Litcius/Paper detail

Interim PET in Diffuse Large B-Cell Lymphoma

Lars Kurch, Andreas Hüttmann, Thomas Georgi, Jan Rekowski, Osama Sabri, Christine Hanoun, Regine Kluge, Ulrich Dührsen, Dirk Hasenclever

2020Journal of Nuclear Medicine40 citationsDOIOpen Access PDF

Abstract

In diffuse large B-cell lymphoma, early assessment of treatment response by 18 F-FDG PET may trigger treatment modification. Reliable identification of good and poor responders is important. We compared 3 competing methods of interim PET evaluation. Methods: Images from 449 patients participating in the "PET-Guided Therapy of Aggressive Non-Hodgkin Lymphomas" trial were reanalyzed by applying the visual Deauville score and the SUV-based qPET (q 5 quantitative) and DSUV max scales to interim PET scans performed after 2 cycles of chemotherapy. qPET relates residual lymphoma 18 F-FDG uptake to physiologic liver uptake, converting the ordinal Deauville scale into a continuous scale and permitting a direct comparison with the continuous DSUV max scale, which is based on SUV max changes between baseline and interim scans. Positive and negative predictive values were calculated for progression-free survival. Results: When established thresholds were used to distinguish between good and poor responders (visual Deauville score 1-3 vs. 4-5; DSUV max . 66% vs. % 66%), the positive predictive value was significantly lower with Deauville than DSUV max (38.4% vs. 56.6%; P 5 0.03). qPET and DSUV max were strongly correlated on the log scale (Pearson r 5 0.75). When plotted along corresponding percentiles, the positive predictive value curves for qPET and DSUV max were superimposable, with low values up to the 85th percentile and a steep rise thereafter. The recommended threshold of 66% SUV max reduction for the identification of poor responders was equivalent to qPET 5 2.26, corresponding to score 5 on the visual Deauville scale. The negative predictive value curves were also superimposable but remained flat between 80% and 70%. Conclusion: Continuous scales are better suited for interim PET-based outcome prediction than the ordinal Deauville scale. qPET and DSUV max essentially carry the same information. The proportion of poor-risk patients identified is less than 15%.

Topics & Concepts

Nuclear medicineStandardized uptake valueMedicinePercentilePositron emission tomographyInterimLymphomaDiffuse large B-cell lymphomaPredictive valueMathematicsPathologyInternal medicineStatisticsArchaeologyHistoryLymphoma Diagnosis and TreatmentMedical Imaging Techniques and ApplicationsRadiomics and Machine Learning in Medical Imaging