Application of acoustic microscopy to assessment of cardiovascular biomechanics
Acoustic microscopy provides information on physical and mechanical properties of biological tissues, while optical microscopy with various staining techniques provides chemical properties. The biomechanics of tissues is especially important in cardiovascular system because its pathophysiology is cl...
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| Veröffentlicht in: | The Journal of the Acoustical Society of America 2002-11, Vol.112 (5_Supplement), p.2209-2209 |
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| container_issue | 5_Supplement |
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| container_title | The Journal of the Acoustical Society of America |
| container_volume | 112 |
| creator | Saijo, Yoshifumi Sasaki, Hidehiko Nitta, Shin-ichi Tanaka, Motonao Joergensen, Claus S. Falk, Erling |
| description | Acoustic microscopy provides information on physical and mechanical properties of biological tissues, while optical microscopy with various staining techniques provides chemical properties. The biomechanics of tissues is especially important in cardiovascular system because its pathophysiology is closely related with mechanical stresses such as blood pressure or blood flow. A scanning acoustic microscope (SAM) system with tone-burst ultrasound in the frequency range of 100–200 MHz has been developed, and attenuation and sound speed of tissues have been measured. In human coronary arteries, attenuation and sound speed were high in calcification and collagen, while both values were low in smooth muscle and lipid. Another SAM system with 800-MHz–1.3-GHz ultrasound was applied for aortas of Apo-E deficient mouse, which is known to develop atherosclerosis. Attenuation of ultrasound was significantly higher in type 1 collagen compared to type 3 collagen. Recently, a new type FFT-SAM using a single-pulse, broadband frequency range ultrasound (20–150 MHz) has been developed. Cardiac allograft was observed by FFT-SAM and the acoustic properties were able to grade allograft rejection. SAM provides very useful information for assessing cardiovascular biomechanics and for understanding normal and abnormal images of clinical ultrasound. |
| doi_str_mv | 10.1121/1.4778698 |
| format | Article |
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The biomechanics of tissues is especially important in cardiovascular system because its pathophysiology is closely related with mechanical stresses such as blood pressure or blood flow. A scanning acoustic microscope (SAM) system with tone-burst ultrasound in the frequency range of 100–200 MHz has been developed, and attenuation and sound speed of tissues have been measured. In human coronary arteries, attenuation and sound speed were high in calcification and collagen, while both values were low in smooth muscle and lipid. Another SAM system with 800-MHz–1.3-GHz ultrasound was applied for aortas of Apo-E deficient mouse, which is known to develop atherosclerosis. Attenuation of ultrasound was significantly higher in type 1 collagen compared to type 3 collagen. Recently, a new type FFT-SAM using a single-pulse, broadband frequency range ultrasound (20–150 MHz) has been developed. 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Cardiac allograft was observed by FFT-SAM and the acoustic properties were able to grade allograft rejection. SAM provides very useful information for assessing cardiovascular biomechanics and for understanding normal and abnormal images of clinical ultrasound.</abstract><doi>10.1121/1.4778698</doi></addata></record> |
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| ispartof | The Journal of the Acoustical Society of America, 2002-11, Vol.112 (5_Supplement), p.2209-2209 |
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| source | AIP Journals Complete; AIP Acoustical Society of America |
| title | Application of acoustic microscopy to assessment of cardiovascular biomechanics |
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