More on plasma protein osmotic equations for humans

Equation for osmotic pressure of serum protein (fractions)

The colloid or protein osmotic pressure (Pi) is a function of protein molarity (linear) and of Donnan and other effects. Albumin is the major osmotic protein, but also globulins influence Pi. Equations based on concentrations of albumin and nonalbumin (globulin concentration + fibrinogen concentration) protein approximate Pi better than albumin alone. Globulins have a wide range of molecular weights, and a 1956 diagram indicated that Pi of globulin fractions decreased in the order alpha1-, alpha2-, beta-, and gamma-globulin. The molecular weight of the serum protein fractions had been extrapolated, so van't Hoff's law and nonlinear regression analysis of the curves permitted expression of the diagram as an equation: product Pi(s,Ott,2 degrees C,cmH2O)=x(alb)(0.338C(tot)+0.00339C(tot)(2))+x(alpha1)(0.518C(tot)+0.0107C(tot)(2))+x(alpha2)(0.203C(tot)+0.00155C(tot)(2))+x(beta)(0.187C(tot)+0.000577C(tot)(2))+x(gamma)(0.161C(tot)+0.000223C(tot)(2)), where Pi(s,Ott,2 degrees C,cmH2O) is Pi of serum at 2 degrees C (in cmH2O) computed from the 1956 diagram, C(tot) is the concentration (g/l) of total protein in serum, and x(alb), x(alpha1), x(alpha2), x(beta), and x(gamma) are the fractions of albumin, alpha1-, alpha2-, beta-, and gamma-globulin, respectively. At one and the same concentration of fractions, Pi("Ott") decreases in the order alpha1-globulin, albumin, alpha2-globulin, beta-globulin, and gamma-globulin.