Rejected
at 3:53 a.m. Jul, 26, 2024 ]
by
Willybum
Author:
sam069
Type of change:
Updated content
Rationale for change
Proper prone positioning increased FRC by offloading cephalad pressure typically extered on the diaphragm by abdominal contents. This offloading allows for greater excursion of the diaphram during inhalation thus increasing FRC and ERV.
Rejection reason
increased compared to supine but still decreased when compared to upright. also we do not put edits in "persona notes"
Current
Suggested
Personal Notes
Personal Notes
Textbook
Textbook
Personal Notes
Personal Notes
Textbook
Textbook
Text
The prone position {{c1::increases}} {{c2::Functional Residual Capacity (FRC)::lung measurements}} and {{c1::increases}} {{c2::Expiratory Reserve Volume (ERV)}}.
Extra
some sources state it will decrease via abdominal compression.
Missed Questions
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Additional Resources
For more information, see:
ABA Anesthesiology Content Outline, 2014. "Ventilator: Prone Ventilation"
Miller Anesthesia. Specific Positions: Prone in 8th Edition. Pages 1250-1253.
Guérin C, et al. "Prone positioning in severe acute respiratory distress syndrome". The New England Journal of Medicine. 2013. 368(23):2159-2168.
Galiatsou E, Kostanti E, Svarna E, et al. Prone position augments recruitment and prevents alveolar overinflation in acute lung injury. Am J Respir Crit Care
Med 2006;174:187-97.
ABA Anesthesiology Content Outline, 2014. "Ventilator: Prone Ventilation"
Miller Anesthesia. Specific Positions: Prone in 8th Edition. Pages 1250-1253.
Guérin C, et al. "Prone positioning in severe acute respiratory distress syndrome". The New England Journal of Medicine. 2013. 368(23):2159-2168.
Galiatsou E, Kostanti E, Svarna E, et al. Prone position augments recruitment and prevents alveolar overinflation in acute lung injury. Am J Respir Crit Care
Med 2006;174:187-97.
CA-1
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