Arietta 65

Arietta 65

As the pioneer of diagnostic ultrasound, Hitachi has more than 50 years of experience developing innovative ultrasound technologies. We believe that optimizing productivity can lead to improved outcomes, and that reproducible, precise imaging and a versatile system can make your ultrasound examinations more productive. Now, we have made productive exams more realizable with the release of our latest ultrasound system. Introducing the ARIETTA 65 – combining productivity-enhancing tools and technologies under the concepts of Smooth Workflow, Superb Imaging, and Simple to use Applications, to help you optimize productivity and streamline your practice.

SMOOTH WORKFLOW 
Ergonomic Design
Succeeds the ergonomic design perfected in our premium models to help you scan more comfortably.

360°Articulating Monitor Arm
Optimize viewing angle and distance by repositioning the monitor to facilitate examinations in a variety of clinical settings.
360°Articulating Monitor Arm

 

21.5 inch Widescreen Monitor
The LCD monitor’s high contrast ratio and wide viewing angle create a rich representation of the displayed image.
21.5 inch Widescreen Monitor

 

Rotating Operator Console
Swivel the console for more comfortable operation, so that the switch layout matches the angle of your arm.

Rotating Operator Console

 

Adjustable Console Height
Raise or lower the console to ease physical impact and scan in the style that best suits your workflow.
Adjustable Console Height

 

 

Battery
Battery
Qiuckly and easily move the ARIETTA 65 to accommodate bedside examinations, emergency care, or scenarios that necessitate changing rooms. No need to power down the machine before moving it — just unplug the ARIETTA 65 and go. (Possible to scan in battery mode)

Streamlined Operating Console
Designed to facilitate routine examinations, the ARIETTA 65’s operating console does not just reduce the number of physical keys. Control placement is optimized to prevent unnecessary, complicated, or accidental keystrokes, and the adoption of virtual TGC sliders contributes to the console’s spacious and intuitive layout.
Streamlined Operating Console

 

Optimized Control Placement
The most frequently used controls are placed around the trackball. 
Optimized Control Placement

QSS
Switch between imaging parameters optimized for each application and region with just one keystroke.
QSS

 

Virtual TGC AdjustmentS
Smoothly and intuitively adjust TGC. TGC patterns can be registered. 
Virtual TGC Adjustment

Protocol Assistant
Prompts you through the exam following your previously registered protocols and automatically prepares the next tool or window as dictated for each step in the exam. This significantly reduces keystrokes and prevents duplications or omissions in your exam as you store images, take measurements, and add body marks or annotations.

Auto Optimizer
Enhance B-mode and PW-mode images with just one keystroke. Gain values in B-mode, or base line position & velocity range in PW mode, are automatically adjusted.

Gain Adjustment

PW Waveform Adjustment

Cardiac Functions
Equipped with automated tools for faster, smoother cardiovascular examination, building on data acquired by our premium systems.

Automated ED/ES Detection

Automatically displays ED and ES frames in split screen view.
Automated ED/ES Detection

Automated Measurements
Automatically measures values used in calculations to assess cardiac function, such as EF.

Automated ED/ES Detection

Automated Sample Gate Alignment
Automatically sets the cursor position of the sample volume gate.

 

Superb Imaging

Pure Symphonic Architecture
Technology to support diagnostic imaging

Inherits imaging technology cultivated in the ARIETTA brand, which is used to produce the system’s signature high-quality “sound”.

Pure Symphonic Architecture

ANR(Acoustic Noise Reduction)
Analyzes the received signal of each channel in real-time, and suppresses signals that disturb the imaging. 
ANR(Acoustic Noise Reduction)

NNR(Nearfield Noise Reduction)
Distinguishes and removes acoustic noise by analyzing signal changes accompanying movement of the living body. This enables clearer visualization of tissue structures.

HdTHI
Improves spatial resolution and depth by broadening the harmonic frequency bandwidth. 
Tissue Harmonic signals contain a coupled wave that includes both high-frequency harmonic signals and low-frequency subharmonic signals. HITACHI’s broadband technology expands the Wideband Pulse Inversion (WPI) bandwidth, making it possible to use low-frequency subharmonic signals that are otherwise excluded from imaging. This improves resolution and sensitivity when scanning deep areas, compared to imaging using conventional tissue harmonic methods.

HdTHI

HI REZ
Reduces speckle noise, an artifact inherent in ultrasound images. HI REZ emphasizes structural boundaries and enhances contrast resolution to produce images with greater clarity.
HI REZ

 

Compound Imaging
Enhances visualization of tissue boundaries by transmitting beams in multiple directions, thus reducing artifacts experienced when using a single beam path.
Compound Imaging

 

Imaging Functions
eFLOW
High spatial resolution produces an accurate display of blood flow confined within the vessel walls, even in fine vessels.

Trapezoidal Scanning
Offers a wider field of view with linear transducers, enhancing the visualization of vessels, organs, and the tissues around them.
Trapezoidal Scanning

 

Free Angular M-mode (FAM)
M-mode can be displayed using any cursor orientation, enabling the comparison of wall motion or value excursion from multiple angles in the same heartbeat.
Free Angular M-mode (FAM)

 

Rich Probe Family
Supports a wide range of probes for diverse clinical application. Please contact your sales representative for details.
Rich Probe Family

 

 

Simple to use Applications
Real-time Tissue Elastography(RTE)
Assesses tissue strain in real time and displays the measured differences in tissue stiffness as a color map. Its application has been validated in a wide variety of clinical fields: for the breast, thyroid gland and urinary structures.

AFS/ASR Automation Features
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. Complex, repetitive measurement steps can now be completed using a single button.
AFS/ASR Automation Features

 

LF Index
RTE can also provide an estimation of liver fibrosis staging in patients with hepatitis C (LF Index)*1using an abdominal convex transducer.
LF Index

 

Contract Harmonic Imaging (CHI)
Widely-used imaging technique that provides homogeneous enhancement throughout the field of view to enhance diagnostic capability.

Panoramic View
Images taken by gradually moving the probe across the target organ are assembled into a single, elongated image, for enhanced diagnostic precision.
Panoramic View

 

Needle Emphasis (NE)
Automatically adjusts the image to enhance needle visibility, assisting in safe and accurate punctures.
Needle Emphasis (NE)

 

Marking Assist
Lines displayed in B-Mode imaging correspond to markers on the transducer head.
Marking Assist

 

Auto IMT
Automatically measures the Intima-Media Thickness (IMT) following the placement of an ROI on the long axis view of the carotid artery.
Auto IMT

 

Dynamic Slow-motion Display (D.S.D)
Displays real-time imaging and its slow-motion counterpart side by side on the same screen, enabling the observation of rapid value movements in detail.

Dual Gate Doppler
Makes it possible to observe Doppler waveforms from two locations simultaneously. This enables LV diastolic performance indicators, such as the E/e' Ratio, to be measured during the same heartbeat.
Dual Gate Doppler

 

2D Tissue Tracking (2DTT)
Speckle tracking technique that quantifies and analyzes movement of the entire left ventricle or local movement of the myocardium.

 

For more information about this product, you may visit https://www.hitachi-medical.com.sg/solutions/arietta-65/