Noninvasive parametric blood flow imaging of head and neck tumours using [15O]H2O and PET/CT

Purpose The aim of this study was to develop a simple noninvasive method for measuring blood flow using [O-15]H2O PET/CT for the head and neck area applicable in daily clinical practice. Patients and methods Fifteen dynamic [O-15]H2O PET emission scans with simultaneous online radioactivity measurements of radial arterial blood [Blood-input functions (IFs)] were performed. Two noninvasively obtained population-based input functions were calculated by averaging all Blood-IF curves corrected for patients' body mass and injected dose [standardized uptake value (SUV)-IF] and for body surface area (BSA-IF) and injected dose. Parametric perfusion images were calculated for each set of IFs using a linearized two-compartment model, and values for several tissues were compared using Blood-IF as the gold standard. Results On comparing all tissues, the correlation between blood flow obtained with the invasive Blood-IF and both SUV-IF and BSA-IF was significant (R-2=0.785 with P<0.001 and R-2=0.813 with P<0.001, respectively). In individual tissues, the performance of the two noninvasive methods was most reliable in resting muscle and slightly less reliable in tumour and cerebellar regions. In these two tissues, only BSA-IF showed a significant correlation with Blood-IF (R-2=0.307 with P=0.032 in tumours and R-2=0.398 with P<0.007 in the cerebellum). Conclusion The BSA-based noninvasive method enables clinically relevant delineation between areas of low and high blood flow in tumours. The blood flow of low-perfusion tissues can be reliably quantified using either of the evaluated noninvasive methods. Nucl Med Commun 33:1169-1178 (C) 2012 Wolters Kluwer Health vertical bar Lippincott Williams & Wilkins.