中华放射学杂志
中華放射學雜誌
중화방사학잡지
Chinese Journal of Radiology
2014年
2期
100-104
,共5页
李红文%刘斌%吴兴旺%王万勤%刘文冬
李紅文%劉斌%吳興旺%王萬勤%劉文鼕
리홍문%류빈%오흥왕%왕만근%류문동
甲状腺结节%体层摄影术,X线计算机%对比研究
甲狀腺結節%體層攝影術,X線計算機%對比研究
갑상선결절%체층섭영술,X선계산궤%대비연구
Thyroid nodule%Tomography,X-ray computed%Comparative study
目的 探讨CT能谱成像对甲状腺良恶性结节的检出及鉴别诊断价值.方法 回顾性分析经病理证实的88例甲状腺结节患者能谱CT图像,所有患者均行颈部能谱CT平扫,其中33例同时行双期增强扫描.根据病理结果,将结节分为良、恶性两组,采用Wilcoxon秩和检验比较两组平扫及增强扫描碘浓度、能谱曲线斜率和有效原子序数.绘制ROC曲线,得出最佳诊断阈值及诊断的敏感度和特异度.结果 88例患者共检出甲状腺结节106个,其中良性76个、恶性30个.两组平扫期碘浓度、曲线斜率、有效原子序数的中位数,良性组分别2.35×100 μg/ml、0.29和7.71,恶性组分别为-0.51×100 μg/ml、-0.06和7.52,差异均有统计学意义(Z值分别为-3.072、-3.107和-3.055,P值均<0.05);动脉期碘浓度、曲线斜率、有效原子序数的中位数,良性组分别27.22×100 μg/ml、3.23和9.10,恶性组分别为18.81×100 μg/ml、2.24和8.69,差异也均有统计学意义(Z值分别为-2.582、-2.582和-2.564,P值均<0.05).静脉期两组各项参数差异均无统计学意义(P值均>0.05).平扫期诊断甲状腺恶性结节最佳碘浓度值为-0.35×100 μg/ml,敏感度为56.7%,特异度为73.7%.动脉期最佳碘浓度为22.91×100 μg/ml,敏感度为76.2%,特异度为75.0%.结合平扫、动脉期碘浓度诊断恶性结节,敏感度为81.2%,特异度73.3%,准确度81.6%,高于单独平扫或动脉期.结论 能谱CT成像能够定量评估甲状腺结节碘含量,对鉴别结节良恶性有一定价值.
目的 探討CT能譜成像對甲狀腺良噁性結節的檢齣及鑒彆診斷價值.方法 迴顧性分析經病理證實的88例甲狀腺結節患者能譜CT圖像,所有患者均行頸部能譜CT平掃,其中33例同時行雙期增彊掃描.根據病理結果,將結節分為良、噁性兩組,採用Wilcoxon秩和檢驗比較兩組平掃及增彊掃描碘濃度、能譜麯線斜率和有效原子序數.繪製ROC麯線,得齣最佳診斷閾值及診斷的敏感度和特異度.結果 88例患者共檢齣甲狀腺結節106箇,其中良性76箇、噁性30箇.兩組平掃期碘濃度、麯線斜率、有效原子序數的中位數,良性組分彆2.35×100 μg/ml、0.29和7.71,噁性組分彆為-0.51×100 μg/ml、-0.06和7.52,差異均有統計學意義(Z值分彆為-3.072、-3.107和-3.055,P值均<0.05);動脈期碘濃度、麯線斜率、有效原子序數的中位數,良性組分彆27.22×100 μg/ml、3.23和9.10,噁性組分彆為18.81×100 μg/ml、2.24和8.69,差異也均有統計學意義(Z值分彆為-2.582、-2.582和-2.564,P值均<0.05).靜脈期兩組各項參數差異均無統計學意義(P值均>0.05).平掃期診斷甲狀腺噁性結節最佳碘濃度值為-0.35×100 μg/ml,敏感度為56.7%,特異度為73.7%.動脈期最佳碘濃度為22.91×100 μg/ml,敏感度為76.2%,特異度為75.0%.結閤平掃、動脈期碘濃度診斷噁性結節,敏感度為81.2%,特異度73.3%,準確度81.6%,高于單獨平掃或動脈期.結論 能譜CT成像能夠定量評估甲狀腺結節碘含量,對鑒彆結節良噁性有一定價值.
