Systems and methods for finding hepato-renal indices

What is claimed is: 1 . An ultrasound imaging system comprising: an ultrasound probe configured to transmit ultrasound signals and receive echoes responsive to the ultrasound signals and provide radio frequency (RF) data corresponding to the echoes; a user interface configured to receive indications of a first region of interest (ROI) and a second ROI from a user; a signal processor configured to receive the RF data and separate the RF data into harmonic frequency components and fundamental frequency components; and a processor configured to: receive the indications of the first ROI and the second ROI; receive the harmonic frequency components and the fundamental frequency components for the first ROI and the second ROI; calculate a first average signal intensity value for the first ROI and calculate a second average signal intensity value for the second ROI based on the harmonic frequency components without being based on the fundamental frequency components; calculate a first ratio of the first average signal intensity value and the second average signal intensity value, wherein the first ratio is a first Hepato-renal index (HRI) value; calculate a third average signal intensity value for the first ROI and calculate a fourth average signal intensity value for the second ROI based on the fundamental frequency components without being based on the harmonic frequency components; calculate a second ratio of the third average signal intensity value and the fourth average signal intensity value, wherein the second ratio is a second, different HRI value; and calculate a compounding index based on a weighted combination of the first HRI value and the second HRI value. 2 . The ultrasound imaging system of claim 1 , wherein the user interface includes a display and the processor is further configured to provide at least one of the first ratio, the second ratio, and the compounding index for viewing on the display. 3 . The ultrasound imaging system of claim 1 , wherein the processor is further configured to: calculate a first plurality of signal intensity values for the first ROI and a second plurality of signal intensity values for the second ROI; and remove a percentage of highest values of the first plurality of signal intensity values and the second plurality of signal intensity values prior to calculating the first average signal intensity, and the second average signal intensity, the third average signal intensity and the fourth average signal intensity. 4 . The ultrasound imaging system of claim 1 , wherein the processor is further configured to: calculate a first plurality of signal intensity values for the first ROI and a second plurality of signal intensity values for the second ROI; and remove a percentage of lowest values of the first plurality of signal intensity values and the second plurality of signal intensity values prior to calculating the first average signal intensity, and the second average signal intensity, the third average signal intensity and the fourth average signal intensity. 5 . The ultrasound imaging system of claim 1 , further comprising a memory, wherein at least one of the first ratio, the second ratio, and the compounding index are provided to the memory for storage. 6 . The ultrasound imaging system of claim 1 , further comprising a transmit controller configured to control transmission of the ultrasound signals by the ultrasound probe, wherein the transmit controller is configured to cause the ultrasound probe to transmit the ultrasound signals as two-pulse transmissions. 7 . The ultrasound imaging system of claim 6 , wherein a first pulse of the two-pulse transmission is an inverse of a second pulse of the two-pulse transmission. 8 . The ultrasound imaging system of claim 1 , wherein the signal processor includes a fundamental bandpass filter configured to pass the fundamental frequency components and a harmonic bandpass filter configured to pass the harmonic frequency components. 9 . The ultrasound imaging system of claim 1 , wherein the signal processor includes: a summer configured to cancel the fundamental frequency components and produce the harmonic frequency components; and a subtractor configured to cancel the harmonic frequency components and produce the fundamental frequency components. 10 . The ultrasound imaging system of claim 1 , wherein the first average signal intensity value for the first ROI and the second average signal intensity value for the second ROI are calculated based only on the harmonic frequency components. 11 . The ultrasound imaging system of claim 1 , wherein the third average signal intensity value for the first ROI and the fourth average signal intensity value for the second ROI are calculated based only on the fundamental frequency components.