PT - JOURNAL ARTICLE AU - Madhusudan A. Savaikar AU - Timothy Whitehead AU - Sudipta Roy AU - Lori Strong AU - Nicole Fettig AU - Tina Prmeau AU - Jingqin Luo AU - Shunqiang Li AU - Richard L. Wahl AU - Kooresh I. Shoghi TI - Preclinical PERCIST and 25% of SUV<sub>max</sub> Threshold: Precision Imaging of Response to Therapy in Co-clinical <sup>18</sup>F-FDG PET Imaging of Triple-Negative Breast Cancer Patient–Derived Tumor Xenografts AID - 10.2967/jnumed.119.234286 DP - 2020 Jun 01 TA - Journal of Nuclear Medicine PG - 842--849 VI - 61 IP - 6 4099 - http://jnm.snmjournals.org/content/61/6/842.short 4100 - http://jnm.snmjournals.org/content/61/6/842.full SO - J Nucl Med2020 Jun 01; 61 AB - Numerous recent works highlight the limited utility of established tumor cell lines in recapitulating the heterogeneity of tumors in patients. More realistic preclinical cancer models are thought to be provided by transplantable, patient-derived xenografts (PDXs). The inter- and intratumor heterogeneity of PDXs, however, presents several challenges in developing optimal quantitative pipelines to assess response to therapy. The objective of this work was to develop and optimize image metrics for 18F-FDG PET to assess response to combination docetaxel and carboplatin therapy in a co-clinical trial involving triple-negative breast cancer PDXs. We characterized the reproducibility of standardized uptake value (SUV) metrics to assess response to therapy, and we optimized a preclinical PERCIST paradigm to complement clinical standards. Considerations in this effort included variability in tumor growth rate and tumor size, solid tumors versus tumor heterogeneity and a necrotic phenotype, and optimal selection of tumor slices versus whole tumor. Methods: A test–retest protocol was implemented to optimize the reproducibility of 18F-FDG PET SUV thresholds, SUVpeak metrics, and preclinical PERCIST parameters. In assessing response to therapy, 18F-FDG PET imaging was performed at baseline and 4 d after therapy. The reproducibility, accuracy, variability, and performance of imaging metrics to assess response to therapy were determined. We defined an index called the Quantitative Response Assessment Score to integrate parameters of prediction and precision and thus aid in selecting the optimal image metric to assess response to therapy. Results: Our data suggest that a threshold of 25% of SUVmax (SUV25) was highly reproducible (&lt;9% variability). The concordance and reproducibility of preclinical PERCIST were maximized at α = 0.7 and β = 2.8 and exhibited a high correlation with SUV25 measures of tumor uptake, which in turn correlated with the SUV of metabolic tumor. Conclusion: The Quantitative Response Assessment Score favors SUV25 followed by SUVpeak for a sphere with a volume of 14 mm3 (SUVP14) as optimal metrics of response to therapy. Additional studies are warranted to fully characterize the utility of SUV25 and preclinical PERCIST SUVP14 as image metrics for response to therapy across a wide range of therapeutic regimens and PDX models.