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Recurrent thyroid papillary carcinoma in children under ten years old: report of two cases and literature review.
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PMID:  25214862     Owner:  NLM     Status:  PubMed-not-MEDLINE    
Papillary thyroid carcinoma (PTC) in children under ten years old is very rare. To date, 18 cases of PTC in children under ten years old (including our two cases) have been reported in Korea. Here, we describe two cases of recurrent PTC with follicular variant and conventional type in an 8-year-old boy and a 7-year-old boy, respectively, and discuss clinicopathologic and molecular characteristics that differ in pediatric patients from adults.
Byeong-Joo Noh; Ji-Youn Sung; Youn-Wha Kim; Yong-Koo Park
Publication Detail:
Type:  Journal Article     Date:  2014-08-26
Journal Detail:
Title:  Korean journal of pathology     Volume:  48     ISSN:  1738-1843     ISO Abbreviation:  Korean J Pathol     Publication Date:  2014 Aug 
Date Detail:
Created Date:  2014-09-12     Completed Date:  2014-09-12     Revised Date:  2014-09-15    
Medline Journal Info:
Nlm Unique ID:  101275976     Medline TA:  Korean J Pathol     Country:  Korea (South)    
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Languages:  eng     Pagination:  297-301     Citation Subset:  -    
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Journal Information
Journal ID (nlm-ta): Korean J Pathol
Journal ID (iso-abbrev): Korean J Pathol
Journal ID (publisher-id): KJP
ISSN: 1738-1843
ISSN: 2092-8920
Publisher: The Korean Society of Pathologists and The Korean Society for Cytopathology
Article Information
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© 2014 The Korean Society of Pathologists/The Korean Society for Cytopathology
Received Day: 07 Month: 1 Year: 2014
Revision Received Day: 18 Month: 2 Year: 2014
Accepted Day: 28 Month: 2 Year: 2014
Print publication date: Month: 8 Year: 2014
Electronic publication date: Day: 26 Month: 8 Year: 2014
Volume: 48 Issue: 4
First Page: 297 Last Page: 301
PubMed Id: 25214862
ID: 4160593
DOI: 10.4132/KoreanJPathol.2014.48.4.297

Recurrent Thyroid Papillary Carcinoma in Children Under Ten Years Old: Report of Two Cases and Literature Review
Byeong-Joo NohA1
Ji-Youn SungA1
Youn-Wha KimA1
Yong-Koo ParkA1
Department of Pathology, Kyung Hee University School of Medicine, Seoul, Korea.
Correspondence: Corresponding Author: Yong-Koo Park, M.D. Department of Pathology, Kyung Hee University School of Medicine, 26 Kyungheedae-ro, Dongdaemun-gu, Seoul 130-701, Korea. Tel: +82-2-958-8743, Fax: +82-2-958-8730,

Papillary thyroid carcinoma (PTC) is extremely rare in children younger than ten years of age. The incidence of thyroid carcinoma in children and adolescents varies from 0.4 to 5.4 per 1,000,000 (0.2 to 3 in Korea).1,2 The youngest reported age at the time of diagnosis in Korea is 4.5 years.2 It is important to diagnose thyroid carcinoma earlier in children than in adults and to perform extensive whole body work ups because thyroid carcinoma tends to more frequently result in regional lymph node metastasis and distant metastasis in children than in adults.2 Although there are clinical features in children that are different from those in adults, very few molecular or clinicopathologic studies have been carried out in pediatric thyroid carcinoma. Here, we report two cases of PTC in children younger than ten years of age and discuss the clinicopathologic and molecular characteristics that differ in pediatric patients from adults.

Case 1

An asymptomatic right thyroid mass was found in an 8-year-old boy three months before the visit. He had no clinical history of exposure to radiation. Physical examination revealed multiple palpable small masses adjacent to the right thyroid nodule. Ultrasound of the neck demonstrated hypoechoic and solid nodules with inner calcification (2.3×2.0×1.5 cm) in the right thyroid lobe. Ultrasound-guided fine-needle aspiration revealed atypical cells with nuclear enlargement and pseudoinclusions. Laboratory findings of thyroid function tests were within the normal range. The patient underwent total thyroidectomy with central lymph node dissection. The pathologic diagnosis was multifocal bilateral follicular variant of PTCs with extrathyroidal extension (ETE) and regional lymph node metastasis (pT3N1) (Fig. 1). Peritumoral lymphocytic infiltration was rare. After curative surgery, he received 131I radioactive iodine therapy and T4 suppression. Four years after the initial surgery, follow-up ultrasound showed small nodular lesions in the previous surgical bed. Thus, the patient underwent revisional thyroidectomy followed by a third surgery, a right revisional central neck dissection. Cervical lymph node metastasis was identified. The patient has survived for two years after treatment without recurrence.

Immunohistochemical staining showed positive immunoreactivity for galectin-3 and cytokeratin 19, was negative for p27 and cyclin D1 (Fig. 1), and showed 10 leukocyte common antigen (LCA)-positive cells per high power field (HPF) and no Ki-67-postive cells. BRAF, k-RAS, and EGFR mutations were not detected in mutational analyses using real-time polymerase chain reactions (qRT-PCR) (CFX96 Real-Time System, Bio-Rad Laboratories, Hercules, CA, USA).3 No RET/PTC 1 or 3 rearrangements (inversions) were detected by fluorescence in situ hybridization (FISH) analysis using a RET dual color break apart probe (ZytoVision GmbH, Bremerhaven, Germany) (Fig. 2A).

