Abstract
Desmoplastic fibroblastoma (also known as collagenous fibroma) is an uncommon benign fibroblastic/myofibroblastic neoplasm that primarily arises in the subcutaneous tissue of upper extremity. Magnetic resonance imaging reveals a well-defined mass in intimate association with dense connective tissue and prominent low signal intensity on all pulse sequences. Peripheral and septal enhancement is usually seen after intravenous contrast. Histologically, the lesion is paucicellular and consists of spindle to stellate-shaped cells embedded in a collagenous or myxocollagenous stroma with low vascularity. Diffuse and strong nuclear immunoreactivity for FOS-like antigen 1 seems to be characteristic of desmoplastic fibroblastoma. Cytogenetic studies have demonstrated the presence of 11q12 rearrangements and an identical t(2;11)(q31;q12) translocation. This review provides an updated overview of the clinical, radiological, histological, cytogenetic and molecular genetic features of desmoplastic fibroblastoma and discusses the relationship to fibroma of tendon sheath.
Desmoplastic fibroblastoma, also known as collagenous fibroma, is a rare benign soft-tissue tumor first described in 1995 by Evans (1). It belongs to the fibroblastic/myofibroblastic tumor group according to the 2020 World Health Organization Classification of Soft Tissue Tumors (2). Desmoplastic fibroblastoma can show morphological overlap with fibroma of tendon sheath (see below). In our experience, it is sometimes difficult to distinguish between these two tumor types, especially when examining limited tissue specimens. This review highlights the clinical, radiological, histological, cytogenetic and molecular genetic features of desmoplastic fibroblastoma and discusses the relationship to fibroma of tendon sheath.
Clinical Presentation
Desmoplastic fibroblastoma has a peak incidence in the fifth to seventh decades of life, with a male predominance. Few cases have been encountered in children (3, 4). It typically presents as a firm, mobile, slow-growing, painless, subcutaneous mass, often of relatively long duration. Fascial and skeletal muscle involvement is relatively common. Desmoplastic fibroblastoma shows a wide anatomic distribution but occurs most frequently in the upper arm, shoulder and upper back. The diameter ranges from 1 to 20 cm (median of 3 cm) (5). Simple excision is the treatment of choice and no local recurrence has been reported (2).
Radiological Features
The radiographic, ultrasonographic and computed tomographic (CT) features of desmoplastic fibroblastoma are not specific but magnetic resonance imaging (MRI) features are relatively characteristic. In our experience, the most significant differential diagnosis to be considered is desmoid-type fibromatosis, which may require more aggressive treatment. It is important to be familiar with the key imaging features of desmoplastic fibroblastoma for its accurate diagnosis and appropriate treatment.
Radiographs may be normal or show a soft tissue mass without calcification. Although cases of osseous erosion or invasion have been described (6-9), the underlying bone is typically normal. Limited experience with ultrasonography is that it reveals a heterogeneous mass with mixed echogenicity. Color Doppler examination may display no significant vascularity (9). CT demonstrates a homogeneous soft-tissue mass with tissue attenuation similar to that of skeletal muscle. On MRI, the lesion is well-defined and adjacent to dense connective tissue. Desmoplastic fibroblastoma usually exhibits variable amounts of low to intermediate signal intensity on T1-weighted images (Figure 1A) and inhomogeneously low to slightly high signal intensity on T2-weighted images (Figure 1B). On fluid-sensitive images, the lesion is more heterogeneous, generally showing a wider spectrum of reduced to intermediate signal intensity. Contrast-enhanced MRI demonstrates peripheral and septal enhancement with patchy areas of homogeneity (9) (Figure 1C). In contrast, desmoid-type fibromatosis exhibits more infiltrative growth and more uniform moderate-to-avid enhancement. A prominent low signal-intensity band on all pulse sequences can be seen in desmoid-type fibromatosis. We suggest that the enhancement pattern and the presence of a low signal-intensity band may be useful to distinguish desmoplastic fibroblastoma and desmoid-type fibromatosis. To date, position-emission tomography features for desmoplastic fibroblastoma have been described in only two cases (9, 10). Integrated positron-emission tomography/CT images show mild focal fluorodeoxyglucose uptake by the lesion, with a maximum standardized uptake value of 2.4 and 3.5, respectively.
Histological and Immunohistochemical Characteristics
Grossly, desmoplastic fibroblastoma appears as a well-circumscribed mass with a white to pearl-gray cut surface (Figure 2A). Histologically, the lesion is hypocellular and consists of spindle to stellate-shaped cells embedded in an abundant collagenous or myxocollagenous stroma (Figure 2B). Slit-like blood vessels are generally scarce and inconspicuous. Mitotic figures are uncommon and necrosis is absent. Immunohistochemically, the tumor cells are positive diffusely for vimentin and focally for smooth muscle actin. Occasional cases may exhibit scattered cells that stain for keratin (5). Immunostains for desmin, S-100 protein, CD34, epithelial membrane antigen and β-catenin are typically negative. Notably, diffuse and strong nuclear immunoreactivity for FOS-like antigen 1 (FOSL1) is seen in desmoplastic fibroblastoma (Figure 2C), in contrast to the absence of overexpression in other histological mimics including fibroma of tendon sheath and desmoid-type fibromatosis (11). Therefore, FOSL1 staining is an extremely useful adjunct in the diagnosis of desmoplastic fibroblastoma, particularly in small specimens.
