Medical Ultrasound Imaging
Saturday, 23 November 2024
• Welcome to
     Medical-Ultrasound-Imaging.com!
     • Sign in / Create account
 
 'Attenuation Coefficient' 
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 'Attenuation Coefficient' found in 5 articles
1
term [
] - 4 definitions [
]
Result Pages :
Attenuation Coefficient
This coefficient is a quantification of the energy intensity loss of waves (electromagnetic or mechanical) due to attenuation. In ultrasound imaging it is the relative energy intensity loss per traveled centimeter. The ultrasound attenuation coefficient is measured in units of dB/cm. The attenuation coefficient in soft tissues is nearly proportional to the ultrasound frequency. The attenuation coefficient is doubled when the frequency is doubled.
This coefficient (dB/cm) divided by the frequency (MHz) is almost constant in a given tissue.
blood: 0.2 MHz x dB/cm;
fatty tissue: 0.6 MHz x dB/cm;
liver: 0.9 MHz x dB/cm;
soft tissue: 0.5-1.0 MHz x dB/cm.

Attenuation
Attenuation is the reduction of power, for example due to the passage through a medium or electrical component. In ultrasound imaging, attenuation means the decrease in amplitude and intensity as a sound wave travels through a medium. In ultrasound attenuation is often characterized as the half-value layer, or the half-power distance. These terms refer to the distance that ultrasound will travel in a particular tissue before its energy is attenuated to half its original value.

Attenuation originates through:
divergence of the wavefront;
absorption of wave energy;
elastic reflection of wave energy;
elastic scattering of wave energy.

A thick muscled chest wall will offer a significant obstacle to the transmission of ultrasound. Non-muscle tissue such as fat does not attenuate acoustic energy as much. The half-value layer for bone is still less than muscle, that's why bone is such a barrier to ultrasound.

See also Attenuation Coefficient, and Derated Quantity.
Depth
To calculate the echo position, a constant sound speed of 1538.5 m/sec is assumed. Tissue penetration is frequency depended, if the frequency increases, the imaging depth decreases. The range resolution defines the depth. Ultrasound propagating in tissue is attenuated due to scattering and absorption. The attenuation is proportional to depth and frequency and is typically in the range from 0.5 to 1 dB/(MHz cm).

See also Attenuation Coefficient, Proximity Sensor, and Echo Ranging.
Derated Quantity
A quantity (considering for attenuation) that is measured in water using standard methods and then multiplied by a derating factor. This calculates the attenuation of the ultrasound area of the tissue between the probe and a particular location in the body along the axis of the sound beam.
The 'Guidelines for the Safe Use of Diagnostic Ultrasound' of the Government of Canada recommend a derating factor of 0.3 dB/cm-MHz.

See also Attenuation Coefficient.
Proportionality Constant
Two quantities (x, y) are called proportional if they vary in such a way that one of the quantities is a constant multiple of the other, or equivalently if they have a constant ratio (k = y/x). This constant ratio (k) is called the proportionality constant or constant of proportionality of the proportionality relation.

See also Amplitude, Acoustic Power, and Attenuation Coefficient.
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]