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Modern medical technology has enabled early detection and treatment of many diseases. ARIETTA 750LE provides high sensitivity and resolution to achieve high image quality required by modern medicine.
We handle a wide range of clinical needs by supporting accurate and safe treatment with more applications.
Prior fixed examination protocols and imaging conditions can be registered. Button operations can be reduced significantly to support efficient examinations. Additionally, a reference image can be displayed via the "Guide View" function.
HI Strain is an algorithm used to display an Elastography image more consistently than before. It is possible to display Elastography images with high continuity while maintaining temporal resolution and spatial resolution.
Auto Frame Selection (AFS) picks out the appropriate frame for measurement in Real-time Tissue Elastography. Assist Strain Ratio (ASR) automatically locates the measurement ROI. Highly reproducible measurements can be conducted easily.
Automation of Measurement
RTE assesses tissue strain in real time and displays the tissue stiffness as a color map. Its application has been validated in a wide variety of clinical fields, and it is possible to calculate an estimate value of liver fibrosis staging.
It is possible to evaluate tissue stiffness by generating shear waves and measuring Vs , its propagation velocity in the tissue. The indicator to estimate the degree of steatosis (ATT) is measured simultaneously. Combi-Elasto, which integrated RTE and SWM, is expected to be used for cases which are difficult to diagnose through only using SWM.
Contrast-enhanced ultrasound is used widely for clinical practices such as tumor detection, differential diagnosis, and treatment support. High definition and high sensitivity contrast imaging is realized by Variable Beamformer and high sensitivity transducers.
Imaging technology for visualization of low-velocity blood flow below the previous detection threshold. A unique algorithm displays fine blood flow with greater resolution and sensitivity.
Since its release in 2003, Real-time Virtual Sonography (RVS) has continued to evolve to meet needs in clinical practice.
The electric field (E-field) from the given location of electrodes is superimposed on the CT image during RFA treatment.
The simulation of E-field can be made according to the position of each electrode to consider an effective needle path.