6VT-D ELECTRONIC 4D MULTIPLANE TRANSESOPHAGEAL ULTRASOUND TEE PROBE by GE Healthcare

Key Highlights

• The 6VT-D Electronic 4D Multiplane Transesophageal Ultrasound TEE Probe by GE Healthcare is designed for advanced cardiac imaging, providing detailed visualization of cardiac structures.
• With its multiplane capabilities, this probe enhances diagnostic accuracy in various cardiac applications, including coronary assessments and left ventricular outflow (LVO) evaluations.
• Compatible with the VIVID E9 and VIVID E90 systems, it integrates seamlessly into existing workflows, ensuring efficient use of resources in cardiac care.
• Its electronic design minimizes artifacts, allowing for clearer images and improved patient outcomes during transesophageal echocardiography.
• This probe is engineered for durability and ease of use, promoting reliable performance in demanding clinical environments.

Compatible Systems & Use Cases

This probe is compatible with the following models:

• VIVID E9
• VIVID E90

Typical use cases include cardiac imaging for preoperative assessments, intraoperative monitoring, and evaluating patients with complex cardiac conditions.

Technical Specifications

Parameter	Value
Frequency Range	2-5 MHz
Imaging Modes	2D, 3D, 4D
Dimensions	Standard TEE Probe Size
Weight	Lightweight Design

Clinical and Service Value

The 6VT-D Electronic 4D Multiplane TEE Probe enhances clinical workflows by providing high-quality imaging that is crucial for accurate diagnosis and treatment planning in cardiology. Its advanced imaging capabilities allow clinicians to make informed decisions quickly, which is essential in acute care settings. The integration with VIVID E9 and VIVID E90 systems further streamlines patient management, reducing the time spent on imaging and interpretation.

In terms of maintenance, the probe is designed for durability and ease of cleaning, minimizing downtime and ensuring consistent performance. Regular maintenance protocols can be easily established, allowing biomedical engineers to uphold the equipment's operational integrity. The probe's electronic design also reduces the likelihood of artifacts, which can complicate image interpretation, thus improving overall workflow efficiency in busy clinical environments.

Additional notes

Applications:CardiacCoronaryLVO Contrast