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Can ultrasound systems for risk stratification of thyroid nodules identify follicular carcinoma?超声系统能否对甲状腺结节进行危险分层以识别滤泡癌?
Cancer Cytopathol. 2020 Apr;128(4):250-259. doi: 10.1002/cncy.22235. Epub 2020 Jan 3.
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Molecular markers for the classification of cytologically indeterminate thyroid nodules.用于细胞学不确定甲状腺结节分类的分子标志物。
J Endocrinol Invest. 2020 Jun;43(6):703-716. doi: 10.1007/s40618-019-01164-w. Epub 2019 Dec 18.
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Performance of a Multigene Genomic Classifier in Thyroid Nodules With Indeterminate Cytology: A Prospective Blinded Multicenter Study.多基因基因组分类器在具有不确定细胞学的甲状腺结节中的表现:一项前瞻性盲法多中心研究。
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American Thyroid Association ultrasound system for the initial assessment of thyroid nodules: Use in stratifying the risk of malignancy of indeterminate lesions.美国甲状腺协会用于甲状腺结节初始评估的超声系统:用于对不确定病变的恶性风险进行分层。
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European Thyroid Association Guidelines for Ultrasound Malignancy Risk Stratification of Thyroid Nodules in Adults: The EU-TIRADS.欧洲甲状腺协会成人甲状腺结节超声恶性风险分层指南:欧盟甲状腺影像报告和数据系统(EU-TIRADS)
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Follicular thyroid cancer and Hürthle cell carcinoma: challenges in diagnosis, treatment, and clinical management.滤泡性甲状腺癌和 Hurthle 细胞癌:诊断、治疗和临床管理方面的挑战。
Lancet Diabetes Endocrinol. 2018 Jun;6(6):500-514. doi: 10.1016/S2213-8587(17)30325-X. Epub 2017 Nov 5.
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ROLE OF MOLECULAR MARKERS IN THYROID NODULE MANAGEMENT: THEN AND NOW.分子标志物在甲状腺结节管理中的作用:过去与现在。
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ACR Thyroid Imaging, Reporting and Data System (TI-RADS): White Paper of the ACR TI-RADS Committee.美国放射学会甲状腺影像报告和数据系统(TI-RADS):美国放射学会TI-RADS委员会白皮书
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超声与分子检测联合在贝塞斯达四类甲状腺结节恶性风险评估中的应用:单中心前瞻性研究结果。

Combination of ultrasound and molecular testing in malignancy risk estimate of Bethesda category IV thyroid nodules: results from a single-institution prospective study.

机构信息

Dipartimento di Medicina e Chirurgia, SSD Medicina Interna Ad Indirizzo Onco-Endocrinologico, Università di Parma-Azienda Ospedaliero-Universitaria di Parma, Parma, Italy.

Dipartimento di Scienze Mediche, Sezione di Endocrinologia e Medicina Interna, UOL Endocrinologia-Università Degli Studi di Ferrara, Ferrara, Italy.

出版信息

J Endocrinol Invest. 2021 Dec;44(12):2635-2643. doi: 10.1007/s40618-021-01571-y. Epub 2021 Apr 16.

DOI:10.1007/s40618-021-01571-y
PMID:33860907
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8572191/
Abstract

PURPOSE

Malignancy prediction in indeterminate thyroid nodules is still challenging. We prospectively evaluated whether the combination of ultrasound (US) risk stratification and molecular testing improves the assessment of malignancy risk in Bethesda Category IV thyroid nodules.

METHODS

Ninety-one consecutively diagnosed Bethesda Category IV thyroid nodules were prospectively evaluated before surgery by both ACR- and EU-TIRADS US risk-stratification systems and by a further US-guided fine-needle aspiration cytology (FNAC) for the following molecular testing: BRAFV600E, N-RAS codons 12/13, N-RAS codon 61, H-RAS codons 12/13, H-RAS codon 61, K-RAS codons 12/13, and K-RAS codon 61 point-mutations, as well as PAX8/PPARγ, RET/PC1, and RET/PTC 3 rearrangements.

RESULTS

At histology, 37% of nodules were malignant. No significant association was found between malignancy and either EU- or ACR-TIRADS. In total, 58 somatic mutations were identified, including 3 BRAFV600E (5%), 5 N-RAS 12/13 (9%), 13 N-RAS 61 (22%), 7 H-RAS 12/13 (12%), 11 H-RAS 61 (19%), 6 K-RAS 12/13 (10%), 8 K-RAS 61 (14%) mutations and 2 RET/PTC1 (4%), 0 RET/PTC 3 (0%), 3 PAX8/PPARγ (5%) rearrangements. At least one somatic mutation was found in 28% and 44% of benign and malignant nodules, respectively, although malignancy was not statistically associated with the outcome of the mutational test. However, the combination of ACR-, but not EU-, TIRADS with the presence of at least one somatic mutation, was significantly associated with malignant histology (P = 0.03).

CONCLUSION

US risk stratification and FNAC molecular testing may synergistically contribute to improve malignancy risk estimate of Bethesda category IV thyroid nodules.

摘要

目的

甲状腺结节良恶性的预测仍然具有挑战性。我们前瞻性评估了超声(US)风险分层和分子检测联合应用是否可以提高 Bethesda Ⅳ类甲状腺结节恶性风险的评估。

方法

91 例连续诊断的 Bethesda Ⅳ类甲状腺结节在术前分别通过 ACR 和 EU-TIRADS US 风险分层系统和进一步的 US 引导下细针穿刺细胞学(FNAC)进行以下分子检测:BRAFV600E、NRAS 密码子 12/13、NRAS 密码子 61、HRAS 密码子 12/13、HRAS 密码子 61、KRAS 密码子 12/13 和 KRAS 密码子 61 点突变,以及 PAX8/PPARγ、RET/PC1 和 RET/PTC3 重排。

结果

组织学上,37%的结节为恶性。EU-TIRADS 或 ACR-TIRADS 与恶性均无显著相关性。共发现 58 个种系突变,包括 3 个 BRAFV600E(5%)、5 个 NRAS 12/13(9%)、13 个 NRAS 61(22%)、7 个 HRAS 12/13(12%)、11 个 HRAS 61(19%)、6 个 KRAS 12/13(10%)、8 个 KRAS 61(14%)突变和 2 个 RET/PTC1(4%)、0 个 RET/PTC3(0%)、3 个 PAX8/PPARγ(5%)重排。良性和恶性结节分别有 28%和 44%至少存在一个种系突变,但突变检测的结果与恶性无统计学相关性。然而,ACR-TIRADS 与至少一个种系突变的联合应用,而不是 EU-TIRADS,与恶性组织学显著相关(P=0.03)。

结论

US 风险分层和 FNAC 分子检测可能协同提高 Bethesda Ⅳ类甲状腺结节的恶性风险评估。