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Ferroptosis is a new type of programmed cell death, characterized by iron overload and lipid peroxidation. Cardiovascular disease (CVD) is an ischemic or hemorrhagic disease of the heart caused by various factors, mainly including myocardial infarction, heart failure, etc. Ferroptosis is involved in the process of myocardial cell damage and plays a driving role in the progression of various CVDs. Its main mechanisms include the destruction of iron homeostasis, the production of reactive oxygen species, the disorder of the antioxidant system, mitochondrial membrane damage, endoplasmic reticulum stress, tumor suppressor gene p53, transcription factor Nrf2 pathway, etc. Myocardial injury is one of the causes of death in many patients with heart disease. Monomers or compounds of traditional Chinese medicine have shown good effects in the treatment of myocardial cell injury caused by ferroptosis, including baicalin protecting cardiac microvascular endothelial cells of myocardial ischemia-reperfusion (I/R) rats through intracellular phosphatidylinositol kinase/phosphokinase B/endothelial nitric oxide synthase (PI3K/Akt/eNOS) pathway, Aralia elata saponin inhibiting myocardial cell ferroptosis through glucocorticoid receptor/p53/solute carrier family 7 members 11 (NR3C1/p53/SLC7A11) pathway, Xinyang tablets improving oxidative stress by regulating phosphorylated serine/threonine protein kinase/stress-activated protein kinase/p53 (MLK3/JNK/p53) signaling pathway. It is of great significance to explore the mechanism of ferroptosis and the protective effect of related traditional Chinese medicine after myocardial cell injury. This article reviews the mechanism of ferroptosis and its relationship with myocardial cells, as well as traditional Chinese medicine monomers and formulas for treating CVDs through the ferroptosis pathway. The article focuses on the pathways and effects of traditional Chinese medicine treatment, so as to provide a reference for the treatment of CVDs with traditional Chinese medicine.
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Introducción: La enfermedad por coronavirus ha causado daño miocárdico, razón que ha impactado en las ciencias médicas por lo que ha sido motivo de investigación. Objetivo: Mostrar a través de resultados de recientes investigaciones, los mecanismos mediante los cuales el virus SARS-CoV-2 produce daño miocárdico en los pacientes afectados por la COVID-19, y su influencia en el pronóstico a corto y largo plazo. Métodos: Se realizó una búsqueda bibliográfica de la literatura médica actualizada sobre el tema publicada en idioma inglés y español, indexado en varias bases de datos en el período comprendido de mayo de 2019 a mayo de 2022. De un total de 198 artículos en la revisión, cumplieron con los criterios de selección 78 artículos. Se excluyeron los que no contenían información precisa en cuanto al daño miocárdico provocado por el SARS-CoV-2. Resultados: Se han descrito varios mecanismos que pueden ser los desencadenantes entre los que se destacan: daño directo por angiotensina II, lesión inducida por hipoxia, daño microvascular miocárdico y síndrome de respuesta inflamatoria sistémica. Conclusiones: Los diferentes mecanismos por los cuales el virus SARS-CoV-2 produce daño miocárdico, hacen que los pacientes con la COVID-19 tengan más probabilidades de sufrir una lesión miocárdica. Las manifestaciones clínicas en pacientes con la COVID-19 como miocarditis, insuficiencia cardíaca, arritmias cardíacas, síndrome coronario agudo y derrame pericárdico, son más comunes en pacientes con antecedentes de enfermedad cardiovascular que desfavorecen su pronóstico(AU)
Introduction: Coronavirus disease has caused myocardial damage. This reality has impacted medical sciences and it has been the subject of research. Objective: To show, through the results of recent research, the mechanisms by which the SARS-CoV-2 virus produces myocardial damage in patients affected by COVID-19, and its influence on short- and long-term prognosis. Methods: A bibliographic search was carried out of the updated medical literature on the topic published in English and Spanish, indexed in several databases from May 2019 to May 2022. One hundred ninety-eight articles were included in the review, only 78 met the selection criteria. Those that did not contain precise information regarding myocardial damage caused by SARS-CoV-2 were excluded. Results: Several mechanisms have been described as probable triggers, standing out direct damage by angiotensin II, hypoxia-induced injury, myocardial microvascular damage and systemic inflammatory response syndrome. Conclusions: The different mechanisms by which SARS-CoV-2 virus produces myocardial damage make COVID-19 patients more likely to suffer myocardial injury. Clinical manifestations in COVID-19 patients such as myocarditis, heart failure, cardiac arrhythmias, acute coronary syndrome and pericardial effusion are more common in patients with history of cardiovascular disease, which do not favors their prognosis(AU)
