Thyroid tumors are uncommon among the pediatric population, representing ~0.7% of all childhood cancers (1). Despite this rarity, thyroid cancer is the most prevalent type of endocrine malignancy among children, and its incidence increases with age, reaching its peak between 15 and 19 years of age (2). Among the different types of thyroid cancer, papillary thyroid carcinoma (PTC) is the most frequently diagnosed, accounting for ~80-90% of all pediatric thyroid cancer cases (3). Although PTC is rare in children, it often presents with more extensive lymph node involvement and a higher likelihood of distant metastases than in adults, making early detection and appropriate treatment crucial.

Several risk factors have been found to be associated with the development of thyroid cancer, including Hashimoto's thyroiditis, genetic disorders such as multiple endocrine neoplasia type 2, Carney's syndrome, Werner's syndrome and DICER1 syndrome, iodine deficiency, as well as exposure to ionizing radiation, particularly during childhood (1). These risk factors highlight the importance of the careful monitoring of individuals with relevant medical histories. Pediatric thyroid cancer is often initially discovered as a neck mass, typically without accompanying symptoms, which can result in a range of progression stages at the time of diagnosis. Although rare, thyroid cancer in children can be easily mistaken for other non-thyroid conditions, such as abscesses, malformations, ectopic thymus, thyroglossal duct cysts and various tumors. This misdiagnosis can lead to delays in appropriate treatment, highlighting the importance of considering thyroid cancer in the differential diagnosis of pediatric neck masses (2).

PTC subtypes include classic, solid, follicular and diffuse sclerosing variants. In children, particularly those aged <10 years, the classic papillary morphology often observed in adults may be absent. These tumors can be unencapsulated and widely invasive throughout the thyroid, displaying a follicular and solid architecture with unique nuclear features and abundant psammoma bodies (4).

The present study describes two rare cases of PTC in pediatric patients with no notable medical or family history of thyroid cancer, both of whom underwent total thyroidectomy without complications. Furthermore, the present study aimed to contribute valuable information to the current body of literature through a detailed review of the existing information. The present case report was written in accordance with the CaReL guidelines. Only reliable, peer-reviewed sources were used while excluding any untrustworthy references or data (5,6).

PTC, particularly among prepubertal patients, is considered rare. When compared with adult PTC, pediatric patients with PTC often present with relatively more advanced-stage tumors with a notable female predominance. However, pediatric patients with PTC, if properly treated, have an improved prognosis compared with older patients with PTC (2,8). This was evident in the patients described herein, as the first case exhibited multifocality, with the largest lesion measuring 55 mm, accompanied by metastasis in 70 lymph nodes. The second case also exhibited signs of local advancement as the tumor was 37 mm in size, and 17 lymph nodes had been invaded. A literature search was performed on the PubMed and Google Scholar database, covering the period from January, 2017 to February, 2025. The search used combinations of the following key words: ‘papillary thyroid carcinoma’, ‘papillary thyroid cancer’, ‘thyroid neoplasm’, ‘pediatric’ and ‘prepubertal’. Only articles published in the English language and reporting individual prepubertal PTC cases were considered. From this search, 9 relevant cases were identified and were included in a mini-review of the literature (2,3,8-14). In line with the current body of literature and indicative of advancement, 7 out of 9 (77.77%) cases exhibited multifocality, and 8 (88.88%) cases had lymph node involvement (Table I).

The most common sites of metastasis are the lungs, bones and brain. Long-distance metastasis was present in 4 (44.44%) of the reviewed cases, all in the lungs. The primary treatment for lung metastases in thyroid cancer is radioactive iodine therapy, which can achieve complete radiographic resolution and provide long-term survival benefits for patients (9). The most significant predictors of recurrence are lymph node involvement, multiple thyroid nodules at presentation, and papillary or papillary-follicular histology. Recurrence rates are higher in children (35-45%) compared to adults (5-20%) (2). In the present study, among the reviewed cases, 4 patients (44.44%) experienced recurrence, all with lymph node involvement. Thyroid cancer is generally more common among females than males, with an overall ratio of ~1 male to every 3.6 females. However, in children aged <10 years, this difference becomes less pronounced, with a male-to-female ratio of ~1.25:1. The incidence of thyroid cancer peaks between the ages of 15 and 19 years, with the average age at diagnosis being 16 years (2). The patients in the present case report were both 9 years of age, and the mean age of diagnosis was 11±3.84 for the reviewed cases.

