Abstract
Objective:To measure the hydraulic conductivity and reflection coefficient for albumin, as defined by the Starling equation, in rabbit mesentery. Methods:A section of rabbit mesentery was fixed between two chambers filled with lactated Ringer solution. Flow (Q) of Ringer solution was measured across the mesentery at driving pressures (ΔP) between 1 and 6 cm H2O. Hydraulic conductivity was proportional to the slope of the Q-ΔP curve. At constant ΔP (∼−2, −4, or −6 cm H2O), flow was measured at three different albumin concentration differences (0.5, 1, and 1.5/g/dl). Unstirred layer effects were minimized by magnetic stirrers. Reflection coefficient was the negative of the slope of the Q-Δπ curve divided by the slope of the Q-ΔP curve, where Δπ was the albumin osmotic pressure difference. Hydraulic conductivity was measured before and after testicular hyaluronidase was added to the Ringer solution. Results:There was no significant difference in conductivity per unit area (Lp) for the three different driving pressures. Hyaluronidase increased hydraulic conductivity significantly (p< 0.01) by 72 ± 56 %, indicating that hyaluronan and other glycosaminoglycans contributed to tissue fluid resistance. Reflection coefficient (σ) increased from 0.02 to 0.14 as flow increased eightfold. Conclusions:The results suggest that the mesentery tissue provides little restriction to the passage of albumin. The increase in conductivity in the presence of hyaluronidase indicates that tissue hyaluronan and other glycosaminoglycans provide fluid resistance to bulk flow.