Synovial sarcoma of the head and neck: A review of reported cases on the clinical characteristics and treatment methods

Synovial sarcoma (SS) is a high-grade soft-tissue sarcoma that occurs predominantly in older children and young adults in their thirties. It is usually very challenging to diagnose and treat synovial sarcoma in the head and neck region. The purpose of this review is to investigate the clinical manifestations and different treatment methods in the management of primary synovial sarcoma of the head and neck. HNSS has an aggressive nature and poor prognosis. Surgical resection, radiotherapy, and chemotherapy are the primary treatment methods. Typically, surgical resection with negative margins remains the foundation of therapy, which is not very easily achieved in the head and neck due to its complex anatomical structure and the presence of many blood vessels and nerves. However, synovial sarcoma has a high recurrence rate, so aggressive management and close follow-up are warranted for the optimal outcome.

Introduction

Jernstrom (1954) first described synovial sarcoma (SS) in 1954. SS is a soft tissue malignancy harboring t (X; 18), resulting in the fusion of two genes SS8 (at 18q11) and SSX (1, 2, or 4 at Xp11), forming the gene fusion product SS18–SSX (Stacchiotti and Van Tine, 2018). It primarily affects young adults in their thirties and most frequently occurs in the para-auricular regions of the extremities (70%), followed by the trunk (15%), and least common in the head and neck region (5%–7%) (Sultan et al., 2009; Stacchiotti and Van Tine, 2018). SS of the head and neck (HNSS) is a rare, aggressive malignant tumor with an unpredictable prognosis and is prone to recurrence after treatment (Kumar et al., 2020). The most common site of HNSS is the hypopharynx (Pai et al., 1993). However, HNSS also arises from other sites, including the oropharynx (Herrero Laso and Varela Duran, 1998), nasopharynx (Nakahira et al., 2013), trachea (Reilly and Johnston, 2010), TMJ (Xia et al., 2020), mandible, tongue, paranasal sinuses, floor of the mouth, buccal mucosa (de Araujo and Monteiro, 1989; Mahesh et al., 2013), maxillary sinus (Hannoun et al., 2021), ethmoid sinus (Jain et al., 2018), parotid gland (Grayson et al., 1998), soft and hard palate (Massarelli et al., 1978; Ferlito et al., 1981; Doubi et al., 2019), gingiva (Rao et al., 2014), retromolar area (Meer et al., 2003), and suboccipital region (Karydakis et al., 2018).

According to the International Classification of Diseases for Oncology (ICD-O), SS is divided into three distinct histologic subtypes: monophasic SS, biphasic SS, and poorly differentiated SS (Fiore et al., 2021). Figure 1 shows hematoxylin and eosin staining of the three histologic variants of SS. Other variants include myxoid SS and ossifying/calcifying SS (Shukla et al., 2003; Alabdulaaly et al., 2021). Monophasic SS contains uniform spindle cells, biphasic SS consists of epithelial cells arranged into glandular structures with spindle cells arranged into fascicles, and spindles and round blue cells characterize poorly differentiated SS (Jayasooriya et al., 2016). The monophasic subtype and the biphasic subtype are the two most common subtypes, while the epithelioid cell subtype is rare. Histologically, SS comprised varying proportions of spindle and epithelial cell components. Due to the variable cellular and architectural morphology and resemblance to other neoplastic processes common to the region, the histopathological diagnosis of SS is very challenging (Crowson et al., 2015). Immunohistochemistry plays a crucial role in histological diagnosis. SS is positive for epithelial markers, including cytokeratin, epithelial membrane antigen (EMA), and vimentin. SS is usually unfavorable for CD34 and FLI-1 (Madabhavi et al., 2018).

FIGURE 1

FIGURE 1. Hematoxylin and eosin staining of the three histologic variants of synovial sarcoma (SS). (A,B) Slides of monophasic SS, made of spindle cells with moderate cytologic atypia and differentiated areas of variable cellularity. (C,D) Slides of biphasic SS composed by glandular-like structures with spindle cells without nuclear atypia. (E,F) Slides of poorly differentiated SS in its Ewing-like variant, with the presence of rosette-like structures (magnification: ×20).

