Medical Ultrasound Imaging
Thursday, 21 November 2024
• Welcome to
     Medical-Ultrasound-Imaging.com!
     • Sign in / Create account
 
 'Doppler Ultrasound' 
SEARCH   
A B C D E F G H I J K L M N O P Q R S T U V W Z 
Searchterm 'Doppler Ultrasound' found in 24 articles
1
term [
] - 23 definitions [
]
Result Pages :
Doppler Ultrasound
Doppler ultrasound is a medical imaging technique for calculating the relative velocity between two points by measuring the frequency shift of a sound wave transmitted from one point to the other, based on the Doppler effect. Continuous or pulsed Doppler is frequently used to examine cardiovascular blood flow. The combination of routine 2D-mode and Doppler ultrasound allows a complete evaluation of the heart's anatomy and function (including the fetal heart). See also Doppler Fluximetry in Pregnancy.
Doppler ultrasound depends on the fact that if a moving object reflects the ultrasound waves, the echo frequencies are changed. A higher frequency is created if the object is moving toward the probe//transducer and a lower frequency if it is moving away from it. How much the frequency is changed depends upon how fast the object is moving. Doppler ultrasound shows the different rates of blood flow in different colors on a monitor in real time.
The major Doppler parameters are the peak systolic velocity and the end-diastolic velocity. The peak systolic velocity ratio compensates the variability between different patients and instrumentations.

Different Doppler and duplex techniques:
Doppler Effect
Christian Johann Doppler first described the effect of motion of sound sources and the frequency change of the sound to the observer.
Doppler ultrasound uses this effect to detect and measure blood flow, and the major reflector is the red blood cell. Doppler ultrasound depends on the fact that if the reflecting surface is moving in relation to the transducer (blood flowing in a vessel) the frequency of the received ultrasound wave will be different from that of the transmitted wave. If blood cells are moving towards the transducer, they increase the frequency of the returning signal. As cells move away from the transducer, the frequency of the returning signal decreases.

See also Quadrature Detection and Doppler Techniques.
Apogee 3500
www.siui.com/english/product/3500.htm From SIUI Inc.;
'Dedicated to ultrasound industry, Shantou Institute of Ultrasonic Instruments, Inc. (SIUI) has launched Apogee 3500, the Digital Color Doppler Ultrasound Imaging System.
With latest imaging technologies, high-definition image quality and excellent practical functions, the Apogee 3500 offers optimal solutions for clinical ultrasonic examination.'

'The Apogee 3500 is available with many high-density, super broadband and multi-frequency probes, such as convex, micro-convex, linear, vaginal, rectal and phased array probes, which are widely applied for different clinical diagnoses, including abdomen (liver, kidney, gall-bladder, pancreas), gynecology (uterus, ovary), obstetrics (early pregnancy, basic OB, complete OB, multi gestation, fetal echo), cardiology (adult and pediatric cardiology), small parts (thyroid, galactophore, testicles, neonate), peripheral vascular and prostate.'

Device Information and Specification
APPLICATIONS
CONFIGURATION
Normal system, color - gray scale(256)
Linear, convex and phased array
PROBES STANDARD
1 * Super broadband convex probe, 1* super-broadband linear probe, 1* phased array probe
2.0 MHz ~ 12.0 MHz, broad band, tri-frequency
B-mode (B, 2B, 4B), M-mode, B/M-mode, real-time compound imaging, panoramic imaging, trapezoidal imaging (linear probes), spectrum Doppler (PWD and CWD), color Doppler flow imaging (CDFI), color power angio (CPA), tissue harmonic imaging (THI)
IMAGING OPTIONS
Real-time ZOOM, zoom rate and position selectable
OPTIONAL PACKAGE
Linear, convex, micro-convex, vaginal, rectal, biplane probes; CD-RW drive; DICOM 3.0 interface and software; ...
H*W*D m
1.29 * 0.52 * 0.75
WEIGHT
110 kg
POWER REQUIREMENT
AC 220V/110V, 50Hz/60Hz
POWER CONSUMPTION
0.6 KVA
Color Amplitude Imaging
(CAI) Color amplitude imaging shows the amplitude of the Doppler signal from moving blood flow. CAI is an ultrasound technique with increased dynamic range and flow sensitivity. The sensitivity of Doppler ultrasound increases markedly in conjunction with the use of vascular contrast agents.

See also Amplitude Map, Amplitude Indicator.
Color Doppler
(CD) Color Doppler is an ultrasound imaging mode, which visualizes the presence, direction and velocity of flowing blood in a wide range of flow conditions. It provides an estimate of the mean velocity of flow within a vessel by color coding the flow and displaying it superimposed on the 2D gray scale image. The flow direction is arbitrarily assigned the color red or blue, indicating flow toward or away from the transducer.
Color (colour, Brit.) Doppler ultrasound is capable of evaluating a wider area than other Doppler modes than for example Duplex or power Doppler, and therefore makes it less likely to miss flow abnormalities. It is also easier to interpret. Color flow is not as precise as conventional Doppler and is best used to scan a larger area and then use conventional Doppler for detailed analysis at a site of potential flow abnormality.

Adjustments for color Doppler in case of too much color:
decreased color gain;
increased color velocity scale;
evaluation of chosen filter.

Adjustments for color Doppler in case of not enough color:
increased color gain;
decrease color velocity scale;
adjust scanning plane and angle to flow;
decrease sample box size;
evaluation of chosen filter.

See also Color Power Doppler, Autocorrelation, Color Priority, Triplex Exam and Color Saturation.
Result Pages :
 
Share This Page
Facebook
Twitter
LinkedIn

Look
      Ups
Medical-Ultrasound-Imaging.com
former US-TIP.com
Member of SoftWays' Medical Imaging Group - MR-TIP • Radiology TIP • Medical-Ultrasound-Imaging
Copyright © 2008 - 2024 SoftWays. All rights reserved.
Terms of Use | Privacy Policy | Advertise With Us
 [last update: 2023-11-06 01:42:00]