A Breakthrough in Biopsy Efficiency
Tissue acquisition and verification from one innovative product, in real-time.
The Brevera® breast biopsy system with CorLumina® imaging technology combines tissue acquisition, real-time imaging, verification and advanced tissue handling for an optimal patient and physician experience.
The Brevera System Is Designed To Save Time By Combining Multiple Steps Into One
Conventional stereotactic procedures require eight steps while the Brevera system allows clinicians to perform biopsies in just three steps. The system is designed to eliminate 5 steps by combining tissue acquisition, imaging, verification, and sample prep, with the potential to save 12 minutes average per patient.¹
8 Steps
Conventional Stereotactic Breast Biopsy
3 Steps
Brevera Breast Biopsy
Unmatched Efficiency To Improve Breast Biopsy Procedures
An intuitive user interface eases operation and advanced sample handling simplifies post biopsy prep, with a potential for further reducing overall procedure time.
Get Real-Time, High-Resolution Imaging at the Point of Care
The Brevera system’s 8-second acquisition and imaging cycle gives more actionable information at the point of care so physicians can make decisions with confidence - without the need to ever leave the procedure room.
Offer A Compassionate Experience
Fast, accurate and streamlined procedures mean patients spend less time under compression. Integrated pain-management administration and quiet remote firing can result in a more positive biopsy experience for providers and patients.
See It In Action
Want an inside look at the Brevera® breast biopsy system with CorLumina® imaging technology? Explore how the system’s tools and capabilities can improve the quality of the biopsy experience.
The Brevera System is Designed to Work in Synergy with the Affirm® Prone Biopsy System
When paired together, the Brevera biopsy system and the Affirm® Prone system are designed to accelerate the speed and efficiency of your prone biopsy procedures to reduce your patients’ time under compression.