The hydrodynamic resistance of hyaluronic acid and its contribution to tissue permeability
Issue title: Proceedings of the Fourth International Congress of Biorheology. Jikei University School of Medicine, Tokyo, Japan, 27 July – 1 August 1981. Dedicated to Alex Silberberg
Affiliations: Institute of Biomedical Engineering, University of Toronto, Toronto, Canada M5S 1A4
Note: [] Accepted by: Editor H.L. Goldsmith
Abstract: An experimental system was developed to measure flow rates and pressure drops across hyaluronic acid solutions. The solutions were contained r:y membranes in a test cell, and solvent was perfused through the cell at flow rates comparable to physiological conditions. The pressure drop was found to be proportional to a steady flow rate for concentrations up to 1.5%, confirming that Darcy’s Law for porous media is valid for hyaluronic acid solutions (and indicating that the polymer chains did not pile up at one end of the test cell). From the flow data, the hydrodynamic permeability of each solution was calculated and found to be 50 times higher that whole tissue having the same hyaluronic acid concentration; hyaluronic acid on its own, therefore, is not the source of resistance to flow in tissue. The results for hyaluronic acid were then used to show that all the glycosaminoglycans together cannot cause the high resistance of ground substance in tissue, and it is argued that mucoproteins are the most likely source. A hydrodynamic model of the polymer chains was developed to predict solution permeability; the theoretical values agree closely with the experimental data.
Keywords: Hydrodynamic resistance, permeability, hyaluronic acid, Darcy’s Law
DOI: 10.3233/BIR-1982-191-234
Journal: Biorheology, vol. 19, no. 1-2, pp. 317-330, 1982
