Visual and Semiquantitative Analyses for F-18 Fluorodeoxyglucose PET Scanning in Pulmonary Nodules 1 cm to 3 cm in Size

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Original article: General thoracic

Visual and Semiquantitative Analyses for F-18 Fluorodeoxyglucose PET Scanning in Pulmonary Nodules 1 cm to 3 cm in Size

Hiroaki Nomori, MD, PhD^a^,*, Kenichi Watanabe, MD^a, Takashi Ohtsuka, MD^a, Tsuguo Naruke, MD, PhD^a, Keiichi Suemasu, MD, PhD^a, Kimiichi Uno, MD, PhD^b

^a Department of Thoracic Surgery, Saiseikai Central Hospital, Tokyo, Japan
^b Nishidai Clinic, Tokyo, Japan

Accepted for publication July 29, 2004.

^* Address reprint requests to Dr Nomori, Department of Thoracic Surgery, Saiseikai Central Hospital, 1-4-17 Mita, Minato-ku, Tokyo 108-0073, Japan; (E-mail: hnomori{at}qk9.so-net.ne.jp).

BACKGROUND: While visual assessment is the simplest way to evaluate positronemission tomography (PET) with fluorodeoxyglucose (FDG), faintlypositive nodules are often difficult to evaluate. We performedvisual and semiquantitative analyses of pulmonary nodules from1 to 3 cm in size to determine the optimal method of analysisfor PET data, especially for faintly positive nodules on visualassessment.

METHODS: Positron emission tomography data were analyzed for 161 pulmonarynodules from 1 to 3 cm in size (108 malignant and 53 benignnodules). On visual assessment, FDG uptake by the nodules wasclassified into three grades in comparison with mediastinalblood pool, (ie, definitely positive, faintly positive, andnegative). In addition, FDG uptake was measured by the standarduptake value (SUV), the contrast ratio to the contralaterallung (CR-lung), and the contrast ratio to the cerebellum (CR-brain).Cut-off values for each variable were determined from receiveroperating characteristics (ROC) curves, and the values were2.5 for the SUV, 0.4 for the CR-lung, and 0.25 for the CR-brain.Nodules with FDG uptake above these cut-off values were definedas positive in each method.

RESULTS: Visual assessment showed definitely positive for 80 nodules(64 malignant and 16 benign), faintly positive for 22 (17 malignantand 5 benign), and negative for 59 nodules (27 malignant and32 benign). In the 139 nodules that were definitely positiveor negative by visual assessment, there were no significantdifferences of sensitivity and specificity among the four methods(visual assessment, SUV, CR-lung, and CR-brain). In the 17 malignantnodules that were faintly positive, the SUV did not detect anytrue-positive nodules, but the CR-lung and CR-brain showed 9and 5 true-positive nodules, respectively, resulting in a significantlyhigher sensitivity than the SUV (p < 0.001 and p = 0.02,respectively). Fifteen of 17 faintly positive malignant nodules(88%) were histologically well- or moderately-differentiatedadenocarcinoma.

CONCLUSIONS: The semiquantitative methods (SUV, CR-lung, and CR-brain) donot improve the efficacy of visual assessment alone for nodulesgraded as definitely positive or negative. However, faintlypositive nodules on visual assessment should be evaluated bythe CR-lung or CR-brain rather than the SUV, and are often differentiatedadenocarcinomas.

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