Abstract
Introduction3′-deoxy-3′-[18F]fluorothymidine (18F–FLT) positron emission tomography (PET) provides a non-invasive method to assess cellular proliferation and response to antitumor therapy. Quantitative 18F–FLT uptake metrics are being used for evaluation of proliferative response in investigational setting, however multi-center repeatability needs to be established. The aim of this study was to determine the repeatability of 18F–FLT tumor uptake metrics by re-analyzing individual patient data from previously published reports using the same tumor segmentation method and repeatability metrics across cohorts.MethodsA systematic search in PubMed, EMBASE.com and the Cochrane Library from inception-October 2016 yielded five 18F–FLT repeatability cohorts in solid tumors. 18F–FLT avid lesions were delineated using a 50% isocontour adapted for local background on test and retest scans. SUVmax, SUVmean, SUVpeak, proliferative volume and total lesion uptake (TLU) were calculated. Repeatability was assessed using the repeatability coefficient (RC = 1.96 × SD of test–retest differences), linear regression analysis, and the intra-class correlation coefficient (ICC). The impact of different lesion selection criteria was also evaluated.ResultsImages from four cohorts containing 30 patients with 52 lesions were obtained and analyzed (ten in breast cancer, nine in head and neck squamous cell carcinoma, and 33 in non-small cell lung cancer patients). A good correlation was found between test–retest data for all 18F–FLT uptake metrics (R2 ≥ 0.93; ICC ≥ 0.96). Best repeatability was found for SUVpeak (RC: 23.1%), without significant differences in RC between different SUV metrics. Repeatability of proliferative volume (RC: 36.0%) and TLU (RC: 36.4%) was worse than SUV. Lesion selection methods based on SUVmax ≥ 4.0 improved the repeatability of volumetric metrics (RC: 26–28%), but did not affect the repeatability of SUV metrics.ConclusionsIn multi-center studies, differences ≥ 25% in 18F–FLT SUV metrics likely represent a true change in tumor uptake. Larger differences are required for FLT metrics comprising volume estimates when no lesion selection criteria are applied.
Highlights
Despite the recent progress made in cancer diagnosis and treatment, cancer remains the number one cause of death in the Western world [1]
If these numbers are included in the analysis, repeatability of volumetric metrics (RC) of the standard uptake value (SUV) metrics improve by approximately 2%, yet do not influence the results significantly
If we calculate asymmetric RCs at lesion level, the overall upper (URC) and lower limits (LRC) of the RCs are: SUVmax (URC: 29.4%; LRC: -22.7%); SUVmean (URC: 29.0%; LRC: -22.5%); SUVpeak (URC: 26.0%; LRC 20.6%); total lesion uptake (TLU) (URC: 44.6%; LRC -30.9%); and volume (URC: 43.7%; LRC: -30.4%). These results show a slight shift in RCs of SUV metrics compared to the symmetric limits, remain within 30%
Summary
Despite the recent progress made in cancer diagnosis and treatment, cancer remains the number one cause of death in the Western world [1]. Response evaluation enables the treating physician to differentiate responders from non-responders, to stop the treatment in the non-responder cohort timely and reliably. This potentially helps to limit side effects of anticancer therapies and avoid treatment delay of subsequent lines, thereby reducing patient burden and healthcare costs. Morphological changes are often preceded by changes in tumor metabolism [4]. These early functional changes can be assessed using molecular imaging techniques such as PET, which may allow for more accurate early response evaluation
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