18. Pulmonary oedema: Difference between revisions

From greek.doctor
Created page with "'''Staining''': HE '''Organ''': Lung '''Description''': Even with low magnification can we immediately see that the alveolar spaces are filled with fluid. Upon closer inspection can we see that this fluid is slightly eosinophilic. '''Diagnosis''': Pulmonary oedema '''Causes''': * Acute left ventricular failure * (Acute respiratory distress syndrome) '''Theory''': Because the fluid is only pale eosinophilic can we understand that the protein content of it is low,..."
 
No edit summary
 
Line 1: Line 1:
'''Staining''': HE
[[File:Pulmonary oedema - overview.jpg|thumb|Overview of the slide]]'''Staining''': HE


'''Organ''': Lung
'''Organ''': Lung
Line 13: Line 13:
* Acute left ventricular failure
* Acute left ventricular failure
* (Acute respiratory distress syndrome)
* (Acute respiratory distress syndrome)
 
[[File:Pulmonary oedema - close-up.jpg|thumb|Alveolar spaces filled with mild eosinophilic fluid]]'''Theory''':
'''Theory''':


Because the fluid is only pale eosinophilic can we understand that the protein content of it is low, meaning that it is transudate and not exudate fluid.
Because the fluid is only pale eosinophilic can we understand that the protein content of it is low, meaning that it is transudate and not exudate fluid.


Pulmonary oedema occurs only in case of ''acute'' left ventricular failure and not in chronic. In acute failure will venous congestion develop quickly which increases the intravascular hydrostatic pressure in the lung vessels. According to the Starling equation will this lead to fluid filtration out of the vessels into the interstitium, which fills up the alveolar spaces.
Pulmonary oedema occurs only in case of ''acute'' left ventricular failure and not in chronic. In acute failure will venous congestion develop quickly which increases the intravascular hydrostatic pressure in the lung vessels. According to the Starling equation will this lead to fluid filtration out of the vessels into the interstitium, which fills up the alveolar spaces.
[[File:Pulmonary oedema - overview.jpg|center|thumb|Overview of the slide]]
[[File:Pulmonary oedema - close-up.jpg|center|thumb|Alveolar spaces filled with mild eosinophilic fluid]]
[[Category:Pathology 1 - Histopathology slides]]
[[Category:Pathology 1 - Histopathology slides]]

Latest revision as of 11:38, 5 July 2024

Overview of the slide

Staining: HE

Organ: Lung

Description:

Even with low magnification can we immediately see that the alveolar spaces are filled with fluid. Upon closer inspection can we see that this fluid is slightly eosinophilic.

Diagnosis: Pulmonary oedema

Causes:

  • Acute left ventricular failure
  • (Acute respiratory distress syndrome)
Alveolar spaces filled with mild eosinophilic fluid

Theory:

Because the fluid is only pale eosinophilic can we understand that the protein content of it is low, meaning that it is transudate and not exudate fluid.

Pulmonary oedema occurs only in case of acute left ventricular failure and not in chronic. In acute failure will venous congestion develop quickly which increases the intravascular hydrostatic pressure in the lung vessels. According to the Starling equation will this lead to fluid filtration out of the vessels into the interstitium, which fills up the alveolar spaces.