A high-speed digital acquisition and wide-band measurement system was used to acquiring and recording the ultrasonic pulse waveforms backscattered from normal and several pathological pig's fresh liver tissues (in...A high-speed digital acquisition and wide-band measurement system was used to acquiring and recording the ultrasonic pulse waveforms backscattered from normal and several pathological pig's fresh liver tissues (including ballooning degeneration, fatty degeneration, cirrhosis) in vitro. Some frequency-domain analyses were performed in which integrated backscattering coefficient (IBSC), frequency dependence of backscattering coefficient (FDBSC),and mean spacing (MS) among adjacent scatterers of the tissues were determined.In the experiments the frequency domain was from 3MHz to 7 MHz. The obtained results show that the differences among normal and various pathological tissues cause distinct changes of the measured parameters. The results show that the ultrasonic spectum technique, which can be used in tissue characterization for pathological liver in clinical, has an exciting prospect.展开更多
文摘A high-speed digital acquisition and wide-band measurement system was used to acquiring and recording the ultrasonic pulse waveforms backscattered from normal and several pathological pig's fresh liver tissues (including ballooning degeneration, fatty degeneration, cirrhosis) in vitro. Some frequency-domain analyses were performed in which integrated backscattering coefficient (IBSC), frequency dependence of backscattering coefficient (FDBSC),and mean spacing (MS) among adjacent scatterers of the tissues were determined.In the experiments the frequency domain was from 3MHz to 7 MHz. The obtained results show that the differences among normal and various pathological tissues cause distinct changes of the measured parameters. The results show that the ultrasonic spectum technique, which can be used in tissue characterization for pathological liver in clinical, has an exciting prospect.