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Humans , Male , Female , Myocardial Reperfusion Injury , Coronavirus Infections/epidemiology , COVID-19/epidemiologyABSTRACT
Objective:To study the role of myocardial work parameters in early identification of myocardial injury in neonatal asphyxia.Methods:From July 2020 to December 2021, neonates diagnosed with mild neonatal asphyxia admitted to the Department of Neonatology of our hospital within 24 h after birth were prospectively enrolled into the asphyxia group. Neonates without asphyxia during the same period were selected as the control group and matched with the asphyxia group for gender, gestational age and birth weight at a ratio of 1:1~1:2. The asphyxia group was subgrouped into preterm asphyxia group and term asphyxia group. All neonates received echocardiography within 24 h after birth. Multiple parameters were measured including M-mode, two-dimensional image, Doppler image, global longitudinal strain (GLS) and myocardial work parameters [global work index (GWI), global constructive work (GCW), global wasted work (GWW), global work efficiency (GWE)]. The level of serum N-terminal pro brain natriuretic peptide (NT-proBNP) was recorded in the asphyxia group. The data were compared between the asphyxia group and the control group. Correlations between myocardial work parameters and other parameters were analyzed.Results:A total of 33 cases were in the asphyxia group and 43 cases were in the control group. The preterm asphyxia group (18 cases) showed significantly lower GWI and GCW than the preterm control group (18 cases) [GWI: (702±153) mmHg vs. (879±205) mmHg, GCW: (1 016±221) mmHg vs. (1 200±271) mmHg] ( P<0.05). No differences existed in GLS, GWW and GWE. The term asphyxia group (15 cases) showed significantly lower GWW than the term control group (25 cases) [45.0 (30.0, 65.0) mmHg vs. 71.0 (35.5,85.5) mmHg] ( P<0.05). No differences existed in GLS, GWI, GCW and GWE. GWI was negatively correlated with serum NT-proBNP level ( r=-0.327, P<0.05). Conclusions:GWI and GCW may indicate myocardial injury in preterm neonates with mild asphyxia.
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Objective:To investigate changes in arterial acid-base and electrolytes after repeated episodes of ventricular fibrillation (VF) and defibrillation in a swine model.Methods:Sixteen Peking white swine, weighting (32±2.5) kg, were placed with temporary pacemaker electrodes via the left femoral vein into the right ventricle after anesthesia. Then VF was electrically induced by using a programmed electrical stimulation instrument. An arterial cannula was inserted into the left femoral artery to measure mean arterial blood pressure and cardiac output using a PiCCO monitor, with blood samples collected. The pigs were randomly divided into two group: the manual defibrillation group (MD, n=8) and the automated external defibrillation group (AED, n=8). The first defibrillation was attempted with the manufacturer’s dose (150 J) for 15 s after the successful induction of VF in the MD group. If spontaneous circulation was not recovered, 2-min chest compression and subsequent defibrillation (200 J) were attempted. For the AED group, the defibrillation was delivered following voice prompts of the AED. After the return of spontaneous circulation, the pig was allowed to stabilize for 30 min, followed by the induction of the next episode of VF. The above process was repeated five times. Arterial blood gas, cardiac biomarkers, and hemodynamic variables were measured at 30 min after the return of spontaneous circulation. Results:All pigs were successfully induced VF five times and defibrillated successfully. There were no significant changes in heart rate and mean arterial blood pressure between the two groups after repeated episodes of VF and defibrillation. Compared with baseline measurements, cardiac output tended to decrease after repeated episodes of VF and defibrillation but was not statistically significant (all P>0.05). There were no significant differences in arterial pH, HCO 3-, sodium, and lactic acid in the two groups between each measurement time point and baseline values after repeated VF (all P>0.05), but potassium levels in the two groups decreased with time, and the difference was statistically significant compared with the baseline measurement (all P<0.05). There were no significant differences in myoglobin, creatine kinase isoenzyme-MB, and cardiac troponin I for the two groups compared with baseline values after repeated episodes of VF and defibrillation or various episodes of VF between the two groups (all P > 0.05). Conclusions:Repeated episodes of VF and defibrillation have no significant effect on pH balance, but significantly decrease blood potassium. Clinical approaches (MD vs. AED) do not affect defibrillation effect, with no significant differences in hemodynamic variables and myocardial injuries.
