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.

1.
Berk
,
D. A.
,
Yuan
,
F.
,
Leunig
,
M.
, and
Jain
,
R. K.
, 1997, “
Direct In Vivo Measurement of Targeted Binding in a Human Tumor Xenograft
,”
Proc. Natl. Acad. Sci. U.S.A.
0027-8424,
94
, pp.
1785
1790
.
2.
Chary
,
S. R.
, and
Jain
,
R. K.
, 1989, “
Direct Measurement of Interstitial Convection and Diffusion of Albumin in Normal and Neoplastic Tissues by Fluorescence Photobleaching
,”
Proc. Natl. Acad. Sci. U.S.A.
0027-8424,
86
, pp.
5385
5389
.
3.
Flessner
,
M. F.
,
Lofthouse
,
J.
, and
Zakaria
,
E. R.
, 1997, “
In Vivo Diffusion of Immunoglobulin G in Muscle: Effects of Binding, Solute Exclusion, and Lymphatic Removal
,”
Am. J. Physiol.
0002-9513
273
(Heart Circ. Physiol. 42), pp.
H2783
H2793
.
4.
Fox
,
J. R.
, and
Wayland
,
H.
, 1979, “
Interstitial Diffusion of Macromolecules in the Rat Mesentery
,”
Microvasc. Res.
0026-2862,
18
, pp.
255
276
.
5.
Granger
,
H. J.
, and
Taylor
,
A. E.
, 1975, “
Permeability of Connective Tissue Linings Isolated from Implanted Capsules
,”
Circ. Res.
0009-7330,
36
, pp.
222
228
.
6.
Jain
,
R. K.
,
Richard
,
J. S.
,
Chary
,
S. R.
, and
Rueter
,
M.
, 1990, “
Convection and Diffusion Measurements using Fluorescence Recovery after Photobleaching and Video Image Analysis: In Vitro Calibration and Assessment
,”
Microvasc. Res.
0026-2862,
39
, pp.
77
93
.
7.
Shultz
,
J. S.
, 1976, “
Transport of Solutes across the Intact Rat Diaphragm
,” in
Microcirculation
, edited by
J.
Grayson
and
W.
Zingg
(
Plum
, New York, 1976), Vol.
2
, pp.
106
108
.
8.
Adamson
,
R. H.
,
Lenz
,
J. F.
, and
Curry
,
F. E.
, 1994, “
Quantitative Laser Scanning Confocal Microscopy on Single Capillaries: Permeability Measurement
,”
Microcirculation (Philadelphia)
1073-9688,
1
(
4
), pp.
251
265
.
9.
Fu
,
B. M.
,
Curry
,
F. E.
, and
Weinbaum
,
S.
, 1995, “
A Diffusion Wake Model for Tracer Ultrastructure-Permeability Studies in Microvessels
,”
Am. J. Physiol.
0002-9513,
269
(
38
), pp.
H2124
H2140
.
10.
He
,
P.
,
Pagakis
,
S. N.
, and
Curry
,
F. E.
, 1990, “
Measurement of Cytoplasmic Calcium in Single Microvessels with Increased Permeability
,”
Am. J. Physiol.
0002-9513,
258
, pp.
H1366
H1374
.
11.
Adamson
,
R. H.
,
Huxley
,
V. H.
, and
Curry
,
F. E.
, 1988, “
Single Capillary Permeability to Proteins having Similar Size but Different Charge
,”
Am. J. Physiol.
0002-9513,
254
(Hear Circ. Physiol. 23), pp.
H304
H312
.
12.
Fu
,
B. M.
,
Adamson
,
R. H.
, and
Curry
,
F. E.
, 1998, “
Test of Two-pathway Model for Small Solute Exchange across the Capillary Wall
,”
Am. J. Physiol.
0002-9513,
274
(
43
), pp.
H2062
H2073
.
13.
Huxley
,
V. H.
,
Curry
,
F. E.
, and
Adamson
,
R. H.
, 1987, “
Quantitative Fluorescence Microscopy on Single Capillaries: α-lactalbumin transport
,”
Am. J. Physiol.