The causes and risk factors of SS remain unclear. Researchers have found that in radiotherapy of other cancers, specific inherited gene defects can increase the possibility of getting SS (Ulusan et al., 2005). Furthermore, other studies suggested that SS can be derived from undifferentiated cells, neural crest stem cells, pluripotent mesenchymal cells, and other parts of the body (Carrillo et al., 1992; Machen et al., 1999; Sturgis and Potter, 2003; De Logu et al., 2020). This review about HNSS was written to understand better different treatment methods of SS in the head and neck region in many cases reported before due to the rarity of the disease and lack of data. It is imperative to know how to manage and treat HNSS to improve the health status of patients suffering from SS in the head and neck region.

Synovial sarcoma in laryngeal and pharyngeal regions

The first case of HNSS, which occurred in the pharynx, was described in 1954 by Jernstrom (1954). It is also the most common site HNSS (Pai et al., 1993). The most common signs and symptoms of SS in the laryngeal and pharyngeal region among patients are hoarseness of voice because of proliferative growth involving the vocal cord and aryepiglottic fold with impaired mobility (Kumar et al., 2020), hemoptysis (Papaspyrou et al., 2003; Madabhavi et al., 2018), dyspnea, dysphagia, mass in the neck region, breathing difficulties, and pain. Sometimes the patients are misdiagnosed, such as fibroadenoma or benign tumor, because of the rarity of SS in the head and neck region and lack of clinical and imaging information (Danninger et al., 1994; Wigand et al., 2018; Kaoutar et al., 2021). CT, MRI, and PET-CT can be used in the examination of the patients, and smaller-size SS often shows similar imaging features similar to benign tumors displayed by CT or MRI (Hirsch et al., 1997; Rangheard et al., 2001; Hongzhi Quan et al., 2017).

As shown in Table 1, surgery is the principal treatment modality for synovial sarcoma of the larynx and pharynx, including partial or complete laryngectomy, partial laryngectomy, endoscopic resection, neck dissection, laser endoscopic resection, and CO₂ laser excision (Pruszczynski et al., 1989; Capelli et al., 2007). Neck dissection is unnecessary if the tumor does not involve the lymph node (Meer et al., 2003). In some cases, surgery is performed following radiotherapy and chemotherapy, while others undergo surgery followed by radiotherapy without chemotherapy, depending on the patient’s physical status and the physician’s advice. From Table 1, we can see that numerous patients underwent laser endoscopic resection, laryngectomy neck dissection, extended total laryngectomy, and CO₂ laser excision, followed by radiotherapy and chemotherapy. Some chemotherapy agents are ifosfamide, adriamycin, cisplatin, actinomycin D, vincristine, dacarbazine, doxetaxel, rh-endostatin, dosorumin, and others (Shein et al., 2021). Table 1shows that the patient underwent postoperative radiotherapy delivering 60 Gy in 30 fractions over 6 weeks, with bilateral prophylactic nodal irradiation to 50 Gy (Holtz and Magielski, 1985). Then, the patient was administered four cycles of doxorubicin and ifosfamide chemotherapy. Twelve months after the initial diagnosis, there was no evidence of recurrence on endoscopy (Madabhavi et al., 2018). In most cases described as follows after treatment of SS, the recurrence rate is quite low, and the patients were cured.

TABLE 1

TABLE 1. Reported cases of laryngeal and pharyngeal synovial sarcoma.

Synovial sarcoma of the oral cavity (TMJ, jaw, and tongue)

