Comprehensive risk assessment for Down's Syndrome, Trisomy 18/13, SLOS, and Pre-eclampsia—powered by advanced Complex Twin Risk Assessment that sets the definitive standard for clinical precision.
LIS Integration & Workflow Optimization
Bidirectional HL7 Interface connects to most lab instruments—but we optimize their throughput. Batch processing and custom report logic powered by Stellar Core transform raw data into clinical insights.
Stellar Core
Centralized Processing Engine
v2.4.0 (Stable)
• Batch Processing
• Custom Report Logic
• Auto-Validation Pipeline
Stellar Core
v2.4.0 (Stable)
• Batch Processing
• Custom Report Logic
• Auto-Validation Pipeline
The Challenge: Genetic Overlap
Traditional prenatal screening software treats twin pregnancies as a special case—applying risk adjustments and population medians retroactively. This approach treats twins as an exception to the rule, not as distinct biological patients requiring individualized analysis from the moment of data ingestion.
The Solution: Native Twin Architecture
Stellar treats each twin as a distinct patient from ingestion, with chorionicity-specific medians, IVF correction factors, and user-defined population parameters. Every risk calculation is performed independently, ensuring clinical precision that legacy systems can't match.
Maternal Serum Markers (MoM)
Chorionicity-specific medians with IVF correction factors applied to user-defined population parameters
Immutable Audit Trail: Every risk recalculation is logged for ISO 13485 compliance
Built for the Modern Era of Prenatal Screening
For over three decades, industry leaders have provided legacy stability to prenatal screening labs. Their systems have served the market well, establishing foundational workflows that countless diagnostic centers rely on today.
But the landscape has shifted. The rise of IVF treatments, the increasing complexity of twin pregnancies, and the demand for real-time data visualization have exposed the limitations of systems built for a different era.
Stellar Infomatica was architected from the ground up to meet these challenges. Next-generation algorithms, unencumbered by legacy code, power our native twin architecture—treating each fetus as a distinct patient from the moment of data ingestion, not as an exception to be adjusted retroactively.
We respect the past. We're building the future.