According to [this author](http://www.sciencedirect.com/science/article/pii/S0022519370800327), red blood cells (RBCs) are biconcave to allow easier bending. The standard explanation in biology for higher surface area to volume ratios is that it improves reaction rates. When a RBC squeezes through narrow veins I imagine that it gets deformed. Considering that a RBC's function is to exchange oxygen in narrow capillaries, I was wondering whether it is appropriate to reason that the biconcave shape promotes gas exchange. So what is the SA:V of a biconcave RBC and by how much does the SA:V change depending on where in the body the RBC is traveling?