SS of the oral cavity region is not very common compared to that of the pharyngeal and laryngeal regions. Based on literature, the commonly affected sites of the oral cavity include the jaw, TMJ, and tongue. Table 2 shows SS of the oral cavity (TMJ, jaw, and tongue) (Maxymiw and Wood, 1990; Tilakaratne, 2006; Wang et al., 2008). The clinical symptoms of SS in the TMJ include pre-auricular mass, mouth opening limitation, discomfort in the TMJ, trismus, pain, and swelling in the face (Allias-Montmayeur et al., 1997). SS in the TMJ region may often be misdiagnosed as temporomandibular disorder (TMD) or other benign neoplasms due to the typical slow growth and signs and symptoms (Mostafapour and Futran, 2000). Differential diagnosis, including primary parotid tumor, should also be considered. Before surgery, CT scan and panoramic radiography can also be very helpful in revealing the size and location of the tumor (Bukawa et al., 2007). The ratio of occurrence of SS in males to females in the TMJ region is 8:5. In the current review, surgical excision in the TMJ region was performed in all cases. Local excision was performed through a standard parotid incision with temporal extension (Madabhavi et al., 2018). The metastasis rate of the lymph node is 10%–20%, and prophylactic cervical lymph node dissection is not necessary (Kartha and Bumpous, 2002). In the TMJ region, radical excision with negative margins is not always successful due to the complex anatomical structure. In such cases, surgical excision with adjuvant radiation has shown positive effects and an improved overall survival rate in patients (Stadelmann et al., 1995; Harb et al., 2007). Although the effectiveness of chemotherapy is still controversial, it has been tried in some cases (White et al., 1992; Meer et al., 2003; Luo et al., 2007; Al-Daraji et al., 2009; Nomura and Kishimoto, 2014). Patients with a tumor 5.0 cm in diameter had a higher risk of local tumor recurrence, distant metastasis, and mortality in HNSS (Gopalakrishnan et al., 2017). Other prognostic factors include age, TMN stage, surgical margin, and therapy modality.

TABLE 2

TABLE 2. Reported cases of the oral cavity (TMJ, jaw, and tongue).

SS in the maxilla and mandible is infrequent compared to that in the TMJ. In this region, SS is usually diagnosed in young female patients, with the mandible and maxilla equally affected (Liu et al., 2015) (three males and three females). Table 2 shows the clinical symptoms of SS of the jaw, including painful swelling, limitation in mouth opening, eating difficulty, and swelling of the face. The diagnosis of intraoral SS and radiographic examination are essential steps used to localize and identify the lesion such as in Table 2 intraoral examination, an expansion of the cortical bone was noticed in the vestibular and lingual regions of the left mandible, and radiographic examination showed the presence of an expansive and multiocular radiolucent lesion extending from the left condyle to the mandible body (Granowetter et al., 2006; Teixeira et al., 2021). The clinical diagnostic hypotheses were ameloblastoma or malignant neoplasm. A combination of clinical, histologic, and immunohistochemical approaches can be used to support the diagnosis of SS in the jaw.

In the jaw region, biopsy is usually performed during surgical excision followed by microscopic evaluation immunohistochemistry. Regarding the treatment for SS of the jaw, wide surgical excision is necessary to obtain a clear margin followed by adjuvant radiotherapy, and chemotherapy is the recommended treatment modality (Bergh et al., 1999; Tao et al., 2011; Wushou and Miao, 2015). Primary intraosseous SS of the jaws has a high recurrence rate and tumor-related death (Teixeira et al., 2021). As we can observe from Table 2, three patients died (jaw region). Thus, long-term follow-up is required for early detection of recurrence.

The tongue is the relatively frequently affected intraoral site of SS (Novotny and Fort, 1971; Bridge et al., 1988; Fujimoto et al., 2003; Villaroel-Salinas et al., 2012), and it was first described as a site of SS occurrence by Mir-Abedy (1962). Common signs and symptoms of SS of the tongue include pain in the tongue area, eating difficulties, loss of ability to speak, inability to close lips, hoarseness, frequent choking, sore throat, fever, and swelling. Most cases reported in Table 2 are biphasic subtypes than monophasic, and very few cases are of calcifying SS (Alabdulaaly et al., 2021). In our review, the first case in the tongue area is a monophasic and calcifying subtype (Alabdulaaly et al., 2021). Due to its rarity, diagnosis of the disease is complicated disease. In this specific case, we can observe histologically (monophasic and calcified subtype) that there was an infiltrative tumor composed of a diffuse and highly cellular proliferation of the spindle cells with a ringbone pattern, collagenous stroma, extensive calcification, and numerous dilated vessels (Alabdulaaly et al., 2021). MRI is of significant importance in determining the actual size and location of the tumor in the tongue. As we can observe from Table 2, MRI of the head and neck revealed the presence of a large tumor occupying the left side of the tongue (Su et al., 2018). The tumor was classified as stage IIB based on NCCN guidelines. Tumor of this stage should primarily be managed by en bloc resection to obtain oncologically appropriate margins, followed by radiation therapy and adjuvant chemotherapy (Su et al., 2018). After the surgical procedure, the incision healed well and his tongue movement improved. MRI revealed no enlarged lymph nodes in the neck (Su et al., 2018). Treating SS in the tongue includes excision (composite resection of the tonsil and tongue base, radical neck dissection, tracheostomy, and reconstruction via transmandibular symphysis osteotomy followed by (with or without) radiotherapy (75 Gy) and chemotherapy (doxorubicin, ifosfamide, and pazopanib) (Engelhardt and Leafstedt, 1983).

