Pulmonary edema pathophysiology: Difference between revisions

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** decrease plasma oncotic pressure
** decrease plasma oncotic pressure
*** Hypoalbuminemia  
*** Hypoalbuminemia  
** increase negative interstitial pressure<ref name="pmid27063348">{{cite journal |vauthors=Bhattacharya M, Kallet RH, Ware LB, Matthay MA |title=Negative-Pressure Pulmonary Edema |journal=Chest |volume=150 |issue=4 |pages=927–933 |year=2016 |pmid=27063348 |doi=10.1016/j.chest.2016.03.043 |url=}}</ref>
** increase negative interstitial pressure
*** Negative-pressure pulmonary edema (NPPE) or postobstructive pulmonary edema<ref name="pmid270633482">{{cite journal |vauthors=Bhattacharya M, Kallet RH, Ware LB, Matthay MA |title=Negative-Pressure Pulmonary Edema |journal=Chest |volume=150 |issue=4 |pages=927–933 |year=2016 |pmid=27063348 |doi=10.1016/j.chest.2016.03.043 |url=}}</ref>


* Altered alveolar-capillary membrane permeability
* Altered alveolar-capillary membrane permeability

Revision as of 14:48, 15 February 2018

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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]

Overview

Pulmonary edema is due to either failure of the heart to remove fluid from the lung circulation ("cardiogenic pulmonary edema"), or due to a direct injury to the lung parenchyma or increased permeability or leakiness of the capillaries ("noncardiogenic pulmonary edema").

Pathophysiology

It is understood that pulmonary edema is the result of abnormal increase in extravascular lung water (EVLW). Pulmonary edema is caused by either:[1][2][3]

  • Imbalance of starling force:
    • Increase pulmonary capillary pressure
      • Left ventricular failure
      • Volume overload
    • decrease plasma oncotic pressure
      • Hypoalbuminemia
    • increase negative interstitial pressure
      • Negative-pressure pulmonary edema (NPPE) or postobstructive pulmonary edema[4]
  • Altered alveolar-capillary membrane permeability
  • Lymphatic insufficiency
  • Unknown or incompletely understood

The flux of fluid across the capillary level is controlled by a balance between hydrostatic pressure and osmotic pressure gradients between the capillaries and interstitial space that can be calculated via Starling equation:

Jv = Net rate of capillary filtration
Kfc = Capillary filtration coefficient
Pc = Capillary hydrostatic pressure
Pi = Interstitial hydrostatic pressure
σ = Osmotic reflection coefficient
πp = Plasma oncotic pressure
πi = Interstitial oncotic pressure

Gross Pathology

Images courtesy of Professor Peter Anderson DVM PhD and published with permission © PEIR, University of Alabama at Birmingham, Department of Pathology

Microscopic Pathology

References

  1. Sibbald WJ, Cunningham DR, Chin DN (1983). "Non-cardiac or cardiac pulmonary edema? A practical approach to clinical differentiation in critically ill patients". Chest. 84 (4): 452–61. PMID 6617283.
  2. Ware LB, Matthay MA (2005). "Clinical practice. Acute pulmonary edema". N. Engl. J. Med. 353 (26): 2788–96. doi:10.1056/NEJMcp052699. PMID 16382065.
  3. Pena-Gil C, Figueras J, Soler-Soler J (2005). "Acute cardiogenic pulmonary edema--relevance of multivessel disease, conduction abnormalities and silent ischemia". Int. J. Cardiol. 103 (1): 59–66. doi:10.1016/j.ijcard.2004.08.029. PMID 16061125.
  4. Bhattacharya M, Kallet RH, Ware LB, Matthay MA (2016). "Negative-Pressure Pulmonary Edema". Chest. 150 (4): 927–933. doi:10.1016/j.chest.2016.03.043. PMID 27063348.


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