Feasibility investigation of logarithmic Nakagami parametric imaging in recovering underestimated perfusion metrics of DCEUS in the uneven acoustic field

Abstract: Owing to acoustic-pressure dependence, amplitudes of backscattered-echoes of encapsulated microbubbles (MBs) are unavoidably regulated by an uneven acoustic field, resulting in the misestimation of hemodynamics in conventional amplitude-coding dynamic contrast-enhanced ultrasound (DCEUS) with focused pulse transmission. This study aimed to investigate the feasibility and performance of Nakagami statistical-feature parametric imaging to recover the above misestimation. Methods: Logarithmic Nakagami parameter (m… Show more

“…These techniques can be classified into model-based and non-model-based ones. Typical model-based techniques are ultrasound Nakagami imaging [10][11][12][13] and homodyned-K imaging [14,15] that are based on the generalized statistical models of backscatter envelopes. Ultrasound entropy imaging uses the informationtheoretic entropy of ultrasound backscatter envelopes, without a perquisite for satisfying a specific statistical model [9], which is of growing research interest in the field of quantitative ultrasound.…”

Ultrasound Entropy Imaging Based on the Kernel Density Estimation: A New Approach to Hepatic Steatosis Characterization

“…These techniques can be classified into model-based and non-model-based ones. Typical model-based techniques are ultrasound Nakagami imaging [10][11][12][13] and homodyned-K imaging [14,15] that are based on the generalized statistical models of backscatter envelopes. Ultrasound entropy imaging uses the informationtheoretic entropy of ultrasound backscatter envelopes, without a perquisite for satisfying a specific statistical model [9], which is of growing research interest in the field of quantitative ultrasound.…”

Ultrasound Entropy Imaging Based on the Kernel Density Estimation: A New Approach to Hepatic Steatosis Characterization