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9 results on '"Weaver, Liam"'

1. Correction and standardisation of lung oscillometry techniques using parameter inference: A study group report

Author

Brook, Bindi S., Douglas, Graeham R., Jensen, Oliver E., Mistry, Sonal, Nath, Sujit Kumar, Russell, Matthew J., Saffaran, Sina, Shemilt, James, Weaver, Liam, and Whitfield, Carl A.

Subjects
Physics - Medical Physics, Quantitative Biology - Tissues and Organs
Abstract

This report relates to a study group hosted by the EPSRC funded network, Integrating data-driven BIOphysical models into REspiratory MEdicine (BIOREME), and supported by The Insigneo Institute and The Knowledge Transfer Network. The BIOREME network hosts events, including this study group, to bring together multi-disciplinary researchers, clinicians, companies and charities to catalyse research in the applications of mathematical modelling for respiratory medicine. The goal of this study group was to provide an interface between companies, clinicians, and mathematicians to develop mathematical tools to the problems presented. The study group was held at The University of Sheffield on the 17 - 20 April 2023 and was attended by 24 researchers from 13 different institutions. This report relates to a challenge presented by Arete Medical Technologies relating to impulse oscillometry (IOS), whereby a short pressure oscillation is imposed at a person's mouth during normal breathing, usually by a loudspeaker. The resulting pressure and flow rate changes can be used to the impedance of the airways, which in turn can provide proxy measurements for (patho)physiological changes in the small airways. Disentangling the signal so that airway mechanics can be measured accurately (and device properties/environmental effects can be accounted for) remains an open challenge that has the potential to significantly improve the device and its translation to clinic. In this report, several approaches to this problem, and the wider problem of interpreting oscillometry resuts are explored., Comment: 17 pages, 9 figures, Study group report

Published
2024

9. Why Reduced Inspiratory Pressure Could Determine Success of Non-Invasive Ventilation in Acute Hypoxic Respiratory Failure.

Author

Weaver L, Saffaran S, Chikhani M, Laffey JG, Scott TE, Camporota L, Hardman JG, and Bates DG

Subjects
Computer Simulation, Humans, Hypoxia therapy, Lung Injury, Noninvasive Ventilation, Respiratory Distress Syndrome therapy, Respiratory Insufficiency therapy
Abstract

The magnitude of inspiratory effort relief within the first 2 hours of non-invasive ventilation for hypoxic respiratory failure was shown in a recent exploratory clinical study to be an early and accurate predictor of outcome at 24 hours. We simulated the application of non-invasive ventilation to three patients whose physiological and clinical characteristics match the data in that study. Reductions in inspiratory effort corresponding to reductions of esophageal pressure swing greater than 10 cmH 2 O more than halved the values of total lung stress, driving pressure, power and transpulmonary pressure swing. In the absence of significant reductions in inspiratory pressure, multiple indicators of lung injury increased after application of non-invasive ventilation. Clinical Relevance- We show using computer simulation that reduced inspiratory pressure after application of noninvasive ventilation translates directly into large reductions in multiple well-established indicators of lung injury, providing a potential physiological explanation for recent clinical findings.

Published
2022
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