Difference between revisions of "Support:Documents:Examples:Estimate Change Neurotransmitter"

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== Estimating Input Delay and Rate Constants ==
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== Estimate neurotransmitter of PET (ntPET) imaging==
This example demonstrates an approach to simultaneously estimating input function delay along with parameters of the 1-tissue compartment (e.g. blood flow) model.
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Underwork
For the sake of generality, this could be interpreted as a dynamic contrast-enhanced (DCE) MRI or perfusion PET study.
 
  
  
== Example:  Estimating Input Delay and Rate Constants ==
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==== Background====
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Underwork
  
In this example, the model output are assumed to represent measurements of C<sub>T</sub>.  (To keep the example simple, intravascular concentration of tracer is ignored.)
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==== Kinetic model of ntPET ====
The values of the parameters p = [K<sub>1</sub>; k<sub>2</sub>; tau] will be estimated.
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'''Step 1''' To set the simulation in Matlab, create the above function and put in in a file called DelayExampleInput.m.
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== Examples==
 
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'''Step 2''' Create a 1-tissue compartment model
 
<pre>
 
% create new, empty model
 
cm = compartmentModel;
 
 
 
% define default values for parameters
 
cm = addParameter(cm, 'k1', 0.3);
 
cm = addParameter(cm, 'k2', 0.5);
 
cm = addParameter(cm, 'tau', 0.25);
 
cm = addParameter(cm, 'sa', 1);    % specific activity at t=0
 
cm = addParameter(cm, 'dk', 0.34); % decay constant
 
cm = addParameter(cm, 'tau', 0.25); % time delay
 
 
 
% add compartments
 
cm = addCompartment(cm, 'CT');
 
cm = addCompartment(cm, 'J');
 
 
 
% define the input(first column is time, second it concentration)
 
inputData = [
 
        0            0
 
    0.0500        0
 
    0.1000        0
 
    0.1500  14.5234
 
    0.2000  52.1622
 
    0.2500  76.6730
 
    0.3000  91.6416
 
    0.4000  103.0927
 
    0.5000  100.9401
 
    0.7000  83.5343
 
    0.8000  74.3628
 
    1.0000  59.7726
 
    1.2500  48.7530
 
    1.5000  43.0772
 
    1.7500  40.1924
 
    2.0000  38.6236
 
];
 
 
 
% determine spline coefficients for linear interpolation
 
ppM = lspline(inputData(:,1), inputData(:,2));
 
 
 
% analytically calculate derivative
 
[breaks, coefs, l, k, d] = unmkpp(ppM);
 
ppdMdtau = mkpp(breaks, repmat(k-1:-1:1,d*l,1) .* coefs(:,1:k-1), d);
 
X = {ppM, ppdMdtau};
 
 
 
cm = addInput(cm, 'Cp','sa','dk', 'DelayExampleInput', 'tau', X);
 
 
 
% connect compartments and inputs
 
cm = addLink(cm, 'L', 'Cp', 'CT', 'k1');
 
cm = addLink(cm, 'K', 'CT', 'J', 'k2');
 
 
 
% define the activity concentration in tissue pixel
 
cm = addOutput(cm, 'TissuePixel', {'CT','1'}, {'Cp','0'});
 
 
 
% specify scan frame times
 
st = [[0:5:85]' [5:5:90]']/60;  % division by 60 converts sec to min
 
cm = set(cm, 'ScanTime', st);
 
midScanTime = (st(:,1) + st(:,2)) / 2;
 
 
 
% solve the model and generate the output
 
[sol,solIndex] = solve(cm);
 
plot(midScanTime,sol(:,3),'LineWidth',2);
 
xlabel('Minutes');
 
ylabel('KBq/ml');
 
</pre>
 
 
 
 
 
The above figure is the model output (C<sub>T</sub>). Here, we use it as perfect experimental data that would be fitted.
 
 
 
'''Step 3''' Use model output as measured C<sub>T</sub> (perfect "data") and fit it
 
<pre>
 
% Set parameters: initial guess, lower and upper bounds for K1, k2 and tau
 
pinit=[0.1;0.2;0.1];
 
lb  =[0.01;0.01;0.01];
 
ub  =[1;1;5];
 
 
 
% specify parameters to be adjusted in fitting
 
cm=addSensitivity(cm,'k1','k2','tau');
 
 
 
% Experimental Data to be fit
 
cm=set(cm,'ExperimentalData',sol(:,3));
 
 
 
% Perform curve fitting
 
[pfit,qfitnull,modelfit,pp1,output]=fitGen(cm,pinit,lb,ub,'OLS');
 
</pre>
 
 
 
'''Step 4''' Examine model outputs using estimated parameter (pfit) and initial guess (pinit)
 
<pre>
 
% Solve model using estimated parameters
 
cm1=cm;
 
cm1=set(cm1,'ParameterValue','k1',pfit(1));
 
cm1=set(cm1,'ParameterValue','k2',pfit(2));
 
cm1=set(cm1,'ParameterValue','tau',pfit(3));
 
est_sol=solve(cm1);
 
 
 
% solve model using initial parameters
 
cm1=set(cm1,'ParameterValue','k1',pinit(1));
 
cm1=set(cm1,'ParameterValue','k2',pinit(2));
 
cm1=set(cm1,'ParameterValue','tau',pinit(3));
 
est_sol_init=solve(cm1);
 
 
 
plot(midScanTime,sol(:,3),'o',midScanTime,est_sol(:,3),'r-',midScanTime,est_sol_init(:,3),'g-','LineWidth',2);
 
xlabel('Minutes');
 
ylabel('KBq/ml');
 
legend('Data', 'Fit','Initial Guess');
 
</pre>
 

Latest revision as of 00:43, 24 February 2009

Estimate neurotransmitter of PET (ntPET) imaging

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Background

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Kinetic model of ntPET

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Examples

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