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Granular cell tumor

A granular cell tumor (GCT) is a rare that typically originates from Schwann cells of the peripheral nerve sheath, characterized histopathologically by large polygonal cells containing abundant , granular that is periodic acid-Schiff (PAS) positive and resistant. These tumors are predominantly benign, accounting for approximately 0.03% of all specimens, though malignant variants occur in 1-2% of cases and exhibit aggressive behavior with potential for local recurrence, , and reduced survival rates. GCTs most commonly affect individuals in their fourth to sixth decades of life, with a female predominance (female-to-male ratio of 1.8-2.4:1), and can arise in virtually any anatomic site, though they are frequently encountered in the head and neck region, particularly the (up to 40% of cases), as well as , , oral cavity, , and breast. Clinically, benign GCTs present as solitary, slow-growing, painless, firm nodules typically measuring less than 3 cm in diameter, often with intact overlying that may appear normal or slightly yellowish; malignant forms, by contrast, tend to be larger (>5 cm), subcutaneous, and associated with rapid growth, ulceration, or pain. Diagnosis relies on excisional biopsy and histopathological examination, which reveals infiltrative nests or sheets of tumor cells with immunohistochemical positivity for S-100 protein (in most cases), SOX-10, and , aiding differentiation from mimics such as or . For deeper lesions, imaging modalities like MRI may assess extent and involvement. The Fanburg-Smith criteria are used to distinguish benign from malignant GCTs, evaluating features such as , spindling, high mitotic rate (>2 mitoses per 10 high-power fields), and . Management of benign GCTs involves complete surgical excision with clear margins, which yields excellent outcomes and low recurrence rates (2-8%); may suffice for small, lesions in inaccessible sites. Malignant GCTs require , potentially with or , though these modalities show limited efficacy; varies, with 5-year rates of about 74% for localized disease but dropping to 0% in cases with . Rarely, GCTs are associated with genetic syndromes such as neurofibromatosis type 1 or , and recent studies have identified mutations in ATP6AP1 and ATP6AP2 genes in some cases.

Overview

Definition and Characteristics

A granular cell tumor (GCT) is a rare, typically benign derived from cells, specifically Schwann cells of the peripheral . These tumors are uncommon, accounting for approximately 0.5% of all tumors, and most often present as solitary lesions without symptoms. Characteristic features of GCT include slow-growing, painless, firm nodules that are usually skin-colored or slightly hyperpigmented, with a size typically ranging from 1 to 3 cm, though they rarely exceed 4 cm in benign cases. In mucosal locations, such as the oral cavity, the overlying epithelium may exhibit pseudoepitheliomatous in about one-third of cases, which can mimic invasive but is a reactive benign process. GCT must be distinguished from other granular cell lesions, such as congenital (also known as congenital granular cell tumor), which is a separate entity occurring exclusively in newborns on the alveolar ridge and lacking the Schwannian origin and immunoreactivity typical of GCT. While over 98% of GCTs are benign, malignant forms are rare, comprising less than 2% of cases. According to the Fanburg-Smith criteria, a tumor is considered malignant if it exhibits three or more of the following histologic features: , spindling of cells (>50%), increased mitotic rate greater than 2 per 10 high-power fields, high nuclear-to-cytoplasmic ratio, vesicular nuclei with large nucleoli, and nuclear pleomorphism. Tumors with confirmed are also classified as malignant.

