CJEM Articles: pneumonia

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  • Variations in the management of pneumonia in pediatric emergency departments: compliance with the guidelines
    November 2010 12 6
    Aiman Alak, Jamie A. Seabrook, Michael J. Rieder

    Objective: We sought to assess compliance with evidence-based guidelines for the management of pediatric pneumonia, including the variations in tests ordered and antimicrobials prescribed. Our primary hypothesis was that compliance with the treatment recommendations from the most current guidelines would be low for antimicrobial prescriptions.

    Methods: We conducted a chart review at the Children’s Hospital in London, Ont., to assess variation in the management of pediatric pneumonia. All patients aged 3 months to 18 years seen at the pediatric emergency department between Apr. 1, 2006, and Mar. 31, 2007, with a diagnosis of pneumonia were eligible for inclusion in the study.

    Results: Compliance with management guidelines was 59.7% (95% confidence interval [CI] 53%–66%, n = 211) in children 5–18 years old and 83.0% (95% CI 80%–86%, n = 605) in children 3 months to 5 years old. Significant variation existed in the choice of antimicrobial agent for children with pneumonia, with nonrecommended agents frequently prescribed.

    Conclusion: Significant variation existed in the management of pediatric pneumonia, and adherence to guidelines was low for the group of patients aged 5–18 years. Future studies should attempt to provide guidance to distinguish between viral and bacterial etiology to allow judicious use of antimicrobials.

  • Prevalence of pneumonia in children under 12 years of age who undergo abdominal radiography in the emergency department
    September 2007 9 5
    Colette Bellavance, Marianne Xhignesse, Valérie Homier

    Objective: Pneumonia is a well-known cause of acute abdominal pain in children. However, the utility of chest radiography in this setting is controversial. We sought to determine the prevalence of pneumonia in children under 12 years of age who had abdominal pain and underwent abdominal radiography when visiting an emergency department (ED). We also aimed to describe the signs and symptoms of children diagnosed with pneumonia in this context.

    Methods: We conducted a retrospective analysis of electronic data from ED visits to a tertiary care centre by children 12 years of age and under who were seen between June 1, 2001, and June 30, 2003, and who underwent both an abdominal and a chest radiograph during the same visit, or an abdominal x-ray at a first visit as well as a chest x-ray in the 10 days following the initial visit.

    Results: Of 1584 visits studied, 30 cases of pneumonia were identified, for a prevalence of 1.89% (95% confidence interval 1.22%-1.56%). If chest radiography had been limited to children who presented with fever, cough and symptoms of an upper respiratory tract infection (URTI), the diagnosis of pneumonia would have been missed in only 2/1584 visits (0.13%).

    Conclusion: Children aged 12 years and under presenting to the ED with acute abdominal pain and in whom an abdominal radiograph is requested need only undergo a chest radiograph in the presence of cough, fever or other symptoms of a URTI.

  • Utility of follow-up recommendations for patients discharged with community-acquired pneumonia
    March 2004 6 2
    Ammar Hawass, Daphne D. Murray, David G. Urquhart, David M. Maxwell, Mabel D. Ells, Sam G. Campbell, Stacey Ann Ackroyd-Stolarz, Suzanne M. Varley-Doyle

    Introduction: The joint Canadian Infectious Diseases Society and Canadian Thoracic Society guidelines for community-acquired pneumonia (CAP) recommend 48-72 hour telephone follow-up of patients discharged from the emergency department (ED). The guidelines provide no evidence supporting this practice, and neither the clinical utility nor the effectiveness of such recommendations has been assessed. Our objective was to assess the utility of a 48-72 hour telephone follow-up protocol for patients discharged from the ED with CAP.
    Methods: This was a retrospective chart audit covering a 2-year period (Jan. 3, 1999 to Jan. 3, 2001) after the introduction of a clinical practice guideline (CPG) that included routine 48-72 hour telephone follow-up of patients discharged from the ED with CAP. Eligible patients were identified in the ED database, rates of referral for telephone follow-up were recorded, and 30-day outcomes (death and readmission) for patients referred versus not referred were compared.
    Results: During the study period, 867 patients were identified as being eligible for the study. The mean age was 55.7 years (range 16-98 yr), and mean pneumonia severity index (PSI) was 68.9 (range 6-187). Despite the CPG, only 148 patients (17.1%) were referred for telephone follow-up. Age, demographics, comorbidity, clinical status and pneumonia severity were similar for referred and non-referred patients. Thirty-day death (2.5%) and readmission rates (3%) were strongly related to PSI score, but did not differ significantly in the 2 comparison groups.
    Conclusion: In this setting, physicians were poorly compliant with a routine telephone follow-up protocol. The likelihood of referral for follow-up did not correlate with pneumonia severity, and follow-up referral did not appear to affect patient outcome. These findings do not support recommendations for routine early follow-up mechanisms beyond those already existing in the community.

  • Pulse oximetry in discharge decision-making: a survey of emergency physicians
    November 2002 4 6
    Bernard Dannenberg, Lance Brown

    Objectives: Our primary objective was to describe the pulse oximetry discharge thresholds used by general and pediatric emergency physicians for well-appearing children with bronchiolitis and pneumonia, and to assess the related practice variability.

    Methods: This mail-in survey was conducted in August and September 2001 and included the 281 active members of the Pediatric Emergency Medicine Section of the American College of Emergency Physicians. The survey consisted of 2 case scenarios of previously healthy, well-appearing children: a 2-year-old with pneumonia and a 10-month-old with bronchiolitis. Respondents were asked about their years of experience, teaching load, percentage of children in their practice, whether they currently have a written departmental guideline at their institution, and the lowest pulse oximetry reading that they would accept and still discharge the patient directly home.

    Results: One hundred and eighty-two (65%) physicians answered the survey and met the inclusion criteria. The respondents' median oximetry value and interquartile range (IQR) for the pneumonia and bronchiolitis cases were 93% (92%-94%) and 94% (92%-94%) respectively. With the exception of the 3 physicians practising >1000 metres above sea level, the responses by subgroups were similar.

    Conclusions: There does not yet exist a safe, clinically validated pulse oximetry discharge threshold. Emergency physicians from this study sample have a modest degree of practice variability in a self-reported pulse oximetry discharge threshold. Emergency physicians may use this data to compare their own practice with that reported by this group.