CJEM Articles: radiography
Displaying 1-7 of 7 results
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May
2011
13
3
Anne-Maree Kelly, Barry Gunn, MBBS, Siang Ong
Objective: The Quebec shoulder dislocation rule is a recently derived clinical decision rule to guide physicians on the selective use of radiography in patients with shoulder dislocation. The aim of this study was to validate the Quebec shoulder dislocation rule.
Methods: This was a secondary analysis of data collected in a retrospective cohort study. All patients presenting to the emergency department (ED) between January 1, 2003, and October 31, 2008, with a diagnosis of shoulder dislocation or fracture-dislocation were identified from ED management databases. Data collected included demographics, mechanism of injury, and presence of fracture. The outcome of interest was predictive performance of the Quebec shoulder dislocation rule for patients aged under 40 years on this cohort. Data analysis is descriptive.
Results: Of the 346 patients identified, 196 were aged under 40 years, and 174 (89%) were male; the median age was 25 years (interquartile range 21–29 years), and 58 were recurrent dislocations. One hundred sixteen patients (59%) met the Quebec high-risk criteria, and 80 (41%) were classified as low risk. In the 196 patients aged less than 40 years, 12 fractures as defined were identified (6%). When applied to this cohort, the Quebec clinical decision rule had a sensitivity of 0.42 (95% CI 0.16–0.71), a specificity of 0.40 (95% CI 0.33–0.47), and a negative predictive value of 0.91 (95% CI 0.82–0.96).
Conclusion: The Quebec shoulder dislocation rule had poor sensitivity for clinically significant fractures associated with shoulder dislocations in young patients (aged 16–39 years) presenting to an Australian emergency department. Its use cannot be recommended. -
March
2010
12
2
Erik P. Hess, George A. Wells, Ian G. Stiell, Jeffrey J. Perry, Pam Ladouceur
Objective: We derived a clinical decision rule to determine which emergency department (ED) patients with chest pain and possible acute coronary syndrome (ACS) require chest radiography.
Methods: We prospectively enrolled patients over 24 years of age with a primary complaint of chest pain and possible ACS over a 6 month period. Emergency physicians completed standardized clinical assessments and ordered chest radiographs as appropriate. Two blinded investigators independently classified chest radiographs as "normal," "abnormal not requiring intervention" and "abnormal requiring intervention," based on review of the radiology report and the medical record. The primary outcome was abnormality of chest radiographs requiring acute intervention. Analyses included interrater reliability assessment (with κ statistics), univariate analyses and recursive partitioning.
Results: We enrolled 529 patients during the study period between Jul. 1, 2007, and Dec. 31, 2007. Patients had a mean age of 59.9 years, 60.3% were male, 4.0% had a history of con gestive heart failure and 21.9% had a history of acute myocardial infarction. Only 2.1% (95% confidence interval [CI] 1.1%-3.8%) of patients had radiographic abnormality of the chest requiring acute intervention. The κ statistic for chest radiograph classification was 0.81 (95% CI 0.66-0.95). We derived the following rule: patients can forgo chest radiography if they have no history of congestive heart failure, no history of smoking and no abnormalities on lung auscultation. The rule was 100% sensitive (95% CI 32.0%-40.4%) and 36.1% specific (95% CI 32.0%-40.4%).
Conclusion: This rule has potential to reduce health care costs and enhance ED patient flow. It requires validation in an independent patient population before introduction into clinical practice.
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March
2010
12
2
Erik P. Hess, George A. Wells, Ian G. Stiell, Jeffrey J. Perry, Pam Ladouceur
Objective: We derived a clinical decision rule to determine which emergency department (ED) patients with chest pain and possible acute coronary syndrome (ACS) require chest radiography.
Methods: We prospectively enrolled patients over 24 years of age with a primary complaint of chest pain and possible ACS over a 6 month period. Emergency physicians completed standardized clinical assessments and ordered chest radiographs as appropri ate. Two blinded investigators independently classified chest radi ographs as "normal," "abnormal not requiring intervention" and "abnormal requiring intervention," based on review of the radiol ogy report and the medical record. The primary outcome was abnormality of chest radiographs requiring acute intervention. Analyses included interrater reliability assessment (with κ statistics), univariate analyses and recursive partitioning.
