Based on Instromedix India's new generation ultrasound platform, mQuadro, M9 has raised the industry standards to an all new level. Advanced signal transmission and reception processors provide highly sensitive and accurate echo detection. Innovative transducer technologies allow for better penetration, higher resolution, greatly enhancing your diagnostic experience.
Providing sharper images, all probes compatible with the M9 come equipped with Instromedix India’s unique 3T transducer technology. Enhanced with the addition of single crystal technology, M9 offers better penetration and color dynamic flow, especially during difficult-patient scanning.
Instromedix India’s unique adaptive signal processing technology with intelligent echo detection, designed to utilize the native signal-to-noise information to enhance the weak echo signals while suppressing the surrounding clutter noise, providing more balanced image brightness and improved visualization of myocardium tissue layers.
The TT QA functionality on M9 allows for a simple, quick and non-invasive solution for the evaluation of left ventricular wall motion abnormalities. Supported by Instromedix India’s patented 3T technology with single crystal, M9 significantly improves the tracking accuracy and effectiveness, controlling the image drift caused by the probe movement and respiration. With the added unique benefit of on-site analyses, the TT QA on M9 can be performed at the bed side, saving time and making complicated diagnoses much simpler.
M9’s premium capabilities allow for LV opacification during stress, enhancing discrimination between myocardial tissue and blood pool, providing better visualization of the endocardial surface. Stress Echo feature on M9 includes a complete package for pharmacological stress and exercise stress echo. The package is supported by a flexible reporting system that can be optimized for your individualistic needs.
Purified Harmonic Imaging for better contrast resolution providing clearer images with excellent resolution and less noise
Utilizing second harmonics generated from tissue boundary layers, THI significantly enhances contrast resolution and improves image quality especially for technically difficult subjects.
Permits use of multiple scanned angles to form a single image, resulting in enhanced contrast resolution and improved visualization.
Gain improved image quality based on auto structure detection
Echo-enriched beam former permits the use of traditionally neglected echo signals of adjacent beams to form one finer and stronger imaging beam, providing better ‘out-of-focus’ image resolution and deeper image penetration.
Maximum 12 times tasking for one transmitted beam, resulting in excellent time resolution and higher frame rate.
Gain precise anatomical observation by freely placing sample lines at any angle. Attain better images through simultaneous display of up to 3 sample lines.
Accurately evaluate myocardial motion at different phases, and simultaneously determine myocardial synchronization. High frame-rate providing you with accurate results.
One intelligent way to analyze 2D echo clips to automatically recognize diastole/systole frames and output EDV/ESV/EF etc. results by Simpson method .
Tissue Doppler Imaging allows you to quantitatively evaluate local myocardial movement and function, providing complete TDI modes for faster and direct diagnoses.
Gain instant full screen view by a swipe
Auto measurement of anterior and posterior wall thickness providing accurate carotid status.
Instromedix India’s unique Patient Information Management System allowing you to integrate, review, archive and retrieve patient data effectively
Gain instant auto image optimization in B, Color and PW Modes on the touch of a single key.
A smart tool to let you focus more on the patient. Helps in significantly reducing the patient scan time through standardization and user-defined capability.
Enables optimum flexibility for post processing of the stored images including parameter adjustments, adding comments and measurements, allowing maximum productivity during scanning.