Redefining the Vision of Cardiovascular
The LISENDO 880 is Hitachi’s premium 3D/4D diagnostic (optional) ultrasound system for cardiologists in any clinical setting, designed to be a true one-system solution for adult, paediatric and fetal heart patients. The LISENDO 880 platform is redefining the vision for cardiac ultrasound by providing exceptional clinical performance combined with state of-the-art analysis and features.
The ultrasound platform features:
- Pure Image to attain remarkable fundamental image quality in cardiology, achieving more reliability during diagnosis and treatment
- Your Application to reach a most sophisticated visualization of the blood flow patterns and its mechanisms as well as an impressive display of 4D cardiac images (with the cardiac 4D option)
- Seamless Workflow, ensuring high user operability by applying Artificial Intelligence (AI) technology to significantly improve examination efficiency
The LISENDO 880 is Hitachi’s new premium 3D/4D diagnostic ultrasound solution for cardiologists that redefines the vision of cardiac ultrasound by providing exceptional clinical performance coupled with state-of-the-art features and analytics.
With our innovative cardiac imaging features, we are able to move hemodynamic evaluations to a new level:
New generation of cardio-vascular transducers, Phased Array single crystal transducers and Linear 4G CMUT (Capacitive Micro machined Ultrasound Transducer) with high quality imaging adapted for a variety of examinations.
Cardiac Transducers : the 3D phased array transducers have been newly designed with the last single crystal technology to realize the high spatial, temporal and contrast resolution especially required for cardiology. With an improved shape that is comfortable to hold and easily fits in intercostal spaces, it can reduce variable factors such as user skill- and patient disease-dependencies that can inhibit image clarity.
Vascular Transducers: Conventionally, the superior resolution obtained with high frequency ultrasound is only used for superficial examinations due to its limited penetration. Lower frequencies are needed to examine deeper structures, thus multiple transducers are required to cover the full range of examinations. The world’s first practical use of the CMUT silicon wafer technology was introduced by Hitachi in 2009. In the next-generation technology, thanks to exclusive Hitachi patents the bandwidth and sensitivity has been dramatically increased. In addition Pulsed Doppler and Color Doppler allowing to image blood flow as well as Harmonic mode are now available. CMUT now delivers a one-probe solution for a wide range of vascular ultrasound examinations.
New transmission and reception technology eFocusing, resulting in high definition imaging from the near to far field.
The eFocusing transmission and reception technology newly developed for LISENDO 880 significantly improves S/N and reduces focal dependency. The outstanding clarity of clinical images is performed from near to far field with excellent penetration at higher frequencies.
OLED monitor achieving high contrast resolution
LISENDO 880 has adopted the latest technology, a 22" OLED monitor, for an optimum image display. The self-luminous OLED displays true black so a previously unattainable contrast resolution can be achieved. It is the ideal monitor choice for diagnostic ultrasound, with the highest quality grayscale display.
Hemodynamic Structural Intelligence (HDSI)
LISENDO 880LE is equipped with a sophisticated automatic cardiac function measurement package based on our HDSI (HemoDynamic Structural Intelligence). Using learning data structured by Hitachi’s big data and Artificial Intelligence (AI ) technology, high precision in automated diagnosis can be attained, leading to significant workflow improvements. Our AI fueled analytics HDSI provides a col lection of automated analysis tools of complex cardiac functions to which measurement accuracy has been improved with the addition of a vast knowledge-based data bank. The resultant ease-of-use and exam consistency significantly improve throughput, streamlining workflow. Rapid, accurate examinations in a comfortable environment are realized for both operators and patients, thanks to our smart cardiac measurements.
HDAnalytics (HemoDynamic Analytics) for Heart Failure Diagnosis
Understanding the Hemodynamics of the heart is essential when assessing cardiovascular performance. Hitachi is the gold standard in Hemodynamics and redefines the vision of cardiovascular ultrasound by offering a ground-breaking collection of cardiovascular analytic tools.
HDAnalytics provided by LISENDO 880LE is a unique and accurate analysis package for cardiac hemodynamic assessments in your daily practice.
LV eFLOW is a non- invasive, high definition and sensitivity blood flow imaging mode that drastically improves visualization of the endocardial border in the left ventricle. With technically difficult patients, LV eFLOW allows to significantly shorten the examination time versus LV opacification and shows comparable results with the LVEF (Left Ventricular Ejection Fraction).
iDGD (Dual Gate Doppler) with R-R Navigation
Automatically measure the E/e’ value in only 5 seconds (83% time saving based on Hitachi engineering study)
Based on Artificial Intelligence technology, the automatic settings of two separate sample volumes simultaneously provide Doppler waveforms in real time during the same cardiac cycle, eliminating beat-to-beat variations. In addition, R-R Navigation automatically detects appropriate heartbeats for measurement in patients with irregular heartbeats.
Measurements such as the E/e' ratio, isovolumetric contraction and relaxation times as well as evaluation of dyssynchrony in septal and lateral walls can be obtained from the same heartbeat.
VFM (Vector Flow Mapping)
Vector Flow Mapping is a validated application that evaluates blood flow distribution and patterns in the heart in a completely new way. From one loop, flow direction without angle dependency, vorticity, energy loss, wall shear stress and relative pressure can be identified onboard of the system.