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Objective@#To preliminary explore the feasibility of three-dimensional transesophageal echocardiography (3D-TEE) as images data source for 3D printing model by comparing the 3D-TEE with CT of the aortic root Digital Imaging and Communications in Medicine(DICOM) data into 3D printing models respectively.@*Methods@#Fifteen patients who underwent surgical aortic valve replacement in the hospital were enrolled, and the aortic root 3D-TEE and CT DICOM data were obtained in perioperative. The images were imported into Mimics software to generate digital model standard tessellation language file, and to print the aortic root models by 3D printer. The structural morphology of both 3D-TEE and CT models were qualitatively evaluated respectively. The aortic annular area, perimeter, maximal diameter and minimal diameter of the original data, digital model, model and aortic valve replacement were quantitatively evaluated, and the consistency of each parameter value were analyzed. The mean diameter of 3D-TEE and CT model were calculated. The correlation of mean diameter with the number of replacement was analyzed.@*Results@#①Both 3D-TEE and CT images data were successfully printed into 3D models, and the positive rate of aortic valve structure were 93.3% (14/15) and 80.0% (12/15) respectively. ②The measured values of the aortic annular 3D-TEE and digital model were smaller than CT, CTdigital model and replacement (P<0.05), and the measurement consistency among groups was high. ③The parameter values of 3D-TEE model were smaller than CT model (P<0.05), and the measured values were all within the consistency range. The mean diameters were highly correlated with the replacement values (r>0.95, P<0.05).@*Conclusions@#3D printing aortic root model based on 3D-TEE image data is of high feasibility.
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Objective To analyze the anatomical structure and distribution of the fused renal pyramid (FRP) in cadaveric kidney,and discuss its appearances by CT and ultrasonic examinations.Methods From June 2018 to September 2018,108 cadaveric kidneys were proceeded for regional anatomy.The distribution and anatomical manifestations of FRP was recorded.The renal pyramid was sliced and HE stained to explore the vascular distribution in FRP.From October 2018 to January 2019,ultrasound imaging data of 112 patients with 224 kidneys were collected,including 60 males and 52 females,age (39.0 ± 15.1),ranging from 16 to 73 years old.The renal imaging data of 89 patients and 178 patients with enhanced renal CT were collected,including 48 males and 41 females.Age (45.4 ± 13.6),ranging from 23 to 69 years old.The imaging findings of FRP in ultrasound and enhanced CT was summarized.Results In cadaver kidneys,the proportion of FRP in upper and lower calyces was 68.6% (74/108) and 64.8% (70/108),respectively,higher than that in middle calyces 34.3% (37/108).In the middle group,the incidence of mild fusion was 39.0% (16/41) and severe fusion was 48.8% (20/41).The incidence of fusion of two renal pyramidal structures was 90.2% (37/41).HE staining showed that the boundary between the artery in FRP and the surrounding renal pyramidal was unclear,and the protection of connective tissue was lacking.In Ultrasound,the FRP presented as a large trapezoidal hypo-echoic area with red and blue color signals in doppler mode.In ultrasound,the incidence of FRP was 18.8% (42/224).In enhanced CT,the FRP presented as enhanced cord-like high density shade in large low density area in cortex phase.In enhanced CT,the incidence of FRP 27.5% (49/178).Conclusions The FRP is a common structure in human kidney.The arteries localize within the FRP and are absence of sufficient connective tissue protection which are different from normal arteries.Ultrasound and enhanced CT have recognition ability for FRP.
