Efficient extraction of nucleic acids from formalin-fixed, paraffin-embedded (FFPE) tissues is critical for enabling precise diagnostics in diverse clinical settings. Beyond initial extraction, these nucleic acids serve as foundational components for a wide array of downstream applications in molecular diagnostics and research, such as next-generation sequencing (NGS), gene expression studies, epigenetic studies, mutation analysis, and microRNA analysis.
Cutting-edge technologies such as Adaptive Focused Acoustics® are designed to enhance workflow efficiency and elevate biomarker detection capabilities. Integrated with automated processes, these advancements are tailored to optimize yield, purity, and performance, delivering consistently reliable and actionable results.
This poster explores detailed analyses comparing nucleic acid extracted samples obtained with automated, assay ready workstations against established methods. These analyses validate higher yields and purity metrics crucial for reliable genomic insights. You will also gain insights into TSO 500 NGS metrics and concordance data, highlighting the superiority of assay ready workstations in delivering actionable results for precision medicine. Discover how these advancements streamline operations while upholding rigorous clinical standards.
Download the full resource to learn:
How automated assay ready workstation systems optimize FFPE nucleic acid extraction
The scientific value of enhanced nucleic acid yield and purity for clinical diagnostics
Real-world applications and case studies demonstrating the assay ready workstation’s efficacy