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find Author "刘国强" 3 results
  • 趾腓侧皮瓣移位修复前足底创面

    前足底皮肤缺损修复极为困难。根据足部局部血供特点,设计了止母趾腓侧皮瓣移位修复前足底难治性创面5例,均获满意效果。此法优点为:①血供丰富,皮肤质地优良,带有神经,术后耐磨、耐压,可满意恢复足的行走和负重功能;②血管神经蒂长,通过“隧道”可顺利移位修复前足底各部位创面;③血管神经变异少,操作容易,有利推广。对手术方法、注意事项及足底修复特点等进行了讨论。

    Release date:2016-09-01 11:10 Export PDF Favorites Scan
  • Simulation research on magnetoacoustic effect and thermoacoustic effect of pulsed magnetic excitation

    According to the coupling relationship of electromagnetic field and acoustic field when electromagnetic field irradiates low conductivity objects, we carried out a study on the magnetoacoustic effect and thermoacoustic effect in pulsed magnetic excitation. In this paper, we provide the pressure wave equation in pulsed magnetic excitation based on the theory of electromagnetic field and acoustic wave propagation. A 2-dimensional coil carrying current and a circular thin sheet model were constructed to simulate the physical imaging environment. The transient electromagnetic field was simulated using finite element method. Numerical studies were conducted to simulate the pressures excited by magnetoacoustic effect and thermoacoustic effect according to the result of electromagnetic simulation. It was shown that the thermoacoustic effect played a leading role in the low conductivity objects on the microsecond Gauss pulsed magnetic excitation, and thermoacoustic effect and magnetoacoustic effect coexisted on the microsecond Gauss pulsed magnetic field and 0.2 T static magnetic field excitation. This study lays the foundation for the further application of magnetoacoustic tomography with magnetic induction and magnetically mediated thermoacoustic imaging.

    Release date:2017-04-01 08:56 Export PDF Favorites Scan
  • Simulation research on magnetoacoustic B-scan imaging of magnetic nanoparticles

    As drug carriers, magnetic nanoparticles can specifically bind to tumors and have the potential for targeted therapy. It is of great significance to explore non-invasive imaging methods that can detect the distribution of magnetic nanoparticles. Based on the mechanism that magnetic nanoparticles can generate ultrasonic waves through the pulsed magnetic field excitation, the sound pressure wave equation containing the concentration information of magnetic nanoparticles was derived. Using the finite element method and the analytical solution, the consistent transient pulsed magnetic field was obtained. A three-dimensional simulation model was constructed for the coupling calculation of electromagnetic field and sound field. The simulation results verified that the sound pressure waveform at the detection point reflected the position of magnetic nanoparticles in biological tissue. Using the sound pressure data detected by the ultrasonic transducer, the B-scan imaging of the magnetic nanoparticles was achieved. The maximum error of the target area position was 1.56%, and the magnetic nanoparticles regions with different concentrations were distinguished by comparing the amplitude of the boundary signals in the image. Studies in this paper indicate that B-scan imaging can quickly and accurately obtain the dimensional and positional information of the target region and is expected to be used for the detection of magnetic nanoparticles in targeted therapy.

    Release date:2020-12-14 05:08 Export PDF Favorites Scan
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