RU2546011C1 - Diagnostic technique for high differentiated thyroid carcinoma - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention represents a diagnostic technique for high differentiated thyroid carcinoma consisting in ultrasound-controlled fine-needle biopsy of thyroid nodules, differing by the fact that a puncture needle with an aspirate is washed twice in normal saline 1 ml, centrifuged; a supernatant is selected, and an enzyme immunoassay is used to measure galectin-3; if the galectin-3 content is less than 1.0 ng/ml, high differentiated thyroid carcinoma is not diagnosed; the range of 1.0-1.6 ng/ml shows a risk of high differentiated thyroid carcinoma, whereas the value exceeding 1.6 ng/ml enables diagnosing high differentiated thyroid carcinoma.

EFFECT: improving the diagnostic quality of high differentiated thyroid carcinoma.

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Description

The invention relates to medicine, namely to oncology, surgery, laboratory diagnostics and can be used in the preoperative period to improve the diagnosis of highly differentiated thyroid cancer.

For differential diagnosis of highly differentiated thyroid cancer and benign thyroid diseases, tumor markers are used, including galectin-3.

Galectin-3 is a β-galactoside, a binding protein with a molecular weight of 26 kDa, belonging to the galectin family and a marker of neoplastic processes [1]. Galectin-3 is used as a tumor marker in immunocytochemical and immunohistochemical studies of the thyroid gland for the differential diagnosis of highly differentiated thyroid cancer [2, 3].

A known method for determining the expression of galectin-3 by flow immunocytometry or flow fluorocytometry in an aspirate obtained by fine-needle aspiration biopsy from a thyroid gland [4, 5]. The difference from our proposed method is that for the determination of galectin-3, a fundamentally different method is used, and not an enzyme immunoassay.

A known method for the study of galectin-3 in the wash of aspirate obtained by fine-needle aspiration biopsy from thyroid glands [6, 7]. The known method has the following disadvantages: 1) the methodology of the method is not disclosed; 2) only the average values of galectin-3 are indicated, but the diagnostic values of galectin-3, necessary for the differential diagnosis of highly differentiated cancer and benign thyroid diseases, are not proposed. In the presented form, the known method [6, 7] cannot be used as a diagnostic method. This method is used as a prototype.

The objective of the invention is the creation of a method for the diagnosis of highly differentiated thyroid cancer, which allows you to reliably determine the type of disease for the further selection of an adequate treatment method.

The essence of the invention lies in the fact that in a method for the diagnosis of highly differentiated thyroid cancer, including conducting a fine needle aspiration biopsy of thyroid glands under ultrasound examination, the puncture needle with the aspirate contained in it is washed twice with 1 ml of isotonic sodium chloride solution, then centrifuged, the supernatant is removed and by enzyme-linked immunosorbent assay, galectin-3 is determined, and if the content of galectin-3 is below 1.0 ng / ml, it is regarded as the absence of okodifferentsirovannogo thyroid cancer in the range of 1.0-1.6 ng / ml - risk-differentiated thyroid cancer, above 1.6 ng / ml diagnosed well-differentiated thyroid cancer.

The proposed method is developed on the basis of a study of the content of galectin-3 in a cell aspirate obtained by fine-needle aspiration biopsy from thyroid glands in 80 patients. Of these, 37 were patients with highly differentiated thyroid cancer and 43 with benign forms of nodular diseases (nodular colloid goiter, thyroid adenomas). Galectin-3 was determined by enzyme-linked immunosorbent assay using an automated Multiscan EX analyzer (Finland) and a kit of reagents for the quantitative determination of human galectin-3 (human Galectin-3 ELISA) from Bender MedSystems (Austria). As a diagnostic threshold for highly differentiated thyroid cancer, a galectin-3 level was established above 1.6 ng / ml using a POC analysis. The criterion for choosing a diagnostic threshold was the level of galectin-3 with the maximum sum of sensitivity and specificity. The sensitivity of the proposed method in the diagnosis of highly differentiated thyroid cancer was 59.7%, and specificity - 90.7%. The area under the POC curve (AUC) was 0.87 ± 0.04, which, taking into account the expert scale for AUC values, refers to very good results [8]. The application of the proposed method in addition to standard research methods (ultrasound and cytological studies) allowed to increase the sensitivity in differential diagnosis from 83.8% to 94.6%, and specificity from 65.1% to 93%. The levels of galectin-3 in the washout of the thyroid aspirate from the puncture needle for benign thyroid nodular diseases (single-multinodal colloid goiter, benign tumors) were found to be lower than 1.0 ng / ml, and the risk of highly differentiated thyroid cancer in the range of 1.0 -1.6 ng / ml and highly differentiated thyroid cancer - above 1.6 ng / ml.

The proposed method is as follows: 1) perform a fine-needle aspiration biopsy of the thyroid glands under ultrasound control and receive a cell aspirate; 2) a puncture needle (21G) containing the obtained aspirate is washed twice with 1 ml of isotonic sodium chloride solution and the resulting mixture is placed in a special tube; 3) centrifuge and select the supernatant; 4) conduct an enzyme immunoassay; 5) analyze the results: if the value of galectin-3 is below 1.0 ng / ml - is regarded as the absence of highly differentiated cancer; in the range of 1.0-1.6 ng / ml - the risk of highly differentiated thyroid cancer; above 1.6 ng / ml, highly differentiated thyroid cancer is diagnosed.

The use of the method may have important diagnostic value in case of an uncertain cytological diagnosis, which includes a “follicular tumor” of the thyroid gland, which means the possibility of cancer or adenoma of the thyroid gland without significant differences between these diseases, which can lead to the wrong choice of surgical treatment [9].

We give examples of practical implementation of the proposed method.

