Fluorescence in situ analysis of soft tissue tumor associated genetic alterations in formalin-fixed paraffin-embedded tissue

No prospective studies are available to date evaluating the combined analysis of chromosomal alterations via interphase FISH in different soft tissue sarcoma (STS) subtypes. We tested 64 consecutive sarcoma specimens with FISH probes to detect aberrations specific for a given STS subtype. We first determined the translocation frequency in the specific STS subtypes in 48 tumors, with the primary pathological diagnosis as the gold standard. Subsequently, to evaluate sensitivity and specificity, all FISH probes were hybridized to 16 STS of hitherto unknown diagnosis. DDIT3 translocations occurred in 8/10 (80%) of myxoid liposarcomas. FOXO1 translocations were noted in 4/4 (100%) of alveolar but in none of 7 embryonal rhabdomyosarcomas. All 15 (100%) Ewing sarcomas/PNET and 4 clear cell sarcomas (4/4) harbored EWSR1 translocations. SS18 rearrangements were demonstrated in 8/9 (89%) synovial sarcomas. MDM2 amplification was noted in 7/8 (88%) atypical lipomatous tumors/well-differentiated and 3/3 (100%) dedifferentiated liposarcomas, respectively, but not in four pleomorphic liposarcomas. Sensitivities and specificities ranged from 80% to 100% and from 93% to 100%, respectively, with the highest values observed for FOXO1 (100% each). We conclude, therefore, that is possible to accurately predict the STS subtype using a panel of different subtype-specific FISH probes, thereby greatly facilitating the differential diagnosis of these tumors.