Historical Background

The granular cell tumor was first described in 1926 by Russian pathologist Alexei Ivanovich Abrikossoff, who reported a lesion in the and termed it "myoblastoma" due to its presumed origin from striated muscle cells. This initial characterization stemmed from the tumor's location near and its granular cytoplasm, which Abrikossoff interpreted as myoblastic differentiation. Early reports, including Abrikossoff's, highlighted oral cavity involvement, with several cases identified in submucosal nodules in the and buccal mucosa. Throughout the 1940s and 1950s, significant debate ensued regarding the tumor's histogenesis, with theories oscillating between muscular and neural origins based on light microscopy and histochemical studies. A pivotal shift occurred in 1949 when Fust and Custer proposed a neurogenic , suggesting derivation from or perineural fibroblasts through examination of tumor architecture and staining patterns. This persisted until the 1960s, when electron microscopy provided ultrastructural evidence supporting neural differentiation; notably, Fisher and Wechsler in 1962 demonstrated features consistent with origin, such as cytoplasmic lysosomes and , leading to the revised nomenclature of "granular cell tumor" or "granular cell " to reflect its non-muscular nature. Further confirmation of Schwannian emerged in the 1970s through advanced ultrastructural analyses that highlighted neural-specific organelles in tumor cells. Malignant variants were first reported in , and in 1998, the Fanburg-Smith criteria were established to distinguish them from the predominantly benign lesions based on histologic features.

Etiology and Pathogenesis

Cellular Origin

Granular cell tumors (GCTs) are primarily believed to originate from Schwann cells of the , a derivation supported by their consistent expression of S-100 protein and other neural markers, as well as ultrastructural features observed in electron microscopy studies. These studies reveal abundant cytoplasmic lysosomal granules and -like figures within tumor cells, resembling those in Schwann cells that have phagocytosed debris, further corroborating this neural sheath origin. Although earlier hypotheses proposed derivation from perineural fibroblasts or other mesenchymal elements, contemporary evidence strongly favors Schwannian lineage based on immunohistochemical and morphological parallels with peripheral nerve components. As derivatives of the , GCTs arise from undifferentiated precursors present in soft tissues, which retain multipotentiality akin to their embryonic progenitors. This neural crest lineage underscores the tumor's propensity for perineural growth patterns, distinguishing it from non-neural soft tissue neoplasms while aligning it with other schwannian tumors. GCTs exhibit rare associations with other neural tumors, such as neurofibromas, though they remain histologically and behaviorally distinct; occasional overlap with type 1 (NF1) has been noted in syndromic cases, but no strong hereditary predisposition is established beyond this. Regarding , the role of local or chronic inflammation in initiating proliferation remains uncertain, with such factors implicated in approximately 12.5% of cases, yet no definitive viral, environmental, or other exogenous triggers have been identified.

Molecular and Genetic Features

Granular cell tumors (GCTs) typically exhibit a simple genomic landscape characterized by a paucity of copy number alterations and no recurrent fusion genes. Whole-exome sequencing of 82 cases revealed that most benign GCTs lack recurrent somatic mutations beyond highly specific drivers, with inactivating alterations present in approximately 72% of tumors. In contrast, malignant GCTs demonstrate more complex karyotypes, including and chromosomal imbalances such as gains in 1q and X, and losses in 9p and 5p, indicative of genomic instability. The primary genetic alterations in GCTs involve loss-of-function mutations in the V-ATPase accessory proteins ATP6AP1 and ATP6AP2, which are mutually exclusive and clonal in nature. ATP6AP1 mutations occur in about 61% of cases, primarily as nonsense, frameshift, or splice-site variants, while ATP6AP2 mutations affect 11%, often through similar disruptive mechanisms; these are considered drivers for both benign and malignant subsets. Malignant cases additionally harbor mutations in genes associated with the TGFβ pathway (e.g., TGFBR1, TGFBR2) and MAPK pathway (e.g., MAPK1, MAP3K15), observed in all analyzed aggressive tumors, suggesting a role in progression. Occasional alterations in TP53 and PIK3CA have been reported in malignant GCTs, though not recurrent across cohorts, and no consistent involvement of NRAS, BRAF, ALK fusions, EGFR, or KIT has been identified. These mutations dysregulate endosomal acidification via impaired function, leading to lysosomal accumulation and the characteristic granular cytoplasm, with downstream activation of oncogenic signaling including PDGFR-β, Src-family kinases, and STAT5. In malignant subsets, TGFβ and MAPK pathway alterations further promote dysregulation and , distinct from the endocytosis-focused effects in benign tumors. Lysosomal perturbations may also intersect with processes, as evidenced by studies linking granule formation to autophagic mechanisms, though direct defects remain undercharacterized. As of 2025, comprehensive whole-genome sequencing data for GCTs remain limited, particularly for malignant variants, hindering full elucidation of progression drivers. The potential for targeted therapies, such as modulators or MAPK inhibitors, in mutation-defined subsets is largely unexplored, representing a key research gap.

