2.The application of IVIM-DWI in evaluating the efficacy and prognosis of TACE using different embolization materials for hepatocellular carcinoma
Qinglong GUAN ; Haibo CHNE ; Chenglong LIU ; Gengfei CAO ; Haixiao ZHANG ; Chuanbao CUI
Journal of Interventional Radiology 2024;33(2):140-145
Objective To discuss the clinical application of intravoxel incoherent motion-diffusion weighted imaging(IVIM-DWI)in evaluating the efficacy and prognosis of transcatheter arterial chemoembolization(TACE)using different embolization materials for the treatment of hepatocellular carcinoma(HCC).Methods The clinical data of a total of 84 patients with inoperable HCC,who received TACE treatment at the Second Affiliated Hospital of Shandong First Medical University of China and the First Affiliated Hospital of Xinjiang Medical University of China between June 30,2019 and December 30,2022,were collected.According to the patient's condition,different embolization materials were used during TACE.IVIM-DWI check-up was performed before treatment as well as at one,6,12 months after treatment.Based on the fixed b-value set by IVIM-DWI sequence,the ADC value of the order index model for different embolization materials and the pure diffusion coefficient of double exponential model(D value),the pseudo-diffusion coefficient(D*value)and perfusion fraction(f value)were analyzed.According to modified Response Evaluation Criteria in Solid Tumors(mRECIST)and the embolization material used,the patients were divided into the stable group and progression group,and the changes in the ADC value,D value,D*value and f value were compared between the two groups.Multivariate Cox regression analysis was used to analyze the four clinical parameters(including age,Child-Pugh grade,AFP level and tumor size)and the eight functional quantitative indexes(including preoperative and postoperative ADC value,D value,D* value and f value)so as to determine the IVIM parameters with prognostic predictive value.Receiver operating characteristic(ROC)was adopted to analyze the diagnostic value and cut-off value of IVIM parameters with predictive value.Results After treatment,the ADC value of drug-loaded microspheres group(n=36)was significantly higher than that of iodized oil group(n=27),the D*value of drug-loaded microspheres group and iodized oil group was remarkably lower than that of PVA particle group(n=21),and the f value of drug-loaded microspheres group was strikingly lower than that of iodized oil group,the differences were statistically significant(all P<0.01).In the stable group,the efficacy of drug loaded microspheres group was obviously better than that of the iodized oil group and the PVA particle group.In the progression group,the iodized oil group was more likely to develop disease progression than the drug-loaded microspheres group and the PVA particle group.The preoperative f value in the stable group was prominently higher than that in the progression group(P=0.005),and the postoperative ADC value in the stable group was obviously higher than that in the progression group(P=0.029).ROC analysis showed that the median follow-up time in the drug-loaded microspheres group,iodized oil group,and PVA particle group was 30,19,and 26 months respectively,the overall average survival time was 25 months,and the difference was statistically significant(P<0.01).Multivariate Cox regression analysis showed that the preoperative D value(AUC=0.878),D*value(AUC=0.554)and postoperative D value(AUC=0.791),D*value(AUC=0.552),f value(AUC=0.467)were the independent factors affecting the short-term efficacy of TACE(all P<0.05).The preoperative and postoperative D value had higher diagnostic efficacy,while a preoperative D value of<0.505×10-3 mm2/s and a postoperative D value of<0.785×10-3 mm2/s predicted a poor prognosis.Conclusion The preoperative and postoperative D value is the optimal parameter for predicting the curative efficacy of TACE using different embolization materials for the treatment of HCC.
3.Research on the current situation of resources allocation and service supply of China′s tertiary cancer hospitals
Henglei DONG ; Guoxin HUANG ; Shen ZHANG ; Yan HU ; Jingang CAO ; Gongming DONG ; Haixiao REN ; Zhaoyi JI
Chinese Journal of Hospital Administration 2020;36(8):629-633
Objective:To comprehensively analyze the medical resources and services supply in the cancer field of China.Methods:Data of 2018 were sampled from 41 tertiary public cancer hospitals in China, and the factor analysis method was used to extract common factors in resources or services, scoring respectively. Pearson correlation analysis was used in the collinearity test of the variables of both groups of common factors, while the second-order clustering method was used to analyze characteristic differences between the hospitals, and category difference was compared with t test. Results:Resource evaluation covered the two dimensions of basic resources(medical service and basic assurance resources)and high-end resources(high-end talents and academic resources). Service evaluation covered the two dimensions of medical service assurance(clinical services and basic assurance)and disciplinary sphere of influence(discipline construction and clinical efficiency). The factor of basic manpower and beds was significantly correlated with that of medical service and basic assurance( r=0.811, P<0.001), while the factor of high-end talents and academic resources was significantly correlated with that disciplinary construction and resource efficiency( r=0.906, P<0.001). The second-order cluster analysis found the 41 cancer hospitals as two categories, with the first category of five in Guangdong, Shanghai, Beijing and Tianjin, and the second category of the rest 36 hospitals. Significant differences were found between the two categories in terms of resource scoring, service scoring, high-end resources and disciplinary sphere of influence( P<0.001). Meanwhile, the GDP per capita of the cities in which these hospitals are located also had significant differences( P<0.001). Conclusions:Development of public tertiary cancer hospitals in China was imbalanced, as their differences were mainly found in levels of disciplinary development and efficiency of clinical services, which were closely related to the high-end talents and academic resources of the hospital in question.Furthermore, high quality medical care was mostly located in regions of higher development. The authors recommend to take a balanced consideration of the differences and distribution of cancer care services in China, in terms of performance classification of public hospitals and establishment of regional cancer centers of the country.