49% to 58%); and increased ability to learn from reported incidents (49% to 86%). 

Conclusion

The creation of a customised electronic ILS, suited to RO department needs, addressed issues with the previous system. Overall, the new ILS had a positive impact and adapted rapidly when Covid-19 impacted the standard hospital workflow.  Increased feedback loops to the RO team are well integrated into the new ILS. The move to electronic an ILS has enabled easy access to data that highlight weaknesses in processes and protocols and has supported continuing QI initiatives.