Experimental asynchrony to study self-inflicted lung injury

Patient self-inflicted lung injury may be associated with worse clinical outcomes and higher mortality. Patient-ventilator asynchrony is associated with increased ventilator days and mortality, and it has been hypothesised as one of the important mechanisms leading to patient self-inflicted lung inj...

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Veröffentlicht in:	British journal of anaesthesia : BJA 2023-01, Vol.130 (1), p.e44-e46
Hauptverfasser:	Cronin, John N., Formenti, Federico
Format:	Artikel
Sprache:	eng
Schlagworte:	Acute Lung Injury - etiology Animals diaphragm Lung mechanical ventilation Respiration, Artificial - adverse effects Respiration, Artificial - methods Swine ventilator asynchrony ventilator-induced lung injury Ventilators, Mechanical
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description	Patient self-inflicted lung injury may be associated with worse clinical outcomes and higher mortality. Patient-ventilator asynchrony is associated with increased ventilator days and mortality, and it has been hypothesised as one of the important mechanisms leading to patient self-inflicted lung injury. However, given the observational nature of the key studies in the field so far, the hypothesis that patient-ventilator asynchrony causes patient self-inflicted lung injury has not been supported by evidence yet. Wittenstein and colleagues present a novel approach that enables controlling patient-ventilator asynchrony in a pig model of acute lung injury, to investigate the patient-ventilator asynchrony and patient self-inflicted lung injury causality. Their results suggest that increased patient-ventilator asynchrony associated with poor clinical outcomes reported in observational trials could be a marker, rather than a cause of patient self-inflicted lung injury. These findings on their own are not sufficient to justify a greater tolerance of patient-ventilator asynchrony amongst clinicians, a change for which further experimental work and clinical evidence is needed.
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Patient-ventilator asynchrony is associated with increased ventilator days and mortality, and it has been hypothesised as one of the important mechanisms leading to patient self-inflicted lung injury. However, given the observational nature of the key studies in the field so far, the hypothesis that patient-ventilator asynchrony causes patient self-inflicted lung injury has not been supported by evidence yet. Wittenstein and colleagues present a novel approach that enables controlling patient-ventilator asynchrony in a pig model of acute lung injury, to investigate the patient-ventilator asynchrony and patient self-inflicted lung injury causality. Their results suggest that increased patient-ventilator asynchrony associated with poor clinical outcomes reported in observational trials could be a marker, rather than a cause of patient self-inflicted lung injury. 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subjects	Acute Lung Injury - etiology Animals diaphragm Lung mechanical ventilation Respiration, Artificial - adverse effects Respiration, Artificial - methods Swine ventilator asynchrony ventilator-induced lung injury Ventilators, Mechanical
title	Experimental asynchrony to study self-inflicted lung injury
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