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Objective: To investigate the protective effect and its possible mechanism of A-kinase anchored protein 1 (AKAP1) on the myocardial injury induced by highland hypobaric hypoxia. Methods: From January 2021 to May 2022, male C57BL/6 SPF grade mice were divided into wild type control (WT) group and highland hypobaric hypoxia (HH) group with 6 mice in each group. HH group simulated 6000 m altitude with low pressure oxygen chamber for 4 weeks to build the model. Primary myocardial cells of SD rats were divided into normoxia control group and hypoxia experimental group (n=3). Cell models were constructed in a three-gas hypoxia incubator with 1% oxygen concentration for 24 h. AKAP1 protein and mRNA expression in myocardial tissue and cells were detected by western blotting, immunohistochemistry and quantitative real-time polymerase chain reaction (qPCR). After myocardial point injection of the AKAP1 or the control adenovirus, the mice were divided into 3 groups (n=6) : WT group, highland hypobaric hypoxia overexpression control group (HH+Ad-Ctrl group) and highland hypobaric hypoxia overexpression experimental group (HH+Ad-AKAP1 group). The cardiac function of mice was detected by noninvasive M-type ultrasonic cardiomotive, myocardial fibrosis was detected by Masson and Sirius Red staining, and cardiomyocyte hypertrophy was detected by wheat germ agglutinin. After the expression of AKAP1 in primary cardiomyocytes was downregulated by siRNA and upregulated by adenovirus, the cells were divided into three groups (n=3) : normoxia control group, hypoxia interference control group (hypoxia+siCtrl group), hypoxia AKAP1 knockdown group (hypoxia+siAKAP1 group) ; normoxia control group, hypoxia overexpression control group (hypoxia+Ad-Ctrl group), hypoxia AKAP1 overexpression group (hypoxia+Ad-AKAP1 group). Apoptosis was detected by flow cytometry, AKAP1, apoptosis-related protein and mRNA expression levels were detected by western blotting and qPCR, mitochondrial membrane potential was detected by JC-1 staining, and mitochondrial reactive oxygen specie (ROS) level was detected by MitoSOX. Results: The expression of AKAP1 in cardiac muscle of HH group was lower than that in the WT group, and the expression of AKAP1 in hypoxia experimental group was lower than that in normoxia control group (P<0.01). Compared with WT group, the left ventricular ejection fraction and fraction shortening of left ventricle in HH+Ad-Ctrl group were decreased (P<0.01), myocardial fibrosis and hypertrophy were aggravated (P<0.01), and the expression of B-cell lymphoma-2 (BCL-2) was decreased, the expressions of BCL-2-associated X protein (BAX), Caspase 3 and Caspase 9 were increased (P<0.01). After AKAP1 overexpression, compared with HH+Ad-Ctrl group, the left ventricular ejection fraction and left ventricular fraction shortening were increased in HH+Ad-AKAP1 group (P<0.01), myocardial fibrosis and hypertrophy were reduced (P<0.01), and the expression of BCL-2 was increased, the expressions of BAX, Caspase 3 and Caspase 9 were decreased (P<0.01). Compared with normoxia control group, the expression of BCL-2 in hypoxia+siCtrl group was decreased, the expressions of BAX, Caspase 3, Caspase 9 were increased, the apoptosis level was increased (P<0.01), the mitochondrial membrane potential was decreased and the production of ROS was increased (P<0.01). After AKAP1 knockdown, compared with hypoxia+siCtrl group, the expression of BCL-2 in hypoxia+siAKAP1 group was decreased, the expressions of BAX, Caspase 3, Caspase 9 were increased, the apoptosis level was increased (P<0.01), mitochondrial membrane potential was decreased, and the production of ROS was increased (P<0.01). After AKAP1 overexpression, compared with hypoxia+Ad-Ctrl group, the expression of BCL-2 in hypoxia+Ad-AKAP1 group was increased, the expressions of BAX, Caspase 3 and Caspase 9 were decreased (P<0.05), the apoptosis level was decreased (P<0.01), and the mitochondrial membrane potential was enhanced, and the production of ROS was decreased (P<0.01) . Conclusion: The downregulation of AKAP1 in cardiomyocytes under highland hypobaric hypoxia may lead to the decrease of mitochondrial membrane potential and the increase of ROS generation, leading to the apoptosis of cardiomyocytes, and thus aggravating the myocardial injury at highland hypobaric hypoxia.
