Differentiated Thyroid Carcinoma of Children and Adolescents: 27-Year Experience in the Yonsei University Health System

Primary thyroid carcinoma is uncommon in childhood and adolescence constituting 0%-3% of all pediatric malignancies (1-4). Sporadic differentiated thyroid cancers (papillary and mixed papillary-follicular) are the most common endocrine malignancies in children, and a female preponderance is most pronounced in postpubertal children (5). Follicular thyroid carcinoma is less common than papillary thyroid carcinoma in pediatric patients. Also, anaplastic and undifferentiated thyroid carcinomas are extremely rare. In the pediatric age group, sporadic medullary thyroid carcinoma (MTC) is uncommon and more frequently presents as a manifestation of multiple endocrine neoplasia (MEN) type IIA and IIB (6).

Differentiated thyroid carcinoma in pediatric patients differs from thyroid carcinoma in adults in clinical manifestations and clinical outcomes. Despite an overall survival rate exceeding 95%, pediatric thyroid carcinoma is often more advanced with lymph node metastasis and pulmonary metastasis at diagnosis and local recurrence is more frequent after thyroid operation than in adults (7-9). However, even though the stage is advanced, the prognosis is excellent for pediatric patients, with a low mortality rate.

Some studies have attempted to evaluate about the prognostic factor in pediatric thyroid cancer for the proper treatment but the prognostic factors have been evaluated poorly (9). Because of a lack of randomized studies, the optimal initial surgical treatment is controversial, and the impact of the initial surgery on the outcome remains unclear (3). Total thyroidectomy with lymph node dissection reduces the recurrence rate (10, 11), but carries a high risk of permanent hypoparathyroidism and vocal cord injury. Some investigators have advocated less radical surgery in pediatric patients (11, 12).

This study was analyzed the clinical features and clinical outcomes of thyroid cancer in the pediatric population at Yonsei University Health Service for 27 yr and discuss about the proper management of the differentiated thyroid cancer in pediatric population.

Between 1982 and 2009, 94 pediatric patients underwent thyroid surgery at Yonsei University Health System for primary thyroid carcinoma (differentiated thyroid carcinoma, 90 patients; medullary thyroid carcinoma, 4 patients; papillary thyroid carcinoma, 78 patients; follicular thyroid carcinoma, 12 patients). Patients with medullary thyroid carcinoma were excluded. Pediatric age is defined as < 20-yr. Retrospectively evaluated medical data was evaluated sex, age at the time of surgery, clinico-pathologic characteristics, TNM stage, type of surgery, postoperative complications, recurrences and survival rate. Clinico-pathologic characteristics included chief complaint at diagnosis, tumor size, extrathyroidal extension, multifocality, bilaterality, family history, thyroiditis and lymph node involvement. Pathologic staging adopted the 7th American Joint Committee on Cancer (AJCC) at the time of initial diagnosis.

At our institution, thyroid resection consisted of total thyroidectomy and less than total thyroidectomy. The definition of "less than total thyroidectomy" is specified by unilateral thyroid lobectomy, ipsilateral total and contralateral partial thyroidectomy and ipsilateral total and contralateral subtotal thyroidectomy. The choice of surgical extension was based on ATA guidelines (13). During thyroid resection, only central compartment lymph nodes (CCLN) located in the ipsilateral site of the primary tumor were dissected prophylatically. The CCLN or level VI included the pretracheal, paratracheal, prelaryngeal, perithyroidal nodes and lymph nodes located along the recurrent laryngeal nerve. The central compartment was delimited superiorly by the hyoid bone, inferiorly by the substernal notch, laterally by the median portion of the carotid sheath and dorsally by the prevertebral fascia. Recurrent laryngeal nerves and parathyroid glands were identified and preserved in all cases. The procedures were performed by the same surgical team. If patients had evidence of lateral lymph node metastasis in preoperative evaluation, modified radical neck dissection was performed. Radioactive iodine remnant ablation was performed within 6 weeks after surgery. Indication for radioiodine ablation in this cohort of patients was based on ATA guidelines (13). A ¹³¹I whole body scan was taken on day 2 following radioactive iodine (RI) therapy. Dose of radioactive iodine for children was calculated based on the patient's body weight (0.5-1.5 mCi/kg). All patients received thyroid-stimulating hormone suppression treatment with levothyroxine according to ATA guidelines (13). The recurrence after surgery was assessed by regular follow-up every 3 or 6 months. All patients in whom recurrence was suspected were confirmed using cytology and/or histology. Follow-up data was obtained by medical chart retrospectively until December 2011. This retrospective study was approved by the Institutional Review Board of Yonsei University Severance Hospital.

