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Objective:To detect the abnormal changes of myocardial blood perfusion in patients with hypertrophic cardiomyopathy (HCM) by myocardial contrast echocardiography(MCE) combined with exercise stress test.Methods:Twenty-seven patients with clinically diagnozed of asymmetric HCM in Fuwai Central China Cardiovascular Hospital from May 2020 to April 2021 were selected as the HCM group, and 29 healthy subjects during the same period were selected as the control group. All patients underwent routine echocardiography, resting and exercise stress MCE. The myocardial perfusion parameters of each segment of interventricular septum in the 2 groups were quantitatively analyzed: the peak plateau intensity (A value), ascending slope of the curve(β value) and value of A×β. According to the end-diastolic myocardial thickness, the interventricular septum of the HCM group was divided into hypertrophic and non-hypertrophic segments, and the myocardial contrast parameters of the interventricular septum of the study group were compared with those of the control group. The myocardial blood flow reserve value of the two groups were calculated, and the correlation of myocardial blood flow reserve value with left ventricular mass index (LVMI) and left ventricular remodeling index (LVRI) were analyzed.Results:No matter at rest or under stress, the A value, β value and A×β value of ventricular septal hypertrophic and non-hypertrophic segments in the hypertrophic cardiomyopathy group were lower than those in the control group, and the differences were statistically significant (all P<0.05). Under stress, the A value, β value and A×β value of interventricular septal hypertrophic segments were lower than those in non-hypertrophic segments in the HCM group, and the differences were statistically significant (all P<0.05). The myocardial blood flow reserve in the HCM group was negatively correlated with LVMI and LVRI( r=-0.899, -0.676; all P<0.001). Conclusions:In patients with HCM under resting and exercise stress, microcirculation disorders were found in both hypertrophic and non-hypertrophic segments of the ventricular wall, and the myocardial blood flow reserve was negatively correlated with LVMI and LVRI.
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Objective:To investigate the effect of Jiaomu Gualou Decoction combined with bisoprolol on myocardial microcirculation and oxidative/antioxidant balance in patients with heart failure.Methods:A total of 128 patients with heart failure who met the inclusion criteria from March 2020 to February 2021 in Dagang Hospital of Traditional Chinese Medicine, Binhai New Area, Tianjin were divided into 2 groups by random number table method, with 64 in each group. On the basis of conventional treatment, the control group was given oral bisoprolol, and the study group was given Jiaomu Gualou Decoction and oral bisoprolol. Both groups were treated continuously for 4 weeks. TCM syndrome scores were performed before and after treatment. The left ventricular ejection fraction (LVEF), left ventricular end-systolic diameter (LVESD), and left ventricular end-diastolic diameter (LVEDD) were detected by ultrasonic diagnostic equipment, and the frequency, duration and total myocardial ischemia load of the 24-hour ECG were recorded. Lipid peroxide (LPO) was detected by fluorescence method, SOD, MDA and GSH-Px were detected by colorimetric method. The adverse events were recorded and clinical response was evaluated.Results:The response rate was 93.75% (60/64) in the study group and 79.69% (51/64) in the control group, and the difference between the two groups was statistically significant ( χ2=5.49, P=0.019). After treatment, the scores of shortness of breath, phlegm, sternocostal fullness, and fatigue in the study group were significantly lower than those in the control group ( t values were 8.48, 8.15, 8.86, and 6.88, respectively, all Ps<0.001). After treatment, the LVEF of the study group [(53.26±5.18)% vs. (48.65±5.27)%, t=4.99] was significantly higher than that of the control group, and the LVESD [(42.59±3.26) mm vs. (46.98±3.55) mm, t=7.29], LVEDD [(52.79±4.15) mm vs. (57.48±4.60) mm, t=6.06] significantly lower than the control group ( P<0.01). After treatment, frequency of ST segment fall [(2.51±0.42) times/24 h vs. (3.79±0.55) times/24 h, t=14.80], duration [(15.26±3.45) min/24 h vs. (22.65±3.71) min/24 h, t=11.67] and total myocardial ischemia load [(25.79±5.13) mm/min vs. (38.02±5.44) mm/min, t=13.09] were significantly lower than those in the control group ( P<0.01). After treatment, the levels of serum GSH-Px and SOD in the study group were significantly higher than those in the control group ( t values were 10.97, 14.37, respectively, all Ps<0.001), while the levels of LPO and MDA were significantly lower than those in the control group ( t values were 7.50, 11.04, respectively, all Ps<0.001). During the treatment period, the incidence of adverse events was 4.69% (3/64) in the study group and 7.81% (5/64) in the control group, with no significant difference between the two groups ( χ2=0.13, P=0.715). Conclusion:The Jiaomu Gualou Decoction combined with bisoprolol can improve the cardiac function and myocardial microcirculation in patients with heart failure, promote the body's oxidation/antioxidant balance, relieve the clinical symptoms of patients, and improve the response effect safely.