Results: We enrolled 529 patients during the study period between Jul. 1, 2007, and Dec. 31, 2007. Patients had a mean age of 59.9 years, 60.3% were male, 4.0% had a history of con gestive heart failure and 21.9% had a history of acute myocardial infarction. Only 2.1% (95% confidence interval [CI] 1.1%-3.8%) of patients had radiographic abnormality of the chest requiring acute intervention. The κ statistic for chest radiograph classification was 0.81 (95% CI 0.66-0.95). We derived the following rule: patients can forgo chest radiography if they have no history of congestive heart failure, no history of smoking and no abnormalities on lung auscultation. The rule was 100% sensitive (95% CI 32.0%-40.4%) and 36.1% specific (95% CI 32.0%-40.4%). Conclusion: This rule has potential to reduce health care costs and enhance ED patient flow. It requires validation in an independent patient population before introduction into clinical practice.
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November
2003
5
6
David M. Liu, Kevin Rowan, Savvas Nicolaou, William C. Torreggiani
Pneumatosis intestinalis (gas in the bowel wall) is often a benign condition, but it may mimic bowel ischemia or infarction and lead to unnecessary surgical intervention, especially when associated with pneumoperitoneum. We present a case of benign pneumatosis intestinalis with massive pneumoperitoneum and discuss various distinguishing features that may aid in its diagnosis.
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May
2002
4
3
Andreas Laupacis, Brian Holroyd, Brian Rowe, Catherine M. Clement, Daniel Cass, Gary H. Greenberg, George A. Wells, Glen Bandiera, Howard Lesiuk, Iain MacPhail, Ian G. Stiell, James Worthington, Jonathan Dreyer, Laurie Morrison, Mark Reardon, Mary A. Eisenhauer, Michael Schull, R. Douglas McKnight, Richard Verbeek, Robert Brison
Clinical prediction rules are decision-making tools that incorporate three or more variables from the history, physical examination or simple tests. They help clinicians make diagnostic or therapeutic decisions by standardizing the collection and interpretation of clinical data. There is growing interest in the methodological standards for their development and validation. This article describes the methods used to derive the Canadian C-Spine Rule and provides a valuable reference for investigators planning to develop future clinical prediction rules.
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March
2002
4
2
Andreas Laupacis, Brian Holroyd, Brian Rowe, Catherine M. Clement, Daniel Cass, Gary H. Greenberg, George A. Wells, Glen Bandiera, Howard Lesiuk, Iain MacPhail, Ian G. Stiell, James Worthington, Jonathan Dreyer, Laurie Morrison, Mark Reardon, Mary A. Eisenhauer, Michael Schull, R. Douglas McKnight, Richard Verbeek, Robert Brison
This paper is Part I of a 2-part series to describe the background and methodology for the Canadian C-Spine Rule study to develop a clinical decision rule for rational imaging in alert and stable trauma patients. Current use of radiography is inefficient and variable, in part because there has been a lack of evidence-based guidelines to assist emergency physicians. Clinical decision rules are research-based decision-making tools that incorporate 3 or more variables from the history, physical examination or simple tests. The Canadian CT Head and C-Spine (CCC) Study is a large collaborative effort to develop clinical decision rules for the use of CT head in minor head injury and for the use of cervical spine radiography in alert and stable trauma victims. Part I details the background and rationale for the development of the Canadian C-Spine Rule. Part II will describe in detail the objectives and methods of the Canadian C-Spine Rule study.
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April
2001
3
2
Jim Landine, Robert McGraw, William Pickett
Objective: Clavicle fractures are commonly encountered in the emergency department (ED). Our objective was to determine whether emergency physicians can clinically predict the presence and location of a clavicle fracture prior to obtaining x-rays.
Methods: Over a 16-month period we prospectively studied ED patients who had injuries compatible with a clavicle fracture. Following clinical examination and prior to obtaining radiographs, ED physicians or senior emergency medicine (EM) residents were asked to predict whether the clavicle was fractured and, if fractured, the location of the fracture. Clinical predictions were later compared to the radiologist's report.
Results: Between April 1999 and August 2000, 184 patients with possible clavicle fracture were seen and 106 (58%) were enrolled. Of these, 94 had an acute fracture, and all 94 fractures were predicted on clinical grounds prior to x-ray. In 6 cases, physicians predicted a fracture but the radiograph was negative. In 6 additional cases, physicians were clinically unsure and the radiograph was negative. Physicians correctly predicted fracture location in 83 of 94 cases (88%; 95% confidence interval [CI], 82%-95%). In the 64 cases where physicians predicted a middle third fracture, they were 100% accurate (95% CI, 95%-100%). Errors made by physicians were conservative; that is, they occasionally predicted fractures in patients with only soft tissue injury, but they did not "miss" existing fractures.
Conclusions: The results of this pilot study suggest that ED physicians can clinically predict the presence and location of clavicle fractures with a high degree of accuracy. It may be that x-rays are not always necessary in patients suspected of having a clavicle fracture. Future studies should define the indications for diagnostic radiography in patients with suspected clavicle fractures.