목적 탐토CT능보성상대갑상선량악성결절적검출급감별진단개치.방법 회고성분석경병리증실적88례갑상선결절환자능보CT도상,소유환자균행경부능보CT평소,기중33례동시행쌍기증강소묘.근거병리결과,장결절분위량、악성량조,채용Wilcoxon질화검험비교량조평소급증강소묘전농도、능보곡선사솔화유효원자서수.회제ROC곡선,득출최가진단역치급진단적민감도화특이도.결과 88례환자공검출갑상선결절106개,기중량성76개、악성30개.량조평소기전농도、곡선사솔、유효원자서수적중위수,량성조분별2.35×100 μg/ml、0.29화7.71,악성조분별위-0.51×100 μg/ml、-0.06화7.52,차이균유통계학의의(Z치분별위-3.072、-3.107화-3.055,P치균<0.05);동맥기전농도、곡선사솔、유효원자서수적중위수,량성조분별27.22×100 μg/ml、3.23화9.10,악성조분별위18.81×100 μg/ml、2.24화8.69,차이야균유통계학의의(Z치분별위-2.582、-2.582화-2.564,P치균<0.05).정맥기량조각항삼수차이균무통계학의의(P치균>0.05).평소기진단갑상선악성결절최가전농도치위-0.35×100 μg/ml,민감도위56.7%,특이도위73.7%.동맥기최가전농도위22.91×100 μg/ml,민감도위76.2%,특이도위75.0%.결합평소、동맥기전농도진단악성결절,민감도위81.2%,특이도73.3%,준학도81.6%,고우단독평소혹동맥기.결론 능보CT성상능구정량평고갑상선결절전함량,대감별결절량악성유일정개치.
Objective To explore the value of gemstone spectral imaging (GSI) in the detection and differential diagnosis of benign and malignant thyroid nodules.Methods The spectral CT images in 88 patients with thyroid nodules were analyzed retrospectively.All the patients underwent spectral CT scanning,including 33 patients undergoing biphase enhanced CT imaging.Nodules were divided into benign and malignant ones according to histopathologic results.The iodine concentration,slope of spectral curve,effective atomic number in non-enhanced and enhanced scanning were compared between benign and malignant group by the Wilcoxon rank sum test,respectively.The optimal iodine concentration threshold to predict malignancy was obtained by receiver operating characteristic curve (ROC),sensitivity and specificity were achieved.Results A total of 106 nodules were detected,including 76 benign and 30 malignant nodules.In non-contrast CT imaging,the average iodine concentration,slope of spectral curve,effective atomic number of were 2.35 × 100 μg/ml,0.29 and 7.71 for benign group:-0.51 × 100 μg/ml,-0.06 and 7.52 for malignant group (Z value were-3.072,-3.107 and-3.055,respectively ; P < 0.05).In the arterial phase,the average iodine concentration,slope of spectral curve,effective atomic number of the two group were 27.22 × 100 μg/ml,3.23 and 9.10 for benign group; 18.81 × 100 μg/ml,2.24 and 8.69 for malignant group (Z value were-2.582,-2.582 and-2.564,respectively; P < 0.05).In venous phase,no significant difference was found for each parameter between the two groups (P > 0.05).The optimal iodine concentration to predict malignancy was-0.35 × 100 μg/ml in non-enhanced phase with 56.7% sensitivity and 73.7% specificity.The optimal iodine concentration was 22.91 × 100 μg/ml in arterial phase,with 76.2% sensitivity and 75.0% specificity.Using iodine concentration to predict malignancy in both noncontrast phase and arterial phase,the sensitivity and specificity were 81.2% and 73.3%,while the accuracy was 81.6%.Conclusion Gemstone spectral CT imaging can quantitatively evaluate the iodine content of thyroid nodules,having a potential value in differential diagnosis of thyroid nodules.