Skip to main content

Lund University Publications

LUND UNIVERSITY LIBRARIES

A distributed two-pore model: theoretical implications and practical application to the glomerular sieving of Ficoll

Öberg, Carl LU and Rippe, Bengt LU (2014) In American Journal of Physiology-Renal Physiology 306(8). p.844-854
Abstract
In the present study, an extended two-pore theory is presented where the porous pathways are continuously distributed according to small-and large-pore mean radii and SDs. Experimental glomerular sieving data for Ficoll were analyzed using the model. In addition, several theoretical findings are presented along with analytic solutions to many of the equations used in distributed pore modeling. The results of the data analysis revealed a small-pore population in the glomerular capillary wall with a mean radius of 36.6 angstrom having a wide arithmetic SD of similar to 5 angstrom and a large-pore radius of 98.6 angstrom with an even wider SD of similar to 44 angstrom. The small-pore radius obtained in the analysis was close to that of human... (More)
In the present study, an extended two-pore theory is presented where the porous pathways are continuously distributed according to small-and large-pore mean radii and SDs. Experimental glomerular sieving data for Ficoll were analyzed using the model. In addition, several theoretical findings are presented along with analytic solutions to many of the equations used in distributed pore modeling. The results of the data analysis revealed a small-pore population in the glomerular capillary wall with a mean radius of 36.6 angstrom having a wide arithmetic SD of similar to 5 angstrom and a large-pore radius of 98.6 angstrom with an even wider SD of similar to 44 angstrom. The small-pore radius obtained in the analysis was close to that of human serum albumin (35.5 angstrom). By reanalyzing the data and setting the distribution spread of the model constant, we discovered that a narrow distribution is compensated by an increased mean pore radius and a decreased pore area-to-diffusion length ratio. The wide distribution of pore sizes obtained in the present analysis, even when considering electrostatic hindrance due to the negatively charged barrier, is inconsistent with the high selectivity to proteins typically characterizing the glomerular filtration barrier. We therefore hypothesize that a large portion of the variance in the distribution of pore sizes obtained is due to the molecular "flexibility" of Ficoll, implying that the true variance of the pore system is lower than that obtained using flexible probes. This would also, in part, explain the commonly noted discrepancy between the pore area-to-diffusion length ratio and the filtration coefficient. (Less)
Please use this url to cite or link to this publication:
author
and
organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
two-pore model, log-normal distributed model, capillary permeability, Ficoll, standard deviation
in
American Journal of Physiology-Renal Physiology
volume
306
issue
8
pages
844 - 854
publisher
American Physiological Society
external identifiers
  • wos:000334610000006
  • scopus:84900552456
  • pmid:24523389
ISSN
1522-1466
DOI
10.1152/ajprenal.00366.2013
language
English
LU publication?
yes
id
a850fa52-dd69-4d57-b3cc-d7184f00d01d (old id 4439331)
date added to LUP
2016-04-01 11:06:17
date last changed
2022-03-27 22:23:06
@article{a850fa52-dd69-4d57-b3cc-d7184f00d01d,
  abstract     = {{In the present study, an extended two-pore theory is presented where the porous pathways are continuously distributed according to small-and large-pore mean radii and SDs. Experimental glomerular sieving data for Ficoll were analyzed using the model. In addition, several theoretical findings are presented along with analytic solutions to many of the equations used in distributed pore modeling. The results of the data analysis revealed a small-pore population in the glomerular capillary wall with a mean radius of 36.6 angstrom having a wide arithmetic SD of similar to 5 angstrom and a large-pore radius of 98.6 angstrom with an even wider SD of similar to 44 angstrom. The small-pore radius obtained in the analysis was close to that of human serum albumin (35.5 angstrom). By reanalyzing the data and setting the distribution spread of the model constant, we discovered that a narrow distribution is compensated by an increased mean pore radius and a decreased pore area-to-diffusion length ratio. The wide distribution of pore sizes obtained in the present analysis, even when considering electrostatic hindrance due to the negatively charged barrier, is inconsistent with the high selectivity to proteins typically characterizing the glomerular filtration barrier. We therefore hypothesize that a large portion of the variance in the distribution of pore sizes obtained is due to the molecular "flexibility" of Ficoll, implying that the true variance of the pore system is lower than that obtained using flexible probes. This would also, in part, explain the commonly noted discrepancy between the pore area-to-diffusion length ratio and the filtration coefficient.}},
  author       = {{Öberg, Carl and Rippe, Bengt}},
  issn         = {{1522-1466}},
  keywords     = {{two-pore model; log-normal distributed model; capillary permeability; Ficoll; standard deviation}},
  language     = {{eng}},
  number       = {{8}},
  pages        = {{844--854}},
  publisher    = {{American Physiological Society}},
  series       = {{American Journal of Physiology-Renal Physiology}},
  title        = {{A distributed two-pore model: theoretical implications and practical application to the glomerular sieving of Ficoll}},
  url          = {{http://dx.doi.org/10.1152/ajprenal.00366.2013}},
  doi          = {{10.1152/ajprenal.00366.2013}},
  volume       = {{306}},
  year         = {{2014}},
}