For Sale HITACHI Airis Vento LT MRI Scanner

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Hitachi Airis Vento LT 0.3T
S/N 0372
Software:
MR Angio, TOF, STIR/FLAIR, Remote Service Software, DICOM I/F, DICOM Print, DICOM MWM, BASG/IMAGING-M, PC-Angio, FSE (incl. DE-FSE), F/W Separation, DVD-RAM, EPI/DWI, IHE PDI Software (incl. CD-R write function)

Coils:
Wrist Coil S/N G230000916
Head Coil S/N G230000216
Flex, Body/Spine Coil (M) S/N G230000716
Flex, Body/Spine Coil (L) S/N G230000816
Knee Coil S/N G230000616
Joint Coil S/N G2300001516
Shoulder Coil S/N G230025415

RADAR
Motion reduction capabilities
RADAR uses radial scanning technology to attenuate motion artifacts caused by the patient's body movement, whether voluntary or involuntary. Available with T2WI, but also T1WI and FLAIR imaging, in various planes and regions of the body, including the head and shoulder joint, which are sensitive to respiratory movements, and the cervical spine, which can be affected by swallowing movements. RADAR can help reduce rescans and improve image quality.

VASC-ASL
Offers a non-contrast MR angiography technique
VASC-ASL is a non-contrast MR imaging feature that uses 3D BASG (Balanced SARGE) technology to visualize blood flow labeled with IR pulses. This feature is used to produce images of portal veins, renal arteries, and arteries of the upper and lower limbs.

3D-GEIR
High-contrast, high-spatial-resolution 3D image acquisition
This function provides high-speed T1WI imaging via IR-pulsed Gradient Echo. This enables high-contrast, high-spatial-resolution 3D image acquisition. This function can be used for volumetric data measurement during head imaging.

VR (Volume Rendering) Function
Supports the diagnosis of complex vascular structures
Volume Rendering, a reconstruction method, can be created on the console. The movement of blood flow can be determined stereoscopically with respect to the MIP, providing support for the diagnosis of regions with complex vascular structures such as the head.

1 Option
Strengthening technological capabilities
Our magnetic circuit technology with diagnostic function enables clearer, high-definition imaging of complex body regions and applications.

SuperShim
Reduces magnetic field non-uniformity that cannot be corrected with primary shimming
SuperShim is a technology that increases static field uniformity, which is of fundamental importance in MRI. Magnetic field non-uniformity cannot be completely corrected with first-order shimming, which performs linear correction. SuperShim reduces magnetic field non-uniformity by enabling high-order shimming.

High-definition image reconstruction
Supports high-definition imaging
This feature enables high-spatial resolution imaging, resulting in high-definition images of joint regions, which is necessary for orthopedic areas. The high-speed imaging processor achieves a 2048 x 2048 image reconstruction matrix.

FatSep Function
Provides fat-suppressed imaging with high signal-to-noise ratio (SNR)
The FatSep (fat-water separation) function enables imaging of multiple TEs to simultaneously acquire in-phase and out-of-phase images. The two types of images are added together to form fat-suppressed images. Through this additional process, FatSep provides fat-suppressed images with good signal-to-noise ratio (SN) and good clarity. It can also provide a fat image through a subtraction process.

High-sensitivity receiving coils
Especially effective for imaging with a small field of view and high spatial resolution
Regions that require a small field of view and high spatial resolution, such as in orthopedics, require high-sensitivity receiving coils. The solenoid coil adopted in AIRIS Vento provides this high sensitivity. The small diameter coil is designed to fit the body, and the target region can be easily positioned in the center of the coil, where sensitivity is highest. This feature is suitable for imaging regions that require a small field of view and high spatial resolution, such as in orthopedics.

Return Policy

Items are sold as-is with no returns or refunds available unless explicitly stated.