Model-based noninvasive estimation of arterial input function from dynamic H215O PET images

For the application of a kinetic model to PET data, it is necessary to obtain the arterial input function. Since arterial blood sampling is invasive and labor intensive, a method to evaluate the input function without arterial blood sampling is important. In case of the [¹⁵O] water injection study, because of the noise in the time activity curve obtained from the PET reconstructed image round the carotid artery region, a model based evaluation method might be promised. In this study, a model function is composed or combination of blood time activity curve function and tissue time activity curve function which is generated from blood activity curve function. The present method was applied to 15 of dynamic PET scans or ¹⁵O water (10 normal subjects, 10 : Rest, and 5 : Diamox) for normal volunteers. The time activity curve obtained was fitted with the above model function. The shapes or input function obtained was in agreement with that by arterial blood sampling. The accuracy of height of the peak was 14 % and the accuracy of area under the curve was 10 %. This study supposed that present method could be used for direct extraction of the carotid artery input function from the dynamic PET image, and could be used in a quantitative CBF study using ¹⁵O water PET.