OBJECTIVE: To evaluate the diagnostic performance of 18F-2-deoxy-2-fluoro-D-glucose-positron emission tomography (FDG-PET) in the evaluation of breast cancer recurrence and metastases. DATA SOURCES: Articles published in medical journals during January 1995-June 2004 were identified by a systematic Medline search, supplemented by a manual search of the references listed in original and review articles. STUDY SELECTION: Studies that evaluated FDG-PET with a dedicated camera for the diagnosis of breast cancer recurrence or metastases, and reporting sufficient data to permit calculation of sensitivity and specificity, were included in the analysis. DATA EXTRACTION: Two reviewers independently reviewed the eligibility and abstracted data regarding the sample population, technical imaging characteristics of FDG-PET, and the number of true positives, true negatives, false positives and false negatives. Differences between readers were resolved by consensus. DATA SYNTHESIS: We used meta-analytic methods to estimate the pooled sensitivity, false positive rate, and the maximum joint sensitivity and specificity. Eighteen studies met the inclusion criteria. Sixteen studies included patient-based data, comprising a sample size of 808 subjects, and eight studies included lesion-based data, totaling 1013 lesions. Among the studies with patient-based data, the median sensitivity was 92.7%, and the median specificity was 81.6%. The pooled sensitivity was 90% [95% confidence interval (86.8-93.2)], and the pooled false positive rate was 11% [95% confidence interval (7.8-14.6)], after the exclusion of outliers. The maximum joint sensitivity and specificity, was 88% [95% confidence interval (86.0-90.6)]. CONCLUSION: These results indicate that FDG-PET is a valuable tool for detecting breast cancer recurrence and metastases.
OBJECTIVE: To evaluate the diagnostic performance of 18F-2-deoxy-2-fluoro-D-glucose-positron emission tomography (FDG-PET) in the evaluation of breast cancer recurrence and metastases. DATA SOURCES: Articles published in medical journals during January 1995-June 2004 were identified by a systematic Medline search, supplemented by a manual search of the references listed in original and review articles. STUDY SELECTION: Studies that evaluated FDG-PET with a dedicated camera for the diagnosis of breast cancer recurrence or metastases, and reporting sufficient data to permit calculation of sensitivity and specificity, were included in the analysis. DATA EXTRACTION: Two reviewers independently reviewed the eligibility and abstracted data regarding the sample population, technical imaging characteristics of FDG-PET, and the number of true positives, true negatives, false positives and false negatives. Differences between readers were resolved by consensus. DATA SYNTHESIS: We used meta-analytic methods to estimate the pooled sensitivity, false positive rate, and the maximum joint sensitivity and specificity. Eighteen studies met the inclusion criteria. Sixteen studies included patient-based data, comprising a sample size of 808 subjects, and eight studies included lesion-based data, totaling 1013 lesions. Among the studies with patient-based data, the median sensitivity was 92.7%, and the median specificity was 81.6%. The pooled sensitivity was 90% [95% confidence interval (86.8-93.2)], and the pooled false positive rate was 11% [95% confidence interval (7.8-14.6)], after the exclusion of outliers. The maximum joint sensitivity and specificity, was 88% [95% confidence interval (86.0-90.6)]. CONCLUSION: These results indicate that FDG-PET is a valuable tool for detecting breast cancer recurrence and metastases.
Authors: Haixun Guo; Jie Lu; Helen Hathaway; Melanie E Royce; Eric R Prossnitz; Yubin Miao Journal: Bioconjug Chem Date: 2011-07-20 Impact factor: 4.774