Ultrasound features of extranodal extension in the metastatic cervical lymph nodes of papillary thyroid cancer: a case-control study

Introduction

Papillary thyroid carcinoma is the most common type of thyroid cancer, representing 75% to 85% of all thyroid cancer cases¹. Papillary thyroid carcinoma has a low mortality rate, and the overall 5-year and 10-year survival rates are 96% to 97% and 93%, respectively². Well-established prognostic factors for thyroid carcinomas include age of 55 years or older, tumor size, extracapsular invasion, lymph nodal spread, and distant metastasis³. Lymph nodal spread, as suggested by the TNM staging system from the American Joint Committee on Cancer (AJCC) and the Union for International Cancer Control (UICC) is classified as: N0, no node metastasis; N1a, metastasis to level VI or VII; and N1b, metastasis to level I, II, III, IV or V retropharyngeal lymph nodes⁴. However, during malignant tumor invasion, cancer cells not only spread to areas surrounding regional lymph nodes along lymphatic vessel, but also can invade the lymph node capsule and beyond, which is considered extracapsular spreading or extranodal extension^5,6. Extranodal extension is histologically identified as an extension of the tumor through the lymph node capsule, into the adjacent perinodal soft tissue, and contributes to severity of lymph node involvement. Despite its clinical importance, extranodal extension has been left out of the TNM classification system.

Several studies have demonstrated that extranodal extension is an important risk factor for the progression and poor prognosis of papillary thyroid cancer. In the study of Ito et al.⁷, extranodal extension was found to be associated with increased nodal persistence after initial resection and reduced biochemical response to radioiodine treatment, and extranodal extension is an independent marker of poor survival. Lango et al.⁸ reported that extranodal extension is associated with distant metastasis and independently predicted the eventual progression of extranodal extension to systemic disease. Yamashita et al.⁹ and Ito et al.¹⁰ both showed that extranodal extension is associated with worse disease free survival and cause-specific survival. The study of Wu et al.¹¹ found that extranodal extension is a stronger predictor of survival than the location of metastatic lymph nodes (for example, N1a vs. N1b). Furthermore, similar survival was observed between patients with IVa or IVb-stage thyroid cancer without extranodal extension and patients with stage III thyroid cancer with extranodal extension¹¹. Given the prognostic value of extranodal extension in predicting survival, and the association with disease progression, the ability to diagnose extranodal extension before surgery is desirable and will guide the extent of the central neck dissection. However, currently, the presence of extranodal extension only can be diagnosed during or after surgery.

Ultrasonography is a reliable method for diagnosing thyroid carcinoma and has had high accuracies in the diagnosis of malignant thyroid nodal¹², and assessment of cervical lymph node¹³, metastases. Currently, ultrasonography is routinely used in preoperative settings to evaluate metastatic nodal diseases from thyroid malignancies. Well-established and specific ultrasound features correlate with the presence of metastatic lymph nodes, such as the presence of enlarged lymph nodes with aspect ratios < 2, cystic areas or microcalcifications within the node, and hypervascularity ^14,15.

To our knowledge, whether ultrasound can preoperatively determine the presence of extranodal extension remains unknown. Qualliotine et al.¹⁶ reported an association between ultrasound characteristics and extranodal extension in metastatic papillary thyroid carcinoma, via a retrospective analysis. Specifically, Qualliotine et al.¹⁶ reported that node matting and nodes with cystic contents greater than 50% were significantly associated with extranodal extension, and their study has been the only report to evaluate specific sonographic criteria for extranodal extension in patients with metastatic papillary thyroid carcinoma. However, due to the limited cases, only 11 patients were enrolled into their study, and a larger patient population will be required to obtain more reliable conclusions. In the present study, we analyzed clinicopathologic and ultrasound features of 60 patients with papillary thyroid cancer with extranodal extension, to explore important preoperative ultrasound features that are associated with pathologic extranodal extension. The specific aim of this study was to identify common and characteristic preoperative ultrasound features that are associated with the pathologic extranodal extension of metastatic papillary thyroid carcinoma.

