Top

European Radiology

Published in:

01-03-2020 | Ultrasound | Ultrasound

Ultrasound malignancy risk stratification of thyroid nodules based on the degree of hypoechogenicity and echotexture

Authors: Ji Ye Lee, Dong Gyu Na, So Jin Yoon, Hye Yun Gwon, Wooyul Paik, Taeeun Kim, Jin Yub Kim

Published in: European Radiology | Issue 3/2020

Abstract

Objectives

The ultrasound (US) lexicon of nodule echogenicity and echotexture is one of the major differences among various risk stratification systems of thyroid nodules. This study aimed to stratify the US malignancy risk of thyroid nodules based on their degree of hypoechogenicity and echotexture.

Material and methods

This retrospective study included a total of 2255 consecutive thyroid nodules (≥ 1 cm) with final diagnoses (malignancy rate, 13%) from 2011 to 2016. Thyroid nodules were stratified according to the US degree of hypoechogenicity (mild, moderate, or marked hypoechogenicity) and echotexture (homogeneous vs. heterogeneous). The calculated malignancy risk was compared between each category.

Results

There was no significant difference of malignancy risk between the homogeneous markedly hypoechoic and moderately hypoechoic nodules (p ≥ .18). However, the malignancy risks of markedly and moderately hypoechoic nodules were significantly higher than those of mildly hypoechoic nodules (p < .001). Heterogeneous predominantly hypoechoic thyroid nodules showed a significantly higher malignancy risk than predominantly iso- or hyperechoic thyroid nodules (p < .001). There were no significant differences of malignancy risk between heterogeneous predominantly hypoechoic and homogeneous hypoechoic nodules according to the degree of hypoechogenicity (p ≥ .12) and between heterogeneous predominantly iso- or hyperechoic nodules and homogeneous iso- or hyperechoic thyroid nodules (p = .36).

Conclusions

The malignancy risk of nodule hypoechogenicity is stratified as mild vs. moderate to marked hypoechogenicity, and the malignancy risk of nodules with heterogeneous echotexture is stratified by the predominant echogenicity of the nodules.

Key Points

• Thyroid nodule echogenicity is categorized as marked, moderate, or mild hypoechogenicity and iso- or hyperechogenicity with the reference standard of adjacent thyroid tissue and anterior neck muscles.

• The malignancy risk of thyroid nodule echogenicity is stratified as iso- or hyperechoic vs. mild vs. moderate or marked hypoechogenicity.

• The malignancy risk of nodules with heterogeneous echotexture is stratified by the predominant echogenicity.

Available only for authorised users

Moon WJ, Jung SL, Lee JH et al (2008) Benign and malignant thyroid nodules: US differentiation--multicenter retrospective study. Radiology 247:762–770CrossRef

Campanella P, Ianni F, Rota CA, Corsello SM, Pontecorvi A (2014) Quantification of cancer risk of each clinical and ultrasonographic suspicious feature of thyroid nodules: a systematic review and meta-analysis. Eur J Endocrinol 170:R203–R211CrossRef

Brito JP, Gionfriddo MR, Al Nofal A et al (2014) The accuracy of thyroid nodule ultrasound to predict thyroid cancer: systematic review and meta-analysis. J Clin Endocrinol Metab 99:1253–1263CrossRef

Remonti LR, Kramer CK, Leitao CB, Pinto LC, Gross JL (2015) Thyroid ultrasound features and risk of carcinoma: a systematic review and meta-analysis of observational studies. Thyroid 25:538–550CrossRef

Na DG, Baek JH, Sung JY et al (2016) Thyroid imaging reporting and data system risk stratification of thyroid nodules: categorization based on solidity and echogenicity. Thyroid 26:562–572CrossRef

Kim EK, Park CS, Chung WY et al (2002) New sonographic criteria for recommending fine-needle aspiration biopsy of nonpalpable solid nodules of the thyroid. AJR Am J Roentgenol 178:687–691CrossRef

Haugen BR, Alexander EK, Bible KC et al (2016) 2015 American Thyroid Association management guidelines for adult patients with thyroid nodules and differentiated thyroid cancer: the American Thyroid Association Guidelines Task Force on Thyroid Nodules and Differentiated Thyroid Cancer. Thyroid 26:1–133CrossRef

Shin JH, Baek JH, Chung J et al (2016) Ultrasonography diagnosis and imaging-based management of thyroid nodules: revised Korean Society of Thyroid Radiology consensus statement and recommendations. Korean J Radiol 17:370–395CrossRef

Gharib H, Papini E, Garber JR et al (2016) American Association of Clinical Endocrinologists, American College Of Endocrinology, and Associazione Medici Endocrinologi Medical guidelines for clinical practice for the diagnosis and management of thyroid nodules – 2016 update. Endocr Pract 22:622–639CrossRef

10.

Russ G, Bonnema SJ, Erdogan MF, Durante C, Ngu R, Leenhardt L (2017) European Thyroid Association guidelines for ultrasound malignancy risk stratification of thyroid nodules in adults: the EU-TIRADS. Eur Thyroid J 6:225–237CrossRef

11.

Tessler FN, Middleton WD, Grant EG et al (2017) ACR Thyroid Imaging, Reporting and Data System (TI-RADS): white paper of the ACR TI-RADS Committee. J Am Coll Radiol 14:587–595CrossRef

12.

