Mindray M8 Elite
The Mindray M8 Elite portable ultrasound machine is based on Mindray’s new generation ultrasound platform, mQuadro. Its advanced signal transmission and reception processors provide highly sensitive and accurate echo detection.
The M8 Elite has raised industry standards to an all new high!
Below is a generalized description of this systems technology, specifications, features, and options. The below may not reflect the features and options available on units in our inventory.
The M8 Elite is powered by mQuadro, a new and innovative imaging architecture that incorporates powerful, high speed digital signal processing and intelligent software algorithms that take ultrasound imaging to new levels.
- More rapid image acquisition with fewer keystrokes
- Better image uniformity from near to far field
- Designed for deeper penetration
- Increased exam efficiency and improved patient throughput
Technological Pillars of mQuadro:
Hardware Foundation | High speed, high capacity hardware components enable rapid processing of large amounts of acoustic data and enable the other three technological pillars that underpin mQuadro technology. With state-of–the art central processing, expansive memory capabilities and a solid state drive, mQuadro technology allows imaging, color, and Doppler to be taken to the next level producing outstanding results that benefit patient outcomes.
Fundamental Image Processing | Patented, intelligent processes that direct unique and innovative approaches to digital signal processing expand the possibilities for ultrasound image creation and optimization. Traditional post-acquisition image optimization is based on simple image analysis of both B-mode and color Doppler data sets. With mQuadro, optimization is based on image segmentation analysis and comparison to an anatomical structure database that minimize inherent artifacts, which can improve image quality.
Front End Signal Processing | AFRT is a method of exercising precise software control over both transmitted acoustic beam and efficient, fast receive data processing. Traditional transmit/receive methods result in increased clutter, lower signal to noise ratio, and slower acquisition times. The integration of AFRT into the front end of mQuadro platforms results in less clutter, improved signal to noise ratio and significantly faster data acquisition times which translates into:
Single Crystal Technology
Single crystal technology provides better acoustic/electrical (piezoelectric) energy conversion which results in better penetration and higher sensitivity. This yields a wider acoustic bandwidth which results in better penetration, improved spatial resolution, and more versatile applications.
Imaging results include:
- Better signal-to-noise ratio (SNR)
- Use of higher frequencies to image deeper structures
- Easier and faster acquisition of images across all body types
- Better image clarity across all body types
ZONE Sonography Technology (ZST)
Software-based, next-generation technology and the source of Living Technology.
ZONE Sonography Technology (ZST) is a revolutionary, software-driven approach to acoustic data acquisition and image formation that breaks the barriers of conventional ultrasound imaging. Using a variable number of large imaging “ZONES”, ZST is capable of utilizing up to 90% more ultrasound data than conventional ultrasound imaging platforms and at speeds 10 times faster. This expanded acoustic data set is retained and processed by patented high-speed digital processing techniques and software algorithms that are radically different from slow and cumbersome hardware-based imaging methods.
ZONE Sonography Technology is a constantly evolving, software-based technology, or a “Living Technology”. Living Technology is the ZST approach to providing customers with easily upgradable ultrasound enhancements based on its unique and proprietary ZONE Sonography Technology. These upgrades secure product investment protection by ensuring that ZST based platform remain at the cutting edge of imaging performance excellence throughout the system’s entire life cycle.
Key Advantages of ZONE Sonography Technology
Advanced Acoustic Acquisition
Acquisition and software processing of large ZONES of acoustic data creates individual ultrasound image frames 10 times faster than conventional line-by-line beam forming methods. This results in crystal clear, real-time imaging with an extremely fast and accurate temporal display of both anatomical motion and hemodynamic states. Advanced Acoustic Acquisition also reduces tissue motion artifacts and ensures consistent stellar image quality while in simultaneous triplex mode. This unique technological capability delivers superior image quality for all types of patients and across all ultrasound modes, increasing diagnostic confidence in every clinical application.
Dynamic Pixel Focusing
Radically different from conventional imaging, Dynamic Pixel Focusing provides exquisite spatial resolution and image uniformity from skin line to the deepest depths. Using advanced software algorithms, individual frames are created pixel-by-pixel focusing each point, on both transmit and receive, rendering an ultrasound image that is optimally focused in every frame, at every depth and every time. Dynamic Pixel Focusing assures a faster and more precise diagnostic process across all clinical applications by eliminating the need for operator-selected focal zone placement.
Sound Speed Compensation
Another unique and patented engineering breakthrough that differentiates ZST from traditional hardware-based beam forming platforms is automated digital Sound Speed Compensation (SSC). Historically, ultrasound imaging systems have been calibrated to the inaccurate assumption that ultrasound propagates through all human soft tissue at a velocity of 1,540 meters per second. In fact, many factors affect the actual speed of sound in a particular tissue and failure to compensate for these differences diminishes and limits spatial and contrast resolution in conventional ultrasound systems. At the touch of a button, SSC automatically samples the tissue being examined and recalibrates the software to reflect its specific speed of sound. The resulting enhancements in image quality provide another powerful clinical tool that increases diagnostic confidence, especially when examining diseased organs and structures at deeper depths.
- Emergency Medicine
- General Imaging
- Small Parts
- Color Doppler
- Power Doppler
- PW Doppler
- Compound Imaging
- CW Doppler
- Anatomical M-Mode
- Auto IMT
- Stress Echo
- Needle Visualization
- Directional Color Power Doppler
- Speckle Reduction
- Auto Optimization
- Tissue Harmonics
- Tissue Doppler
Video & Output Options:
- Composite Video
- 12.8 lbs
- 15.5″ x 14.25″ x 2.3″
- Structured Reports
PC Export Formats:
- 100-240V, 50/60 Hz
Max Cine Memory:
- 38,000 Frames
Maximum Depth (cm):
- 40 cm
Max Frame Rate (FPS):
- 3 Probe Port extender
- Video/Audio Extend Module
- Barcode Scanner
- CD/DVD R/W
- Emergency Medicine
- General Imaging
- Small Parts
Curved Transducers/ Probes:
- C11-3s (Micro)
Linear Transducers/ Probes:
- L16-4Hs (Hockey)
Phased Transducers/ Probes:
Endocavity Transducer/ Probe:
CW (Pencil) Transducers/ Probes:
Transesophegeal Transducers/ Probes: