The Role of the Ultrasound Sign “Calcifications” in the Differential Diagnosis of Thyroid Oncopathology within the TI-RADS System

DOI: 10.47026/2413-4864-2024-2-34-41

UDC: 616.441-006-073.43
BBC: Р569.452-439

Stepanov V.G., Timofeeva L.A., Zamkova D.N., Yusupova L.I., Aleshina T.N.

The Role of the Ultrasound Sign "Calcifications" in the Differential Diagnosis of Thyroid Oncopathology within the TI-RADS System

Keywords: ultrasound examination, "calcifications", thyroid adenoma, thyroid cancer

Over the past decades, there has been a steady increase in patients with nodular thyroid neoplasms. Multiparametric ultrasound examination plays a leading role at the stage of preoperative thyroid oncopathology diagnosis. The most difficult task is to choose the tactics in cases of detecting calcifications of focal thyroid formations during ultrasound examination. The aim of the study was to determine the value of the ultrasound sign "calcifications" in the differential diagnosis of thyroid oncopathology within the TI-RADS system. Materials and methods. A retrospective analysis of the medical histories of 167 patients was performed, which were divided into two groups: group 1 – 60 patients with adenomas, group 2 – 60 patients with thyroid cancer. All patients underwent standard ultrasound examination of organs in the gray scale mode (B-mode) and color Doppler imaging mode. The TI-RADS system was used as a system for describing and processing thyroid ultrasound data. Correlation analysis was used to assess the diagnostic volatility of ultrasound signs of the TI-RADS system in detecting focal thyroid pathology. The accuracy of diagnostic tests was assessed using ROC-analysis (AUC). Research results. According to the retrospective analysis, 3 thyroid nodes (2.5%) were classified as TI-RADS2, 19 nodes (15.8%) were classified as TI-RADS3, 78 nodes (65.0%) were classified as TI–RADS4, and 20 nodes (16.7%) were classified as TI-RADS5. A correlation analysis of assessment of the diagnostic volatility of TI-RADS system ultrasound signs in detecting focal thyroid pathology showed the following. According to the scatter of Kendall's coefficient correlations, "macrocalcifications" were determined with a bias for the benign thyroid node (p = 0.039537). When evaluating "microcalcifications" sign (p-value = 0.020209), it was found that in terms of its significance in predicting oncological changes, it was second only to the shape change parameter ("height > width"). Based on the ROC analysis (AUC), it was found that the sign "calcification" ("microcalcifications" + "macrocalcifications") can be considered to be a test of good quality (AUC = 0.783±0.0387, 95% CI = 0.711–0.894). Conclusions. The presence of calcifications both in benign nodules and in thyroid tumors of varying malignancy degrees forces to use a more balanced approach to interpreting this sign of improvement in the differential diagnosis of focal thyroid formations.