0002-9513,
252
(Heart Circ. Physiol. 21), pp.
H188
H197
.
14.
Davis
,
M. J.
, and
Gore
,
R. W.
, 1987, “
Double-barrel Pipette System for Microinjection
,”
Am. J. Physiol.
0002-9513,
253
(Heart Circ. Physiol. 22), pp.
H965
967
.
15.
McKay
,
M. K.
, and
Huxley
,
V. H.
, 1995, “
ANP Increases Capillary Permeability to Protein Independent of Perfusate Protein Composition
,”
Am. J. Physiol.
0002-9513,
268
(Heart Circ. Physiol. 37), pp.
H1139
1148
.
16.
Curry
,
F. E.
,
Huxley
,
V. H.
, and
Adamson
,
R. H.
, 1983, “
Permeability of Single Capillaries to Intermediate-sized Colored Solutes
,”
Am. J. Physiol.
0002-9513,
245
(Heart Circ. Physiol. 14), pp.
H495
H505
.
17.
Hell
,
S.
,
Reiner
,
G.
,
Cremer
,
C.
, and
Stelzer
,
E. H. K.
, 1993, “
Aberrations in confocal fluorescence microscopy induced by mismatches in refractive index
,”
J. Microsc.
0022-2720,
169
, pp.
391
405
.
18.
Adamson
,
R. H.
, and
Michel
,
C. C.
, 1993, “
Pathways through the Intercellular Clefts of Frog Mesenteric Capillaries
,”
J. Physiol. (London)
0022-3751,
466
, pp.
303
327
.
19.
Levick
,
J. R.
, 1987, “
Flow through Interstitium and other Fibrous Matrices
,”
Q. J. Exp. Physiol.
0144-8757,
72
, pp.
409
438
.
20.
Aukland
,
K.
, and
Reed
,
R. K.
, 1993, “
Interstitial-lymphatic Mechanisms in the Control of Extracellular Fluid Volume
,”
Physiol. Rev.
0031-9333,
73
, pp.
1
78
.
21.
Bert
,
J. L.
, and
Pearce
,
R. H.
, 1984, “
The Interstitium and Microvascular Exchange
,” in
Handbook of Physiology. The Cardiovascular System. Microcirculation
Am. Physiol. Soc., Bethesda, MD: Sect. 2, Vol.
IV
, Pt.IV, Chap. 12, pp.
521
547
.
22.
Jackson
,
R. L.
,
Busch
,
S. J.
, and
Cardin
,
A. D.
, 1991, “
Glycosaminoglycans: Molecular Properties, Protein Interactions, and Role in Physiological Processes
,”
Physiol. Rev.
0031-9333,
71
, pp.
481
539
.
23.
Levick
,
J. R.
, 1994, “
An Analysis of the Interaction between Interstitial Plasma Protein, Interstitial Flow, and Fenestral Filtration and its Application to Synovium
,”
Microvasc. Res.
0026-2862,
47
, pp.
90
125
.
24.
Fu
,
B. M.
,
Tsay
,
R.
,
Curry
,
F. E.
, and
Weinbaum
,
S.
, 1994, “
A Junction-orifice-fiber Entrance Layer Model for Capillary Permeability: Application to Frog Mesenteric Capillaries
,”
ASME J. Biomech. Eng.
0148-0731,
116
, pp.
502
513
.
25.
Fu
,
B.
,
Curry
,
F. E.
,
Adamson
,
R. H.
, and
Weinbaum
,
S.
, 1997, “
A Model for Interpreting the Labeling of Interendothelial Clefts
,”
Ann. Biomed. Eng.
0090-6964,
25
(
2
), pp.
375
397
.
26.
Jain
,
R. K.
, 1997, “
Delivery of Molecular and Cellular Medicine to Solid Tumors
,”
Microcirculation (Philadelphia)
1073-9688,
4
(
1
), pp.
1
23
.
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