Pattern of breast cancer blood flow and metabolism, assessed using dual-acquisition FDG PET: correlation with tumor phenotypic features and pathological response to neoadjuvant chemotherapy.
Fiche publication
Date publication
février 2018
Journal
Journal of nuclear medicine : official publication, Society of Nuclear Medicine
Auteurs
Membres identifiés du Cancéropôle Est :
Dr BERTAUT Aurélie, Pr BRUNOTTE François, Pr COUTANT Charles, Pr FUMOLEAU Pierre, Pr COCHET Alexandre
Tous les auteurs :
Humbert O, Lasserre M, Bertaut A, Fumoleau P, Coutant C, Brunotte F, Cochet A
Lien Pubmed
Résumé
In breast cancer, early changes in tumor glucose metabolism and blood flow (BF) have been evaluated separately and are proposed to monitor tumor response to neoadjuvant chemotherapy (NAC). This study used a single FDG dual-acquisitions PET exam to simultaneously assess these imaging features and to answer two questions: (i) Do tumor blood flow (BF) and tumor metabolism correlated with the same pre-therapy tumor phenotypic features? (ii) Are early changes in tumor BF and metabolism in response to NAC comparable or complementary in the ability to predict the pathological complete response (pCR)? 150 women with breast cancer and an indication for NAC were prospectively included. Women had a baseline PET exam with a 2-min chest-centered dynamic acquisition, started at the time of F-FDG injection, followed by a delayed static PET acquisition performed at 90 min. Tumor BF was calculated from the dynamic image using a validated first-pass model, and tumor glucose metabolism (SUV) was calculated on the delayed acquisition. This dual-PET acquisition was repeated after the first cycle of NAC to measure early changes in tumor BF (ΔBF) and SUV (ΔSUV). A weak correlation was found between baseline tumor SUV and BF (r= 0.22; = 0.006). A higher baseline SUV was associated with all biological markers of tumor aggressiveness, including the Triple Negative Breast Cancer (TNBC) subtype (p<0.0001). In contrast, a high baseline tumor BF was only associated with obesity ( = 0.002). Mean ΔSUV was -44.6±27.4% and varied depending on the SBR grade, the overexpression of HER2+ and the lack of hormonal receptor expression ( = 0.04, p<0.001 and = 0.01, respectively). Mean ΔBF was -26.9±54.3% and a drastic reduction was only observed in HER2-positive subtypes (-58.7±30.0%), supporting the anti-angiogenic effect of Trastuzumab. Changes in tumor glucose metabolism outperformed changes in BF to predict pCR in all tumor subtypes: The Areas Under the Curve of ΔSUV were 0.82, 0.65 and 0.90 in the TNBC, HER2-positive and Luminal subtypes, respectively. Of the two biological hallmarks of cancer evaluated in this study, the reduction in tumor metabolism was more accurate than the reduction in BF to predict pCR in the different subtypes of breast cancer.
Mots clés
FDG PET, blood flow, breast cancer, metabolism, response
Référence
J. Nucl. Med.. 2018 Feb 9;: