Plasma membrane stress failure in ventilator-injured lungs. A hypothesis about osmoregulation and the pharmacologic protection of the lungs against deformation injury

Biology of the Neonate
Jose L MendezRolf D Hubmayr

Abstract

Cell injury and repair are invariable consequences of mechanical ventilation with large tidal volumes. Rate and amplitude of deforming stress affect numerous cell metabolic functions including host defense and wound repair. Recently, we have focused on the role of plasma membrane stress failure as a trigger for a pro-inflammatory response in mechanically ventilated lungs. We have developed both cell- and organ-based models to study this problem. Alveolar epithelial cells that are exposed to deforming stresses seek to maintain sublytic plasma membrane tension and may activate mechanisms of cell surface area regulation to control membrane tension. Interventions which either increase the amount of excess plasma membrane or enhance lipid trafficking should be cytoprotective against deformation induced injury. Osmotic manipulation may be one such intervention. Preconditioning the lungs with anisosmotic solutions may allow the cells to recruit excess plasma membrane and thus be more resistant to ventilator-induced lung injury.

Citations

Jul 14, 2010·Annals of Biomedical Engineering·T N SwaminathanD M Eckmann
Mar 23, 2010·Journal of Fluid Mechanics·T N SwaminathanD M Eckmann
Feb 8, 2006·Annual Review of Physiology·Claudia C dos Santos, Arthur S Slutsky
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Oct 15, 2008·Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics·Karthik MukundakrishnanDavid M Eckmann

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