COVID-19 Does Not Lead to a "Typical" Acute Respiratory Distress Syndrome.
Luciano Gattinoni,Silvia Coppola,Massimo Cressoni,Mattia Busana,Sandra Rossi,Davide Chiumello +5 more
TLDR
It is found that hypercapnia was common in patients with COVID-19–associated ARDS while using low VT ventilation, and low VT may not be the best approach for all patients with ARDS, particularly those with a less severe decrease in respiratory system compliance and inadequacy of ventilation.Abstract:
ventilation strategy was applied to the first four patients to increase pulmonary efficiency to eliminate CO2, and this was used in the next four patients. Gas exchange consists of oxygenation and ventilation. Oxygenation is quantified by the PaO2/FIO2 ratio, and this method has gained wide acceptance, particularly since publication of the Berlin definition of ARDS (7). However, the Berlin definition does not include additional pathophysiological information about ARDS, such as alveolar ventilation, as measured by pulmonary dead space, which is an important predictor of outcome (8). Increased pulmonary dead space reflects the inefficiency of the lungs to eliminate CO2, which may lead to hypercapnia. In our patients with ARDS with COVID-19, hypercapnia was common at ICU admission with low VT ventilation. Assuming the anatomic portion of dead space is constant, increasing VT with constant respiratory rate would effectively increase alveolar ventilation. Any such increase in VT would decrease PaCO2, which would be captured by VR (6). VR, a novel method to monitor ventilatory adequacy at the bedside (4–6), was very high in our patients, reflecting increased pulmonary dead space and inadequacy of ventilation. With an acceptable plateau pressure and driving pressure, titration of VT was performed. PaCO2 and VR were significantly decreased when an intermediate VT (7–8 ml/kg PBW) was applied. We suggest that intermediate VT (7–8 ml/kg PBW) is recommended for such patients. Therefore, low VT may not be the best approach for all patients with ARDS, particularly those with a less severe decrease in respiratory system compliance and inadequacy of ventilation. In summary, we found that hypercapnia was common in patients with COVID-19–associated ARDS while using low VT ventilation. VR was increased in these patients, which reflected increased pulmonary dead space and inadequacy of ventilation. An intermediate VT was used to correct hypercapnia efficiently, while not excessively increasing driving pressure. Clinicians must have a high index of suspicion for increased pulmonary dead space when patients with COVID19–related ARDS present with hypercapnia. nread more
Citations
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Rethinking the respiratory paradigm of COVID-19: a 'hole' in the argument.
Rajkumar Rajendram,Rajkumar Rajendram,Rajkumar Rajendram,Ghulam Abbas Kharal,Naveed Mahmood,Naveed Mahmood,Rishi Puri,Mubashar Kharal,Mubashar Kharal +8 more
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Diagnosis and management of acute respiratory distress syndrome.
TL;DR: The acute respiratory distress syndrome (ARDS) is a life-threatening form of respiratory failure characterized by acute, diffuse, inflammatory lung injury that results in increased alveolar capillary permeability and the development of nonhydrostatic pulmonary edema.
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High-Flow Nasal Cannula for COVID-19 Patients: A Multicenter Retrospective Study in China
Jun Duan,Jia Zeng,Puyu Deng,Zhong Ni,Rongli Lu,Wenxi Xia,Guoqiang Jing,Xiaoping Su,Stephan Ehrmann,Wei Zhang,Jie Li +10 more
TL;DR: In this paper, a multi-center retrospective study was performed to identify the predictors of high-flow nasal cannula failure among patients with COVID-19, and the ROX index (the ratio of SpO2/FiO2 to respiratory rate) was calculated.
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Noninvasive Versus Invasive Ventilation in COVID-19: One Size Does Not Fit All!
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The Characteristics and Effectiveness of Interventions for Frequent Emergency Department Utilizing Patients With Chronic Noncancer Pain: A Systematic Review.
Charles Wong,Connor M. O'Rielly,Braden D. Teitge,Robert L. Sutherland,Scott Farquharson,Monty Ghosh,Helen Lee Robertson,Eddy Lang +7 more
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References
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Journal ArticleDOI
Acute respiratory distress syndrome: the Berlin Definition.
Ards Definition Task Force,V. Marco Ranieri,Gordon D. Rubenfeld,B. Taylor Thompson,Niall D. Ferguson,Ellen Caldwell,Eddy Fan,Luigi Camporota,Luigi Camporota,Arthur S. Slutsky +9 more
TL;DR: The updated and revised Berlin Definition for ARDS addresses a number of the limitations of the AECC definition and may serve as a model to create more accurate, evidence-based, critical illness syndrome definitions and to better inform clinical care, research, and health services planning.
Journal ArticleDOI
Lung Recruitment in Patients with the Acute Respiratory Distress Syndrome
Luciano Gattinoni,Pietro Caironi,Massimo Cressoni,Davide Chiumello,V. Marco Ranieri,Michael Quintel,Sebastiano G. Russo,Nicolò Patroniti,Rodrigo Cornejo,Guillermo Bugedo +9 more
TL;DR: In ARDS, the percentage of potentially recruitable lung is extremely variable and is strongly associated with the response to PEEP, which may decrease ventilator-induced lung injury by keeping lung regions open that otherwise would be collapsed.
Journal ArticleDOI
Mechanical Ventilation to Minimize Progression of Lung Injury in Acute Respiratory Failure
TL;DR: It is argued that application of a lung-protective ventilation, today best applied with sedation and endotracheal intubation, might be considered a prophylactic therapy, rather than just a supportive therapy, to minimize the progression of lung injury from a form of patient self-inflicted lung injury.
Journal ArticleDOI
Prone Position in Acute Respiratory Distress Syndrome. Rationale, Indications, and Limits
TL;DR: The bulk of data indicates that in severe acute respiratory distress syndrome, carefully performed prone positioning offers an absolute survival advantage of 10-17%, making this intervention highly recommended in this specific population subset.
Journal ArticleDOI
Lung Recruitability in COVID-19-associated Acute Respiratory Distress Syndrome: A Single-Center Observational Study.
Chun Pan,Lu Chen,Cong Lu,Cong Lu,Wei Zhang,Jia An Xia,Michael C. Sklar,Michael C. Sklar,Bin Du,Laurent Brochard,Laurent Brochard,Haibo Qiu +11 more
TL;DR: A new mechanics-based index is described to directly quantify the potential for lung recruitment, called the recruitment-to-inflation ratio (R/I ratio), which estimates how much of an increase in endexpiratory lung volume induced by PEEP is distributed between the recruited lung (recruitment) and the inflation and/or hyperinflation of the “baby lung” when a higher PEP is applied.
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