PURPOSE: We investigated whether lung ultrasound (US) performed in primary care is useful and feasible for diagnosing community-acquired pneumonia (CAP) compared with chest radiography, as most previous research has been conducted in hospital settings. METHODS: We undertook a prospective observational cohort study of lung US performed in 12 primary care centers. Patients aged 5 years and older with symptoms suggesting CAP were examined with lung US (by 21 family physicians and 7 primary care pediatricians) and chest radiograph on the same day. We compared lung US findings with the radiologist's chest radiograph report as the reference standard, given that the latter is the most common imaging test performed for suspected CAP in primary care. The physicians had varied previous US experience, but all received a 5-hour lung US training program. RESULTS: The study included 82 patients. Compared with chest radiography, positive lung US findings (consolidation measuring >1 cm or a focal/asymmetrical B-lines pattern) showed a sensitivity of 87.8%, a specificity of 58.5%, a positive likelihood-ratio of 2.12, and a negative likelihood-ratio of 0.21. Findings were similar regardless of the physicians' previous US training or experience. We propose a practical algorithm whereby patients having consolidation measuring greater than 1 cm or normal findings on lung US could skip chest radiography, whereas patients with a B-lines pattern without consolidation (given its low specificity) would need chest radiography to ensure appropriate management. Lung US was generally performed in 10 minutes or less. CONCLUSION: Point-of-care lung US in primary care could be useful for investigating suspected CAP (avoiding chest radiography in most cases) and is likely feasible in daily practice, as short training programs appear sufficient and little time is needed to perform the scan.
PURPOSE: We investigated whether lung ultrasound (US) performed in primary care is useful and feasible for diagnosing community-acquired pneumonia (CAP) compared with chest radiography, as most previous research has been conducted in hospital settings. METHODS: We undertook a prospective observational cohort study of lung US performed in 12 primary care centers. Patients aged 5 years and older with symptoms suggesting CAP were examined with lung US (by 21 family physicians and 7 primary care pediatricians) and chest radiograph on the same day. We compared lung US findings with the radiologist's chest radiograph report as the reference standard, given that the latter is the most common imaging test performed for suspected CAP in primary care. The physicians had varied previous US experience, but all received a 5-hour lung US training program. RESULTS: The study included 82 patients. Compared with chest radiography, positive lung US findings (consolidation measuring >1 cm or a focal/asymmetrical B-lines pattern) showed a sensitivity of 87.8%, a specificity of 58.5%, a positive likelihood-ratio of 2.12, and a negative likelihood-ratio of 0.21. Findings were similar regardless of the physicians' previous US training or experience. We propose a practical algorithm whereby patients having consolidation measuring greater than 1 cm or normal findings on lung US could skip chest radiography, whereas patients with a B-lines pattern without consolidation (given its low specificity) would need chest radiography to ensure appropriate management. Lung US was generally performed in 10 minutes or less. CONCLUSION: Point-of-care lung US in primary care could be useful for investigating suspected CAP (avoiding chest radiography in most cases) and is likely feasible in daily practice, as short training programs appear sufficient and little time is needed to perform the scan.
Keywords:
diagnosis; lung; pneumonia; point of care systems; practice-based research; primary health care; sensitivity and specificity; thoracic radiography; ultrasonography
Authors: Giovanni Volpicelli; Mahmoud Elbarbary; Michael Blaivas; Daniel A Lichtenstein; Gebhard Mathis; Andrew W Kirkpatrick; Lawrence Melniker; Luna Gargani; Vicki E Noble; Gabriele Via; Anthony Dean; James W Tsung; Gino Soldati; Roberto Copetti; Belaid Bouhemad; Angelika Reissig; Eustachio Agricola; Jean-Jacques Rouby; Charlotte Arbelot; Andrew Liteplo; Ashot Sargsyan; Fernando Silva; Richard Hoppmann; Raoul Breitkreutz; Armin Seibel; Luca Neri; Enrico Storti; Tomislav Petrovic Journal: Intensive Care Med Date: 2012-03-06 Impact factor: 17.440
Authors: Michael Harris; Julia Clark; Nicky Coote; Penny Fletcher; Anthony Harnden; Michael McKean; Anne Thomson Journal: Thorax Date: 2011-10 Impact factor: 9.139
Authors: Giulio Iorio; Maria Capasso; Salvatore Prisco; Giuseppe De Luca; Carlo Mancusi; Bruno Laganà; Maria Antonietta Piscopo; Vincenzo Comune Journal: Ultrasound Med Biol Date: 2018-05-11 Impact factor: 2.998
Authors: Daniel S Balk; Christine Lee; Jesse Schafer; Jeremy Welwarth; John Hardin; Victor Novack; Shaked Yarza; Beatrice Hoffmann Journal: Pediatr Pulmonol Date: 2018-04-26
Authors: Joshua P Metlay; Grant W Waterer; Ann C Long; Antonio Anzueto; Jan Brozek; Kristina Crothers; Laura A Cooley; Nathan C Dean; Michael J Fine; Scott A Flanders; Marie R Griffin; Mark L Metersky; Daniel M Musher; Marcos I Restrepo; Cynthia G Whitney Journal: Am J Respir Crit Care Med Date: 2019-10-01 Impact factor: 21.405
Authors: Antonio Calvo-Cebrián; Rafael Alonso-Roca; Francisco Javier Rodriguez-Contreras; Maria de Las Nieves Rodríguez-Pascual; Maria Del Pino Calderín-Morales Journal: J Ultrasound Med Date: 2020-08-27 Impact factor: 2.754