Case 2

A 7-year-old-boy visited our medical center for the treatment of upper respiratory symptoms. He had no previous exposure to radiation. Ultrasound-guided fine-needle aspiration, which was carried out at other medical center, showed PTC in right thyroid lobe. Laboratory findings of thyroid function tests were within the normal range. The patient underwent total thyroidectomy with central lymph node dissection. The pathologic diagnosis was unilateral multifocal PTC with ETE and regional lymph node metastasis (pT3N1) (Fig. 3). Peritumoral lymphocytic infiltration was sparse. After the initial surgery, the patient received 131I radioactive iodine therapy and T4 suppression. Four years after the total thyroidectomy, we detected a recurrent right palpable lower neck mass, and the patient underwent modified radical neck dissection. Metastatic PTC was recently diagnosed in regional lymph nodes.

Immunohistochemical staining revealed positive immunoreactivity for galectin-3, cytokeratin 19, p27, was negative for cyclin D1 (Fig. 3), and showed 20 LCA-positive cells per HPF and no Ki-67-postive cells. BRAF, k-RAS, and EGFR genes were determined as wild-type by mutational analyses using qRT-PCR (CFX96 Real-Time System, Bio-Rad Laboratories). FISH analysis did not show any RET/PTC 1 or 3 rearrangements (inversions) using RET dual color break apart probes (ZytoVision GmbH) (Fig. 2B).


We summarized published studies of thyroid carcinomas in Korean children and adolescents and the clinicopathologic features in Table 1.2,4,5,6,7,8,9,10 Thyroid carcinoma rarely occurs in children and adolescents, but when it does, it is most common in female children. The proportion of Korean pediatric patients younger than ten years is only 11.7% (Table 1). The histologic types of thyroid cancer observed in children and adolescents are papillary (89%) and follicular (7.8%) carcinoma, and other types (3.2%), exhibiting more diverse tumor types compared with those in the general population of Korean thyroid cancer patients,11 which consist primarily of papillary (94.3%) and follicular (3.1%) carcinoma. Additionally, the proportion of conventional PTC is much lower in young PTC patients than the proportion of other variants. The variants reported in young PTC patients include the diffuse sclerosing variant (41.2%, predominant), conventional PTC (38.2%), follicular (2.9%), and cribriform-morular variants (1.5%).10 PTC in young patients is more likely to have ETE (62.3%), lymph node metastasis (72%), and distant metastasis (23%) than that in adults: adults have ETE (31.2-33%) and lymph node metastasis (32.1-40.9%).12 The most common metastatic site is the lung (16.2%). In view of these aggressive features at the time of diagnosis, closer and more extensive workups should be performed in young patients than in elder patients to ensure exact diagnosis and appropriate early management.2

The histopathological and immunohistochemical findings of children and adolescents with PTC are not significantly different from those of adults. However, molecular studies have suggested that there are different genetic alteration patterns in young patients. First, RET/PTC rearrangements (40% to 70%) in PTC of children and adolescents are more frequently found than in PTC of adults, which are predominantly associated with BRAF mutations (45%),13RET/PTC rearrangements (15%), and RAS mutations (15%).14 These gene mutations and rearrangements are mutually exclusive and noncooperative.15RET/PTC rearrangements can activate the mitogen-activated protein kinase pathway and give rise to nuclear structures, chromatin, and cell architectures that change to papillary patterns16 in the same way as with BRAF mutations. Secondly, although BRAF mutations in PTC in young adults (<35 years, excluding children and adolescents) are not associated with tumor aggressiveness, RET/PTC rearrangements have been shown to be predictive of poor prognosis in PTC of young adults.17 However, to date, no previous studies have shown that the presence of RET/PTC rearrangement is correlated with clinical outcome in children and adolescents. The correlation between genetic alterations of RET/PTC rearrangement and biological behaviors of PTC in children and adolescents should be investigated more thoroughly to clarify this relationship.

PTC in children and adolescents generally has better clinical prognosis than that in adults, although unfavorable clinical findings such as those mentioned above (multifocality, ETE, regional lymph node metastasis, and distant metastasis at the time of diagnosis) are more likely.18 Two suggestions have been presented to explain the better prognosis of PTC in children and adolescents. First, a study by Gupta et al.19 found that the proportion of lymphocytes in children is greater than in adults, suggesting that proliferating lymphocytes (tumor-associated lymphocytes) can improve disease-free survival in children and young adults.14 Secondly, pediatric patients are more susceptible to hormone therapy than adults, so that distant metastasis and relapse can be more effectively controlled by hormone therapy alone or in combination with radioiodine therapy than in adults. Because BRAF V600E mutations result in dysfunction of the sodium iodide symporter, which contributes to therapy resistance, we hypothesize that the lower incidence of BRAF mutations in PTC in children and adolescents causes young patients to be more responsive to hormone therapy and radioactive iodine therapy than are adults.

We assume that various factors such as tumor-associated lymphocytes and hormonal susceptibility as well as genetic alterations might influence clinical outcome in PTC of children and adolescents. Thus, a few proliferating tumor-associated lymphocytes can explain the unfavorable clinical prognosis in our current cases, despite the lack of genetic alterations.

In conclusion, we report two cases of recurrent PTCs, follicular variant and conventional type, with no genetic alterations (BRAF, RAS, EGFR, RET/PTC1 or RET/PTC3 genes) that were detected by qRT-PCR and FISH analyses. These presenting cases are extremely rare in that they occur in young male patients younger than ten years of age.

Although some studies of PTC in children and adolescents have been conducted, the pathogenesis and molecular mechanism must still be elucidated. Therefore, further studies investigating not only the prevalence and interactions of genetic alterations, but also their clinicopathologic correlations in children and adolescents should be conducted.


No potential conflict of interest relevant to this article was reported.

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Article Categories:
  • Case Study

Keywords: Thyroid cancer, papillary, Child, Recurrent.

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