Ultrasound Biopsy Needle Guides for Philips ClearVue L12-4
1.Type:Three angles, accepts 14-22 Gauge instruments
2.Fits:Philips ClearVue L12-4
3.Features:stainless steel, reusable, easy to clean and sterilize
4.Professional new one from Chinese factory, precision manufacturing
5.Qualified one in excellent working condition
6.Provide 90 days warranty
Other Ultrasound Biopsy Needle Guides for Philips ClearVue L12-4
Brand
Model
Angle
Applicative needle
Philips
C5-1
four angles
14-22G
Philips
C5-2
single angle
16、18G
Philips
C5-2
four angles
14-22G
Philips
C8-4v、C9-3v、C10-3v
single angle
16、17、18G
Philips
C9-5ec
single angle
16、17、18G
Philips
ClearVue C5-2
four angles
14-22G
Philips
ClearVue C9-4V
single angle
16、17、18G
Philips
ClearVue L12-4
three angles
14-22G
Philips
ClearVue S4-1
three angles
14-22G
Philips
Ergo S4-2、S5-1、S5-2
three angles
14-22G
Philips
L12-3
single angle
14-22G
Philips
L12-5
45-90°
16、17、18G
Knowledge point:
3D
In the ultrasonic detector, the detected 3Dobject image is displayed as a 3Ddisplay method by plane display. Three dimensional reconstruction refers to the use of ultra wide-band technology, on the basis of a large number of high-definition two-dimensional image accurate data provided, to make the collected image signal data characteristic and systematic, so as to form a 3Ddisplay. Its unique control signal function will make a series of 3Dimages fully displayed on the screen.
3D image reconstruction
3D image reconstruction is a hot spot in ultrasound image processing and has become a development trend of ultrasound imaging. The first 3Dultrasound imaging commercial device uses mechanical scanning probes that oscillate in perpendicular directions to collect data of interest within 3 seconds, and perform image reconstruction to generate sagittal, coronal, and cross-sectional images. These planes can be adjusted within the range of ultrasound information capacity, and multiple continuous images can be seen. There are many problems to be solved in 3Dultrasound imaging, including data acquisition methods, real-time image reconstruction, and clinical reference value. At present, four data collection methods have emerged: parallel scanning, rotating scanning, sector scanning, and free-hand Scanning. The most eye-catching 3Dultrasound imaging is real-time 3Dimaging. The key to real-time 3Dimaging is to use parallel data processing and shorten data acquisition time. Acoustic pulses are emited in several directions at the same time, and simultaneously acquires and processes multiple sound beam information of the scan line, which obviously increases the complexity of the ultrasound imaging system.