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Objective To investigate the accuracy and repeatability of contrast-enhanced transthoracic echocardiography for measurements of right ventricular structure and function.Methods The apical four-chamber views and the three-dimensional full-volume images of the right heart were collected from 12 beagles with unenhanced and contrast-enhanced transthoracic echocardiography.The intimal display rate of the right ventricular segments,right ventricular end diastolic longitudinal dimension (RVLD),right ventricular end diastolic area (RVEDA),right ventricular end systolic area (RVESA) and right ventricular fractional area change (RVFAC) were evaluated respectively with two-dimensional unenhanced and contrast-enhanced echocardiography.Right ventricular three-dimensional full-volume images were processed and analyzed by TomTec software,and right ventricular end diastolic volume (RVEDV),right ventricular end systolic volume (RVESV) and right ventricular ej ection fraction (RVEF) were measured respectively with three-dimensional unenhanced and contrast-enhanced echocardiography. The measurements of pathological specimen were taken as the gold standard,the accuracies of measuring RVEDVand RVLD by different methods were evaluated.All indexes were measured repeatedly by the same observer and different observers to assess the intraobserver and interobserver reproducibilities of different methods.Results ①The intimal display rate of the right ventricular segments was higher with contrast-enhanced echocardiography than that with unenhanced echocardiography (P <0.05).②The measurements of RVEDV by three-dimensional contrast-enhanced echocardiography correlated well with the measurements by anatomical specimens.And the correlation was higher(0.916 vs 0.843),the consistency was better than that by unenhanced echocardiography.The measurements of RVLD by two-dimensional contrast-enhanced echocardiography correlated well with the measurements by anatomical specimens.And the correlation was higher (0.928 vs 0.850),the consistency was better than that by unenhanced echocardiography.③For inter-and intraobservers reproducibilities,the interclass correlation coefficients of RVLD,RVEDV,RVESV, RVEF,RVEDA,RVESA,RVFAC with contrast-enhanced echocardiography were higher and 95%confidence interval ranges were smaller than those with unenhanced echocardiography. Conclusions Contrast-enhanced transthoracic echocardiography can improve the accuracy and repeatability for measurements of right ventricular structure and function,providing a new evaluation method for patients with poor image quality of the right ventricle in clinical practice.
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Objective@#To investigate the accuracy and repeatability of contrast-enhanced transthoracic echocardiography for measurements of right ventricular structure and function.@*Methods@#The apical four-chamber views and the three-dimensional full-volume images of the right heart were collected from 12 beagles with unenhanced and contrast-enhanced transthoracic echocardiography. The intimal display rate of the right ventricular segments, right ventricular end diastolic longitudinal dimension (RVLD), right ventricular end diastolic area (RVEDA), right ventricular end systolic area (RVESA) and right ventricular fractional area change (RVFAC) were evaluated respectively with two-dimensional unenhanced and contrast-enhanced echocardiography. Right ventricular three-dimensional full-volume images were processed and analyzed by TomTec software, and right ventricular end diastolic volume (RVEDV), right ventricular end systolic volume (RVESV) and right ventricular ejection fraction (RVEF) were measured respectively with three-dimensional unenhanced and contrast-enhanced echocardiography. The measurements of pathological specimen were taken as the gold standard, the accuracies of measuring RVEDVand RVLD by different methods were evaluated. All indexes were measured repeatedly by the same observer and different observers to assess the intraobserver and interobserver reproducibilities of different methods.@*Results@#①The intimal display rate of the right ventricular segments was higher with contrast-enhanced echocardiography than that with unenhanced echocardiography (P<0.05). ②The measurements of RVEDV by three-dimensional contrast-enhanced echocardiography correlated well with the measurements by anatomical specimens. And the correlation was higher (0.916 vs 0.843), the consistency was better than that by unenhanced echocardiography. The measurements of RVLD by two-dimensional contrast-enhanced echocardiography correlated well with the measurements by anatomical specimens. And the correlation was higher (0.928 vs 0.850), the consistency was better than that by unenhanced echocardiography. ③For inter- and intraobservers reproducibilities, the interclass correlation coefficients of RVLD, RVEDV, RVESV, RVEF, RVEDA, RVESA, RVFAC with contrast-enhanced echocardiography were higher and 95% confidence interval ranges were smaller than those with unenhanced echocardiography.@*Conclusions@#Contrast-enhanced transthoracic echocardiography can improve the accuracy and repeatability for measurements of right ventricular structure and function, providing a new evaluation method for patients with poor image quality of the right ventricle in clinical practice.
