The 1300 Ultrasound Scanner is a multi-purpose mobile, software controlled diag
The 1300 Ultrasound Scanner is a multi-purpose mobile, software controlled diagnostic ultrasound system with an on-screen display for thermal and mechanical indices related to potential bio-effect mechanisms. It includes the following scanning modes: B, B+M, B+D, B+C, B+D+C . (D is PWD, C is Color Flow mapping Doppler including Velocity and Variance display, Amplitude(power)Doppler including directional display ). B mode includes Tissue Harmonic Imaging , VFI (Vector Flow Imaging), Elastography, Contrast Imaging, CW doppler. The system performs simple geometric measurements and calculations in the following areas: Urology, Vascular, Cardiology, OB/GYN, Emergency Medicine, Surgery, and Anesthesia. Optional 3-D unit can reconstruct a series of 2-D images into a single 3-D volume and display this on the screen.
Ultrasound scanner 2202 supports the following scanning modes and combinations t
Ultrasound scanner 2202 supports the following scanning modes and combinations thereof:B-mode (incl. Tissue Harmonic Imaging), M-mode, PWD mode, CFM mode, Amplitude (Power) Doppler mode.The system can perform simple geometric measurements, and perform calculations in the areas of Vascular, Urology, Cardiology and OB/GYN applications.An optional ECG signal can be superimposed the ultrasound information in all modes and mode combinations.The system can guide biopsy- and puncture needles.An optional 3-D module can reconstruct a series of 2-D images into a single 3-D volume and display this on the screen.An optional Vector Flow Imaging (VFI) module: Color Flow Mapping (CFM) imaging mode with the ability to visualize both the axial and the transverse velocity.An optional RF wireless function with the ability to wireless transmit for printing and archive purpose.
Ultrasound scanner 1202 and transducers for B, Tissue and Contrast Harmonic Imag
Ultrasound scanner 1202 and transducers for B, Tissue and Contrast Harmonic Imaging, M, PWD, CWD, Color Doppler, Vector Flow Imaging and combined mode imaging.Signal analysis and display.Guidance of biopsy needles, geometrical measurements and calculation of parameters.An optional 3-D unit can reconstruct a series of 2-D images into a single 3-D volume and display this on the screen.An optional Vector Flow Imaging (VFI) module: Color Flow Mapping (CFM) imaging mode with the ability to visualize both the axial and the transverse velocity.An optional RF wireless function with the ability to wireless transmit for printing and archive connectivity purpose.Clinical applications: Abdominal, Cardiac, Fetal, Intraoperative, Neurosurgery, Obstetrics, Pediatrics, Transrectal, Small organs, Transvaginal, Musculoskeletal.
Ultrasound Scanner System bk2300 with the addition of an optional system with an
Ultrasound Scanner System bk2300 with the addition of an optional system with an alternate power source (battery) solution is intended for the diagnostic ultrasound imaging or fluid flow analysis of the human body and includes the following:Ultrasound scanner and transducers for B, Tissue and Contrast Harmonic Imaging, M, PWD, CWD, Color Doppler, Vector Flow Imaging and combined mode imaging and Elastography.Signal Analysis.Guidance of biopsy needles, geometrical measurements and calculation of parameters. An optimal 3-D unit can reconstruct a series of 2-D images into a single 3-D volume and display this on the screen.An optional Vector Flow Imaging (VFI) module: Color Flow Mapping (CFM) imaging mode with the ability to visualize both the axial and the transverse velocity.An optional RF wireless function with the ability to wireless transmit for printing and archive connectivity purpose.
The OPTICAL BIOMETER AL-Scan is a measuring device that can measure as a single
The OPTICAL BIOMETER AL-Scan is a measuring device that can measure as a single unit the values necessary to calculate the power of an IOL for cataract surgery such as axial length, corneal curvature radius, and anterior chamber depth. It measures these necessary values successively through a non-contact optical measurement method. An optional A-scan probe is also available to scan axial length with an ultrasonic measurement functionby touching it to the cornea should optical measurement not be successful. In addition, an anterior eye segment image overlaid with the corneal meridians can be created as a reference for toric IOL implantation. The AL-Scan also has the function to calculate the power of an IOL using measured values such asaxial length.
The NIDEK US-500 Echoscan is an ultrasonic device to measure the axial length an
The NIDEK US-500 Echoscan is an ultrasonic device to measure the axial length and corneal thickness and provide the information to be used for diagnosis.Axial length is one of the parameters used to determine the refractive power of an IOL prior to cataract surgery. By inputting the measured axial length with other parameters, the refractive power of an IOL can be calculated. Corneal thickness is a necessary parameter when considering the clinical influence of surgery, drugs and contact lenses upon endothelium tissue. Pachymetry is now commonly performed prior to and after corneal refractive surgery using devices such as the excimer laser. The US-500 is comprised of a touch screen, main body with a built-in printer, Pachymetry probe, and foot switch.
Ultrasonic waves are the sound waves pitched above the range of human hearing wh
Ultrasonic waves are the sound waves pitched above the range of human hearing whose frequency is 20,000 Hz or more. In the medical field, ultrasonic waves of frequencies between 1 and 15 MHz are applied, and these types of high sound waves have the following characteristics similar to light:They have a high tendency to travel in a straight direction. They have characteristics such as reflect.