Support:Documents:Examples:Estimate physiological parameters using a physiologically based model
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test
cm=compartmentModel; % Define parameters cm=addParameter(cm,'k1',0.1); cm=addParameter(cm,'k2','k1/Fs'); cm=addParameter(cm,'k3','VG/(Fis*KGa+Fis*ECg*KGa/KGg)'); cm=addParameter(cm,'k4','VG/(Fic*KGa+Fic*ICg*KGa/KGg)'); cm=addParameter(cm,'k5','VH/(Fic*KHa+Fic*ICg*KHa/KHg)'); cm=addParameter(cm,'Fb',0.02); % fraction of total space occupied by blood cm=addParameter(cm,'Fis',0.3); % fraction of total space occupied by interstitial space cm=addParameter(cm,'Fic','1-Fis-Fb'); % fraction of total space occupied by intracellular space cm=addParameter(cm,'F',1); cm=addParameter(cm,'Pg',Pg); % Plasma glucose concentration cm=addParameter(cm,'ISg',5.4); % Interstitial glucose concentration cm=addParameter(cm,'ICg',0.2); % Intracellular glucose concentration cm=addParameter(cm,'KGg',3.5); % Michaelis constant of glucose transporter (GLUT) for glucose cm=addParameter(cm,'KHg',0.13; % Michaelis constant of hexokinase for glucose cm=addParameter(cm,'KGa',3.5); % Michaelis constant of glucose transporter (GLUT) for glucose analog cm=addParameter(cm,'KHa',0.13; % Michaelis constant of hexokinase for glucose analog cm=addParameter(cm,'VG','(k1*Pg-k1*ISg)/(ISg/(KGg+ISg)-ICg/(KGg+ICg))'); % Maximal velocity of glucose transport for glucose=6FDG=2FDG cm=addParameter(cm,'VH','(k1*Pg-k1*ISg)/(ICg/(KHg+ICg))'); % Maximal velocity of glucose phosphorylation for glucose=6FDG=2FDG % Specific activity (sa): if the unit of image data is the same with that of input function, the specific activity is 1. cm=addParameter(cm,'sa',1); % Usually, the decay time correction of image data is performed. So, dk is zero. cm=addParameter(cm,'dk',0); % Define compartment cm=addCompartment(cm,'IS'); % interstitial cm=addCompartment(cm,'IC'); % intracellular cm=addCompartment(cm,'IP'); % intracellular phosphorylated cm=addCompartment(cm,'Junk'); % Define link cm=addLink(cm,'L','Cp','IS','k1'); cm=addLink(cm,'K','IS','Junk','k2'); cm=addLink(cm,'K','IS','IC','k3'); cm=addLink(cm,'K','IC','IS','k4'); cm=addLink(cm,'K','IC','IP','k5'); % Define output of the first injection plus the second injection wlistTotal={'IS','F';'IC','F;'IP','F'}; xlistTotal={'Ca','Fb'}; cm=addOutput(cm,'TissueTotal',wlistTotal,xlistTotal); cm=addSensitivity(cm,'k1','ISg','ICg','Fis','Fb'); [PET,PETIndex,Output,OutputIndex]=solve(cm);