Use of a prospective risk analysis method to improve the safety of the cancer chemotherapy process

doi:10.1093/intqhc/mzi082

International Journal for Quality in Health Care Advance Access originally published online on November 7, 2005
International Journal for Quality in Health Care 2006 18(1):9-16; doi:10.1093/intqhc/mzi082

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International Journal for Quality in Health Care vol. 18 no. 1 © The Author 2005. Published by Oxford University Press on behalf of International Society for Quality in Health Care; all rights reserved

Use of a prospective risk analysis method to improve the safety of the cancer chemotherapy process

Pascal Bonnabry¹, Laurence Cingria¹, Monique Ackermann¹, Farshid Sadeghipour¹, Lucienne Bigler² and Nicolas Mach²

¹ Pharmacy and ² Oncology, University Hospitals, Geneva, Switzerland

Objective. To perform a risk analysis of the cancer chemotherapyprocess, by comparing five different organizations. To quantitativelydemonstrate the usefulness of centralization and informationtechnologies, to identify residual risks that may be the targetof additional actions.

Study design. A reengineering of the process started in 1999and was planned to be finished in 2006. The analysis was performedafter the centralization and at the beginning of informationtechnologies integration.

Setting. Two thousand two hundred beds university hospital,with medical, surgical, haematological, gynaecological, geriatric,paediatric oncological departments. Twelve thousand cancer chemotherapieseach year.

Methods. According to the failure modes, effects and criticalityanalysis (FMECA) method, the failure modes were defined andtheir criticality indexes were calculated on the basis of thelikelihood of occurrence, the potential severity for the patients,and the detection probability. Criticality indexes were comparedand the acceptability of residual risks was evaluated.

Results. The sum of criticality indexes of 27 identified failuremodes was 3596 for the decentralized phase, 2682 for centralization,2385 for electronic prescription, 2081 for electronic productioncontrol, and 1824 for bedside scanning (49% global reduction).The greatest improvements concerned the risk of errors in theproduction protocols (by a factor of 48), followed by readabilityproblems during transmission (14) and product/dose errors duringthe production (8). Among the six criticality indexes remainingsuperior to 100 in the final process, two were judged to beacceptable, whereas further improvements were planned for thefour others.

Conclusions. Centralization to the pharmacy was associated witha strong improvement but additional developments involving informationtechnologies also contributed to a major risk reduction. A cost-effectanalysis confirmed the pertinence of all developments, as thecost per gained criticality point remained stable all over thedifferent phases.

Keywords: proactive, prospective, risk assessment, FMECA, failure mode, cost-effect analysis, cancer chemotherapy, information technologies

Address reprint requests to Pascal Bonnabry, Pharmacy, University Hospitals, Rue Micheli-du-Crest 24, 1211 Geneva 14, Swit zerland. E-mail: pascal.bonnabry{at}hcuge.ch

Accepted for publication September 10, 2005.

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