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A 45-year-old man is admitted to the hospital with shortness of breath and found to have a pleural effusion on chest X-ray. Thoracentesis is performed and the fluid is sent for laboratory testing. Results of the fluid analysis are: pleural protein 8.0, serum protein 6.5, pleural LDH 500, serum LDH 100. Based on these findings, which of the following is the most likely etiology of the pleural effusion?
Content Reviewers:Rishi Desai, MD, MPH
“Pleural” refers to the space between the chest cavity and the lungs, and “effusion” refers to a collection of fluid, so a pleural effusion is when a disease process causes fluid to start to collect in the pleural space, which can sometimes restrict lung expansion.
Because the lungs fit snugly inside the chest cavity, the visceral and parietal pleura lie right next to each other, and the very very thin space between them contains a layer of fluid that acts as lubrication to allow the lungs to slide back and forth as they expand and contract.
This pleural fluid is similar to interstitial fluid and is made slippery by proteins like albumin.
There is always a tiny bit of plasma that leaks out of capillaries and gets into the interstitial space, and since these capillaries are so close to the edge of the pleural space, that fluid makes its way into that space and collects there.
If there were no way out of the pleural space, then it would fill up with fluid, but fortunately, there are lymphatic vessels in the pleura then drain the fluid away and deliver it back into the circulatory system.
A pleural effusion is when there’s excess fluid in the pleural space either because too much pleural fluid is produced by the body, which can be due to either a transudative or exudative effusion or because the lymphatics can’t effectively drain away the fluid, called a lymphatic effusion.
Hydrostatic pressure is what we normally think of as blood pressure; it is the force that blood exerts on the walls of the blood vessel, and can be thought of as a pushing force.
That’s because when the heart can’t effectively pump blood out to the body, it backs up into the pulmonary vessels and causes the blood pressure in those vessels to rise. The high pressure forces fluid out of the capillaries and into the pleural space.
Oncotic pressure results from the the inability of solutes like large proteins - albumin for example - to move across through the capillary.
By the process of osmosis - the process, not the company - fluid moves from areas of low solute concentration to high solute concentration.
The larger spaces between endothelial cells allows fluid, immune cells and large proteins like lactate dehydrogenase (LDH) --which is found in all cells, to leak out of the capillaries.
If the underlying reason is an infection, like a bacterial or mycobacterial infection, then it’s also possible for that infection to spread into the pleural space which is a walled off space - a bit like an enormous abscess.