Clinical Presentation

Common Sites and Distribution

Granular cell tumors exhibit a marked predominance in the head and neck region, accounting for approximately 45-65% of all cases. Within this area, the is the most frequently affected site, representing 30-40% of tumors overall, particularly along the anterior and lateral borders, followed by the and skin of the face and neck. Other common locations include , comprising 5-15% of cases, where tumors often arise in the subareolar region and may clinically mimic invasive due to their firm, palpable nature. The is involved in 5-11% of instances, with predilection for the esophagus and colon, while the accounts for about 10%, primarily the and . Tumors also occur in the skin and , particularly of the and , accounting for about 30% of all cases. Multifocality is observed in 5-15% of patients, with multiple lesions more frequently involving the skin, subcutaneous tissues, and internal organs rather than solitary presentations. A distinctive congenital variant, known as congenital epulis, is exclusively limited to the gingival mucosa in infants, typically presenting as a solitary mass at birth, though multiple lesions occur in about 10% of cases. Site-specific behaviors vary, with gastrointestinal tumors often demonstrating deeper submucosal compared to the more superficial dermal or subcutaneous location in lesions. There is no pronounced , as tumors distribute evenly across left and right sides without preferential asymmetry.

Signs and Symptoms

Granular cell tumors typically present as solitary, painless, slow-growing nodules measuring less than 3-4 in diameter, often discovered incidentally during routine examinations or unrelated medical evaluations. These lesions are usually firm and may appear skin-colored, yellowish, or pinkish, with a smooth or slightly rough surface, and are in the majority of cases. In some instances, patients may experience mild pruritus, tenderness, or discomfort if the tumor is located in areas subject to friction or pressure. Site-specific manifestations vary depending on the tumor's location, with the being one of the most common sites. In the oral cavity, particularly the , tumors often manifest as firm, submucosal nodules that are painless but can cause , , or speech difficulties if they grow large enough to interfere with function. Cutaneous lesions typically appear as firm, sessile papules on or , occasionally ulcerated or with a cobblestone-like surface, and may be pruritic. In the breast, they present as palpable, painless lumps that can mimic benign conditions like , though some patients report associated pain, nipple retraction, or thickening. involvement, such as in the or colon, is frequently and incidental, but larger submucosal tumors may lead to symptoms like , obstruction, belching, or . Malignant granular cell tumors, which account for less than 2% of cases, may exhibit more aggressive clinical features including rapid growth, pain, ulceration, large size exceeding 5 cm, or regional . These indicators are rare and often prompt further evaluation due to their deviation from the typical benign presentation. An associated finding in many granular cell tumors, particularly those in mucosal sites, is pseudoepitheliomatous hyperplasia of the overlying epithelium, which can lead to misdiagnosis as in approximately 25% of cases. This reactive change contributes to the clinical mimicry but does not alter the benign nature of most tumors.