Patients and methods

Patients

The patient enrollment criteria were: (1) patients who had received ultrasonography and color Doppler flow imaging (CDFI) of the thyroid gland and the whole cervical region, because of suspected thyroid carcinoma, from March 2011 to March 2016 at the Tianjin Medical University Cancer Institute and Hospital; (2) patients who had received thyroidectomies and cervical lymph node dissections from March 2011 to March 2016 at the Tianjin Medical University Cancer Institute and Hospital; (3) patients who had a pathological diagnosis of papillary thyroid carcinoma with lymph node metastasis; and (4) patients who had a pathological diagnosis of extranodal extension-positive metastatic cervical lymph nodes (representative pathological images are shown in Figure 1).

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1

Histologic image of extranodal extension in cervical lymph nodes of papillary thyroid carcinoma patients (H&E staining, 200 ×). (A) A metastatic lymph node at level VI. (B) Extranodal extension of this metastatic lymph node.

The elimination criteria were: (1) patients who had not received preoperative cervical ultrasound imaging at our institute; (2) patients who had received thyroidectomies at another hospital and only underwent cervical lymph node dissection at our institute; and (3) patients who had incomplete pathophysiologic information. Altogether, 60 patients were enrolled into our study and comprised the observation group.

A 1:2 ratio of matched case to controls was applied, to avoid bias from of clinical feature disparities. A total of 120 patients with papillary thyroid carcinomas with cervical lymph nodes metastases and without extranodal extension comprised the control group (Table 1).

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1

Baseline clinicopathologic features of papillary thyroid carcinoma patients with/without extranodal extension

This study was approved by the Ethics Committee of Tianjin Cancer Institute and Hospital. Written consent was obtained from each patient.

Results

The extranodal extension patterns in the cervical lymph nodes of patients with papillary thyroid carcinoma

In all 60 patients of the observation group, the greatest frequency of extranodal extension positivity was detected at level VI, followed by levels III, IV, and II. The pattern of extranodal extension positivity is shown in Figure 2.

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2

The pattern of extranodal extension in cervical lymph nodes of papillary thyroid carcinoma patients.

The ultrasound features of extranodal extension in the cervical lymph nodes of patients with papillary thyroid carcinoma

In our univariate analysis of patients with papillary thyroid carcinoma, extranodal extension-positive lymph nodes showed higher incidences of node matting (Figure 3A), microcalcification (Figure 3B), cystic area (Figure 3C), aspect ratios < 2, and larger diameter ( Figure 3D) than extranodal extension-negative lymph nodes (shown in Table 2, P < 0.05). Representative images from these comparisons are shown in Figure 3A-D. All of these significant features were used in our logistic regression multivariate analysis, which demonstrated that the presence of both node matting and cystic area were independent risk factors for extranodal extension [node matting, odds ratio (OR): 4.751, 95% confidence interval (CI): 1.212–18.626, P=0.025; cystic area OR: 2.707, 95% CI: 1.127–6.502, P=0.026], shown in Table 3.

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3

Representative sonogram of extranodal extension positive. (A) Representative sonogram of node matting (white arrows) in cervical lymph nodes with extranodal extension. (B) Representative sonogram of microcalcification (white arrows) in cervical lymph nodes with extranodal extension. (C) Representative sonogram of cystic area (white arrows) in cervical lymph nodes with extranodal extension positive. (D) Representative sonogram of aspect ratio < 2 and larger diameter in cervical lymph nodes with extranodal extension positive.

