ULTIMUS 9E Ultrasound System
Greater speed, greater clarity.
The system delivers powerful processing and computational capability. It performs multiple tilted wavefront transmissions at imaging frame rates up to 20,000 frames per second, making it on average 300 times faster than conventional ultrasound systems.
This exceptional speed enables an entirely new range of applications and innovations in ultrasound imaging.
Real-time Adaptive De-noising (RAD)
This innovative acquisition technique combines multiple wave-emission signals to significantly enhance transmission performance. It improves the signal-to-noise ratio by approximately eight-fold.
Planar Compound Imaging (PCI)
Signals received from the scanning fields are synchronized and compounded into pixels across the full field of view.
This retrospective transmit-field focusing technique allows 20% more acoustic data to be acquired, resulting in images with superior lateral edge definition and improved contrast resolution.
Technical specifications
AI – Intelligent Solutions
- VAid Liver
Powered by deep-learning techniques, it detects common focal and diffuse liver diseases in real time, automatically providing lesion description and size.- VAid Thyroid
Offers a non-invasive and safe approach to detecting and evaluating thyroid nodules, helping avoid unnecessary interventions. It provides real-time analysis supported by learning algorithms.- VMind OB
Provides a comprehensive obstetric screening approach using advanced learning techniques.
It automatically captures and saves standard planes with real-time fetal biometric measurements, following ISUOG practice guidelines.
VMind OB is currently the only intelligent obstetric screening tool offering up to 24 standard planes (mid-pregnancy) + 4 standard planes (early pregnancy) for detection.
Advanced Imaging Technologies
- MFP (Micro Flow Perfusion)
By dynamically accumulating blood-flow perfusion, MFP provides higher sensitivity to low-intensity signals and delivers exceptional detail during arterial, portal and late-phase scanning.- Multi Doppler
This technology displays two Doppler waveforms from separate sampling points within the same cardiac cycle.
The combination of TDI and PW enables simultaneous assessment of wall motion and hemodynamics, supporting faster and more precise evaluation of left ventricular diastolic dysfunction, carotid stenosis, and more.
Optional modes include PW/PW, PW/TDI, TDI/TDI.Ergonomic Design for Maximum Comfort
- The system has been developed with special attention to ergonomics, imaging performance and a streamlined workflow, ensuring higher diagnostic efficiency and allowing clinicians to focus on patient care.