Scintigraphic and Ultrasonographic Appearance in Different Tumor Stages of Thyroid Carcinoma
Szintigraphische Speichermuster und Sonomorphologie von Schilddrüsenkarzinomen in unterschiedlichen Tumorstadien
E. Kresnik, H.-J. Gallowitsch, P. Mikosch, O. Unterweger, Iris Gomez, P. Lind
{"title":"Scintigraphic and Ultrasonographic Appearance in Different Tumor Stages of Thyroid Carcinoma\n Szintigraphische Speichermuster und Sonomorphologie von Schilddrüsenkarzinomen in unterschiedlichen Tumorstadien","authors":"E. Kresnik, H.-J. Gallowitsch, P. Mikosch, O. Unterweger, Iris Gomez, P. Lind","doi":"10.1046/j.1563-2571.2000.200107.x","DOIUrl":null,"url":null,"abstract":"<p><b>Summary:</b> Rationale and objectives. Scintigraphy is routinely used in evaluating thyroid nodules. Functioning nodules are reported to have a low probability of being malignant. Therefore cancer should appear hypofunctioning or “cold” on scintiscan. The aim of the study was to compare the scinitgraphic pattern in different tumor stages of thyroid carcinoma. In addition, sonographic results are evaluated. In 151 patients with thyroid carcinoma <sup>99m</sup>Tc-pertechnetate scans were evaluated retrospectively by a visual inspection scoring method (A = no significant uptake to D = nodular uptake superior to normal thyroid tissue). Planar images were taken using a small field thyroid gamma camera. There were 52 patients with pT1 carcinoma (2 × follicular and 50 × papillary). The mean tumor size was 0.56 ± 0.26 cm. The scintigraphic results were A and B in 5.7 % (n = 6), C in 73 % (n = 38), D in 15.6 % (n = 8). Out of 40 patients with pT2 carcinoma, 34 had a papillary, 6 a follicular histology. Mean tumor size was 1.66 ± 0.49 cm. The scintiscan was A in 12.5 % (n = 5), B in 32.5 % (n = 13), C in 42.5 % (n = 17) and D in 12.5 % (n = 5). There were 11 patients with pT3 carcinoma (4 × papillary, 7 × follicular).The mean tumor size was 3.96 ± 0.88 cm in diameter. Scintiscan was A in 72.7 % (n = 8), C in 27.3 % (n = 3). Among 48 patients with pT4 carcinoma (2 × follicular, 1 × nondifferentiated, 45 × papillary), scan was A in 41.6 % (n = 20), B in 14.5 % (n = 7), C in 33.3 % (n = 16) and D in 10.4 % (n = 5). Mean tumor size was 2.16 ± 1.45 cm (7 carcinomas È 1 cm, 23 × 1 2 cm, the remaining > 2 cm). Tumor size plays an important role in routinely used planar scintigraphy. Nodules greater than 2 cm in diameter tend to appear cold but microcarcinomas (È 1 cm) are often indifferent on scan. Therefore, planar <sup>99m</sup>Tc-pertechnetate scintigraphy is of little value in evaluating small thyroid nodules. In order to diagnose small thyroid nodules, ultrasonography and ultrasonographically guided FNAB should be recommended as the initial diagnostic steps in clinical routine.</p>","PeriodicalId":6945,"journal":{"name":"Acta medica Austriaca","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2002-12-11","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://sci-hub-pdf.com/10.1046/j.1563-2571.2000.200107.x","citationCount":"10","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Acta medica Austriaca","FirstCategoryId":"1085","ListUrlMain":"https://onlinelibrary.wiley.com/doi/10.1046/j.1563-2571.2000.200107.x","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 10
Abstract
Summary: Rationale and objectives. Scintigraphy is routinely used in evaluating thyroid nodules. Functioning nodules are reported to have a low probability of being malignant. Therefore cancer should appear hypofunctioning or “cold” on scintiscan. The aim of the study was to compare the scinitgraphic pattern in different tumor stages of thyroid carcinoma. In addition, sonographic results are evaluated. In 151 patients with thyroid carcinoma 99mTc-pertechnetate scans were evaluated retrospectively by a visual inspection scoring method (A = no significant uptake to D = nodular uptake superior to normal thyroid tissue). Planar images were taken using a small field thyroid gamma camera. There were 52 patients with pT1 carcinoma (2 × follicular and 50 × papillary). The mean tumor size was 0.56 ± 0.26 cm. The scintigraphic results were A and B in 5.7 % (n = 6), C in 73 % (n = 38), D in 15.6 % (n = 8). Out of 40 patients with pT2 carcinoma, 34 had a papillary, 6 a follicular histology. Mean tumor size was 1.66 ± 0.49 cm. The scintiscan was A in 12.5 % (n = 5), B in 32.5 % (n = 13), C in 42.5 % (n = 17) and D in 12.5 % (n = 5). There were 11 patients with pT3 carcinoma (4 × papillary, 7 × follicular).The mean tumor size was 3.96 ± 0.88 cm in diameter. Scintiscan was A in 72.7 % (n = 8), C in 27.3 % (n = 3). Among 48 patients with pT4 carcinoma (2 × follicular, 1 × nondifferentiated, 45 × papillary), scan was A in 41.6 % (n = 20), B in 14.5 % (n = 7), C in 33.3 % (n = 16) and D in 10.4 % (n = 5). Mean tumor size was 2.16 ± 1.45 cm (7 carcinomas È 1 cm, 23 × 1 2 cm, the remaining > 2 cm). Tumor size plays an important role in routinely used planar scintigraphy. Nodules greater than 2 cm in diameter tend to appear cold but microcarcinomas (È 1 cm) are often indifferent on scan. Therefore, planar 99mTc-pertechnetate scintigraphy is of little value in evaluating small thyroid nodules. In order to diagnose small thyroid nodules, ultrasonography and ultrasonographically guided FNAB should be recommended as the initial diagnostic steps in clinical routine.