New PET scan tool measures cancer blood flow across whole body at once
Researchers have automated a way to map tumor blood flow throughout the entire body using advanced PET imaging, potentially giving oncologists a faster way to track how well cancer treatments are working. The technique could streamline how doctors monitor metastatic prostate cancer and other cancers without the manual analysis that currently slows clinical adoption.
Originaltitel: Whole-body parametric mapping of tumour perfusion in metastatic prostate cancer using long axial field-of-view [<sup>15</sup>O]H<sub>2</sub>O PET
<p>Purpose</p><p>Tumour perfusion is a nutrient-agnostic biomarker for cancer metabolic rate. Use of tumour perfusion for cancer growth assessment has been limited by complicated image acquisition, image analysis and limited field-of-view scanners. Long axial field-of-view (LAFOV) PET scan using [O-15]H2O, allows quantitative assessment of whole-body tumour perfusion. We created a tool for automated creation of quantitative parametric whole-body tumour perfusion images in metastatic cancer.</p><p>Methods</p><p>Ten metastatic prostate cancer patients underwent dynamic LAFOV [O-15]H2O PET (Siemens, Quadra) followed by [F-18]PSMA-1007 PET. Perfusion was measured as [O-15]H2O K-1 (mL/min/mL) with a single-tissue compartment model and an automatically captured cardiac image-derived input function. Parametric perfusion images were automatically calculated using the basis-function method with initial voxel-wise delay estimation and a leading-edge approach. Subsequently, perfusion of volumes-of-interest (VOI) can be directly extracted from the parametric images. We used a [F-18]PSMA-1007 SUV 4 fixed threshold for tumour delineation and transferred these VOIs to the perfusion map.</p><p>Results</p><p>For 8 primary tumours, 64 lymph node metastases, and 85 bone metastases, median tumour perfusion were 0.19 (0.15-0.27) mL/min/mL, 0.16 (0.13-0.27) mL/min/mL, and 0.26 (0.21-0.39), respectively. The correlation between calculated perfusion from time-activity-curves and parametric images was excellent (r = 0.99, p < 0.0001).</p><p>Conclusion</p><p>LAFOV PET imaging using [O-15]H2O enables truly quantitative parametric images of whole-body tumour perfusion, a potential biomarker for guiding personalized treatment and monitoring treatment response.</p>