(View map)
Stationary ultrasonic scanner middle class Apogee 3500 used recent advances in ultrasound image processing: a composite image, tissue harmonic Imaging (THI) inverse, Adaptive visualization, as well as all the main rendering modes.
The scope of the
- Abdomen research
- Research vessels
- Obstetrics and Gynecology
- Orthopedics
- Mammary glands
- The thyroid gland
- Small parts
- Neonatology
- Cardiology
Composite image
In this mode, each dot on the screen is obtained using reflection ultrasonic signal from several rays declined to the Center (not a single Ray, as usual). Information received from all rays shall be drawn up in a single image in real time. This avoids artifacts and get excellent visualization of any plots.
Image Keystoning occurs when the image
Extended field of view shows more information about the image, without sacrificing quality. It is an indispensable mode for scanning organs in larger sizes.
Picture a linear deviation
Driving displayed areas of linear sensor, Sonography can easily scan the neighbouring authority without movement sensor. Thus, the scanning becomes more effective and easy.
Tissue harmonic Imaging (THI) inverse
All sensors have the function of tissue formation SIUI harmonics. This technology gives you the ability to reduce noise in close areas and improve image quality while maintaining good penetration.
3D in real time
A three - dimensional image can be generated using 3D software. In this mode, you can explore the image by rotating, zooming, changing the color of the image and the background color.
Through the use of volumetric sensors (convex and vaginal), you can effectively get information about fruit and other bodies.
Sonojelastografija
The unique patented technology that allows to evaluate the density of tissues and to identify in the early stages of tumors that cannot be seen in conventional ultrasonic scanning.