Publication | Closed Access
Relationship of Ultrasonic Spectral Parameters to Features of Tissue Microstructure
492
Citations
14
References
1987
Year
Biomedical AcousticsMedical UltrasoundEngineeringTissue MicrostructureBiological Effects Of Acoustic WavesBiomedical EngineeringPower UltrasoundUltrasound Contrast AgentsAcoustic AnalysisBiophysicsUltrasound PhysicsRadiologyUltrasonic Spectral ParametersAcoustic MethodsHealth SciencesMedical ImagingUltrasonicsSpecific Tissue FeaturesAcoustic PropagationMusculoskeletal UltrasoundUltrasoundMlytical StudiesBiomedical ImagingElastographyDiagnostic AcousticsLaser UltrasoundAcoustic Microscopy
Ultrasonic spectral signatures are diagnostically useful, and analytical studies have examined how specific tissue features influence them. The study aims to refine the analytical model of ultrasonic spectra using acoustic microscopy, test objects, and clinical data. The authors modeled tissue microstructure with three configurations, calibrating power spectra across varying scatterer sizes, concentrations, and acoustic impedances. Simulations of eye and liver tissues matched clinical data, showing excellent correspondence between modeled spectra and observed measurements. I.
Absfract-&mlytical studies have been conducted to investigate the importance of specific tissue features in determining ultrasonic spectral “signatures” that have proven to be diagnostically useful. Three models of tissue microstructure were considered, and calibrated power spectra were computed for a series of scatterer sizes, concentrations, and acoustic impedances. General results were obtained, then specific parameters were employed to simulate studies of the eye and liver. These results were compared to clinical data-base information, and excellent correspondence was found. Studies using acoustic microscopy, test objects, and clinical data are continuing to refine the analytical model. I. INTRODUCTION U
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