Objective To evaluate the dynamic changes of left ventricular mechanical synchrony in the early period after acute myocardial infarction (AMI) by two-dimensional speckle tracking imaging (2D-STI) and real time three-dimensional echocardiography (RT-3DE),and analyze the correlation with phase analysis of single photo emission computed tomography gated myocardial perfusion imaging (SPECT GMPI) in porcine models,and further to investigate the clinical significance of left ventricular mechanical dyssynchrony in patients with AMI.Methods Bama minipigs(n =11) were subjected to left anterior descending (LAD) occlusion by balloon to introduce AMI porcine models.All animals underwent 2D-STI and RT-3DE at the baseline (before AMI),1 day,1 week and 4 weeks after LAD occlusion,respectively.In addition,SPECT GMPI was measured at baseline and 1 day after AMI.Data was analyzed and compared the dynamic changes of left ventricular mechanical synchrony before and after AMI.Then the correlation between echocardiography and SPECT GMPI in evaluating left ventricular mechanical synchrony before and after AMI were calculated.Results Eight pigs were successfully established as AMI models and complete the study.SPECT GMPI,2D-STI and RT-3DE showed that the left ventricular mechanical synchrony indexes were significantly higher at 1 day after AMI than those before AMI,which means the appearance of left ventricular mechanical dyssynchrony.Compared with those 1 day after AMI,GLS,Time SD,Tmsv16-SD％ and Tmsv16-Dif％ did not change significantly at 1 week after AMI,but they significantly increased at4 weeks after AMI (all P ＜0.05).At baseline and 1 day after AMI,the GLS measured by 2D-STI and the SPECT GMPI parameter phase bandwidth (BW) showed good correlation(r =0.708-0.719,P ＜0.05),Time SD was significantly correlated with the SPECT GMPI parameter phase standard deviation (SD)(r =0.717-0.830,P ＜0.05),while Tmsv16-Dif％ derived from RT-3DE had a better positive correlation with BW (r =0.713-0.857,P ＜0.05),as similar as Tmsv16-SD％ with SD(r =0.803-0.957,P ＜0.05).Conclusions Left ventricular mechanical dyssynchrony is present 1 day after AMI.Compared with that 1 day after AMI,left ventricular mechanical dyssynchrony doesn't change significantly at 1week after AMI,but further aggravates at 4 weeks after AMI.The parameters of 2D-STI and RT-3DE have good correlation with the mechanical synchrony parameters measured by SPECT GMPI.2D-STI and RT-3DE can be used as reliable methods to evaluate left ventricle mechanical dyssynchrony early after AMI.

Objective To assess left ventricular remodeling (LVRM) after acute myocardial in-farction (AMI) quantitatively by SPECT gated myocardial perfusion imaging (GMPI), and further explore its influencing factors. Methods Twelve Ba-Ma miniature swine were used to establish AMI model. GMPI was performed at the baseline (before AMI), 24 h, 1 and 4 weeks after AMI. Infarct expansion index, left ventricular end-diastolic volume (LVEDV), left ventricular end-systolic volume (LVESV), left ventricular ejection fraction ( LVEF) and myocardial perfusion defect were measured. Meanwhile, creatine kinase isozyme MB (CK-MB) and hypersensitive cardiac troponin I (hs-cTn I) were detected. The changes of LVEDV and LVESV before and after AMI (ΔLVEDV and ΔLVESV) were calculated. Repeated measurement analy-sis of variance, the least significant difference t test and Pearson correlation analysis were performed. Re?sults Nine AMI swine were successfully created. LVRM was present 24 h after AMI. LVEDV and LVESV were significantly greater than those before AMI and aggravated within 1 week after AMI, then were down-wards at 4 weeks after AMI. Before AMI, 24 h, 1 and 4 weeks after AMI, the LVEDV was (34.44±7. 90), (47.56±22.66), (71.89±14.90) and (70.33±19.47) ml (F = 28.836, P<0.001), and the LVESV was (10.11±5.49), (25.33±11.62), (40.89±15.88) and (35.44±17.11) ml (F = 22.450, P<0. 001). In-farct expansion index increased progressively within 4 weeks after AMI (F= 16.054, P<0.001). LVEF was significantly lower after AMI than that before AMI (F = 18.267, P<0.001) and improved at 4 weeks after AMI compared to that at 1 week ((52.56±14.96)％ vs (45.11±15.80)％; t= 2.440, P<0. 05). There was a significant correlation between the change in perfusion defect and the ΔLVEDV or ΔLVESV (r values:0. 731 and 0.700, both P<0.05) at 1 week after AMI. In addition, hs-cTn I at 24 h was correlated withΔLVEDV at 24 h and 4 weeks after AMI, respectively (r values: 0.669 and 0.693, both P<0.05). Conclu?sions LVRM and cardiac dysfunction occur in the early period after AMI. LVRM and cardiac dysfunction are most severe at 1 week after AMI, and recover at 4 weeks after AMI, whereas infarct expansion is aggra-vated within 4 weeks. Infarct size and hs-cTn I are closely related to the degree of LVRM.

