Obesity and ARDS: Opportunity for Highly Personalized Mechanical Ventilation?

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References

Flegal

, Kruszon-Moran

, Carroll

, Fryar

, Ogden

. Trends in obesity among adults in the United States, 2005 to 2014. JAMA, 2016; 315(21):2284–2291.

Arterburn

, Maciejewski

, Tsevat

. Impact of morbid obesity on medical expenditures in adults. Int J Obes (Lond), 2005; 29(3):334–339.

Grieve

, Fenwick

, Yang

, Lean

. The disproportionate economic burden associated with severe and complicated obesity: a systematic review: economic burden of severe obesity. Obes Rev, 2013; 14(11):883–894.

Fumagalli

, Santiago

RRS

, Teggia Droghi

, Zhang

, Fintelmann

, Troschel

, et al.; Lung Rescue Team Investigators. Lung recruitment in obese patients with acute respiratory distress syndrome. Anesthesiology, 2019; 130(5):791–803.

Tlayjeh

, Arabi

, Ferguson

, Zhou

, Lamontagne

, Arroliga

, et al. Body mass index and mortality in subjects with ARDS: post-hoc analysis of the OSCILLATE Trial. Respir Care, 2019; 64(9):1042–1048.

Meade

, Cook

, Guyatt

, Slutsky

, Arabi

, Cooper

, et al.; Lung Open Ventilation Study Investigators. Ventilation strategy using low tidal volumes, recruitment maneuvers, and high positive end-expiratory pressure for acute lung injury and acute respiratory distress syndrome: a randomized controlled trial. JAMA, 2008; 299(6):637–645.

Ferguson

, Cook

, Guyatt

, Mehta

, Hand

, Austin

, et al.; OSCILLATE Trial Investigators, Canadian Critical Care Trials Group. High-frequency oscillation in early acute respiratory distress syndrome. N Engl J Med, 2013; 368(9):795–805.

Gong

, Bajwa

, Thompson

, Christiani

. Body mass index is associated with the development of acute respiratory distress syndrome. Thorax, 2010; 65(1):44–50.

Chiumello

, Colombo

, Algieri

, Mietto

, Carlesso

, Crimella

, et al. Effect of body mass index in acute respiratory distress syndrome. Br J Anaesth, 2016; 116(1):113–121.

10.

Bime

, Fiero

, Lu

, Oren

, Berry

, Parthasarathy

, Garcia

JGN

. High positive end-expiratory pressure is associated with improved survival in obese patients with acute respiratory distress syndrome. Am J Med, 2017; 130(2):207–213.

11.

De Jong

, Cossic

, Verzilli

, Monet

, Carr

, Conseil

, et al. Impact of the driving pressure on mortality in obese and non-obese ARDS patients: a retrospective study of 362 cases. Intensive Care Med, 2018; 44(7):1106–1114.

12.

Yoshida

, Amato

MBP

, Grieco

, Chen

, Lima

CAS

, Roldan

, et al. Esophageal manometry and regional transpulmonary pressure in lung injury. Am J Respir Crit Care Med, 2018; 197(8):1018–1026.

13.

Beitler

, Sarge

, Banner-Goodspeed

, Gong

, Cook

, Novack

, et al.; EPVent-s Study Group. Effect of titrating positive end-expiratory pressure (PEEP) with an esophageal pressure-guided strategy vs an empirical high PEEP-FiO₂ strategy on death and days free from mechanical ventilation among patients with acute respiratory distress syndrome: a randomized clinical trial. JAMA, 2019; 321(9):846–857.

14.

Chen

, Del Sorbo

, Grieco

, Shklar

, Junhasavasdikul

, Telias

, et al. Airway closure in acute respiratory distress syndrome: an underestimated and misinterpreted phenomenon. Am J Respir Crit Care Med, 2018; 197(1):132–136.

15.

Sun

, Chen

, Zhou

, Yang

, Zhou

. Airway closure could be confirmed by electrical impedance tomography. Am J Respir Crit Care Med, 2018; 197(1):138–141.

16.

Bein

. Driving pressure in obese ventilated patients: another brick in the (chest) wall. Intensive Care Med, 2018; 44(8):1349–1351.