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fulltextpubmed· Body· item J_Pediatr_Neurosci_2012_Jan-Apr_7(1)_36-

Introduction Alveolar soft part sarcoma (ASPS), a rare tumor occurring in adolescent and young children, mainly manifests in the head and neck region with the tongue being the second most common site of involvement. These tumors metastasize early. The disease has often been detected following metastasis to the lung or brain that led to investigations to locate the primary site of the tumor. Primary involvement of the cranium as the first manifestation is extremely rare. In all these cases, the patients also had a concomitant pulmonary metastasis. In this report, which is the first of its kind, we report a 17-year-old girl who presented with an isolated skull lesion with infiltration into the adjacent brain without any detectable primary site of involvement or other metastatic lesions. A brief review of the relevant literature is also included.

fulltextpubmed· Body· item J_Pediatr_Neurosci_2012_Jan-Apr_7(1)_36-

onary metastasis. In this report, which is the first of its kind, we report a 17-year-old girl who presented with an isolated skull lesion with infiltration into the adjacent brain without any detectable primary site of involvement or other metastatic lesions. A brief review of the relevant literature is also included. Case Report A 17-year-old girl presented with a painless progressive tumor in the middle of the forehead of 1-year duration that had shown a rapid increase in size in the last 4 months. Her examination revealed an irregular well-defined tumor involving the middle of the forehead extending from 2 cm behind the hairline to almost up to the bridge of the nose. The tumor was variegated in consistency with slightly raised temperature of the overlying stretched and shiny skin. Her neurological examination was essentially normal. Her contrast-enhanced computed tomographic (CECT) scan revealed a hyperdense mass with irregular outline involving the right frontal lobe with calcification with heterogenous postcontrast enhancement and grade II perilesional edema. There was destruction of the overlying bony calvaria and an additional extracalvarial extension of the tumor [Figure 1]. Her abdominal ultrasound, bone scan, and chest X-ray were normal. At surgery, a bicoronal scalp flap revealed a reddish tumor infiltrating into the calvarium and dura with invasion into the adjacent frontal lobe. Initially the extradural portion of the tumor was removed and the involved frontal bone was rongeured until the feel of normal bone was obtained. Then the frontal dura was opened, the anterior part of the superior sagittal sinus ligated, and the falx cerebri divided. The tumor infiltrating into the right frontal lobe was excised. The involved dura was excised and after performing a duroplasty using the pericranium, the scalp was closed in layers [Figure 2]. The postoperative period was uneventful. Her biopsy revealed an alveolar soft part sarcoma [Figure 3]. She was referred for adjuvant radiotherapy. A follow-up after 4 months did not reveal any recurrence of the lesion.

fulltextpubmed· Body· item J_Pediatr_Neurosci_2012_Jan-Apr_7(1)_36-

d and after performing a duroplasty using the pericranium, the scalp was closed in layers [Figure 2]. The postoperative period was uneventful. Her biopsy revealed an alveolar soft part sarcoma [Figure 3]. She was referred for adjuvant radiotherapy. A follow-up after 4 months did not reveal any recurrence of the lesion. Figure 1 (a and b) Axial; and, (c) coronal contrast enhanced CT scan showing the enhancing ASPS in the right frontal calvarium infiltrating into the frontal lobe with perifocal edema Figure 2 (a and b) Photographs of the patient showing the tumor on the forehead; (c) Following bicoronal incision and scalp elevation, the tumor is exposed; (d) Excision of extradural part of tumor; (e) the scalp being reposited after tumor excision Figure 3 (a) Tumor is disposed in nests and alveolar pattern separated by thin fibrovascular septa. The tumor cells are large with mildy anisomorphic round to oval central to eccentric nuclei, conspicuous nucleoli and eosinophilic granular to dense cytoplasm. Mitotic activity is scant (H and E ×400); (b) intracytoplasmic PAS positive granules are seen (PAS-Periodic acid Schiff's ×400); (c) On immunohistochemistry tumor cells are positive for S-100 (×200); and, (d) focally positive for desmin (×200)

fulltextpubmed· Body· item J_Pediatr_Neurosci_2012_Jan-Apr_7(1)_36-

c nuclei, conspicuous nucleoli and eosinophilic granular to dense cytoplasm. Mitotic activity is scant (H and E ×400); (b) intracytoplasmic PAS positive granules are seen (PAS-Periodic acid Schiff's ×400); (c) On immunohistochemistry tumor cells are positive for S-100 (×200); and, (d) focally positive for desmin (×200) Discussion Alveolar soft part sarcoma is a rare tumor and accounts for 0.5-0.9% of all soft tissue sarcomas.[1] Christopherson first described its unique histological and cytological features in 1952.[2] ASPS is seen mostly in children and adolescents. However, its usual age range of presentation is from 15 to 35 years. Extremity involvement, particularly lower limb, is commonly described in adults;[34] head and neck area, particularly tongue and orbit are the favored sites in children. Most studies have found a female preponderance in adult patients although no such predilection has been noted in children.[1] Its site of origin is still controversial with either myogenic or neurogenic origin being proposed.[5–7]

fulltextpubmed· Body· item J_Pediatr_Neurosci_2012_Jan-Apr_7(1)_36-

[34] head and neck area, particularly tongue and orbit are the favored sites in children. Most studies have found a female preponderance in adult patients although no such predilection has been noted in children.[1] Its site of origin is still controversial with either myogenic or neurogenic origin being proposed.[5–7] Grossly these tumors are soft, poorly circumscribed, gray to yellow in color with areas of hemorrhage and necrosis especially in larger tumors. The most characteristic light microscopic feature best seen at low magnification is the organoid or nesting pattern separated by thin fibrovascular septa. Cells present in the center of the nests undergo necrosis and are loosely arranged resulting in a pseudoalveolar pattern; hence the tumor is named as “alveolar.” Round to polygonal tumor cells with sharply defined cell borders show commonly one to rarely as many as five vescicular nuclei with prominent nucleoli and abundant eosinophilic, clear or vacuolated, finely granular cytoplasm. Mitotic figures are uncommon. Cells often have rhomboid or rod-shaped crystalline inclusions that may be faintly apparent on hematoxylin-and-eosin stained histological preparations but can be better demonstrated with PAS stain after diastase digestion. They can be seen in virtually every tumor cell in some cases, while they may be rare or even absent in others. These crystals represent complexes of proteins monocarboxylase transporter 1 and CD 147.[89] A variable amount of glycogen and diastase-resistant granules probably representing precursors of these crystals may be seen. Vascular invasion is an almost invariable feature.

