ABSTRACT
Objective To evaluate the feasibility of wholeGtumor texture analysis of contrastGenhanced T1 WI (T1 Ce)in differentiating cystic glioma (CG)from brain abscess (BA).Methods MRI data of 25 cases of ringGenhanced CG and 24 cases of BA proven pathologically were retrospectively studied.All the patients underwent preGsurgery MRI plain and contrastGenhanced scans.FireVoxel software was used to outline the ROI of the wholeGtumor.The signal intensity histogram and related texture parameters of the 3D ROI were obtained,including mean, median,standard deviation,inhomogeneity,skewness,kurtosis and entropy.The data were first tested for normality and the differences in wholeG tumor texture analysis parameters of T1 Ce between CGs and BAs were compared using the independentGsample t test(normal distribution)and MannGWhitney rank sum test (skewed distribution).ROC curve was used to evaluate the efficacy of the parameter in differentiating CG from BA.Results There were statistical significances in the parameters of mean,median,standard deviation,inhomogeneity and skewness between CGs and BAs(P<0.05),and there were no any statistical significances in kurtosis and entropy between CGs and BAs(P>0.05).In all the texture parameters,the AUC of inhomogeneity was the largest(0.988),and when the threshold was 0.314, the sensitivity and the specificity were 92.60% and 9 7.1 0%,respectively.Conclusion Some of the quantitative parameters of the wholeGtumor texture analysis of T1 Ce(mean,median,standard deviation,inhomogeneity and skewness)could provide reliable and objective evidences for imaging differential diagnosis of CG and BA preGsurgery.
ABSTRACT
Objective To investigate the MRI features of intracranial solitary fibrous tumors/hemangiopericytomas (SFT/HPC),and to compare these findings with those of intracranial meningiomas.Methods The clinical features and MRI findings in 28 patients of intracranial SFT/HPC (SFT/HPC group)and 68 patients of meningiomas (meningiomas group) confirmed by operation and pathology were retrospectively analyzed.The indicators of two groups were compared.Results Shape of tumor,signal homogeneous,signal voids of vessel in tumor,hypointense signal nodules on T2WI and enhanded,cystic or necrosis in tumor,meningeal tail sign,changes of the nearby bone,sex,Ki-67% level,blood lose in surgery had significant differences between SFT/HPC group and meningiomas group (all P<0.05).Conclusion There are some differences between intracranial SFT/HPC and meningiomas.It is helpful in diagnosis and differential diagnosis through the comparative analysis of the imaging signs.
ABSTRACT
Objective To investigate the probable pathologic basis of amido proton transfer(APT) imaging by analysing APT signal intensity and pathologic features of different grades of glioma.Methods Twenty-eight patients with glioma confirmed by postoperative pathology underwent APT scan.All the patients were divided into two groups,including 11 cases in low grade (WHO Ⅰ and Ⅱ) and 17 cases in high grade (WHO Ⅲ and Ⅳ) group.The APT rate of tumor core was measured.The specimens were processed with routine hematoxylin-eosin (HE) staining and immunohistochemistry of Ki-67 and CD34.Independent-samples t test was used to detect the difference of APT rate,cellularity,microvessel density and Ki-67 labeling indices of tumor core between low grade and high grade group.Pearson correlation analysis and multi-variable linear regression analysis were used to detect the relationship of APT rate with cellularity,microvessel density and Ki-67 labeling indices of the tumor core.Results The APT rate,cellularity and proliferation index were (2.3±0.6) %,(9.4±2.4) % and (14.2±5.4) % in low grade group,while (3.6±0.7) %,(18.4±4.7) % and (31.7±4.5) % in high grade group,respectively.Microvessel density was (19.0±7.4) per high-power field in low grade group and (38.9±11.3) in high grade group.There were statistical differences of the APT rate,cellularity,microvessel density and proliferation index between the low grade group and the high grade group (t=-4.94,-5.89,-5.13,and-9.28,respectively,P<0.01).The APT rate was positive correlated with cellularity,microvessel density and proliferation index.The coefficient of correlation were 0.904,0.598,and 0.750,respectively,(P<0.01).Multiple linear correlative analysis showed that increasing cellularity (X1),microvessel density (X2) and proliferation index (X3) were the main factors for increasing APT rate,and the correlation equation was Y=0.801 + 0.12X1-0.003X2 + 0.026X3 (F=46.437,P<0.01,R2=0.853).Conclusions The APT signal intensity of the tumor core could reflect the pathologic features of glioma.The APT rate was positive correlated with cellularity,microvessel density and proliferation index,which indicate the higher APT rate the higher grade tumor.
ABSTRACT
<p><b>OBJECTIVE</b>To define the optimal development time of micro-computed tomography (micro-CT) venography in cervical cancer patients and establish 3D CT-based digital pelvic model of the patients.</p><p><b>METHODS</b>Thirty patients with cervical cancer stratified by FIGO surgical staging underwent micro-CT scanning of the arterial phase and the venous phase with a delay time of 70, 90 and 120 s. The images were interpreted independently by two experienced radiologists to define the optimal development time in venous phase and establish the imaging diagnosis. Based on the pelvic CT scan data, we segmented the images using the abdominal medical image-3D visualization system followed by 3D image reconstruction to establish the 3D digital pelvic model using FreeForm Modeling System to modify the reconstructed images.</p><p><b>RESULTS</b>The optimal images were obtained by scanning with a 90-sec delay time. Micro-CT was not sensitive to IB1 phase or earlier phases (1/5), but efficient in advanced stages (≥IB2 phase). In our cases, 25 were diagnosed by micro-CT with a diagnostic accuracy of 64%. Based on these CT data, the pelvic 3D model covering the main organs, vessels, cervical neoplasm, and supplying vessels of the tumor in the pelvic cavity were successfully reconstructed to allow spatial observations of the uterus and the neighboring organs.</p><p><b>CONCLUSION</b>The 3D digital pelvic model reconstructed provides a means for staging cervical cancer and facilitates further surgical simulation studies.</p>