Synovial sarcoma of the paranasal sinus tract

Trible (1970) first described a patient with SS that metastasized to the sphenoid sinus. SS of the sinonasal tract is more common in young adults but can occur at any age, with slight male predominance. The most common signs and clinical symptoms are nasal obstruction, epistaxis, and rhinorrhea. Moreover, the cause of SS arising from the sinonasal tract is unclear (Jain et al., 2018; Lin et al., 2021). Diagnosis of SS of the sinonasal tract remains challenging because of the sheer number of differentials that may present and behave like SS. During diagnosis, the physician should pay attention to some clinical indicators, such as the relatively rapid progression of the symptoms and “disrespecting the anatomical distribution” toward the possible malignant nature of the disease (Subramaniam et al., 2012). Anterior rhinoscopy can be very helpful to determine the exact size and location of the tumor. Ophthalmic examination is also performed in order to determine whether the tumor affects vision and eyeball movements (Jain et al., 2018). CT is also an important tool in verifying whether ethmoid, sphenoid, and frontal sinuses are involved (Jain et al., 2018). In order to avoid misdiagnosis, radiology and clinicopathological features play a significant role in diagnosing SS of the sinonasal tract (Lin et al., 2021). An MRI can be beneficial in the determination of the nature of the defect as it can demonstrate a heterogeneously enhancing lesion along with the surrounding structures, and CT can indicate the nature of the nasal mass (Tateishi et al., 2004).

Moreover, the histopathological study generally confirms the diagnosis, and the primary treatment is complete surgical excision including craniotomy, endoscopic resection, and total maxillectomy (Sun et al., 2003; Gallia et al., 2005; Hannoun et al., 2021). Resection with a negative margin is very difficult to achieve in the paranasal sinus, especially endoscopic sinus resection, and due to the complexity of the anatomical structures, the surgeon should try to achieve a precise border resection if possible. The prognosis of the disease can be affected by some factors, such as the size of the tumor, marginal clarity, mitotic activity, neurovascular invasion, and the ki67 proliferation index (Singer et al., 1996). Table 3 shows that one of the patients underwent partial medial maxillectomy; complete ethmoidectomy, except for cribriform plate/anterior cranial fossa resection; and partial middle turbinectomy. After surgery, 3 weeks later, CT and MRI showed inflammation with no gross residual tumor. Due to the absence of tumor-free resection margin and high-grade sarcoma, the patient underwent ifosfamide-based chemotherapy and external beam radiotherapy of 60–65 Gy (Jain et al., 2018). The central problem when adopting this approach is that it can cause cosmetic and functional defects when trying to achieve precise border resection in regions of complex anatomical anatomy in the parasinus region. Despite all this, it has a high recurrence rate within 2 years (Hoffman et al., 2004; Colville et al., 2005; Nielsen et al., 2015), especially in the skull base and paranasal sinus SS (Owosho et al., 2017), depending on the tumor stage, size, and site (Harb et al., 2007). After surgery, it is recommended to perform regular endoscopic and radiological examinations during the follow-up period. Concerning radiology, CT is more advantageous in detecting tumor recurrence but should be advised after 12 weeks after surgery to avoid false positive results (Wong et al., 2014).

TABLE 3

TABLE 3. Reported cases of synovial sarcoma in the paranasal sinus tract.

