'Echogenic' Searchterm 'Echogenic' found in 20 articles 3 terms [ • ] - 17 definitions [• ] Result Pages : • Echogenic
Echogenic is a tissue that structures are capable of producing echoes when they are in the path of a sound beam. See also Echogenicity, and Isoechogenic. •
Echogenicity is the ability of a medium to create an echo, for example to return a signal when tissue is in the path of the sound beam. The ultrasound echogenicity is dependent on characteristics of tissues or contrast agents and is measured by calculating the backscattering and transmission coefficients as a function of frequency. The fundamental parameters that determine echogenicity are density and compressibility. Blood is two to three orders of magnitude less echogenic than tissue due to the relatively small impedance differences between red blood cells and plasma. The tissue echogenicity can be increased by ultrasound contrast agents. Encapsulated microbubbles are highly echogenic due to differences in their compressibility and density, compared to tissue or plasma. Microbubbles are 10,000 times more compressible than red blood cells. The compressibility of air is 7.65 x 10−6 m2/N, in comparison with 4.5 x 10-11 m2/N for water (on the same order of magnitude as tissue and plasma). This impedance mismatch results in a very high echogenicity. An echo from an individual contrast agent can be detected by a clinical ultrasound system sensitive to a volume on the order of 0.004 pl. See also Isoechogenic, Retrolenticular Afterglow, and Sonographic Features. Further Reading: News & More:
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The term isoechogenic or isoechoic is used if different tissues have the same echogenicity and are not separate depictable.
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Solid regions have internal ultrasound echoes and are classified as echo poor, hypoechoic or hypoechogenic if there are few internal echoes.
Hypoechoic structures appear dark in ultrasound imaging, more homogeneous structures are darker than heterogeneous. Soft atherosclerotic plaque, liver adenoma or FNH appear with a nodular hypoechogenicity. As metastases close the blood vessels they infiltrate, tumor tissues become hypoechogenic after injection of contrast agent. Muscle appears relatively hypoechoic to tendon fibers, also articular hyaline cartilage appears hypoechoic. •
Anatomic structures respond with characteristic features on ultrasound scanning. There are some ultrasound terms, referring to the echo appearance, that describes tissue appearance in a uniform manner:
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hyperechoic or hyperechogenic (bright);
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hypoechoic or hypoechogenic;
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anechoic or anechogenic;
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homogenous (uniform echo pattern);
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heterogeneous (irregular echo pattern).
Tendons characteristically are hyperechoic on ultrasound because of the fibrillar pattern. Ligaments appear hyperechoic when the beam is perpendicular to the tissue. Peripheral nerves are hyperechoic relative to muscle. Muscle appears relatively hypoechoic to tendon fibers. Close observation reveals hypoechoic muscle fibers separated by hyperechoic septae that converge on a hyperechoic aponeurosis. Articular hyaline cartilage appears hypoechoic. The presence of fluid within the joint outlining the cartilage produces a thin bright echo at this interface. Sound beams do not penetrate the bone cortex. The very bright echo produced at the interface allows both recognition of the bone cortex but also can demonstrate fracture, spurring and bone callus bridging. Abnormal soft tissue calcification and ossification also produces bright reflective echoes. Cysts or fluid filled areas are without internal echoes and are called echo free or anechoic and may demonstrate enhanced soft tissue echoes posterior to the fluid collection. Inflamed metatarsal bursae and calcaneal bursae clearly depict fluid swelling. See also Beam Pattern and Zero Offset. Result Pages : |