CONTEXT: The Ottawa Knee Rule is a previously validated clinical decision rule that was developed to allow physicians to be more selective and efficient in their use of plain radiography for patients with acute knee injuries. OBJECTIVE: To assess the impact on clinical practice of implementing the Ottawa Knee Rule. DESIGN: Controlled clinical trial with before-after and concurrent controls. SETTING:Emergency departments of 2 teaching and 2 community hospitals. PATIENTS: All 3907 consecutive eligible adults seen with acute knee injuries during two 12-month periods before and after the intervention. INTERVENTION: During the after period in the 2 intervention hospitals, the Ottawa Knee Rule was taught to all house staff and attending physicians who were encouraged to order knee radiography according to the rule. MAIN OUTCOME MEASURES: Referral for knee radiography, accuracy and reliability of the rule, mean time in emergency department, and mean charges. RESULTS: There was a relative reduction of 26.4% in the proportion of patients referred for knee radiography in the intervention group (77.6% vs 57.1 %; P<.001), but a relative reduction of only 1.3% in the control group (76.9% vs 75.9%; P=.60). These changes over time were significant when the intervention and control groups were compared (P<.001). The rule was found to have a sensitivity of 1.0 (95% confidence interval [CI], 0.94-1.0) for detecting 58 knee fractures. The K coefficient for interpretation of the rule was 0.91 (95% CI, 0.82-1.0). Compared with nonfracture patients who underwent radiography during the after-intervention period, those discharged without radiography spent less time in the emergency department (85.7 minutes vs 118.8 minutes) and incurred lower estimated total medical charges for physician visits and radiography (US $80 vs US $183). CONCLUSIONS: Implementation of the Ottawa Knee Rule led to a decrease in use of knee radiography without patient dissatisfaction or missed fractures and was associated with reduced waiting times and costs. Widespread use of the rule could lead to important health care savings without jeopardizing patient care.
RCT Entities:
CONTEXT: The Ottawa Knee Rule is a previously validated clinical decision rule that was developed to allow physicians to be more selective and efficient in their use of plain radiography for patients with acute knee injuries. OBJECTIVE: To assess the impact on clinical practice of implementing the Ottawa Knee Rule. DESIGN: Controlled clinical trial with before-after and concurrent controls. SETTING: Emergency departments of 2 teaching and 2 community hospitals. PATIENTS: All 3907 consecutive eligible adults seen with acute knee injuries during two 12-month periods before and after the intervention. INTERVENTION: During the after period in the 2 intervention hospitals, the Ottawa Knee Rule was taught to all house staff and attending physicians who were encouraged to order knee radiography according to the rule. MAIN OUTCOME MEASURES: Referral for knee radiography, accuracy and reliability of the rule, mean time in emergency department, and mean charges. RESULTS: There was a relative reduction of 26.4% in the proportion of patients referred for knee radiography in the intervention group (77.6% vs 57.1 %; P<.001), but a relative reduction of only 1.3% in the control group (76.9% vs 75.9%; P=.60). These changes over time were significant when the intervention and control groups were compared (P<.001). The rule was found to have a sensitivity of 1.0 (95% confidence interval [CI], 0.94-1.0) for detecting 58 knee fractures. The K coefficient for interpretation of the rule was 0.91 (95% CI, 0.82-1.0). Compared with nonfracture patients who underwent radiography during the after-intervention period, those discharged without radiography spent less time in the emergency department (85.7 minutes vs 118.8 minutes) and incurred lower estimated total medical charges for physician visits and radiography (US $80 vs US $183). CONCLUSIONS: Implementation of the Ottawa Knee Rule led to a decrease in use of knee radiography without patient dissatisfaction or missed fractures and was associated with reduced waiting times and costs. Widespread use of the rule could lead to important health care savings without jeopardizing patient care.
Authors: Ian G Stiell; Catherine M Clement; Jeremy M Grimshaw; Robert J Brison; Brian H Rowe; Jacques S Lee; Amit Shah; Jamie Brehaut; Brian R Holroyd; Michael J Schull; R Douglas McKnight; Mary A Eisenhauer; Jonathan Dreyer; Eric Letovsky; Tim Rutledge; Iain Macphail; Scott Ross; Jeffrey J Perry; Urbain Ip; Howard Lesiuk; Carol Bennett; George A Wells Journal: CMAJ Date: 2010-08-23 Impact factor: 8.262
Authors: Claire Keogh; Emma Wallace; Kirsty K O'Brien; Rose Galvin; Susan M Smith; Cliona Lewis; Anthony Cummins; Grainne Cousins; Borislav D Dimitrov; Tom Fahey Journal: Ann Fam Med Date: 2014-07 Impact factor: 5.166
Authors: Martin H Osmond; Terry P Klassen; George A Wells; Rhonda Correll; Anna Jarvis; Gary Joubert; Benoit Bailey; Laurel Chauvin-Kimoff; Martin Pusic; Don McConnell; Cheri Nijssen-Jordan; Norm Silver; Brett Taylor; Ian G Stiell Journal: CMAJ Date: 2010-02-08 Impact factor: 8.262
Authors: Ian G Stiell; Catherine M Clement; Jeremy Grimshaw; Robert J Brison; Brian H Rowe; Michael J Schull; Jacques S Lee; Jamie Brehaut; R Douglas McKnight; Mary A Eisenhauer; Jonathan Dreyer; Eric Letovsky; Tim Rutledge; Iain MacPhail; Scott Ross; Amit Shah; Jeffrey J Perry; Brian R Holroyd; Urbain Ip; Howard Lesiuk; George A Wells Journal: BMJ Date: 2009-10-29