Synovial sarcoma of the orbital and ocular region

Orbital and ocular SS is exceedingly rare. Table 4 shows common signs and symptoms of patients suffering from SS of the orbital and ocular region: growth of the mass, painless exophthalmia, orbital swelling, proptosis, inflamed conjunctiva, limited ocular motility, and painful cystic lesion. In the ocular region, ophthalmologic examination is of great importance in order to analyze the exact size and location of the lesion (Portelli et al., 2019). However, we should also be clear about the differential diagnosis before making a definite conclusion. (Table 4) In our reported case, the histological differential diagnosis in the last case includes malignant peripheral nerve sheath tumor (MPNST), leiomyosarcoma (LMS), fibrosarcoma (FS), and solitary fibrous tumor (SFT) (Portelli et al., 2019). The cells were in a sheet arrangement and vague fascicles, with alternating hypercellular and hypocellular myxoid areas, and FS-like areas were absent. Similar to synovial sarcoma, malignant peripheral nerve sheath tumors can express S100 protein, EMA, CK7, CK19, TLE1, and SOX10. Furthermore, CD34 is absent in SS. In the last case reported, the neoplasm was negative for CK7, CK19, SOX10, CD34, and muscular markers. Cell fascicles were more prolonged, loose, and ample than intersecting.

TABLE 4

TABLE 4. Reported cases of synovial sarcoma of the orbital and ocular region.

Referring to Table 4, surgical excision (orbitotomy, partial, and total enucleation of the eye) is the most effective treatment for the disease (Ito et al., 2015). In some cases, like case 2 (Votruba et al., 2002), complete excision was performed, but in other cases, complete resection is not possible due to the complex anatomical structure around the orbital region (Ratnatunga et al., 1992). Sometimes, the patients undergo two surgical interventions due to the complexity of the disease. In one of the following cases, the lesion was partially removed because complete removal was not possible and sent for definitive histopathologic examination. Histological examination showed a spindle cell proliferation, composed of relatively small and fairly uniform metastases. Then, a second surgical intervention with a complete removal of the mass was then undertaken, without ocular complications. The patient is free of recurrences and metastases after 20 months of follow-up (Portelli et al., 2019). In some cases as reported in Table 4, radiotherapy and chemotherapy are also used after surgical excision of SS to minimize the recurrence rate of the disease (Shukla et al., 2003; Hartstein et al., 2006; Liu et al., 2012; Stagner et al., 2017; Xu and Chen, 2017).

Synovial sarcoma in other rare sites of the head and neck (occipital and salivary gland)

Synovial sarcoma of the suboccipital region is a sporadic condition in patients. As we can observe from Table 5, a 12-year-old girl presented to the hospital with a painless tumefaction on the right suboccipital region evolving for 5 months (Karydakis et al., 2018), and after undergoing imaging examination, MRI showed an encapsulated spindle formation in the region of the soft tissues of the right suboccipital region, and CT showed that there was only thinning of the bone without erosion. Laboratory results did not show specific features, and the alkaline phosphatase level elevated slightly. The little girl underwent tumor resection. She was in the left lateral position in the operating room and underwent a combination of blunt and sharp dissection. The mass was well-circumscribed with a stiff consistency. The bone underneath the lesion was eroded. Furthermore, the lesion was fibrous and viscous. A few days later, after the surgery, the patient was discharged. Complete surgical excision is the primary treatment for SS of the suboccipital region, and as we can notice, it is tough to diagnose as the condition is infrequent.

TABLE 5

TABLE 5. Report cases of primary synovial sarcoma in other rare sites of the head and neck.

Ultrasonography of the neck is a very important step in the gland region to determine the exact location and size of the lesion. For the diagnosis, the patient underwent fine-needle aspiration biopsy. Table 5shows that a women of age 35 with swelling of the right parotid region of uncertain duration with 10 year history caused by right-sided facial pain and headache was treated with total conservative parotidectomy and was alive for 36 months (Jay et al., 2008). In another case, a young man with mass of the right submandibular gland region that had been present for the past 12 months underwent surgical resection of the submandibular gland and adjuvant radiotherapy to a total dose of 7,000 cGy to prevent recurrence (Mariano et al., 2012). The treatment was effective, with no evidence of the disease. Synovial sarcoma in the palatal region can cause difficulty in swallowing, and the main treatment is usually surgical excision followed by radiotherapy (Sharma and Mehan, 2019).