Cytogenetic and Molecular Genetic Features
Only 11 cases of desmoplastic fibroblastoma have been cytogenetically characterized in the literature (12-18) (Table I). Desmoplastic fibroblastoma displays mostly simple karyotypes characterized by one or few chromosomal rearrangements or numerical aberrations. The long arm of chromosome 11, in particular 11q12, was involved in almost all cases. Moreover, we reported a case of desmoplastic fibroblastoma with trisomy 8 as the sole cytogenetic anomaly (18). Notably, an identical t(2;11)(q31;q12) translocation was detected in two cases (12, 13). We also observed the presence of a 2;11 translocation with slightly distal breakpoints (2q35 and 11q13) (17) (Figure 3). These cytogenetic studies strongly suggest that 11q12 rearrangement is characteristic of desmoplastic fibroblastoma. It is of interest that the same translocation was identified in a case of fibroma of tendon sheath (19), suggesting a pathogenetic link between these two entities.
Recently, global gene expression profile and quantitative real-time polymerase chain reaction have shown that the functional outcome of 11q12 rearrangement is deregulation of FOSL1 expression in desmoplastic fibroblastoma (16). On the other hand, chromogenic in situ hybridization analysis revealed no rearrangement of the FOSL1 gene locus in any cases of desmoplastic fibroblastoma examined (11). Further studies are required to elucidate the mechanism of FOSL1 overexpression in desmoplastic fibroblastoma.
Fibroma of Tendon Sheath
Fibroma of tendon sheath is a benign fibroblastic/myofibroblastic tumor that is usually attached to a tendon (sheath) (20). It has a peak incidence in the third to fifth decades of life, with a male predominance. Fibroma of tendon sheath typically presents as a firm, small (usually less than 3 cm), slow-growing, painless mass in the hand (especially the thumb, index finger and middle finger). Simple excision is the treatment of choice but local recurrence is seen in 5-10% of cases (20).
Radiographs are usually normal or may demonstrate a nonspecific soft-tissue mass. Bone involvement is extremely uncommon. On MRI, the lesion has low to intermediate signal intensity on both T1- and T2-weighted images. Areas of increased signal intensity may be seen in lesions with components of increased cellularity or myxoid change. Fibroma of tendon sheath shows a variable enhancement pattern, ranging from no enhancement to marked enhancement (21). If fibroma of tendon sheath has a hypointense signal on all pulse sequences, it may have imaging features that overlap with those of desmoplastic fibroblastoma.
Histologically, the lesion is well circumscribed and consists of bland spindle cells embedded in a dense collagenous stroma. Focal myxoid matrix may be present. There are characteristic slit-like thin-walled vessels or clefts (Figure 4). Cytological atypia is generally not seen and mitotic activity is low. A cellular variant of this tumor has also been described (22). Immunohistochemically, the tumor cells are positive diffusely for vimentin and focally for smooth muscle actin. Notably, nuclear expression of FOSL1 is absent in fibroma of tendon sheath (11).
Clonal chromosomal aberrations were detected by cytogenetic analysis in four cases of fibroma of tendon sheath (19, 23-25) (Table II). These cytogenetic studies suggest that 11q rearrangement may be characteristic of (classic) fibroma of tendon sheath. To date, no candidate target gene for this chromosomal rearrangement has been identified. On the other hand, Carter et al. recently reported that ubiquitin-specific protease 6 (USP6) (located on 17p13) rearrangements were found in approximately 67% of cellular fibroma of tendon sheath but not in classic fibroma of tendon sheath (26). Most recently, anchored multiplex polymerase chain reaction/next-generation sequencing revealed pyruvate kinase M1/2, regulator of chromosome condensation 1, asporin, collagen type I alpha 1 chain, collagen type III alpha 1 chain and non-muscle myosin heavy chain 9 as fusion partners for USP6 in cellular fibroma of tendon sheath (27).
Conclusion
Desmoplastic fibroblastoma is a distinctive benign fibroblastic/myofibroblastic tumor and its associated prognosis is excellent with no recurrence. Contrast-enhanced MRI is especially useful and reveals peripheral and septal enhancement with varying areas of homogeneity. The use of FOSL1 immunostaining is a valuable adjunct in the diagnosis of desmoplastic fibroblastoma. A t(2;11)(q31;q12) translocation is characteristic of desmoplastic fibroblastoma. The presence of this balanced translocation has also been reported in a classic fibroma of tendon sheath. The radiological, histological and cytogenetic overlap between desmoplastic fibroblastoma and classic fibroma of tendon sheath suggests that they are closely related entities. Over the past few years, some novel fusions involving the USP6 gene have been identified in a subset of cellular fibroma of tendon sheath. Further studies will delineate how these lesions should best be classified.
Acknowledgements
This study was supported in part by the Ogata Foundation.
Footnotes
Authors’ Contributions
SN researched the literature and drafted the article. JN collected the data and was a major contributor to writing the article. MA and KN performed the histopathological evaluations. TY reviewed the article. All Authors read and approved the final article.
This article is freely accessible online.
Conflicts of Interest
The Authors declare no conflicts of interest associated with this article.
- Received October 26, 2020.
- Revision received November 5, 2020.
- Accepted November 10, 2020.
- Copyright© 2021, International Institute of Anticancer Research (Dr. George J. Delinasios), All rights reserved