F931
A numerical model of the renal distal tubule
F951
276
electrophysiology
kidney
This is the CellML description of Chang and Fujita's 1999 numerical model of the renal distal tubule. It should be noted that the initial conditions used in this description represent those in the early distal tubule. For model representations of the late distal tublule, these initial values should be replaced with those listed in the orginal paper for the late distal tubule. The model from the original paper has been modified slightly to include differential equations defining the change in solute concentrations over time. These equations were added to facilitate the use of the CellML code in CMISS.
Renal Distal Tubule
A CellML description of Chang and Fujita's 1999 numerical model of the
renal distal tubule.
This is the CellML description of Chang and Fujita's 1999 numerical model of the renal distal tubule. It should be noted that the initial conditions used in this description represent those in the early distal tubule. For model representations of the late distal tublule, these initial values should be replaced with those listed in the orginal paper for the late distal tubule. The model from the original paper has been modified slightly to include differential equations defining the change in solute concentrations over time. These equations were added to facilitate the use of the CellML code in CMISS.
The new version of this model has been re-coded to remove the reaction element and replace it with a simple MathML description of the model reaction kinetics. This is thought to be truer to the original publication, and information regarding the enzyme kinetics etc will later be added to the metadata through use of an ontology. The model runs in the PCEnv simulator but gives a flat output.
Catherine Lloyd
Toshiro
Fujita
May
Catherine
Lloyd
Catherine Lloyd
Hangil
Chang
The University of Auckland, Auckland Bioengineering Institute
10362782
keyword
c.lloyd@auckland.ac.nz
1999-01-01
May
Lloyd
Catherine
The University of Auckland
Auckland Bioengineering Institute
2003-02-17T00:00:00+00:00
American Journal of Physiology
2007-06-05T09:18:35+12:00