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Objective@#To analyze the anatomical structure and distribution of the fused renal pyramid (FRP) in cadaveric kidney, and discuss its appearances by CT and ultrasonic examinations.@*Methods@#From June 2018 to September 2018, 108 cadaveric kidneys were proceeded for regional anatomy. The distribution and anatomical manifestations of FRP was recorded. The renal pyramid was sliced and HE stained to explore the vascular distribution in FRP. From October 2018 to January 2019, ultrasound imaging data of 112 patients with 224 kidneys were collected, including 60 males and 52 females, age (39.0±15.1), ranging from 16 to 73 years old. The renal imaging data of 89 patients and 178 patients with enhanced renal CT were collected, including 48 males and 41 females. Age (45.4±13.6), ranging from 23 to 69 years old. The imaging findings of FRP in ultrasound and enhanced CT was summarized.@*Results@#In cadaver kidneys, the proportion of FRP in upper and lower calyces was 68.6% (74/108) and 64.8% (70/108), respectively, higher than that in middle calyces 34.3% (37/108). In the middle group, the incidence of mild fusion was 39.0% (16/41) and severe fusion was 48.8% (20/41). The incidence of fusion of two renal pyramidal structures was 90.2% (37/41). HE staining showed that the boundary between the artery in FRP and the surrounding renal pyramidal was unclear, and the protection of connective tissue was lacking. In Ultrasound, the FRP presented as a large trapezoidal hypo-echoic area with red and blue color signals in doppler mode. In ultrasound, the incidence of FRP was 18.8% (42/224). In enhanced CT, the FRP presented as enhanced cord-like high density shade in large low density area in cortex phase. In enhanced CT, the incidence of FRP 27.5%(49/178).@*Conclusions@#The FRP is a common structure in human kidney. The arteries localize within the FRP and are absence of sufficient connective tissue protection which are different from normal arteries. Ultrasound and enhanced CT have recognition ability for FRP.
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Objective To preliminary explore the feasibility of three‐dimensional transesophageal echocardiography ( 3D‐T EE) as images data source for 3D printing model by comparing the 3D‐T EE with CT of the aortic root Digital Imaging and Communications in M edicine ( DICOM ) data into 3D printing models respectively . Methods Fifteen patients w ho underwent surgical aortic valve replacement in the hospital were enrolled ,and the aortic root 3D‐T EE and CT DICOM data were obtained in perioperative . T he images were imported into M imics software to generate digital model standard tessellation language file ,and to print the aortic root models by 3D printer . T he structural morphology of both 3D‐T EE and CT models were qualitatively evaluated respectively . T he aortic annular area ,perimeter ,maximal diameter and minimal diameter of the original data , digital model , model and aortic valve replacement were quantitatively evaluated ,and the consistency of each parameter value were analyzed . T he mean diameter of 3D‐T EE and CT model were calculated . T he correlation of mean diameter with the number of replacement was analyzed . Results ①Both 3D‐TEE and CT images data were successfully printed into 3D models ,and the positive rate of aortic valve structure were 93 .3% ( 14/15) and 80 .0% ( 12/15) respectively . ②T he measured values of the aortic annular 3D‐T EE and digital model were smaller than CT ,CTdigital model and replacement ( P<0 .05) ,and the measurement consistency among groups was high . ③ T he parameter values of 3D‐T EE model were smaller than CT model ( P <0 .05 ) ,and the measured values were all within the consistency range . T he mean diameters were highly correlated with the replacement values ( r > 0 .95 , P < 0 .05 ) . Conclusions 3D printing aortic root model based on 3D‐TEE image data is of high feasibility .