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OBJECTIVES@#Hyperhomocysteinaemia (Hcy) is an independent risk factor for cardiovascular and cerebrovascular diseases. MicroRNA (miR)-18a-5p is closely related to cardiovascular diseases. This study aims to investigate the effects of miR-18a-5p on homocysteine (Hcy)-induced myocardial cells injury.@*METHODS@#H9c2 cells were transfected with miR-18a-5p mimic/miR-18a-5p mimic negative control (NC) or combined with Hcy for intervention, and untreated cells were set as a control group. The transfection efficiency was verified by real-time RT-PCR, and cell counting kit-8 (CCK-8) assay was used to determine cell viability. Flow cytometry was used to detect apoptosis and reactive oxygen species (ROS) levels. Western blotting was performed to measure the protein levels of microtubule-associated protein 1 light chain 3 (LC3)-I, LC3-II, Beclin1, p62, Bax, Bcl-2, and Notch2. Dual luciferase reporter assay was used to detect the interaction of miR-18a-5p with Notch2.@*RESULTS@#Compared with the control, treatment with Hcy or transfection with miR-18a-5p mimic alone, or combined treatment with Hcy and miR-18a-5p mimic/miR-18a-5p mimic NC significantly reduced the H9c2 cell viability, promoted apoptosis and ROS production, up-regulated the expressions of Bax and Beclin, down-regulated the expressions of Bcl-2, p62, and Notch2, and increased the ratio of LC3-II/LC3-I (all P<0.05). Compared with the combined intervention of miR-18a-5p mimic NC and Hcy group, the above indexes were more significantly changed in the combined intervention of miR-18a-5p mimic and Hcy group, and the difference between the 2 groups was statistically significant (all P<0.05). There is a targeted binding between Notch2 and miR-18a-5p.@*CONCLUSIONS@#MiR-18a-5p could induce autophagy and apoptosis via increasing ROS production in cardiomyocytes, and aggravate Hcy-induced myocardial injury. Notch2 is a target of miR-18a-5p.
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Rats , Animals , Apoptosis/genetics , Autophagy/genetics , bcl-2-Associated X Protein , MicroRNAs/metabolism , Proto-Oncogene Proteins c-bcl-2/genetics , Reactive Oxygen Species , Myocytes, Cardiac/drug effects , Homocysteine/adverse effects , HyperhomocysteinemiaABSTRACT
Cardiovascular disease, such as coronary heart disease and acute myocardial infarction, is a leading cause of death globally. Due to the limited proliferative and regenerative capacity of adult mammalian cardiomyocytes (CMs), any of the current therapies cannot reverse the massive loss of CMs and subsequent fibrosis resulting from cardiac injury. Mammals mainly rely on glycolysis in the embryonic stage and fatty acid oxidation after birth for energy production. Recent reports have indicated that this metabolic pattern switch is closely related to the loss of CM proliferation. In this review, we summarize the biological characteristics of CMs and advances in heart regeneration, meanwhile shed light on the important role of CMs energy metabolism in cardiac regeneration.
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Objective To analyze the epidemiological characteristics and risk factors of myocardial injury in diabetes patients with coronary heart disease in Qingdao, and to provide a theoretical basis for the prevention of myocardial injury in diabetes patients with coronary heart disease. Methods A total of 196 diabetes patients with coronary heart disease admitted to the Affiliated Hospital of Qingdao University from June 2019 to June 2020 were selected. The patients were divided into myocardial injury group (n=39) and non-myocardial injury group (n=157) according to whether myocardial injury occurred during hospitalization. Four ml of fasting elbow venous blood was collected from all subjects. The serum cTnT, BNP and CK-MB levels of the two groups were compared. The clinical data of the patients were collected from the medical record system, including gender, age, history of taking lipid-lowering drugs, BMI, diabetes mellitus, course of coronary heart disease and serum TG, FPG, PBG, HbAlc, HDL-C, LDL-C levels, etc. Univariate analysis and logistic regression analysis were used to analyze the influencing factors of myocardial injury in patients with diabetes mellitus complicated with coronary heart disease. Results Among of 196 diabetic patients with coronary heart disease, 39 cases (19.90%) had myocardial injury, including 21 males and 18 females. There was no difference in gender between the two groups (χ2=0.105, P>0.05). The age of patients in the myocardial injury group (64.78±5.67) was significantly higher than that in the control group (59.72±5.12) (t =5.016, P<0.05). The serum levels of cTnT, BNP and CK-MB in the myocardial injury group were significantly higher than those in the control group (P<0.05). There were significant differences in the course of coronary heart disease, serum Hcy, TG, FPG, PBG, HbAlc, TG and LDL-C between the two groups (P<0.05). Increased Hcy (OR=2.673), increased FBG (OR=3.681) and increased LDL-C (OR=2.912) were risk factors for myocardial injury in patients with diabetes mellitus complicated with coronary heart disease (P<0.05). Conclusion The risk of myocardial injury in patients with diabetes combined with coronary heart disease in Qingdao area is high, which is closely related to the increase of postprandial LDL-C, FBG and Hcy in patients. Active intervention should be given to reduce the risk of myocardial injury.
