Medical Ultrasound Imaging
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Searchterm 'Device' found in 67 articles
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Transducer
A transducer is a device, usually electrical or electronic, that converts one type of energy to another. Most transducers are either sensors or actuators. A transducer (also called probe) is a main part of the ultrasound machine. The transducer sends ultrasound waves into the body and receives the echoes produced by the waves when it is placed on or over the body part being imaged.
Ultrasound transducers are made from crystals with piezoelectric properties. This material vibrates at a resonant frequency, when an alternating electric current is applied. The vibration is transmitted into the tissue in short bursts. The speed of transmission within most soft tissues is 1540 m/s, producing a transit time of 6.5 ms/cm. Because the velocity of ultrasound waves is constant, the time taken for the wave to return to the transducer can be used to determine the depth of the object causing the reflection.
The waves will be reflected when they encounter a boundary between two tissues of different density (e.g. soft tissue and bone) and return to the transducer. Conversely, the crystals emit electrical currents when sound or pressure waves hit them (piezoelectric effect). The same crystals can be used to send and receive sound waves; the probe then acts as a receiver, converting mechanical energy back into an electric signal which is used to display an image. A sound absorbing substance eliminates back reflections from the probe itself, and an acoustic lens focuses the emitted sound waves. Then, the received signal gets processed by software to an image which is displayed at a monitor.
Transducer heads may contain one or more crystal elements. In multi-element probes, each crystal has its own circuit. The advantage is that the ultrasound beam can be controlled by changing the timing in which each element gets pulsed. Especially for cardiac ultrasound it is important to steer the beam.
Usually, several different transducer types are available to select the appropriate one for optimal imaging. Probes are formed in many shapes and sizes. The shape of the probe determines its field of view.
Transducers are described in megahertz (MHz) indicating their sound wave frequency. The frequency of emitted sound waves determines how deep the sound beam penetrates and the resolution of the image. Most transducers are only able to emit one frequency because the piezoelectric ceramic or crystals within it have a certain inherent frequency, but multi-frequency probes are also available.
See also Blanking Distance, Damping, Maximum Response Axis, Omnidirectional, and Huygens Principle.
U.S. FDA 510(k) Document
A guidance document available from the 'Center for Devices and Radiological Health, U.S. Food and Drug Administration', which provides information for manufacturers seeking U.S. marketing clearance of diagnostic ultrasound systems and transducers.
Verathon Inc.
www.verathon.com Diagnostic Ultrasound Corporation updated its company name to Verathon Inc. at October 11, 2006.
Verathon Inc. formerly 'Diagnostic Ultrasound' was founded in 1984 by Gerald McMorrow. His vision was to use emerging ultrasound technology to develop noninvasive, easy to use medical devices that would fill unmet needs in health care.
In the beginning, the company was no more than one man working alone in his basement. Today, the company has 150 employees and has sold more than 100 million dollars worth of its products worldwide.

Ultrasound Systems:
Contact Information
ONLINE
CONTACT
Vivid 7 Dimension
gehealthcare.com/usen/ultrasound/products/vivid7_dim.html From GE Healthcare.;
'Vivid 7 Dimension, a premier cardiovascular ultrasound system from GE Healthcare, expands on the strength of a powerful imaging platform to offer new, innovative technology of dimensional proportions.'

Device Information and Specification
APPLICATIONS
CONFIGURATION
17' high resolution non-interlaced flat CRT, 4 active probe ports, integrated gel warmer
RANGE OF PROBE TYPE
Multi-frequency, linear, convex, phased, sector
B-mode, C-mode, M-mode (and 2-D), triplex mode, harmonic imaging, color flow mapping, 3D ultrasound display, power Doppler imaging (PDI), color Doppler, pulsed wave Doppler, continuous wave Doppler, tissue velocity imaging (TVI), tissue type imaging (TTI), strain rate imaging (SRI), tissue synchronization imaging (TSI)
IMAGING OPTIONS
CINE review with 5 speed types, bi- andtri-plane imaging with e.g. stress echo and tissue synchronization imaging
OPTIONAL PACKAGE
digital stress echo
STORAGE, CONNECTIVITY, OS
Patient and image archive, HDD, MOD, DVD, USB flash card, DICOM 3.0 Windows-based
DATA PROCESSING
Digital beamformer with 1024 system processing channel technology
H*W*D m (inch.)
1.58 * 0.64 * 0.89 (62 * 25 * 35)
WEIGHT
191 kg (420 lbs.)
POWER CONSUMPTION
less than 2 KVA
Vivid i
gehealthcare.com/usen/ultrasound/products/vividi_index.html.html From GE Healthcare.;
'The incredible Vivid i system establishes a completely new level of cardiovascular performance that gives clinicians the freedom to get diagnostic results outside of the echo lab.'


Device Information and Specification
APPLICATIONS
CONFIGURATION
Notebook
IMAGING OPTIONS
Multiple focal zones, coded octave harmonics, triplex and duplex display, automatic tissue optimization (ATO)
STORAGE, CONNECTIVITY, OS
Patient and image archive, HDD, DICOM, CD/DVD, MOD, USB flash, PCMCIA, eVue for remote monitoring, MPEGvue foruniversal record sharing
H*W*D cm (inch.)
7 * 36 * 32 (2.6 x 14.1 x 12.3)
WEIGHT
5 kg (11 lbs.)
POWER CONSUMPTION
Rechargeable battery provides up to 1.0 hour of full scan operation
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