The majority of children with PTC are typically diagnosed after noticing symptoms such as an enlarging thyroid nodule or a persistent neck lymph node. The diagnostic process often involves a physical exam, thyroid US, fine-needle biopsy, and, if deemed necessary, a diagnostic hemithyroidectomy (10). A distinct subtype, pediatric diffuse sclerosing PTC, such as that observed in case 1 in the present study, is characterized by extensive infiltration, resulting in enlargement of the affected thyroid lobe or the entire gland, often with palpable cervical lymphadenopathy. This variant is frequently associated with microcalcifications, making FNAC essential for definitive diagnosis (3). The primary imaging modality for evaluating neck swelling in children is ultrasonography. Features suggestive of thyroid malignancy include hypoechogenicity, an irregular outline, a subcapsular location and type III nodular vascularization (both peri-nodular and intra-nodular), which are strongly associated with an increased likelihood of malignancy in pediatric patients. FNAC remains the cornerstone of the diagnostic workup for thyroid nodules in children, providing a minimally invasive and reliable method for evaluating malignancy risk (15). The 2009 ATA guidelines for adult thyroid cancer recommend staging all patients with differentiated thyroid carcinoma (DTC) according to the AJCC TNM classification. Within this framework, children are categorized as stage I if no distant metastases are present and stage II if distant metastases exist (4). Notably, the stage I group is highly heterogeneous, encompassing children with a solitary intrathyroidal lesion, those with extensive locoregional disease and cervical lymph node involvement, as well as those with only microscopic PTC (4).

In recent years, it has become widely accepted that a total thyroidectomy is necessary for all pediatric PTC cases, along with the surgical removal of any affected lymph nodes when feasible, as it has been found that the absence of total thyroidectomy is one of the most significant risk factors for recurrence (10). A point of surgical debate is whether to perform a central compartment lymph node dissection, as it is associated with a higher risk of hypoparathyroidism. This risk needs to be carefully balanced against the potential for disease progression. Preserving the recurrent laryngeal nerves, as accomplished in both cases, is crucial, as damage can lead to vocal cord paralysis. Therefore, the surgery needs to be performed by experienced professionals (10). Children generally have a longer life expectancy than adults; thus, it is crucial to carefully evaluate the long-term impacts of thyroid cancer treatment in pediatric patients. Radioiodine therapy, while effective, is associated with risks of complications, such as dysfunction of the salivary and lacrimal glands (the most common side effects), reductions in fertility for both males and females, bone marrow suppression and an increased risk of developing secondary cancers (3). A lower socioeconomic status and diagnostic delays can limit access to timely care and specialized diagnostics, leading to more advanced disease at presentation with greater nodal involvement and the need for aggressive treatment. In pediatric PTC, where multifocality and nodal spread are common, such factors further increase recurrence risk and complicate management.

Future advances in PTC should rely on precision medicine with molecular profiling for targeted therapy, AI-assisted diagnostics to improve early detection, and liquid biopsy for non-invasive monitoring. Studying heterogeneous nuclear ribonucleoprotein C is also critical, as its expression levels have been linked to tumor mutational burden (16). Selective radioactive iodine and minimally invasive surgery support treatment de-escalation in patients who are considered low-risk, while global collaborations are vital to reduce disparities and refine pediatric-specific guidelines that balance survival with long-term quality of life.

A key limitation of the present study was the absence of comprehensive genetic or molecular profiling, such as assessment of BRAF, RAS, RET/PTC, or other kinase fusions, which are increasingly recognized as critical for risk stratification, prognosis and targeted therapy selection in pediatric PTC. The lack of this information limits the ability to associate molecular alterations with clinical outcomes and hinders personalized treatment planning.

In conclusion, PTC in prepubertal children is uncommon. Total thyroidectomy with adjuvant radioiodine therapy may provide favorable outcomes; however, management needs to be carefully individualized, and current evidence is limited to small case series, underscoring the need for larger studies.