Diagnosis

Imaging Modalities

serves as the initial imaging modality for superficial granular cell tumors, particularly those in , subcutaneous tissues, or oral cavity, where it reveals a well-defined, hypoechoic or hyperechoic mass with heterogeneous echotexture and posterior acoustic shadowing attributable to the tumor's granular . This modality is valuable for assessing size and depth in accessible sites, aiding preoperative planning by distinguishing tumors from surrounding structures without . Magnetic resonance imaging (MRI) is the preferred technique for evaluating deeper soft tissue or intramuscular granular cell tumors, offering superior soft tissue contrast to delineate tumor margins, extent, and potential multiplicity. On T1-weighted sequences, tumors typically appear isointense to skeletal muscle, while T2-weighted images show iso- or hyperintense signals with low apparent diffusion coefficient (ADC) values (0.68–0.81 × 10⁻³ mm²/s), reflecting high cellularity; post-contrast enhancement is heterogeneous and marked, often with a peripheral capsule-like pattern. MRI is particularly useful for tumors in the head and neck or extremities, where it helps identify submucosal or intramuscular involvement without histopathological correlation. Computed tomography () is commonly employed for granular cell tumors in gastrointestinal or respiratory tracts, appearing as well-defined, iso-attenuating masses relative to muscle that demonstrate homogeneous enhancement following contrast administration. It excels in assessing bony involvement or invasion in these sites but provides less specificity for soft tissue characterization compared to MRI. Despite these features, no imaging modality exhibits findings for granular cell tumors, often leading to differential diagnoses such as or ; tomography-computed tomography (PET-CT) is infrequently used but may show FDG avidity (SUVmax up to 7.5) in malignant cases for staging purposes. As of 2025, is emerging as an adjunct for evaluating in oral or lesions, displaying rapid wash-in and wash-out patterns that enhance differentiation from benign mimics.

Histopathological Findings

Granular cell tumors are typically unencapsulated and exhibit infiltrative borders on gross examination, presenting as firm, uninodular masses with a tan-yellow cut surface displaying a finely granular texture. On microscopic evaluation with hematoxylin and (H&E) staining, benign tumors consist of sheets or nests of polygonal to slightly spindled s arranged in a syncytial within a fibrous stroma. The tumor s feature abundant granular due to phagolysosomal aggregates, small eccentric nuclei with minimal , and low mitotic activity (typically fewer than 2 mitoses per 10 high-power fields). Overlying often shows pseudoepitheliomatous , which can mimic but lacks cytologic or invasion. Malignant granular cell tumors are rare, comprising approximately 1-2% of cases, and are diagnosed using the Fanburg-Smith criteria established in , which evaluate six histologic features on H&E: presence of , spindling of more than 50% of tumor cells, vesicular nuclei with large nucleoli, increased mitotic rate (>2 mitoses per 10 high-power fields), high nuclear-to-cytoplasmic ratio, and nuclear pleomorphism. Tumors meeting three or more criteria are classified as malignant, while those with one or two features are deemed atypical (of uncertain behavior); fulfillment of zero criteria indicates benignity. Additional prognostic factors include tumor size greater than 4 cm, local recurrence, and , which further support malignant designation when histologic criteria are equivocal. A rare variant known as the primitive (or non-neural) granular cell tumor displays atypical histologic features, including more pronounced cellularity and mild in oval to spindled cells with granular , but lacks definitive criteria for and is considered to have uncertain behavior; it must be distinguished from granular cell changes in other entities, such as , based on the absence of striations or other lineage-specific features.

Immunohistochemical Markers

Granular cell tumors (GCTs) exhibit a characteristic immunohistochemical profile that supports their Schwannian origin, with diffuse positivity for S-100 protein observed in 90-100% of cases, confirming neural differentiation. shows nuclear positivity, further corroborating the schwannian lineage. demonstrates cytoplasmic positivity due to the lysosomal granules within tumor cells, while inhibin-alpha staining is positive, expanding the recognized immunophenotype. These markers are consistently expressed across benign and malignant variants, with no unique profile distinguishing malignancy solely by IHC. GCTs are typically negative for cytokeratins and epithelial membrane antigen (), aiding in the exclusion of carcinomas such as metastatic . They also lack expression of desmin and actin (), which helps differentiate them from leiomyomas or other sarcomas. In benign cases, the proliferation index with Ki-67 is low, usually less than 5%, reflecting their indolent behavior. Malignant GCTs may show elevated Ki-67 indices exceeding 10% and possible overexpression, though these are supportive rather than diagnostic, as no specific IHC markers define . remains the standard for confirming the diagnosis and distinguishing GCTs from mimics, while next-generation sequencing panels are emerging for identifying potential genetic drivers but are not yet routine.

