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find Keyword "Intracranial pressure" 2 results
  • THE INVESTIGATION OF PAPILLEDEMA AND WIDTH OF OPTIC NERVE IN HIGH INTRACRANIAL PRESSURE

    The diameters of the optic nerves in 54 patients with high intracranial pressure(ICP)were checked and measured with B type ultrasonic tomography and the relationship between thewidth of optic nerve and the optic papiliedema was studied. The results showed that the average diameter (6. 324-0.53)mm of the optic nerves in patients with high ICP was wider than that(3.61 ~:0.29 )mm in health subjects (P(0.01). The rate of increasing width of optic nerve (87.00%)was higher than that (67.00~)of papilledema (P(0.05). In addition,in 19 patients with ICP between 1.97 and 2.50 kPa, the rate of increasing width of optic nerve (79. 00~)was higher than that (42.00%)of papilledema (P (0. 05). These results indicated that measuring the diameter of optic nerve might be more practical than observing tile presence of papilledema in diagnosing high ICP,especially in early stage. (Chin J Ocul Fundus Dis,1996,12: 86-87)

    Release date:2016-09-02 06:21 Export PDF Favorites Scan
  • Experimental study on high-frequency subharmonic scattering characteristics of ultrasound contrast agent microbubbles under low ambient pressure

    Correlation between nonlinear subharmonic scattering of ultrasound contrast agent microbubbles and ambient pressure is expected to be used for local brain tissue pressure monitoring. Although high-frequency ultrasound has achieved high-resolution imaging of intracranial microvessels, the research on high-frequency subharmonic scattering characteristics of microbubbles is insufficient at present, which restricts the research progress of estimating local brain tissue pressure based on high-frequency subharmonic scattering of microbubbles. Therefore, under the excitation of 10 MHz high-frequency ultrasound, the effects of different acoustic pressures and ambient pressures on the high-frequency subharmonic scattering characteristics of three different ultrasound contrast agents including SonoVue, Sonazoid and Huashengxian were investigated in this in vitro study. Results showed that the subharmonic scattering amplitudes of the three microbubbles increased with the increase of ambient pressure at the peak negative acoustic pressures of 696, 766 and 817 kPa, and there was a favorable linear correlation between subharmonic amplitude and ambient pressure. Under the above three acoustic pressures, the highest correlation coefficient of SonoVue was 0.948 (P = 0.03), the highest sensitivity of pressure measurement was 0.248 dB/mm Hg and the minimum root mean square error (RMSE) was 2.64 mm Hg. Sonazoid's highest correlation coefficient was 0.982 (P < 0.01), the highest sensitivity of pressure measurement was 0.052 dB/mm Hg and the minimum RMSE was 1.51 mm Hg. The highest correlation coefficient of Huashengxian was 0.969 (P = 0.02), the highest sensitivity of pressure measurement was 0.098 dB/mm Hg and the minimum RMSE was 2.00 mm Hg. The above in vitro experimental results indicate that by selecting ultrasound contrast agent microbubbles and optimizing acoustic pressure, the correlation between high-frequency subharmonic scattering of microbubbles and ambient pressure can be improved, the sensitivity of pressure measurement can be upgraded, and the measurement error can be reduced to meet the clinical demand for local brain tissue pressure measurement, which provided an important experimental basis for subsequent research in vivo.

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