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Product Overview
The 6VT-D is an advanced electronic 4D multiplane transesophageal echocardiography (TEE) transducer designed for high-resolution cardiac imaging. With a wide frequency range and 4D volume imaging capabilities, it provides exceptional clarity and depth for assessing complex cardiac structures. Its ergonomic design and precise control make it ideal for routine and advanced diagnostics, including left ventricular opacification (LVO) and coronary imaging.
Technical Specifications
Frequency Range: 3.0 – 8.0 MHz for detailed cardiac imaging.
Scan Modes: B-Mode, Color Doppler, Pulse Wave Doppler, 4D Volume Imaging.
Field of View: 90° for comprehensive cardiac visualization.
Depth of Field: Up to 12 cm for precise imaging of shallow and mid-depth structures.
Footprint: Slim design optimized for transesophageal use.
Connector Type: Standard GE proprietary connector.
Design: Lightweight and ergonomic for operator comfort during TEE procedures.
Applications
Transesophageal Echocardiography (TEE): Provides precise imaging of cardiac anatomy and function.
Left Ventricular Opacification (LVO) Contrast Imaging: Optimized for enhanced visualization of the left ventricular cavity.
Coronary Imaging: Enables accurate assessment of coronary structures.
Stress Echocardiography: Supports dynamic evaluation under stress conditions.
Compatibility
GE Vivid IQ
GE Vivid E95
GE Vivid S70
Clinical Performance Highlights
Active Matrix 4D imaging technology ensures exceptional visualization of cardiac structures and motion.
Advanced Doppler capabilities provide accurate hemodynamic and flow velocity assessments.
High-resolution imaging supports routine and specialized cardiac diagnostics.
Operational Efficiency and Design
Slim, ergonomic design reduces patient discomfort and enhances maneuverability.
Seamless integration with GE ultrasound systems ensures efficient workflows.
Lightweight build minimizes operator fatigue during prolonged TEE procedures.
Advanced Imaging Features
4D volume imaging enhances visualization of cardiac motion in real time.
Broad frequency range ensures versatility for diverse cardiac imaging needs.
High sensitivity supports detection of subtle cardiac abnormalities.