REPLY: We read the letter to the editor by Dr. Dale Bailey regarding our recently published article (1). We strongly disagree with the ideas expressed by Dr. Bailey for the reasons listed below.
In regard to the first objection raised by Dr. Bailey, we reaffirm that our work is indeed the first report that we know of on the use of combined PET/CT to image the distribution of combined 18F-fluoride and 18F-FDG for evaluation of malignancy. The reference by Hoegerle et al. (2) cited in our discussion is the only previously published report we know of on the combined administration of 18F-fluoride and 18F-FDG followed by PET (no CT). However, that administration was performed to anatomically localize 18F-FDG uptake based on the preferential skeletal uptake of 18F-fluoride, not to evaluate soft-tissue and skeletal lesions in a single imaging examination. Furthermore, in the study by Hoegerle et al. the images obtained after combined administration of 18F-fluoride and 18F-FDG were not compared with separate 18F-fluoride and 18F-FDG scans for each subject. Instead, 30 patients underwent only 18F-FDG PET, whereas a different 30 patients underwent combined 18F-FDG and 18F-fluoride PET. The key value of CT could not be studied by Hoegerle et al. since at that time combined PET/CT scanners were not available. We performed a detailed prospective clinical study in which each patient had an 18F-fluoride study alone, an 18F-FDG study alone, and a cocktail 18F-fluoride–18F-FDG study. This approach required 3 PET/CT scans for each patient and was critical to moving forward in validating the utility of our novel strategy.
Related to the statement that our text (“We successfully separated the metabolic skeletal uptake and allowed interpretation of the 18F and 18F-FDG tissue distribution, even though the 2 tracers were administered at the same time.”) is “nonsense,” we simply disagree. Perhaps we could have made it clearer that certain focal skeletal uptake of 18F-fluoride or 18F-FDG, in conjunction with CT abnormalities, denotes osseous metastases. We do not think this will be a universal approach for cancer detection (as we discussed in the paper), but the approach will certainly work in selected patients. It was exactly “from a purely scientific point of view” that we did we perform both separate and simultaneous PET scans with the 2 tracers in all subjects. Based on the visual analysis and comparison of these 3 separate scans, we noted that only 1 skull lesion seen on an 18F-fluoride scan was missed on the corresponding combined 18F-fluoride–18F-FDG scan, whereas all lesions seen on 18F-FDG PET/CT were also detected on the 18F-fluoride–18F-FDG scans. Thus, we concluded that the visual analysis alone (without the aid of a bone mask) of the combined 18F-fluoride–18F-FDG PET/CT allowed for accurate evaluation of the scans in this selected population with known cancers referred for detection of the extent of disease before therapy.
The other references cited by Dr. Bailey (3,4) do not report the combined administration of 18F-fluoride and 18F FDG but the different patterns of skeletal metastases, facts that we agree on and that are not disputed by our work.
We certainly hope that others who took the time to read our article in detail will in fact find it a detailed, rigorous prospective study. We look forward to multicenter clinical trials to further explore the advantages and limitations of our 18F-fluoride–18F-FDG cocktail approach to PET/CT imaging.
We also read the letter to the editor from Dr. Basu and want to thank him and his coauthor for their attention to our article and their comments. Just as we did in our paper, they also raise the challenging issue of determining the appropriate indications for the combined 18F-fluoride–18F-FDG PET/CT scan. We think that this approach will work for the initial staging of patients recently diagnosed with cancer, before initiation of treatment. Thus, the issues of bone marrow activation due to therapy and the metabolic flare phenomenon will not be present. In normal bones, 18F-fluoride has a diffuse and uniform uptake, and we believe that this will not mask the focal and intense 18F-FDG uptake in bone marrow metastases. Of course, these hypotheses remain to be demonstrated in studies with larger cohorts.
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