Interstitium contains a matrix of fibrous molecules that creates considerable resistance to water and solutes in series with the microvessel wall. On the basis of our preliminary studies (Adamson et al., 1994, Microcirculation 1(4), pp. 251–265; Fu et al., 1995 Am. J. Physiol. 269(38), pp. H2124–H2140), by using laser-scanning confocal microscopy and a theoretical model for interstitial transport, we determined both microvessel solute permeability (P) and solute tissue diffusion coefficient (Dt) of α-lactalbumin (Stokes radius 2.01nm) from the rate of tissue solute accumulation and the radial concentration gradient around individually perfused microvessel in frog mesentery. Pαlactalbumin is 1.7±0.7(SD)×106cms(n=6). DtDfree for α-lactalbumin is 27%±5%(SD)(n=6). This value of DtDfree is comparable to that for small solute sodium fluorescein (Stokes radius 0.45nm), while Pαlactalbumin is only 3.4% of Psodiumfluorescein. Our results suggest that frog mesenteric tissue is much less selective to solutes than the microvessel wall.

Keywords:
biodiffusion, biorheology, biological tissues, permeability, molecular biophysics, proteins, biomedical measurement, optical microscopy, biomedical optical imaging, laser applications in medicine, cellular transport, biomechanics
Topics:
Biological tissues, Diffusion (Physics), Permeability, Vessels
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