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2

The ultrasound features of cervical lymph node of papillary thyroid carcinoma patients with/without extranodal extension

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3

Multivariate logistic regression for ultrasound features of cervical lymph node correlated to extranodal extension in papillary thyroid carcinoma patients

Discussion

Cervical lymph node metastasis is a risk factor for local tumor recurrence in patients with papillary thyroid carcinoma. Previous reports have provided compelling evidence regarding the importance of the metastatic node size, number of positive nodes, and presence of extranodal extension, for the prognosis of patients with papillary thyroid cancer¹⁸. Although extranodal extension is not officially recognized in AJCC and UICC staging systems, it has been shown, in a number of studies, to have negative prognostic impacts. Lango et al.⁸ identified several outcome measures that are associated with extranodal extension in patients with papillary thyroid cancer. These associated outcomes included the diminished probability of a complete biochemical response, the increased probability of structural tumor persistence, and systemic disease progression. Wu et al.¹¹ observed that extranodal extension was significantly associated with older age, advanced disease stage, lymph node status N1b (95%), and larger lymph nodes > 1 cm (80%) ¹¹. In the present study, N1b stage was more frequently (78.3%) found in extranodal extension-positive papillary thyroid carcinomas than in those that were extranodal extension-negative. Therefore, with respect to our results, the presence of pathological extranodal extension reflects a subset of papillary thyroid carcinomas with biologically aggressive behavior. The clinical significance of the presence of extranodal extension, for disease staging and prognosis, have also been reported for other malignancies, such as head and neck squamous cell carcinoma¹⁹, breast cancer⁶, colorectal cancer²⁰, and gastric cancer²¹.

In coincidence with the lymphatic spread pattern of papillary thyroid carcinoma, which showed lymph nodes metastasis most frequently in level VI, followed by levels III, IV and II²², we found that extranodal extension follows the same pattern. According to the literature, and given the prognostic implications of extranodal extension, the level VI subset would require meticulous and thorough removal of lymphadenopathy^8,18. The determination of extranodal extension through preoperative ultrasound may represent clinical disease features and improve preoperative risk stratifications, through delineating the need for additional surgical expertise and central neck dissection evaluation. Preoperative ultrasound, for the detection of lymph node metastases in the central and lateral compartments, has been the standard of care for patients with papillary thyroid cancer. In general, a larger size, irregular shape, unclear margin, eccentric cortical thickening, cystic changes, cortical hyperechogenicity, microcalcification, and hypervascularity were predictable findings for lymph node metastasis^14,15. Until now, data from preoperative ultrasound evaluations for the diagnoses of extranodal extension in papillary thyroid cancer have rarely been available.

In 2010, Misselt et al.²² studied the ultrasound characteristics of extranodal extension in breast cancer, and found that the features that were significantly associated with extranodal extension included node matting, unclear margins, and hilar replacement, on univariable analysis, and both node matting and unclear margins were independently associated on multivariable analysis. Until now, only Qualliotine et al.¹⁶ had discussed the ability of ultrasound for evaluating extranodal extension in papillary thyroid cancer. This investigation was a retrospective pilot study, and based on 11 patients with extranodal extension, they proposed that extranodal extension may be another clinically significant characteristic of nodal metastases. In their study, the following ultrasound characteristics were significantly associated with extranodal extension positivity: node matting, perinodal edema, unclear margins, and cystic areas.

In the present study, we demonstrated that larger tumor size, aspect ratio, microcalcification, node matting, and cystic areas were associated with the determination of extranodal extension, through our univariable analysis, while node matting and cystic areas independently associated with extranodal extension in our multivariable analysis. Larger tumor size, especially tumors with aspect ratios < 2, is a significant risk factor for extranodal extension, and this conveys the fact that malignant cells grow across normal tissue planes because of the invasiveness of cancer cells. In addition, node matting is another indicator of typical tumor invasiveness. The presentation of microcalcification is caused by rapid cell growth and insufficient blood supply to the metastatic site, which cause local fibrous tissue hyperplasia and calcium deposition, while cystic areas are also associated with rapid cell growth and insufficient blood supply, which cause putrescence and liquescence in the focus ^14,15. All these features are associated with the biologically aggressive behavior of cancer cells.

Our study provides more clinical evidence for future evaluations of extranodal extension, via preoperative ultrasound, in patients with papillary thyroid cancer. Future studies should aim to provide useful indices for extranodal extension evaluations and preoperative risks stratifications.