Management

Surgical Approaches

Surgical excision remains the cornerstone of management for granular cell tumors, with approaches tailored to the tumor's benign or malignant nature and anatomical location. For benign lesions, which constitute the majority of cases, local wide excision with negative margins is the standard , achieving cure rates exceeding 92% when resection is complete. Margins of 1 cm or less have been employed successfully in various sites, such as , to ensure complete removal while minimizing morbidity. In cutaneous lesions, particularly those in cosmetically sensitive areas, Mohs micrographic is preferred to facilitate tissue preservation and confirm clear margins layer by layer, reducing recurrence risk to 2-8%. Site-specific considerations optimize outcomes and functional preservation. In the oral cavity, including the , transoral excision using cold knife or techniques allows for precise removal of superficial or submucosal tumors with minimal invasion. Gastrointestinal granular cell tumors, often incidental and submucosal, are amenable to endoscopic mucosal or submucosal resection for lesions under 2-3 cm, providing a minimally invasive option with en bloc removal. For involvement, with is typical, and lymph node may be incorporated if atypical features suggest potential , though it is not routine for confirmed benign cases. Malignant granular cell tumors, identified by criteria such as those outlined by Fanburg-Smith including pleomorphism, high mitotic rate, and , necessitate more aggressive intervention. with margins of at least 2 cm, often extending to 3-5 cm in high-risk areas, combined with regional dissection, is recommended to address local invasion and , which occurs in 11-62% of cases, including regional lymph nodes. In head and neck sites, reconstructive techniques such as local flaps may be required post-resection to restore form and function. Intraoperatively, frozen section analysis is utilized to assess margin status in , guiding the extent of resection to achieve negativity and thereby mitigating recurrence, which rises to 21-50% with incomplete excision in benign cases and is even higher for infiltrative tumors.

Adjunctive Therapies

For benign granular cell tumors that are small and asymptomatic, particularly those in the measuring less than 1 cm, observation with periodic monitoring via is often appropriate to avoid unnecessary intervention. Radiation therapy serves as an adjunctive option primarily for malignant granular cell tumors, especially in postoperative settings following resection with close or positive margins, or for cases with regional involvement or distant metastases. Typical dosing involves 50 delivered in conventional to the tumor bed and affected nodal regions, as demonstrated in case reports where it contributed to local control without early recurrence. It is also employed palliatively for unresectable lesions to alleviate symptoms, though overall efficacy remains limited due to high rates of local recurrence despite . The benefit of is considered debatable but potentially useful for controlling progression in advanced or high-risk disease. Chemotherapy lacks a standardized regimen for granular cell tumors, with its use largely anecdotal and confined to metastatic malignant cases treated similarly to sarcomas. Combinations such as and ifosfamide have been attempted in advanced disease, but responses are generally poor with limited durable benefit. Targeted therapies, such as , have shown benefit in case reports of metastatic malignant GCTs as of 2025 and remain investigational, with no established role outside clinical trials; a BRAF was reported in one endobronchial malignant case, suggesting potential for BRAF-targeted approaches in select instances. For superficial oral cavity lesions, using lasers (e.g., 445 nm ) offers a minimally invasive alternative, enabling precise excision with good and low recurrence in select cases. Immunotherapy has not demonstrated proven efficacy in granular cell tumors and is not routinely recommended. Challenges in adjunctive therapies stem from the tumors' low proliferative activity, which confers resistance to cytotoxic agents and , often excluding in favor of localized control measures. A multidisciplinary approach involving oncologists, surgeons, and pathologists is recommended for managing malignant cases to optimize individualized strategies.

Prognosis and Outcomes

Benign Variants

The vast majority of granular cell tumors are benign, exhibiting an excellent prognosis with complete surgical excision achieving cure rates exceeding 95%. Local recurrence occurs in approximately 20% of cases (up to 50% with incomplete excision) when resection margins are positive, typically manifesting within 1-2 years post-excision. These tumors demonstrate no metastatic potential in their benign form, with long-term outcomes remaining favorable and indolent even in multifocal presentations, which account for 5-10% of cases and necessitate ongoing surveillance. Malignant transformation is exceedingly rare. Rare cases of malignant transformation from benign lesions have been reported as late as 2025, emphasizing the need for long-term surveillance. Post-resection follow-up for benign granular cell tumors involves clinical examinations every 6-12 months for 2-5 years to monitor for recurrence, with recommended for high-risk sites such as . Several factors influence and outcomes; notably, an infiltrative , a common benign histopathological feature, often necessitates re-excision to ensure clear margins despite not affecting overall . In contrast, tumor size under 4 cm and low mitotic activity (typically fewer than 2 mitoses per 10 high-power fields) do not adversely impact recurrence risk or long-term results in benign cases.

