I'll attempt... If there was a PE, then it would be ventilation without perfusion... Unless there was superimposed bronchospasm. I actually hadn't heard about the link between bronchospasm and PE. If there was bronchospasm then it would be a ventilation problem as well. If it was a drug rxn, then the primary problem would be perfusion without ventilation, but wouldn't the vasodilation also cause some problems with perfusion? It would seem like the distribution of the west zones would be disrupted from a perfusion standpoint as well... Not to mention decreased cardiac output due to decreased preload.
Forgot about this thread, sorry 'bout the late response RT2MD:
Here is a little review for the med studs and those getting ready to take in-training exams or boards etc. Everything below is fair game on these tests:
So lets' define v/q. V= ventilation, Q= perfusion.
Normal v/q mismatch ratio in an adult is about .8
Now regarding PE's:
In it's purest form, a pulmonary emboli is a
DEAD SPACE lesion and not a shunt.
So what is DEAD SPACE?
Ventilation without perfusion. 2 types:
1. Anatomic dead space = does not participate in gas exchange ie trachea
2. Alveolar dead space = is at the alveolar level and does not participate in gas exchange due to POOR PERFUSION as in a PE, cardiogenic shock, peep (too much peep will compress surrounding vascular structures) or west zone 1 if you are looking at differences in V/Q matching in the upright lungs. etc.
Together anatomic dead space and alveolar dead space is referred to as physiologic dead space.
The equation for Dead space is: (PaCo2-ETCo2/PaCo2)
So what is a SHUNT?
It's the opposite of dead space... Shunt is perfusion without ventilation. In other words blood gets to the left side of the heart without getting oxygenated... it is beeing shunted past the alveoli and therefore bypasses gas exchange.
Is shunt normal? The answer to this is yes. Bronchial, pleural and thebasian veins dump directly into the LEFT side of the heart and therefore do not participate in gas exchange. This is referred to as physiologic shunt = 5% of CO. Above this, you need to find a reason.
So what are some examples of shunt?
Atelectasis, airway obstruction, bronchospasm, PTX, main stem intubation and....... PULMONARY EDEMA!
So back to out question...
Is a PE a dead space or shunt problem?
In it's purest form it's ventilation without perfusion = Dead space. HOWEVER, a big enough PE can cause bronchospasm and micro/macroscopic alveolar edema and if bad enough profound pulmonary edema... all of which are SHUNTS. So in reality, massive PE's cause both Dead Space (primarily) and a Shunt (secondarily) lesion.
Just like to add that big PE's can be difficult to treat. Dead space of that nature will not respond very effectively to raising the partial pressure of O2 as those alveoli are not being perfused due to lack of blood flow to that area (no gas exchange). Big PE's can be very tough to treat, sometimes requiring CPB as a way to provide some means of gas exchange/oxygenation and a conduit to fix the problem (big air embolus, saddle embolus, etc). Last one of these I did, we went onto bypass with sats in the 30% range on 100% O2 = No es bueno.
An acutely ischemic heart is impressive to see.... as is its ability to rapidly pink up once you fix the problem.
I hope this helped some of you rock stars out there... sorry ‘bout the late response.
