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Background: In percutaneous coronary intervention (PCI) era, more clinically valuable risk factors are still needed to determine the occurrence of cardiac rupture (CR). Therefore, we aimed to provide evidence for the early identification of CR in ST-segment elevation myocardial infarction (STEMI).Methods: A total of 22,016 consecutive patients with STEMI admitted to Cangzhou Central Hospital and Tianjin Chest Hospital from January 2013 to July 2021 were retrospectively included, among which 195 patients with CR were included as CR group. From the rest 21,820 STEMI patients without CR, 390 patients at a ratio of 1:2 were included as the control group. A total of 66 patients accepted PCI in the CR group, and 132 patients who accepted PCI in the control group at a ratio of 1:2 were included. The status of first medical contact, laboratory examinations, and PCI characteristics were recorded. Multivariate logistic regression analysis was used to investigate the risk factors related to CR.Results: There was a higher proportion of patients with myocardial infarction (MI) in the high lateral wall in the CR group (23.6% vs. 8.2%, P<0.001). The proportion of single lesions was lower in the CR group
The present study investigated whether the protective effect and mechanism of astragaloside IV (AS-IV) on heart failure (HF) involves small ubiquitin-like modifier (SUMO)-specific protease 1 (Senp1). Mouse HF was established by aortic constriction, inducing pressure overload. The model was confirmed by echocardiography 6 weeks after surgery. Mice were randomly divided into control, HF, HF+AS-IV, and AS-IV groups. Ventricular function was examined by echocardiography. Morphological changes of myocardial tissues were examined by H&E staining. The protein levels of the apoptosis-related proteins, cleaved caspase-3, caspase-3, Bcl2, Bax, and SUMO-Senp1 were determined by Western blotting. H 2 O 2 in isolated mitochondria and cells was determined by Amplex Red. A reactive oxygen species (ROS) detection kit determined ROS levels in isolated mitochondria and HL-1 cells. JC-1 reagent measured mitochondrial membrane potential (ΔΨm). Apoptosis of HL-1 cells was examined by terminal deoxynucleotidyl transferase dUTP nick end labeling. Compared with the control group, the heart weight and heart mass/body weight ratio increased in the HF group (P<0.05). Furthermore, the ejection fraction and left ventricular shortening fraction decreased (P<0.05), while the left ventricular end-diastolic diameter (LVID;d) and end-systolic diameter (LVID;s) increased (P<0.05). Finally, mitochondrial ROS and H 2 O 2 increased (P<0.05), while the ΔΨm decreased (P<0.05). However, AS-IV improved the cardiac function of HF mice, decreased the level of ROS and H 2 O 2 in the myocardium, suppressed the decrease in ΔΨm, and decreased the apoptosis of myocardial cells (P<0.05). AS-IV also decreased the Senp1-overexpression. Furthermore, in HL-1 cells, Senp1-overexpression significantly inhibited the protective effects of AS-IV. AS-IV decreased oxidative stress in cardiomyocytes, decreased mitochondrial damage, inhibited ventricular remodeling, and ultimately improved cardiac function by inhibiting HF-induced Senp1-overexpression. This mechanism provides a novel theoretical basis and clinical treatment for HF.
BackgroundVitamin D (VD) deficiency and local inflammation of plaque are potential new risk factors and prevention goals for coronary heart disease (CHD).Material/MethodsThis study included 135 CHD patients and 45 chest tightness or chest pain patients (control group). Basic clinical data and serum 25-OH-VD, TNF-α, IL-6, IL-8, and IL-1β of the 2 groups were compared by SPSS 25.0. A CHD rat model was used to explore the potential molecular mechanisms.ResultsThe serum 25-OH-VD level in the control group was significantly higher compared to the CHD group, and decreased with the worsening of the CHD condition. Logistic regression found that serum 25-OH-VD was a protective factor in the occurrence of CHD. In CHD patients, the level of serum 25-OH-VD had a negative correlation with serum TNF-α (r=−0.651, P<0.001), IL-6 (r=−0.457, P<0.001), IL-8 (r=−0.755, P<0.001), and IL-1β (r=−0.628, P<0.001). In animal experiments, VD deficiency enhanced the level of serum TC, TG, and LDL-C. VD deficiency could increase the inflammatory response by upregulating the expression of p65 protein and reducing SIRT1 protein expression in heart tissue, thereby inducing or aggravating the state of CHD.ConclusionsSerum 25-OH-VD was a protective factor in the occurrence of CHD, and VD deficiency could induce or aggravate the state of CHD by enhancing inflammation through the NF-κB pathway.
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