Malignant Variants

Malignant granular cell tumors (MGCTs) represent approximately 1-2% of all granular tumors, characterized by aggressive distinct from their benign counterparts. These rare neoplasms often exhibit metastatic potential in about 50% of cases, with common sites including the lungs and regional nodes via hematogenous . Survival outcomes for MGCTs are generally poor compared to benign forms, with 5-year disease-specific survival rates ranging from 62.8% to 74% overall. For localized disease, 5-year survival approximates 70-80%, but approaches 0% in cases with distant metastases at diagnosis; tumors larger than 5 cm further reduce 5-year survival to around 51%. Adverse prognostic factors include tumor size exceeding 4-5 cm, high mitotic activity (often >3 mitoses per 10 high-power fields), and presence of necrosis, all of which diminish resectability and worsen long-term outlook, while early detection enhances surgical intervention success. Local recurrence occurs in 32-41% of MGCT cases, frequently complicating due to infiltrative . Distant predominantly follows a hematogenous route, leading to multi-organ involvement and high mortality. Case reports document rare long-term survivors achieving extended remission through , though such outcomes remain exceptional. Malignant grading, as assessed via histopathological features such as and elevated mitoses, correlates directly with these aggressive outcomes (detailed in Histopathological Findings).

Epidemiology

Incidence Rates

Granular cell tumors are uncommon neoplasms, with a population-based incidence estimated at 5 cases per million person-years (95% 3-8) derived from a review of cases in a defined community cohort. Due to their frequent asymptomatic presentation as slow-growing nodules, many cases likely remain underreported, particularly incidental findings not prompting . The Surveillance, Epidemiology, and End Results (SEER) program provides key data on malignant cases, documenting 113 instances of malignant granular cell tumors from 1973 to 2013 across registries covering approximately 28% of the population, translating to roughly 10 new malignant cases annually nationwide. Malignant variants constitute less than 2% of all granular cell tumors. Most epidemiological data derive from pathology registries such as for malignant tumors and institutional reviews for benign cases, with higher detection rates observed in routinely screened populations, such as during oral examinations. Among variants, congenital granular cell tumor () exhibits a of 1-9 per 1,000,000 births, while adult granular cell tumors occur sporadically without established hereditary patterns. Benign forms predominate, comprising over 98% of cases.

Demographic Patterns

Granular cell tumors most commonly occur in adults, with a peak incidence between the fourth and sixth decades of life, typically affecting individuals aged 30 to 60 years. The tumors are rare in children and adolescents, though a distinct variant known as congenital granular cell epulis arises exclusively in neonates, presenting as a benign gingival mass shortly after birth and accounting for nearly all pediatric cases. Malignant granular cell tumors tend to manifest at a slightly older age, with a mean age of approximately 50 years. A slight female predominance is observed overall, with female-to-male ratios ranging from 1.8:1 to 2.4:1. Malignant variants also exhibit female predominance, comprising about 65% of cases. Granular cell tumors demonstrate a racial disparity, with benign lesions occurring in approximately two-thirds of African American patients, indicating a higher incidence in this population compared to s. Multiple lesions are also more frequent among individuals. In contrast, malignant cutaneous granular cell tumors are more common in patients, representing over 70% of such cases. The underlying factors for these racial patterns may involve genetic or environmental influences, though specific mechanisms remain unclear. No strong associations with occupational exposures have been identified for granular cell tumors. Similarly, there are no reported links to , suggesting equal distribution across economic groups.

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