ObjectiveTo introduce the role of three dementional computed tomograph (3D-CT) for patients underwent transcatheter aortic valve implantation (TAVI) procedure in perioperative evaluation. MethodsFrom April 2014 to June 2015, we retrospectively analyzed clinical data of 28 patients with severe aortic stenosis underwent successful TAVI procedure using new second-generation device, who were enrolled in this study including 12 males and 16 females at mean age of 72.8±4.5 years. We used 3D-CT to get the perioperative relative evaluation, including valve morphology and calcification degree, annular diameter, aoronary ostium height, ascending aorta, aortic sinus diameter, left ventricular-aortic angle, optimal intraoperative angiogram projection angle. Based on the evaluation by 3D-CT image, the prosthesis size, balloon size, best intraoperative imaging projection angle and approach of apex were then chosen. ResultsAll patients with severe aortic stenosis underwent successful TAVI procedure with mean logistic Euro-SCORE I:26.2%±7.9%. CT image revealed that mean aortic annular diameter was 24.6±1.8 mm with mean valve prosthesis size 25.8±1.1 mm and pre-dilation balloon size 23.1±1.2 mm and 76.8% patients were of tricuspid aortic valve with severe calcification and 25% patients were of asymmetric calcification. Optimal intraoperative angiogram image was achieved in 92.9% patients with the help of preoperative CT image. There was a statistic difference in mean transvalvular gradient after valve implantation (54.1±15.3 mm Hg vs. 13.1±8.5 mm Hg, P<0.05). And there was no mortality or severe complication postoperatively. Conclusion3D-CT image palys an important role during perioperative evaluation of TAVI procedure and it can be helpful for Chinese doctors to operate TAVI successfully.
ObjectiveTo explore the utility of magnetic resonance-T1ρ-weighted imaging (T1ρWI) in the diagnosis of human primary hepatic carcinoma. MethodsNine patients were prospectively collected from West China Hospital of Sichuan University during January 2014 and June 2014, who had liver lesion that identified by the ultrasound or CT examination, and then were verified as primary hepatic carcinoma with pathological biopsy. A routine T2WI, pre-and post-contrast T1WI, pre-and post-contrast T1ρWI were performed on a 3.0 T clinical imager. The tumor-to-normal-tissue contrast was compared between pre-contrast T1ρWI/post-contrast T1ρWI and other sequences respectively, to investigate the value of T1ρWI in the diagnosis of human primary hepatic carcinoma. ResultsThe tumor-to-normal-tissue contrast of pre-and post-contrast T1WI were lower than that of pre-contrast T1ρWI (t=3.532, P=0.008; t=3.666, P=0.006), while there was no statistical difference between T2WI and pre-contrast T1ρWI (t=-1.448, P=0.186). And compared with post-contrast T1ρWI, post-contrast T1WI had lower tumor-to-normal-tissue contrast (t=3.468, P=0.008). ConclusionsT1ρWI can provide a better image of human primary hepatic carcinoma, thus T1ρWI is expected to become a new and useful method in MR scanning. It also shows potential value who can be used as an artery imaging that without using contrast agents.