fulltextpubmed· Body· item J_Pediatr_Neurosci_2012_Jan-Apr_7(1)_36-

, while they may be rare or even absent in others. These crystals represent complexes of proteins monocarboxylase transporter 1 and CD 147.[89] A variable amount of glycogen and diastase-resistant granules probably representing precursors of these crystals may be seen. Vascular invasion is an almost invariable feature. Brain metastasis is not a common feature with soft tissue sarcomas; ASPS, due to its indolent nature, is an exception to this rule[10] with 15-19% of them having intracranial metastasis during the course of the disease.[311] Metastasis to the brain usually occurs late during the course of the disease with these patients often harboring concurrent pulmonary metastasis.[12] Presentation of ASPS with solely cranial metastasis with an occult primary lesion is extremely rare and only three cases have been reported so far[13–15] [Table 1]. In all these three cases, however, a detailed investigation revealed a coexisting pulmonary metastasis along with the presence of the cranial lesion. Our case was unique with an isolated calvarial and contiguous brain lesion with neither evidence of any primary lesion nor of other metastatic lesions. Table 1 Previously reported cases of alveolar soft part sarcoma detected initially with brain metastasis

fulltextpubmed· Body· item J_Pediatr_Neurosci_2012_Jan-Apr_7(1)_36-

Brain metastasis is not a common feature with soft tissue sarcomas; ASPS, due to its indolent nature, is an exception to this rule[10] with 15-19% of them having intracranial metastasis during the course of the disease.[311] Metastasis to the brain usually occurs late during the course of the disease with these patients often harboring concurrent pulmonary metastasis.[12] Presentation of ASPS with solely cranial metastasis with an occult primary lesion is extremely rare and only three cases have been reported so far[13–15] [Table 1]. In all these three cases, however, a detailed investigation revealed a coexisting pulmonary metastasis along with the presence of the cranial lesion. Our case was unique with an isolated calvarial and contiguous brain lesion with neither evidence of any primary lesion nor of other metastatic lesions. Table 1 Previously reported cases of alveolar soft part sarcoma detected initially with brain metastasis Our patient had a single lesion in the right frontal bone and lobe which has been described to be the most common site for intracranial metastasis of sarcomas.[131617] In a series of 20 patients of ASPS, however, the cerebellum was found to be the most common site for metastasis.[12] In contrast to our case, metastatic lesions in the brain often tend to be multiple; in the report by Sujit Kumar et al., the patient with ASPS had multiple lesions in the brain.[15] In a study of 611 patients of sarcomas with brain metastasis, Chou et al. made an interesting observation. They found that patients with osteosarcoma ran the risk of brain metastasis up to 3 years following excision of the primary mass whereas patients with ASPS were found to have persistent risk of metastasis until 10 years following surgery.[18]

fulltextpubmed· Body· item J_Pediatr_Neurosci_2012_Jan-Apr_7(1)_36-

sarcomas with brain metastasis, Chou et al. made an interesting observation. They found that patients with osteosarcoma ran the risk of brain metastasis up to 3 years following excision of the primary mass whereas patients with ASPS were found to have persistent risk of metastasis until 10 years following surgery.[18] Either alone or in combination, surgery and radiotherapy are the favored modes of therapy in such situations.[15] Chemotherapy, although effective for the primary lesion, has not been found to be helpful in metastasis to brain primarily because of inability of these drugs to cross the blood--brain barrier.[3] The aim of surgery is complete tumor excision. Adequate excision translates into improved outcome in such patients. In the study by Chou et al.,[18] postbrain metastasis survival was 14.53 months in patients with ASPS patients who underwent excision compared to 1.23 months observed in non-ASPS brain metastases (P=0.003). Radiotherapy produces better local control after surgery or may be used as an adjuvant palliative therapy in patients with multiple cerebral metastases.[15] There are recent reports indicating promising results with sunitinib, a tyrosine kinase inhibitor, in metastatic ASPS of the brain[1920] as this drug has been found to have an adequate blood-brain barrier penetration. Considering the high likelihood of brain metastasis in patients with ASPS, routine periodic surveillance with magnetic resonance imaging of the brain and positron emission tomographic scan following primary excision seems to be an appropriate line of management for early detection of recurrence/monitoring of residual lesions for possible early intervention in such cases.

fulltextpubmed· Body· item J_Pediatr_Neurosci_2012_Jan-Apr_7(1)_36-

n patients with ASPS, routine periodic surveillance with magnetic resonance imaging of the brain and positron emission tomographic scan following primary excision seems to be an appropriate line of management for early detection of recurrence/monitoring of residual lesions for possible early intervention in such cases. Conclusion ASPS should be considered as a differential diagnosis in metastatic lesions of the brain. Its comparatively indolent course when compared with other metastatic soft tissue sarcomas ensures a reasonable long term outcome following surgical excision and radiotherapy. Source of Support: Nil. Conflict of Interest: None declared.