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Objective:To quantitatively evaluate myocardial microcirculation perfusion changes after percutaneous intracardiac septal radiofrequency ablation (PIMSRA, Liwen procedure) in patients with obstructive hypertrophic cardiomyopathy (HOCM) using myocardial contrast echocardiography (MCE) and to further establish the effect of the procedure and predict the long-term prognosis of patients.Methods:A total of 45 patients with HOCM treated by the Liwen procedure in the First Affiliated Hospital of Air Force Medical University (Xijing Hospital) from July 2019 to June 2020 were included. MCE was performed before and 6 months after surgery, respectively. Time-intensity perfusion curve analysis was performed using QLab 10.8 offline software to obtain quantitative parameters of myocardial microcirculation perfusion including myocardial blood volume (A value), myocardial blood flow velocity (β value), and myocardial blood flow (A×β value), then the changes in parameters before and after the procedure were compared.Results:After the Liwen procedure, the mean septal thickness and mean left ventricular free wall thickness were significantly reduced, accompanied by a significant reduction in the left ventricular outflow tract pressure gradient (LVOT-PG) and mitral regurgitation length, and a significant improvement in mitral systolic antegrade motion (SAM) (all P<0.001). In addition, the left ventricular ejection fraction (LVEF) did not deteriorate significantly ( P=0.560) and the E/e′ ratio decreased after the procedure ( P=0.015). Besides, the A values of both the ventricular septum and the left ventricular free wall were not significantly changed compared to those before procedure ( P>0.05), whereas the β values and A×β values were obviously increased ( P<0.05). Conclusions:Myocardial blood velocity and myocardial blood flow in the septum and left ventricular free wall were significantly increased in patients with HOCM after the Liwen procedure, suggesting a significant improvement in myocardial microcirculation perfusion. MCE provides a non-invasive quantitative evaluation parameters of myocardial microcirculation perfusion for the Liwen procedure for the treatment of HOCM.
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Objective To discuss the clinical value of real-time myocardial contrast echocardiography ( RT-MCE) on quantitative assessing myocardial perfusion in patients with coronary slow flow ( CSF ) . Methods CSF group contained 14 patients with CSF and 15 cases with normal coronary angiography ( CAG) were involved as control group . The 2D echocardiography and RT-MCE images from standard 3 apical views ( 4-chamber ,2-chamber ,and long-axis) were acquired . All images were digitally stored on hard disks for offline analysis by QLab software . The RT-MCE parameters included myocardial blood volume ( A) , myocardial blood veloity ( β) ,myocardial blood flow ( MBF) were used to predict the impairment of myocardial perfusion in the two groups . Results In CSF group ,the value of β and MBF in abnormal segments were significantly lower than those in normal segments ( P < 0 .001) . There was no significant difference of A between the abnormal segments and the normal segments in CSF group ( P > 0 .05 ) . Compared to the control group ,the value of β and MBF were significantly lower in abnormal segments of CSF group( P < 0 .001) . Comparing the normal segments of two groups ,there was no significant difference in the values of A ,β and MBF ( P > 0 .05) . ROC curve analysis showed the AUC of β was the biggest ( AUC = 0 .867 , P < 0 .001 ) , and when the cut-off value was 1 .34 , the impairment of myocardial microcirculation was best predicted ( sensitivity ,79 .6% ;specificity ,77 .4% ) . Conclusions The myocardial perfusion in patients with CSF can be appraised by RT-MCE quantitatively . The value of β can identify the early impairment of myocardial microcirculation perfusion in patients with CSF and has the promising prospect of clinical diagnosis .
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Objective: To test the feasibility of drag-reducing polymers (DRP) for improving coronary microcirculation in a canine model in order to provide the experimental basis for treating myocardial microcirculation dysfunction. Methods: A total of 8 dogs received open-chest surgery and they had intravenous injections, in turn, with adenosine (ADN), DRP 250 mg/L and DRP+ADN. The function y=A × (1-e-βt) was used to calculate the myocardium capillary volume (A value), capillary velocity (β value) and myocardial blood lfow (A ? β value) by myocardial contrast echocardiography. Results: With DRP infusion, the A value in experimental canine was similar to the baseline condition,P>0.05; while theβ value and A ? β value were signiifcantly increased as (0.57 ± 0.10) 1/s vs (0.23 ± 0.03) 1/s,P0.05. Conclusion: DRP improved coronary microcirculation primarily by modulating the β value in experimental canine model, and hopefully, this unique hemodynamics could provide a new approach for treating myocardial microcirculation dysfunction.