Washout curve simulation by sum of three decaying exponentials: analysis using two or three exponentials.
Model number: 0276
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Typical washout curves of solutes injected into an organ or into the body can be decomposed into sums of exponentially decaying functions, e.g. C = C10*exp(-k1*t) + C20*exp(-k2*t) + C30*exp(-k3*t). A set of noiseless data obtained from exact solutions is called EXPdecay. It includes 5 representation of a solution, rounded off to 6, 4, 3, 2, and 1 digit, to test the influence of accuracy on the parameter estimation. See notes page of project file for more information. Other such data sets, with and without added noise, and of different duration can be tested. The format of the .cdata file uses the first line for the data titles, enclosed in double quotes separated by tabs or spaces. A second line (optional) may contain the data units in double quotes separated by tabs or spaces. Subsequent lines contain the data separated by tabs or spaces. There must be at least two columns. The first column is the independent variable and must be in ascending sequence. EXPdecay.cdata file :"time" "C_del_2_6" "C_del_2_4" "C_del_2_3" "C_del_2_2" "C_del_2 _1" "sec" "mM" "mM" "mM" "mM" "mM" 0 1 1 1 1 1 2 .453386 .4534 .453 .45 .5 4 .314385 .3144 .314 .31 .3 6 .248923 .2489 .249 .25 .2 8 .205966 .206 .206 .21 .2 10 .174064 .1341 .134 .13 .1
Figure: Fit of sum of two exponentials to simulated washout data. C1 and C2 are the two exponentially decaying curves. Circles (C_del_2_6) are plots of the simulated data using sum of three exponentially decaying curves.
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- Enzymatic reactions in series.
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- Phospho-gluco isomerase enzymatic reaction.
- Three reactions in series with no enzymes.
- Michaelis-Menton reactions in series.
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[This page was last modified 02Nov16, 2:42 pm.]
Model development and archiving support at physiome.org provided by the following grants: NIH/NIBIB BE08407 Software Integration, JSim and SBW 6/1/09-5/31/13; NIH/NHLBI T15 HL88516-01 Modeling for Heart, Lung and Blood: From Cell to Organ, 4/1/07-3/31/11; NSF BES-0506477 Adaptive Multi-Scale Model Simulation, 8/15/05-7/31/08; NIH/NHLBI R01 HL073598 Core 3: 3D Imaging and Computer Modeling of the Respiratory Tract, 9/1/04-8/31/09; as well as prior support from NIH/NCRR P41 RR01243 Simulation Resource in Circulatory Mass Transport and Exchange, 12/1/1980-11/30/01 and NIH/NIBIB R01 EB001973 JSim: A Simulation Analysis Platform, 3/1/02-2/28/07.