Example 1

Patient K., 30 years old (medical history No. 3332/10), was admitted with complaints of the presence of nodular formation in the neck. An anamnesis of the disease for 3 years. Upon receipt, the condition is satisfactory. The function of the thyroid gland is euthyroidism. On palpation, the thyroid gland is enlarged, a nodular mass is determined in the left lobe, tight, 3 × 4 cm in diameter, displaced by swallowing. Peripheral lymph nodes of the neck are not enlarged. Ultrasound: Right lobe 17 × 23 × 43 mm. Isoechogenic node up to 8 mm. The left lobe is 42 × 31 × 53 mm with multiple inclusions and calcifications. The vascularization is heterogeneous. Conclusion of ultrasound: nodular formation of the thyroid gland. A fine-needle puncture aspiration biopsy was performed under ultrasound control with cytological examination and enzyme-linked immunosorbent assay for the content of galectin-3 in the wash of aspirate from a puncture needle from the left lobe of the thyroid gland. Cytological diagnosis: follicular tumor. Galectin-3 in the washout of the aspirate of the left lobe - 12.7 ng / ml.

Given the high level of galectin-3, equal to 12.7 ng / ml (above 1.6 ng / ml), the data of ultrasound and cytological studies in patient K. established thyroid cancer T2N0M0. Patient K. is directed to surgical treatment. Surgical treatment, adequate from oncological positions, was performed - extrafascial thyroidectomy.

Postoperative histological diagnosis (No. 278201/10): papillary thyroid cancer.

This example indicates that the inclusion in the complex diagnosis of the study of galectin-3 in the washout of thyroid aspirate can even with an uncertain cytological diagnosis, which is the “follicular tumor”, diagnose thyroid cancer in the preoperative period with greater accuracy and perform an adequate amount of surgical treatment.

Example 2

Patient K., 66 years old (medical history No. 714/10), was admitted to the clinic with complaints of the presence of nodular formation in the region of the right lobe of the thyroid gland, difficulty breathing. Thyroid resection 18 years ago. Relapse of nodular goiter was revealed 4 months ago. The function of the thyroid gland is hypothyroidism. On palpation of nodules in the thyroid gland is not determined. Peripheral lymph nodes of the neck are not enlarged. Ultrasound: in the left lobe, a nodular formation of 12 × 15 × 6 mm with intranodular blood flow. The right lobe is not located. Ultrasound conclusion: nodular formation of the left lobe of the thyroid gland. A fine-needle puncture aspiration biopsy was performed under ultrasound control with a cytological examination and enzyme-linked immunosorbent assay for the content of galectin-3 in the wash of aspirate from a puncture needle. Cytological diagnosis: follicular tumor. Galectin-3 in the washout of aspirate - 0 ng / ml.

Given the absence of galectin-3, the results of ultrasound and cytological studies, patient K. found that there was no thyroid cancer and a benign disease, the most likely thyroid adenoma. Patient K. is directed to surgical treatment. A hemithyroidectomy was performed.

Postoperative histological diagnosis (No. 1274/11): follicular thyroid adenoma.

This example shows that in the absence of galectin-3 in the flush of aspirate in this case, it was possible to suggest adenoma, excluding thyroid cancer.

Example 3

Patient L., 53 years old (medical history No. 6933/10), was admitted with complaints of a node in the projection of the thyroid gland. An anamnesis of the disease is 8 years old. The function of the thyroid gland is euthyroidism. On palpation in the right lobe of the thyroid gland, the node is up to 1.5 cm in diameter, soft-elastic consistency, displaced by swallowing. Peripheral lymph nodes are not enlarged. Ultrasound: right lobe 53 × 21.9 × 23.3 mm. On the front surface, the hyperechoic node is 10.8 × 15.2 × 17.0 mm with intra- and perinodular blood flow. The left lobe is 48.3 × 18.3 × 20.2 mm without nodular formations. Conclusion of ultrasound: the node of the right lobe of the thyroid gland.

A fine-needle puncture aspiration biopsy was performed under ultrasound control with cytological examination and enzyme-linked immunosorbent assay using galectin-3 from a puncture needle from the right thyroid gland. Cytological diagnosis: follicular tumor. Galectin-3 in the flush of aspirate from the node of the right lobe - 1.0 ng / ml.

Given that the level of galectin-3 aspirate in the flush is 1.0 ng / ml (in the range of 1.0-1.6 ng / ml), which refers to cancer risk indicators, ultrasound and cytological studies in patient G. diagnosed with cancer of the right lobe of the thyroid gland T1N0M0.

Patient L. is directed to surgical treatment. Thyroidectomy was performed.

Postoperative histological diagnosis (No. 6848/10): follicular cancer of the right lobe of the thyroid gland.

The indicated example shows that with a galectin-3 index in the aspirate flush, which is in the range of oncological risk, it is possible to diagnose cancer with a follicular thyroid tumor and choose an appropriate method of surgical treatment.

The technical result of the use of the invention is to improve the quality of diagnosis of highly differentiated thyroid cancer and, as a result, the choice of subsequent effective treatment.

Bibliography

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Claims (1)

A method for diagnosing highly differentiated thyroid cancer, including conducting a fine-needle aspiration biopsy of thyroid glands under ultrasound guidance, characterized in that the puncture needle with the aspirate contained in it is washed twice with 1 ml of isotonic sodium chloride solution, then centrifuged, the supernatant is removed and the enzyme-linked immunosorbent assay is determined galectin-3, and if the content of galectin-3 is lower than 1.0 ng / ml - is regarded as the absence of highly differentiated thyroid cancer, in the range of 1.0-1.6 ng / ml - the risk of highly differentiated thyroid cancer, above 1.6 ng / ml, highly differentiated thyroid cancer is diagnosed.