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Product Overview
The BE9CS-D is a high-frequency microconvex biplane transducer optimized for OB-GYN and urological imaging. With its compact design and advanced imaging capabilities, it delivers exceptional resolution and depth for evaluating pelvic structures, fetal anatomy, and urological conditions. Its ergonomic design enhances patient comfort and operator efficiency, making it a versatile tool for routine and specialized diagnostic procedures.
Technical Specifications
Frequency Range: 4.0 – 11.0 MHz for high-resolution imaging across varied applications.
Scan Modes: B-Mode, Color Doppler, Pulse Wave Doppler.
Field of View: 127° for comprehensive anatomical visualization.
Depth of Field: Up to 12 cm for precise imaging of mid-to-deep structures.
Footprint: Microconvex biplane design optimized for transrectal and urological access.
Connector Type: Standard GE proprietary connector.
Design: Lightweight and ergonomic for enhanced operator comfort and patient safety.
Applications
OB-GYN Imaging: Provides detailed imaging of gynecological structures and fetal anatomy.
Urological Imaging: Enables precise evaluation of the bladder, prostate, and pelvic floor.
Transrectal Imaging: Ideal for diagnostic imaging of prostate conditions and pelvic structures.
Compatibility
GE Logiq E10
GE Logiq Totus
GE Logiq Fortis
Clinical Performance Highlights
High-frequency imaging ensures clear visualization of small and complex anatomical structures.
Advanced Doppler capabilities provide accurate assessments of vascular flow and velocity.
Reliable performance for both routine and specialized imaging needs in OB-GYN and urology.
Operational Efficiency and Design
Compact, lightweight design reduces patient discomfort and operator fatigue.
Ergonomic handle improves maneuverability during extended procedures.
Seamless integration with GE ultrasound systems ensures optimized workflows and diagnostics.
Advanced Imaging Features
Wide frequency range adapts to diverse clinical applications.
High-resolution imaging supports accurate diagnoses of pelvic and urological conditions.
Microconvex biplane design enhances access to challenging anatomical regions.