Discussion

The reviewed literature demonstrates reported cases of SS in different areas in the head and neck region and patients’ diagnosis, treatment method, and prognosis. SS is generally considered a high-grade sarcoma, marked by a poor prognosis. The tumor site can also affect prognosis, with a worse outcome for tumors arising from anatomic sites other than the extremities. Some cases, like SS in the suboccipital region, are even more uncommon, making it much more complicated in terms of diagnosis and treatment.

From this review, we can say that diagnosing SS in the head and neck region is not easy and can be easily misdiagnosed. SS is divided into subtypes: biphasic, monophasic, and poorly differentiated. Nevertheless, as we can observe from Table 2, there are more monophasic subtypes such as monophasic and calcified subtype. Concerning the diagnosis of SS, microscopically, it is not too difficult to diagnose the biphasic subtype of SS but tough to diagnose the monophasic form. In such cases, immunohistochemistry along with molecular studies can be very effective in the diagnosis. We can also conclude that the poorly differentiated subtype is the most challenging diagnosis, mainly when SS occurs in an unusual location. Cytogenetics can also be very useful in the diagnosis of SS. About 90% of SS harbor a specific translocation between the SYT gene on chromosome 18 and either the SSX1 or SSX2 gene on chromosome X. t (X; 18) (p11.2; q11.2) (Bridge et al., 1988; Bellakhdhar et al., 2018). This translocation results in the fusion of SYT genes located on chromosome 18 with highly homologous SSX-1 (SYT-SSX-1), SSX-2 (SYT-SSX-2), and SSX-4 (SYT-SSX-4) genes on the X chromosome (Pai et al., 1993). Genetic testing effectively distinguishes SS from spindle cells and round-cell sarcomas in poorly differentiated tumors. As mentioned in the review, imaging such as CT and MRI is also essential in diagnosing. Sometimes in some cases where the tumor lesion is tiny, the tumor can be misdiagnosed, but it can also be very helpful in determining the nature of the defect; MRI can show an image of the lesion with the invasion of the surrounding structures and the exact size and location of the lesion. However, microscopic and immunohistochemical examination remains the definitive diagnosis for SS in the head and neck region (Eilber and Dry, 2008).

Concerning the treatment of SS in different areas in the head and neck region, we can conclude that surgical excision is the primary treatment modality (Fiore et al., 2021). Surgical treatment includes complete tumor resection, partial resection, cervical lymph node dissection, and flap reconstruction (Bertolini et al., 2003; Wang et al., 2020). As shown in Table 2, surgical resection with negative margins remains the primary mainstay therapy in patients suffering from SS of the TMJ region. In general, wide surgical resection is the first choice for treating SS of the TMJ. There is no standard protocol for the treatment of SS (Bertolini et al., 2003). Wide local excision is usually recommended, and also adjuvant radiation with or without chemotherapy (de Almeida-Lawall et al., 2009). For patients who underwent partial excision or surgical resection with surgical margin involved by the tumor, adjuvant radiotherapy or chemotherapy can be given (Bilgic et al., 2003; Fiore et al., 2021). Radiotherapy has been reported to be effective in controlling the disease (Artico et al., 2004; Wushou and Miao, 2015; Madabhavi et al., 2018), and while chemotherapy effectiveness is controversial, it can be helpful in treating distant metastasis (Vining et al., 2017; Fiore et al., 2021). Table 1 shows that most patients were treated with surgical resection followed by radiotherapy. The role of radiotherapy in treating laryngeal SS is contentious. The complex anatomy, such as vital vascular structures and nerves within the head and neck region, generally compromises the complete surgical excision, and sometimes resection is associated with high positive margins. Radiotherapy has thus been used as an adjunct to surgery to achieve locoregional disease control (Shein et al., 2021). Harb et al., 2007 found that radiotherapy is associated with lower recurrence rates and higher survival, although the results did not achieve significance. Recent studies demonstrate that patients who did not receive radiotherapy showed a worse prognosis than those who did. Naing et al. (2015) reported that radiotherapy is strongly associated with OS and DSS.