Objective To explore the predictive value of preoperative alkaline phosphatase to prealbumin ratio (APR) in prognosis and postoperative complications for patients with hepatocellular carcinoma (HCC) after radical tumor resection. Methods A total of 217 HCC patients who underwent radical tumor resection in the Department of Hepatobiliary Surgery of the Affiliated Hospital of Southwest Medical University from January 2013 to August 2021 were retrospectively recruited and their clinical data were statistically analyzed. The X-tile software was used to obtain the optimal cutoff value of APR. The χ 2 test was conducted to analyze association between preoperative APR and other clinicopathological characteristics. The Kaplan-Meier curve was plotted and the Log-rank test was performed to analyze survival of patients. The univariate and multivariate Cox proportional hazards regression models were used to analysis factors affecting the prognosis of HCC patients. The univariate analysis and multivariate Logistic regression were used to identify factors related with postoperative complications. The receiver operating characteristic (ROC) curve was used to determine the predicting value of APR. Results The optimal cutoff value for APR ratio was 0.5 and these 217 patients were divided into the low- and high APR groups (111 vs 106 cases) accordingly. Compared with the low-APR group, the proportion of patients with ALT (> 50 U/L), Alb (< 40 g/L), the CNLC of the III stage, open surgery, liver cirrhosis, multiple tumor lesions, postoperative complication, and major complication were significantly increased in the high-APR patients (all P < 0.05). Moreover, the 1-, 3-, and 5-year OS were 86.0%, 74.9%, and 71.3%, respectively in the low-APR patients, while the numbers were 79.2%, 57.5%, and 47.0%, respectively, in the high-APR patients, indicating that patients in high-APR group had significantly worse OS ( P =0.002). AFP ( HR =1.774, 95% CI : 1.107-2.843, P =0.017), CNLC stage ( HR =2.708, 95% CI : 1.514-4.844, P =0.001), tumor size ( HR =1.696, 95% CI : 1.060-2.714, P =0.028), and APR ( HR =2.022, 95% CI : 1.244-3.285, P =0.004) were all independent risk predictors for OS. The 1-, 3-, and 5-year RFS were 82.3%, 69.4%, and 61.3%, respectively, in the low-APR patients, whereas the numbers were 76.2%, 54.4%, and 44.2%, respectively in the high-APR patients, suggesting that high-APR patients had significantly worse recurrence-free survival ( P =0.016). The CNLC stage ( HR =2.509, 95% CI : 1.423-4.422, P =0.001), tumor size ( HR =1.725, 95% CI : 1.119-2.660, P =0.014), and APR ( HR =1.619: 95% CI : 1.037-2.527, P =0.034) were all independent FRS predictors. Hypertension ( OR =3.09, 95% CI : 1.385-6.893, P =0.006), open surgery ( OR =4.198, 95% CI : 1.779-9.907, P =0.001), liver cirrhosis ( OR =2.376, 95% CI : 1.194-4.729, P =0.014), and APR ( OR =2.151, 95% CI : 1.160-3.986, P =0.015) were all independent risk predictors for the postoperative major complications. The AUC for APR, ALP, a nd PA in predicting the major complications was 0.625 (95% CI : 0.547-0.702), 0.613 (95% CI : 0.534-0.693), and 0.554 (0.474-0.634). Conclusion Preoperative APR could be used to predict prognosis and postoperative major complications of HCC patients after radical tumor resection.

Objective:To evaluate the left ventricular diastolic dyssynchrony (LVDD) and its influencing factors early after acute myocardial infarction (AMI) using phase analysis of SPECT gated myocardial perfusion imaging (GMPI).Methods:Bama miniature swines ( n=16) were subjected to establish AMI models. GMPI was performed before and 1 d after AMI to obtain the extent of myocardial perfusion defect (Extent, %) and left ventricular systolic dyssynchrony (LVSD)/LVDD parameters, namely the phase histogram bandwidth (PBW) and phase standard deviation (PSD). Meanwhile, left ventricular end-diastolic volume (LVEDV), left ventricular end-systolic volume (LVESV), left ventricular ejection fraction (LVEF), and the ratio of early to late peak mitral diastolic flow (E/A) were obtained by echocardiography. Independent-sample t test, paired t test and Pearson correlation analysis were used to analyze the data. Results:Sixteen AMI swines were successfully created. Compared to baseline, Extent, LVEDV and LVESV significantly increased on 1 d after AMI ( t values: -11.14, -4.55, -6.12, all P<0.001), while LVEF and E/A significantly decreased ( t values: 10.16, 2.18, P<0.001, P=0.046). GMPI showed that the LVDD parameters PBW and PSD increased significantly on 1 d after AMI when compared to those at baseline((142.25±72.06)° vs (33.06±8.98)°, (56.15±26.71)° vs (12.51±5.13)°; t values: -6.11, -6.60, both P<0.001). There were significant differences between LVSD parameters and LVDD parameters (PBW: (109.06±62.40)° vs (142.25±72.06)°, PSD: (44.40±25.61)° vs (56.15±26.71)°; t values: -2.73, -2.20, P values: 0.016, 0.044). LVDD parameters PBW, PSD were negatively correlated with E/A after AMI ( r values: -0.569, -0.566, P values: 0.021, 0.022), and positively correlated with the Extent ( r values: 0.717, 0.634, P values: 0.002, 0.008). The phase analysis of SPECT GMPI to evaluate LVDD showed good intra-observer and inter-observe reproducibility (intraclass correlation coefficient (ICC): 0.953-0.984, all P<0.001). Conclusions:LVDD occurs early on 1 d after AMI, and can reflect left ventricular diastolic dysfunction. The Extent is correlated with LVDD significantly. Phase analysis of SPECT GMPI is an accurate method to evaluate LVDD and left ventricular diastolic function.