Thyroid carcinoma in the pediatric population is a rare type of malignancy that displays different tumor characteristics compared with adult thyroid cancers. Pediatric thyroid cancer is aggressive, has a higher prevalence of lymph node metastasis and pulmonary metastasis at the time of initial diagnosis and occurs more frequently after surgery (7-9, 14). However, the prognosis is excellent. The reason for this discrepancy is unclear, but some hypotheses for pediatric thyroid cancer have been suggested. Zimmerman et al. reported that nondiploid DNA amount was 10% in pediatric thyroid cancer and 20% in adult thyroid cancer. The authors suggested that a low incidence of nondiploid DNA was related to the good prognosis in pediatric thyroid cancer (8). The other possibility is that the thyroid gland during infancy and childhood is more susceptible to carcinogenic stimuli. TSH may play a more prominent role as a promoting factor in younger patients. Therefore, postoperative TSH suppression with thyroid hormone replacement is more effective and the dedifferentiation from well differentiated to poorly differentiated carcinoma does not often occur in pediatric thyroid carcinoma (9, 15).

Some molecular-based studies were performed. But, the biologic basis for such a difference is essentially unknown. Several studies have reported that BRAF V600E mutations are more common in older patients with aggressive papillary thyroid cancer (16), and that RET/PTC1 rearrangement are more common in children with papillary thyroid cancer (17, 18).

In our study, the incidence of thyroid carcinoma increased with age ( < 5 yr, n = 1; 5-15 yr, n = 23; 15-20 yr, n = 66), with the oldest age group comprising 73.3% of the total patients. Our study shows high incidence of lymph node metastasis (60%). The incidence of lymph node metastasis in the pediatric group was similar to adults, in whom the prevalence of the subclinical central lymph node metastasis has been reported up to 80% in adult thyroid cancer (19, 20).

Fourteen patients (15.6% of total) recurred in our study. This rate of recurrence was substantially lower previous values of 35-40% (1, 4, 7, 8). Among the cases of differentiated pediatric thyroid cancer, 12 patients with follicular thyroid cancer did not recur. In our study, the incidence of central lymph node metastasis was high but the recurrence rate was low. This low incidence of recurrence rate supports the use of our institutional policy - that prophylactic central lymph node dissection is needed in thyroid cancer patients even if the tumor size is small - for both pediatric and adult patients.

Concerning the relationship of multiple factors, which some studies argued predictive factors for recurrence in pediatric thyroid cancer, our study did not reveal any relationship between recurrence and factors such as age, gender, extracapsular invasion, bilaterality, multifocality, thyroiditis, central lymph node metastasis, lateral neck node metastasis, type of operation and RI therapy. The possible relationship between patient age and recurrence has been studied. Some studies reported higher recurrence rate for children < 10 yr or < 15 yr (4, 7), but others did not confirmed this relationship (21).

The most impressive finding in the present study is that 18 patients (18/90, 20%) had papillary thyroid microcarcinoma (PTMC). PTMC patients comprise 3.1%-18.2% of those with lymph node metastasis and up to 20% of locoregional recurrences, although PTMC is usually indolent and curable with surgical thyroidectomy often followed by RI therapy in adult thyroid cancer (22-24). However, this study showed a higher incidence of central lymph node metastasis (12/18, 66.7%) and lateral neck node metastasis (6/18, 33.3%). On the other hand, the recurrence rate of PTMC patients was low (1/18, 5.6%) after initial surgery. PTMC patients did not have lung metastasis and recurrence even though the patients had lateral neck node metastasis. Among six patients with lateral neck node metastasis, one case had skip metastasis, with in no central lymph node metastasis with lateral neck node metastasis only. Even though the primary cancer size was < 1 cm, the chief complaint was palpable mass in the neck (5/6, 83.3%) due to the metastatic lymph node in the PTMC patients with lateral neck node metastasis. Until now, the studies about pediatric PTMC have been rare. Even the present findings are limited by small number of patients and short follow-up period. The present data is insufficient to make any conclusion in pediatric PTMC. However we can conclude that PTMC in pediatric thyroid cancer is not rare and has a high incidence of lymph node metastasis, low incidence of recurrence and that pediatric PTMC is possible metastasis to the lateral neck like adult.

The treatment of the pediatric thyroid cancer remains contentious. Because of the low incidence of pediatric thyroid cancer, a prospective trial is difficult to perform. Some studies supported the idea that a total thyroidectomy with central lymph node dissection by experts is safe and does not increase the possibility of serious complications (25). On the other hand, a conservative stepwise approach has been recommended to prevent surgical complications and to avoid over-surgery for non-advanced disease in pediatric thyroid cancer patients (8). Our results suggest that, even though the prognosis is excellent in pediatric thyroid cancer, proper surgery including lymph node dissection is needed to reduce the recurrence after surgery. Of course, TSH suppression treatment is required. ¹³¹I dose administered is adjusted by weight and by additional safety factors dependent on age if it is indicated.

In conclusion, our study shows that pediatric thyroid cancer has aggressive features at initial diagnosis but that the recurrence rate and mortality rate are low. The most common reason for hospital care in pediatric patients with papillary thyroid carcinoma was a palpable neck mass. In a pediatric population, a neck mass should be considered an indication of thyroid cancer. If pediatric thyroid cancer is diagnosed, further work-up should be performed due to the possibility of lateral neck node metastasis and distant metastasis. Pediatric thyroid cancer can be managed mainly using the proper surgical approach with total thyroidectomy and lymph node dissection when indicated.