Evaluation of liver damage caused by brain death with tissue dispersion quantitative analysis technique / 中华超声影像学杂志

ABSTRACT

Objective To investigate the application value of the tissue diffusion quantitative analysis technique of real-time elastic( RTE) imaging in evaluation of liver damage caused by brain death . Methods Fifty cases of brain dead donor liver were examined by ultrasound elastography ,at the same time , 11 parameters were obtained by the tissue dispersion quantitative analysis software ,included MEAN ( mean relative strain value within the ROI) ,SD( standard deviation of the relative strain value within the ROI) ,％AREA (area of low strain within the ROI) ,COMP(complexity of low strain area within the ROI) ,KURT (kurtosis) ,SKEW(skewness) ,CONT (contrast) ,ENT(entropy) ,IDM(inverse difference moment) ,ASM (angular second moment) ,CORR(correlation) ,and the pathologic specimens in the process of operating were obtained . According to pathological findings ,50 patients were divided into damaged group and non-damaged group ,and the results were compared and analyzed . The correlation analysis of electronic speculum results and RTE were carried out . According to the ROC curve ,the RTE parameters'cut-off value and AUC were obtained .Results Among 11 parameters of tissue diffusion analysis ,MEAN and IDM in damaged group were higher than those in non-damaged group( all P < 0 .05) ;and SKEW and ENT were lower in damaged group than those in non-damaged group ( all P <0 .05) ;there was no significant difference in the other parameters between the two groups(all P >0 .05) . The MEAN ,SKEW ,COMP ,ENT and IDM had correlativity with electronic speculum( r = -0 .633 , P =0 .000 ;r =0 .388 , P =0 .005 ;r =0 .315 , P =0 .026 ;r = 0 .324 , P = 0 .022; r = -0 .314 , P = 0 .026 ,respectively ) . The diagnostic efficiency and sensitivity of MEAN were the highest , the critical value of MEAN was 125 .84 , AUC was 0 .907 . Conclusions The tissue dispersion quantitative analysis technique is a noninvasive method to preliminary evaluation of liver damage caused by brain death . M EAN had the highest effectiveness in eleven parameters .