John (I think he wants to remain somewhat anonymous) is a clinically-retired, still actively teaching intensivist in India. He left the following comment on my Marik Response Post:
In the last 5 years or so, we have had a better understanding of capillary fluid dynamics, particularly in conjunction with an appreciation of the glycocalyx. We now know that the glycocalyx normally ‘traps’ about a litre and half of plasma water in it (due to its hydrophilic chemical composition!) and that normally in the capillaries, there is a central moving layer of plasma and a relatively immobile layer closer to the endothelium….the bit that is bound to the glycocalyx. This explains the differences in measured capillary and venous hematocrit values, and also why Crystalloid : Colloid equivalence is 1.3 : 1 rather than 4: 1 as previously thought.
We have also acquired a better understanding of the mechanisms of edema formation in critical illness and more importantly, the magical phenomenon of improved diuresis that we have all marvelled at, during the recovery phase.
In short, we have kinda debunked the original Starling theory of fluid dynamics in the capillary.
We now know that the colloid osmotic pressure in the intravascular space will only oppose the outward movement of water, and increasing the colloid osmotic pressure by synthetic colloids will not reverse the flow and draw fluid from the interstitial to the intravascular space. ( Multiple trials , starting with the SAFE trial have proved the futility of using synthetic colloids !) What they end up doing is, probably drawing water from the glycocalyx in the intravascular space itself and dehydrating and then disintegrating this vital layer. As a result you will find a transient improvement in blood pressures, but afterwards, a lot of this fluid will track into the extravascular space. Any hyperosmolar solution can do this including Soda Bicarb….we have all seen the very transient increase in blood pressure after bicarb which has always been incorrectly attributed to ‘reversal of acidosis’…bah!!
Extravasation of fluid from the capillaries is predominantly dependant on capillary hydrostatic pressure and not on decreased intravascular colloid osmotic pressure— because we have realised that interstitial and intravascular colloid osmotic pressures are very close to each other.
The way to prevent overloading and thus extravasation would be to minimise rapid increases in capillary hydrostatic pressure. How can we do that? – By small volume crystalloid boluses and early use of alpha1 agonists—the latter work by afferent arteriolar constriction and thus minimising huge increases in capillary hydrostaic pressures. This is where Marik’s argument takes a strong foothold.
Albumin is needed for the integrity of glycocalyx, — explaining why albumin is making a comeback into our fluid armamentarium.
The lymphatics have assumed a pivotal role in the normal mechanisms that prevent edema formation. We have realised that they are a very active conduit to return of interstitial fluid to the central circulation, and they they have contractile collecting ducts and passages that are calcium dependant. They are inhibited by the terrible twins ANP and BNP—therefore shutting down in active sepsis, where the twins tend to dominate. (This also partly explains the peripheral edema commonly seen with Ca channel blockers when they are used as antihypertensives). Once the sepsis resolves, ANP and BNP levels drop and the lymphatics recover their contractile elements. All the interstitial fluid can now be returned to the central circulation causing an improved diuresis.
In any case, fluids should only be used as any other drug should be— only if needed. We need to realise that fluid requirement and fluid responsiveness are two completely different things and focus on appropriate fluid balance rather than branding it as either restrictive or liberal.
What do you think? One question that I had is are we not doing the same thing with pressors if their true first action is to add to stressed venous volume?
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