References

Fisenko E.P., Sych Yu.P., Zabolotskaya N.V. et al. Klassifikatsiya TI-RADS v otsenke ste-peni zlokachestvennosti uzlov shchitovidnoi zhelezy: metodicheskoe posobie dlya vra-chei ul’trazvukovoi diagnostiki [TI-RADS classification in the assessment of the degree of malignancy of thyroid nodules: a methodological manual for ultrasound diagnostics doctors]. Moscow, Strom Publ., 2020, 56 p.
Mit’kov V.V., ed., Aleksandrov Yu.K., Bryukhovetskii Yu.A., Zabolotskaya N.V. Prakticheskoe rukovodstvo po ul’trazvukovoi diagnostike. Obshchaya ul’trazvukovaya diagnosti-ka. 3-e izd, pererab. i dop. [A practical guide to ultrasound diagnostics. General ultra-sound diagnostics. 3^rd]. Moscow, Vidar-M Publ., 2019, 740 p.
Fisenko E.P., Sencha A.N., Katrich A.N. et al. Predlozheniya po realizatsii klassifika-tsii TI-RADS v Rossii [Proposals for the implementation of the TI-RADS classification in Russia]. Ul’trazvukovaya i funktsional’naya diagnostika, 2019, no. 4, pp. 36–47.
Timofeeva L.A., Sencha A.N. Mul’tiparametricheskoe ul’trazvukovoe issledovanie s primeneniem klassifikatsii Ti-rads v opredelenii diagnosticheskoi taktiki pri tireoidnykh uzlovykh obrazovaniyakh [Multiparametric ultrasound using the Ti-rads classification in determining the diagnostic tactics for thyroid nodular formations]. Prakticheskaya meditsina, 2018, no. 1(112), pp. 134–139.
Timofeeva L.A., Tukhbatullin M.G., Sencha A.N. Ul’trazvukovaya elastografiya v dif-ferentsial’noi diagnostike uzlovoi patologii shchitovidnoi zhelezy [Ultrasound elastography in the differential diagnosis of nodular pathology of the thyroid gland]. Kubanskii nauchnyi meditsinskii vestnik, 2019, vol. 26, no. 4, pp. 45–55. DOI: 10.25207/1608-6228-2019-26-4-45-55.
Ferreira L.B., Gimba E., Vinagre J. et al. Molecular Aspects of Thyroid Calcification. Int J Mol Sci., 2020, vol.21(20), p. 77 DOI: 10.3390/ijms21207718.
Guan, Wang Y., Du J., Qin Y. et al. Deep learning based classification of ultrasound images for thyroid nodules: a large scale of pilot study. Ann Transl Med, 2019, vol. 7(7), p. 137. DOI: 10.21037/atm.2019.04.34.
Lu Yin, Wei Zhang, Wen-Kun Bai, Bin Ning. Relationship Between Morphologic Characteristics of Ultrasonic Calcification in Thyroid Nodules and Thyroid Carcinoma. Ultrasound in Medicine & Biology, 2019, vol. 46, pp. 20–25. DOI: 10.1016/j.ultrasmedbio.2019.09.005.
Malhi, Beland M.D., Cen S.Y., Allgood E. et al. Echogenic Foci in Thyroid Nodules: Significance of Posterior Acoustic Artifacts. Am. J. Roentgenol., 2014, vol. 203, pp. 1310–1316.
Malhi S., Velez E., Kazmierski B., Gulati M. et al. Peripheral Thyroid Nodule Calcifications on Sonography: Evaluation of Malignant Potential. AJR Am J Roentgenol., 2019, vol. 213(3), pp. 672–675. DOI: 10.2214/AJR.18.20799.
SeiberlingA., Dutra J.C., Grant T., Bajramovic S. Role of intrathyroidal calcifications detected on ultrasound as a marker of malignancy. Laryngoscope, 2004, vol. 114, pp. 1753–1757.
Zhou, Yin L., Wei X., Zhang S. et al. 2020 Chinese guide Lines for ultrasound malignancy risk stratification of thyroid nodules: The C-TIRADS. Endocrine, 2020, vol. 70, pp. 256–279. DOI: 10.1007/s12020-020-02441-y.

About authors

Stepanov Vladimir G.: Minister, Ministry of Health of the Chuvash Republic, Russia, Cheboksary (medicin_prm@cap.ru; )

Timofeeva Lyubov A.: Doctor of Medical Sciences, Professor, Department of Propaedeutics of Internal Diseases with a Course of Radiation Diagnostics, Chuvash State University, Russia, Cheboksary (adabai@mail.ru; ORCID: https://orcid.org/0000-0002-4707-8214)

Zamkova Daria N.: 6th year Student, Medicine Faculty, Chuvash State University, Russia, Cheboksary )

Yusupova Landysh I.: 6th year Student, Medicine Faculty, Chuvash State University, Russia, Cheboksary )

Aleshina Tatiana N.: Senior Lecturer, Department of Propaedeutics of Internal Diseases with a Course of Radiation Diagnostics, Chuvash State University, Russia, Cheboksary (brunetka08-87@mail.ru; ORCID: https://orcid.org/0000-0002-5068-7598)

Article link

Stepanov V.G., Timofeeva L.A., Zamkova D.N., Yusupova L.I., Aleshina T.N. The Role of the Ultrasound Sign “Calcifications” in the Differential Diagnosis of Thyroid Oncopathology within the TI-RADS System [Electronic resource] // Acta medica Eurasica. – 2024. – №2. P. 34-41. – URL: https://acta-medica-eurasica.ru/en/single/2024/2/5/. DOI: 10.47026/2413-4864-2024-2-34-41.

Single article

Stepanov V.G., Timofeeva L.A., Zamkova D.N., Yusupova L.I., Aleshina T.N.