Kim JH, Na DG, Lee H (2018) Ultrasonographic echogenicity and histopathologic correlation of thyroid nodules in core needle biopsy specimens. Korean J Radiol 19:673–681CrossRef

13.

Hong MJ, Na DG, Baek JH, Sung JY, Kim JH (2017) Cytology-ultrasonography risk-stratification scoring system based on fine-needle aspiration cytology and the Korean-Thyroid Imaging Reporting and Data System. Thyroid 27:953–959CrossRef

14.

Landis JR, Koch GG (1977) The measurement of observer agreement for categorical data. Biometrics 33:159–174CrossRef

15.

Ha EJ, Baek JH, Lee JH et al (2015) A focal marked hypoechogenicity within an isoechoic thyroid nodule: is it a focal malignancy or not? Acta Radiologica 56:814–819CrossRef

16.

Lee HY, Baek JH, Ha EJ et al (2016) Malignant-looking thyroid nodules with size reduction: core needle biopsy results. Ultrasonography 35:327–334CrossRef

17.

Delfim RLC, Veiga LCGD, Vidal APA, Lopes FPPL, Vaisman M, Teixeira PFDS (2017) Likelihood of malignancy in thyroid nodules according to a proposed Thyroid Imaging Reporting and Data System (TI-RADS) classification merging suspicious and benign ultrasound features. Arch Endocrinol Metab 61:211–221CrossRef

18.

Wu MH, Chen CN, Chen KY et al (2016) Quantitative analysis of echogenicity for patients with thyroid nodules. Sci Rep 6:35632CrossRef

19.

Isarangkul W (1993) Dense fibrosis. Another diagnostic criterion for papillary thyroid carcinoma. Arch Pathol Lab Med 117:645–646PubMed

20.

Chen SJ, Yu SN, Tzeng JE et al (2009) Characterization of the major histopathological components of thyroid nodules using sonographic textural features for clinical diagnosis and management. Ultrasound Med Biol 35:201–208CrossRef

21.

Persichetti A, Di Stasio E, Guglielmi R et al (2018) Predictive value of malignancy of thyroid nodule ultrasound classification systems: a prospective study. J Clin Endocrinol Metab 103:1359–1368CrossRef

22.

Grani G, Lamartina L, Cantisani V, Maranghi M, Lucia P, Durante C (2018) Interobserver agreement of various thyroid imaging reporting and data systems. Endocr Connect 7:1–7CrossRef

23.

Hoang JK, Middleton WD, Farjat AE et al (2018) Interobserver variability of sonographic features used in the American College of Radiology Thyroid Imaging Reporting and Data System. AJR Am J Roentgenol 211:162–167CrossRef

24.

Itani M, Assaker R, Moshiri M, Dubinsky TJ, Dighe MK (2019) Inter-observer variability in the American College of Radiology Thyroid Imaging Reporting and Data System: in-depth analysis and areas for improvement. Ultrasound Med Biol 45:461–470CrossRef

25.

Song YS, Kim JH, Na DG et al (2016) Ultrasonographic differentiation between nodular hyperplasia and neoplastic follicular-patterned lesions of the thyroid gland. Ultrasound Med Biol 42:1816–1824CrossRef

26.

Ng SC, Kuo SF, Hua CC et al (2018) Differentiation of the follicular variant of papillary thyroid carcinoma from classic papillary thyroid carcinoma: an ultrasound analysis and complement to fine-needle aspiration cytology. J Ultrasound Med 37:667–674CrossRef

Title: Ultrasound malignancy risk stratification of thyroid nodules based on the degree of hypoechogenicity and echotexture
Authors: Ji Ye Lee
Dong Gyu Na
So Jin Yoon
Hye Yun Gwon
Wooyul Paik
Taeeun Kim
Jin Yub Kim
Publication date: 01-03-2020
Publisher: Springer Berlin Heidelberg
Keywords: Ultrasound
Ultrasound
Published in: European Radiology / Issue 3/2020
Print ISSN: 0938-7994
Electronic ISSN: 1432-1084
DOI: https://doi.org/10.1007/s00330-019-06527-8

Keynote webinar | Spotlight on medication adherence

Springer Medicine

Ultrasound malignancy risk stratification of thyroid nodules based on the degree of hypoechogenicity and echotexture

Abstract

Objectives

Material and methods

Results

Conclusions

Key Points

Keynote webinar | Spotlight on medication adherence

Springer Medicine

Abstract

Objectives

Material and methods

Results

Conclusions

Key Points

Please log in to get access to this content

Other articles of this Issue 3/2020

Diffusion-weighted imaging of the breast—a consensus and mission statement from the EUSOBI International Breast Diffusion-Weighted Imaging working group

Extracellular volume fraction determined by equilibrium contrast-enhanced dual-energy CT as a prognostic factor in patients with stage IV pancreatic ductal adenocarcinoma

ZTE MR-based attenuation correction in brain FDG-PET/MR: performance in patients with cognitive impairment

Radiation exposure and fluoroscopy time in mechanical thrombectomy of anterior circulation ischemic stroke depending on the interventionalist’s experience—a retrospective single center experience

Reply to Letter to the Editor: How to document adverse reactions induced by gadolinium-based contrast agents? A plea for type A and type B reactions

High insertion of conjoint tendon is associated with inguinal-related groin pain: a MRI study