2008-10-20 Kaisa Liukko

• TPC
• Data analysis
• Blood analysis
• Metabolite correction
• Software
• Vocabulary

Determination of arterial input function from dynamic PET image

[¹⁵O]H₂O studies of abdominal region

Arterial blood time-activity curve (TAC) can be estimated from the abdominal aorta in the dynamic PET image. A blood TAC is extracted by thresholding and a recovery coefficient is calculted with a method based on one by Germano et al. For the determination of recovery coefficient, one needs to know the FWHM in the middle of the image (dependent on the scanner AND reconstruction method).

Program for this purpose: eabaort

For example:

eabaort -F=6.3 s06678dy1_mrp.img 10 15 s06678ab.dat

The user needs to check the planes where single aorta is clearly seen (e.g. ecat2tif). ECAT 6.3, ECAT 7 formats are supported. Functioning of Analyze format is not quaranteed. At least that format requires that the frame information must be added to the result blood file separately ( dftframe).
Output file (.dat) contains the extracted blood curve, which is calibrated and corrected for decay (see instructions below).

NOTE! Do not name the output file with extension .bld, .lis or .alg. These are reserved for uncorrected blood files.

Studies with PET-CT

If a CT image is available for the study, it should be used to asses the diameter of aorta. For example in Vinci you can use measure tool from tool box (see figure1). Measure diameter inside the artery wall, DO NOT include the walls. Make sure that the diameter is not varying too much between planes and write down the number of the plane which was used in the measuring. After that, call program eabaort with option -d

eabaort -d=22 -F=6.3 s06678dy1_mrp.img 11 14 s06678ab.dat

You still need to know the FWHM value. When you give the plane numbers, you should include the one where diameter was measured and choose planes around it.

Figure 1. (Click to enlarge)

[¹⁵O]H₂O studies of femoral region

Same methods will be tested for femoral region in near future.

Usage in calculation of perfusion image

The resulting blood TAC is automatically corrected for physical decay and dispersion, because it is retrieved from the same image as the target tissue. Time delay correction may be still needed (fitdelay). After that the blood curve can be used directly from step #2 to calculate perfusion image using autoradiography.

However, if old SUN program FlowImg is used in autoradiography, the resulting blood file must be interpolated to have 1 sec sample times, as required by this program. Also, it is useful to change the filename to have extension .fit.

For example to interpolate the TAC from 0 to 300 sec:

interpol -a -c0,300,1 s06678ab.dat s06678ab.fit

The interpolation time should be set from 0 to the end of last PET frame, but at least to the end of integration time.

Instead of autoradiography, also compartment model fitting can be used to produce perfusion images with program imgflow. This program can read directly the blood TAC produced with eabaort.

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References:

Liukko K, Oikonen V, Tolvanen T, Virtanen K, Viljanen A, Sipilä H, Nuutila P, Iozzo P. Non-Invasive Estimation of Subcutaneous and Visceral Adipose Tissue Blood Flow by Using [15-O]H2O PET with Image Derived Input Functions. Open Med Img J 2007;1:7-13.

Germano G, Chen BC, Huang S-C, Gambhir SS, Hoffman EJ, Phelps ME. Use of abdominal aorta for arterial input function determination in hepatic and renal PET studies. J Nucl Med 1992;33:613-620.

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