Research on magneto-acoustic-electrical tomography method based on liquid metal contrast agent and M sequence coded excitation / 生物医学工程学杂志

Magneto-acoustic-electric tomography (MAET) boasts high resolution in ultrasound imaging and high contrast in electrical impedance imaging, making it of significant research value in the fields of early tumor diagnosis and bioelectrical monitoring. In this study, a method was proposed that combined high conductivity liquid metal and maximum length sequence (M sequence) coded excitation to improve the signal-to-noise ratio. It was shown that, under rotational scanning, the liquid metal significantly improved the signal-to-noise ratio of the inter-tissue magneto-acoustic-electric signal and enhanced the quality of the reconstructed image. The signal-to-noise ratio of the signal was increased by 5.6, 11.1, 21.7, and 45.7 times under the excitation of 7-, 15-, 31-, and 63-bit M sequence code, respectively. The total usage time of 31-bit M sequence coded excitation imaging was shortened by 75.6% compared with single-pulse excitation when the same signal-to-noise ratio was improved. In conclusion, the imaging method combining liquid metal and M-sequence coding excitation has positive significance for improving MAET image quality.

Research on M-sequence coded excitation method for magnetoacoustic imaging / 医疗卫生装备

Objective To solve the problem of the low signal to noise ratio (SNR)and limited imaging quality using single pulse exciting method in magnetoacoustic imaging, as well as the limited imaging speed using wave averaging processing method to magnetoacoustic signal. Methods M-sequence coded exciting method was proposed to enhance SNR imaging efficiency. The SNR improvement and sidelobe level were investigated using M-sequence code by simulation and experiments.Results The SNR of magnetoacoustic signal were 19.4,29.6,and 40.4 dB respectively under 7,31 and 127 bit M-sequence coded excitation. Three bits of M-sequence coded excitation magnetoacoustic signals had the integrated sidelobe level being 14.1,10.0 and 7.6 dB,and the peak sidelobe level being 26.3,24.3 and 21.3 dB.In case the SNR was increased by 40 dB,127 bit of M-sequence coded excitation shortened the sampling and procession time from 53.1 s to 0.520 s when compared with singl-pulse excitation combined with waveform average.Conclusion The coded excitation is significant for magnetoacoustic signal SNR and imaging quality improvement.