Ashley Miller scite author profile

Summary Ultrasound imaging of the lung and associated tissues may play an important role in the management of patients with COVID‐19–associated lung injury. Compared with other monitoring modalities, such as auscultation or radiographic imaging, we argue lung ultrasound has high diagnostic accuracy, is ergonomically favourable and has fewer infection control implications. By informing the initiation, escalation, titration and weaning of respiratory support, lung ultrasound can be integrated into COVID‐19 care pathways for patients with respiratory failure. Given the unprecedented pressure on healthcare services currently, supporting and educating clinicians is a key enabler of the wider implementation of lung ultrasound. This narrative review provides a summary of evidence and clinical guidance for the use and interpretation of lung ultrasound for patients with moderate, severe and critical COVID‐19–associated lung injury. Mechanisms by which the potential lung ultrasound workforce can be deployed are explored, including a pragmatic approach to training, governance, imaging, interpretation of images and implementation of lung ultrasound into routine clinical practice.

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Practical approach to lung ultrasound

Miller

2016

BJA Education

105

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Lung ultrasound (LU) relies on direct visualization of structures and artifact interpretation. Probe selectionUS machines available in critical care settings are likely to have either a linear (vascular access probe), curvilinear (abdominal probe) or phased array (echo probe), or a combination. A great advantage of LU is that useful images can be obtained with each of these. Each probe has pros and cons.

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Predicting and measuring fluid responsiveness with echocardiography

2016

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Echocardiography is ideally suited to guide fluid resuscitation in critically ill patients. It can be used to assess fluid responsiveness by looking at the left ventricle, aortic outflow, inferior vena cava and right ventricle. Static measurements and dynamic variables based on heart–lung interactions all combine to predict and measure fluid responsiveness and assess response to intravenous fluid resuscitation. Thorough knowledge of these variables, the physiology behind them and the pitfalls in their use allows the echocardiographer to confidently assess these patients and in combination with clinical judgement manage them appropriately.

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Should point-of-care ultrasonography replace stethoscopes in acute respiratory failure?

Smallwood

Miller

Walden

et al. 2019

BMJ

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Ashley Miller

Point‐of‐care lung ultrasound in patients with COVID‐19 – a narrative review

Practical approach to lung ultrasound

Predicting and measuring fluid responsiveness with echocardiography

Should point-of-care ultrasonography replace stethoscopes in acute respiratory failure?

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