Computerised lung sound analysis to improve the specificity of paediatric pneumonia diagnosis in resource-poor settings: protocol and methods for an observational study

Introduction WHO case management algorithm for paediatric pneumonia relies solely on symptoms of shortness of breath or cough and tachypnoea for treatment and has poor diagnostic specificity, tends to increase antibiotic resistance. Alternatives, including oxygen saturation measurement, chest ultrasound and chest auscultation, exist but with potential disadvantages. Electronic auscultation has potential for improved detection of paediatric pneumonia but has yet to be standardised. The authors aim to investigate the use of electronic auscultation to improve the specificity of the current WHO algorithm in developing countries. Methods This study is designed to test the hypothesis that pulmonary pathology can be differentiated from normal using computerised lung sound analysis (CLSA). The authors will record lung sounds from 600 children aged ≤5 years, 100 each with consolidative pneumonia, diffuse interstitial pneumonia, asthma, bronchiolitis, upper respiratory infections and normal lungs at a children's hospital in Lima, Peru. The authors will compare CLSA with the WHO algorithm and other detection approaches, including physical exam findings, chest ultrasound and microbiologic testing to construct an improved algorithm for pneumonia diagnosis. Discussion This study will develop standardised methods for electronic auscultation and chest ultrasound and compare their utility for detection of pneumonia to standard approaches. Utilising signal processing techniques, the authors aim to characterise lung sounds and through machine learning, develop a classification system to distinguish pathologic sounds. Data will allow a better understanding of the benefits and limitations of novel diagnostic techniques in paediatric pneumonia.

[1]  D. Rennie,et al.  Towards complete and accurate reporting of studies of diagnostic accuracy: the STARD initiative , 2003, BMJ : British Medical Journal.

[2]  R. Body,et al.  Auscultating to diagnose pneumonia , 2007, Emergency Medicine Journal.

[3]  M. Radeos,et al.  Real-time lung ultrasound for the diagnosis of alveolar consolidation and interstitial syndrome in the emergency department , 2010, European journal of emergency medicine : official journal of the European Society for Emergency Medicine.

[4]  J. B. Day,et al.  Classification of voluntary cough sound and airflow patterns for detecting abnormal pulmonary function , 2009, Cough.

[5]  E. Andrès,et al.  Analysis of Respiratory Sounds: State of the Art , 2008, Clinical medicine. Circulatory, respiratory and pulmonary medicine.

[6]  D. Lichtenstein,et al.  Ultrasound diagnosis of alveolar consolidation in the critically ill , 2004, Intensive Care Medicine.

[7]  T. Hazir,et al.  Chest radiography in children aged 2-59 months diagnosed with non-severe pneumonia as defined by World Health Organization: descriptive multicentre study in Pakistan , 2006, BMJ : British Medical Journal.

[8]  C. Canelo-Aybar,et al.  Oxygen saturation in healthy children aged 5 to 16 years residing in Huayllay, Peru at 4340 m. , 2011, High altitude medicine & biology.

[9]  Robert E Black,et al.  Effect of pneumonia case management on mortality in neonates, infants, and preschool children: a meta-analysis of community-based trials. , 2003, The Lancet. Infectious diseases.

[10]  Andrey Vyshedskiy,et al.  Automated lung sound analysis in patients with pneumonia. , 2004, Respiratory care.

[11]  Said Boussakta,et al.  Signal analysis of medical acoustic sounds with applications to chest medicine , 2007, J. Frankl. Inst..

[12]  K. O'Brien Standardization of interpretation of chest radiographs for the diagnosis of pneumonia in children , 2001 .

[13]  M. Bazzocchi,et al.  Evaluation of the lung in children with suspected pneumonia: usefulness of ultrasonography , 2009, La radiologia medica.

[14]  A. Kopf,et al.  Ultrasound imaging of pneumonia. , 1995, Ultrasound in medicine & biology.

[15]  Chong-Jen Yu,et al.  Ultrasonographic evaluation of pulmonary consolidation. , 1992, The American review of respiratory disease.

[16]  T. Hazir,et al.  Comparison of oral amoxicillin with placebo for the treatment of world health organization-defined nonsevere pneumonia in children aged 2-59 months: a multicenter, double-blind, randomized, placebo-controlled trial in pakistan. , 2011, Clinical infectious diseases : an official publication of the Infectious Diseases Society of America.

[17]  Ian Riley,et al.  Clinical case review: A method to improve identification of true clinical and radiographic pneumonia in children meeting the World Health Organization definition for pneumonia , 2008, BMC infectious diseases.

[18]  J. Tielsch,et al.  Computerized lung sound analysis as diagnostic aid for the detection of abnormal lung sounds: a systematic review and meta-analysis. , 2011, Respiratory medicine.

[19]  O. Landt,et al.  Transrenal DNA as a Diagnostic Tool: Important Technical Notes , 2004, Annals of the New York Academy of Sciences.

[20]  Mohammed Bahoura,et al.  An integrated automated system for crackles extraction and classification , 2008, Biomed. Signal Process. Control..

[21]  S. Cousens,et al.  Adding fever to WHO criteria for diagnosing pneumonia enhances the ability to identify pneumonia cases among wheezing children , 2010, Archives of Disease in Childhood.

[22]  T. Penzel,et al.  On Applying Continuous Wavelet Transform in Wheeze Analysis , 2004, The 26th Annual International Conference of the IEEE Engineering in Medicine and Biology Society.

[23]  R. Gilman,et al.  The role of pulse oximetry. Its use as an indicator of severe respiratory disease in Peruvian children living at sea level. Respiratory Group in Peru. , 1995, Archives of pediatrics & adolescent medicine.

[24]  Stefano Di Bartolomeo,et al.  Evaluation of lung ultrasound for the diagnosis of pneumonia in the ED. , 2009, The American journal of emergency medicine.

[25]  J Genest,et al.  Clinical comparison of acoustic and electronic stethoscopes and design of a new electronic stethoscope. , 1998, The American journal of cardiology.