21 research outputs found
The Kinetics and Reproducibility of 18
We evaluated the kinetics of (18)F-sodium fluoride (NaF) and reassessed the recommended dose, optimal uptake period, and reproducibility using a current-generation PET/CT scanner. METHODS: In this prospective study, 73 patients (31 patients with multiple myeloma or myeloma precursor disease and 42 with prostate cancer) were injected with a mean administered dose of 141 MBq of (18)F-NaF. Sixty patients underwent 3 sequential sessions of 3-dimensional PET/CT of the torso beginning ~15 min after (18)F-NaF injection, followed by a whole-body 3-dimensional PET/CT at 2 h. The remaining 13 prostate cancer patients were imaged only at 2 and 3 h after injection. Twenty-one prostate cancer patients underwent repeat baseline studies (mean interval, 5.9 d) to evaluate reproducibility. RESULTS: The measured effective dose was 0.017 mSv/MBq, with the urinary bladder, osteogenic cells, and red marrow receiving the highest doses at 0.080, 0.077, and 0.028 mGy/MBq, respectively. Visual analysis showed that uptake in both normal and abnormal bone increased with time; however, the rate of increase decreased with time. A semiautomated workflow provided objective uptake parameters, including the mean standardized uptake value of all pixels within bone with SUVs greater than 10 and the average of the mean SUV of all malignant lesions identified by the algorithm. The values of these parameters for the images beginning at ~15 min and ~35 min were significantly different (0.3% change/minute). Differences between the later imaging time points were not significant (P < 0.01). Repeat baseline studies showed high intraclass correlations (>0.9) and relatively low critical percent change (the value above which a change can be considered real) for these parameters. The tumor-to-normal bone ratio, based on the SUV(max) of identified malignant lesions, decreased with time; however, this difference was small, estimated at ~0.16%/min in the first hour. CONCLUSION: (18)F-NaF PET/CT images obtained with modest radiation exposures can result in highly reproducible imaging parameters. Although the tumor-to-normal bone ratio decreases slightly with time, the high temporal dependence during uptake periods < 30 min may limit accurate quantitation. An uptake period of 60 ± 30 min has limited temporal dependence while maintaining high tumor-to-normal bone ratio
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Longitudinal 18f-FDG-PET-CT Analysis in Newly Diagnosed Multiple Myeloma (NDMM) Patients Following Carfilzomib, Lenalidomide, Dexamethasone Induction and Lenalidomide Maintenance (CRd-R)
Abstract
Introduction:
Multiple myeloma (MM) is a patchy bone marrow based malignancy of plasma cells, resulting in painful bone lytic lesions that can be visualized by 18F-FDG-PET-CT. We treated 45 NDMM patients with CRd-R therapy that resulted in high rates of minimal residual disease (MRD) negativity (62%)(Korde et al. JAMA Onc 2015). In this study, we assessed longitudinal FDG response through lenalidomide (Len) maintenance period and aimed to correlate with clinical findings and MRD status.
Methods:
The details of treatment received, study design and patients' characteristics have already been published. As part of the study design, all patients had serial PET imaging at baseline, after achievement of CR and/or at completion of 8 cycles of CRd, and at year-1 and -2 of Len maintenance, or termination of protocol therapy. Whole body (vertex to toes) static FDG imaging was performed at 1-hour post injection, implemented according to institutional practice. Focal lesions on FGD were defined as: increased uptake (above background reference) within the bone, (excluding articular regions due to high prevalence and likelihood of confounding arthritic disease), maximum standardized uptake value (SUV) >1.5 for lesion size on CT ranging from 0.5-1.0 cm, or maximum SUV >2.5 for lesions >1.0 cm.
Results:
At baseline, 37/45(82.2%) patients had FDG-positive lesions and 8/45(17.8%) were negative. Median follow-up for longitudinal analysis is 30.1 months. Among initial FDG-negative patients, 7/8 (87.5%) patients remained negative throughout follow-up; 1/8 (12.5%) patients developed a sclerotic FDG-positive lesion deemed not to be progression (rib 5 SUV 1.7). Among the 37 patients with baseline FDG-positive lesions, 12/37(32.4%) patients had complete resolution of FDG-PET-CTs (FDG-responders); 25/37(67.5%) remained FDG-long-term positive at time of last protocol scan. Eight of the 25(32%) FDG-long-term positive patients met IMWG criteria for progression, compared to 0/12 FDG-responders (p value=0.04). For patients with available data, MRD negative status after initial CRd (prior to Len maintenance) was not associated with long-term PET-CT response [19/24(79.2%) vs. 8/11(72.7%), FDG-long-term positive vs. FDG-responders, p=NS]. For the remaining FDG-long-term positive patients not meeting progression criteria, all 17 patients had low-positive persistent FDG with decreased or partial SUV response that decreased over time while on Len maintenance.
Conclusions:
In patients receiving CRd followed by long-term Len maintenance, 68% of baseline FDG-positive patients have persistent longitudinal FDG-positive myeloma lesions. While there is an increased risk of clinical progression among these patients, the majority showed low-positive FDG lesion uptake that decreased over time with long-term Len maintenance. Long-term resolution of FDG-positive lesions is not associated with MRD status after initial CRd therapy. Further follow-up is needed to examine the significance of persistent FDG-positive lesions in relationship to residual disease and mechanisms of resistance.
Figure Figure.
Disclosures
Korde: Medscape: Honoraria. Hassoun:Takeda: Consultancy, Research Funding; Celgene: Research Funding; Novartis: Consultancy; Binding Site: Research Funding. Landgren:Medscape Myeloma Program: Honoraria; BMS: Honoraria; Merck: Honoraria; Takeda: Honoraria; Amgen: Honoraria, Research Funding; Celgene: Honoraria, Research Funding