In general, in order to optimize overall treatment outcomes, a multidisciplinary, patient-centered approach must be adopted. Few reported cases concerning the specialist care delivered by allied health services include speech pathology, physiotherapy, and psychology. Surgical excision of the larynx and laryngeal dysfunction is associated with reduced quality of life and overall emotion of the patient, especially in young patients suffering from SS of the larynx. Comprehensive airway rehabilitation and psychological support are essential for these patients (DPC and MacGregor, 2012). Usually, after surgery, follow-up is essential to monitor the recurrence rate and increase disease-free survival (Fonseca et al., 2014). Mamelle et al. (1986) reported that postoperative radiotherapy could help reduce local recurrence and is not associated with any improvements in long-term survival. Table 3 shows that, as reported by Wong et al. (2014), the patient declined postoperative radiotherapy treatment, and after 3 months, the disease recurred. Later, the patients underwent surgical excision of the tumor with postoperative radiotherapy. The patients died after 9 months due to metastasis of the brain and neck nodes. Radiotherapy is beneficial in controlling the disease (Jain et al., 2018).

Chemotherapy has been found to have a particular effect on the treatment of HNSS in one case. Santoro et al. (1995) mentioned disease-free and overall survival improvements with ifosfamide and doxorubicin. Nevertheless, due to lack of data, it is tough to figure out the effect of chemotherapy. Sarcoma Meta-Analysis Collaboration found that adjuvant chemotherapy for adults’ localized resectable soft tissue sarcoma improved time to local recurrence and distant recurrence and overall recurrence-free survival (Adjuvant chemotherapy for localised resectable, 1997; Desar et al., 2018). The effect of chemotherapy on pediatric patients is well-defined and has a high response rate (Venkatramani et al., 2021), whereas in adults, the data are insufficient, and its effect is controversial (Al-Hussaini et al., 2011) and is generally defined as low chemosensitive (Trassard et al., 2001; Jacobs et al., 2018). Cytotoxic chemotherapy is often considered in both the neoadjuvant and adjuvant settings for patients with advanced SS. Combined treatment with doxorubicin and ifosfamide represent front-line therapy for SS. The role of chemotherapy is still under refinement and can be considered in patients at high risk of metastasis or in those with advanced disease. Neoadjuvant chemotherapy might be considered in specific situations, for example, as induction therapy to enhance the outcome of surgery in high-risk sarcoma of extremity. It is sometimes tough to perform surgical interaction in the head and neck region. Surgical resection can also cause some complications related to cosmetic and functional deterioration and increase the risk of perioperative complications. In such cases where surgical option is limited, chemotherapy can be used to decrease the tumor size and make the overall therapy more effective, as shown in the case (Saito et al., 2018) in Table 3. However, the effect of chemotherapy is still very unclear due to lack of data and research (Dhiman et al., 2021). More research should be carried out concerning the effect of chemotherapy on SS. Other research shows that directly targeting the fusion oncoprotein can be used as a new treatment method in SS. As we know, the SS18–SSX fusion gene is consistently retained in synovial sarcoma, and synovial sarcoma cells depend on continued SS18–SSX expression throughout the course of the disease. Therefore, it may be more feasible to target the critical oncogenic pathways to induce the development of SS (Nielsen et al., 2015). Many treatment methods have been identified. However, the impact of these strategies in improving SS outcomes is still limited, thus making current and future research strongly needed to improve the survival of patients with SS.

Conclusion

This review aims to familiarize ourselves with the diagnosis, treatment modality, and prognosis of SS in the head and neck region. Misdiagnosis of the disease can delay the diagnosis and treatment of SS. Immunohistochemical analysis might be fundamental in diagnosing SS, especially those suffering from the monophasic and poorly differentiated subtypes. The management principle is still unclear; a multidisciplinary approach is essential in managing HNSS. More research must be carried out concerning chemotherapy’s effectiveness in treating SS to improve the survival rate and control the recurrence rate of the tumor.

Author contributions

Corresponding author HQ contributed to the conception of the study; first co-author SS performed the data analyses and wrote the manuscript; first co-author YW performed the data analyses and wrote the manuscript.

Funding

This work was supported by the Graduate Reform Programme of Teaching, CSU (512220104).

Acknowledgments

The authors are indebted to many scientists whose research results are cited here.

Conflict of interest

The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Publisher’s note

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