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Objective:To evaluate the role of NOD-like receptor 3 (NLRP3) inflammasome activation-mediated macrophage polarization in myocardial injury after ischemic stroke in diabetic mice.Methods:Wild-type C57BL/6J mice and NLRP3 -/- mice, aged 4-6 weeks, were fed a high fat diet combined with streptozotocin administration to develop the diabetic model. Twenty-four diabetic wild type C57BL/6J mice and 23 diabetic NLRP3 -/- mice were divided into wild type sham operation group (WT D-SHAM group, n=9) , wild type ischemic stroke group (WT D-MCAO group, n=15) , NLRP3 -/- sham operation group (NLRP3 -/-D-SHAM group, n=9) and NLRP3 -/- ischemic stroke group (NLRP3 -/-D-MCAO group, n=14). The ischemic stroke model was developed by middle cerebral artery occlusion in the animals anesthetized with isoflurane. Echocardiography and electrocardiography were carried out at 3, 7, 14 and 28 days after developing the model. Mice were sacrificed under deep anesthesia, and myocardial tissues were taken at 28 days after surgery for determination of the expression of macrophage marker F4/80 and M2 type macrophage marker CD206 mRNA (by real-time fluorescence quantitative polymerase chain reaction). Results:Compared with WT D-SHAM group, the cardiac output, mass of left ventricle and corrected mass of left ventricle were significantly decreased at 28 days after surgery, and QT interval and QTc interval were prolonged at 14 and 28 days after developing the model in WT D-MCAO group ( P<0.05). Compared with NLRP3 -/-D-SHAM group, the cardiac output, mass of left ventricle and corrected mass of left ventricle were significantly decreased, and QT interval and QTc interval were prolonged at 3 days after surgery in NLRP3 -/-D-MCAO group ( P<0.05). There was no significant difference in CD206 and F4/80 mRNA expression between WT D-SHAM group and WT D-MCAO group and between NLRP3 -/-D-SHAM group and NLRP3 -/-D-MCAO group ( P>0.05). Compared with WT D-MCAO group, the QT interval and QTC interval were significantly shortened at 14 and 28 days after developing the model, and the expression of F4/80 mRNA was down-regulated and the expression of CD206 mRNA was up-regulated at 28 days after developing the model in NLRP3 -/-D-MCAO group ( P<0.05). Conclusions:NLRP3 inflammasome activation-mediated polarization of macrophages to M2 phenotype is involved in myocardial injury after ischemic stroke in diabetic mice.
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Objective:To evaluate the effect of SR9009 on myocardial injury in endotoxemic mice.Methods:Eighteen SPF healthy male C57BL/6 mice, aged 5 weeks, weighing 21-24 g, were divided into 3 groups ( n=6 each) by the random number table method: control group (C group), endotoxemia group (lipopolysaccharide [LPS] group) and endotoxemia + SR9009 group (LPS+ SR group). SR9009 50 mg/kg was intraperitoneally injected at 4: 00 p. m. in LPS+ SR group. The endotoxemic model was prepared by intraperitoneal injection of LPS 15 mg/kg at 10 a. m. on the second day in mice. The left ventricular function was monitored by echocardiography at 9 h after LPS injection. Blood samples were collected from the heart cavity under direct visualization for determination of the serum creatine kinase isoenzymes (CK-MB), lactic dehydrogenase (LDH) and cardiac troponin I (cTnI) levels by enzyme-linked immunosorbent assay. Myocardial tissues were obtained and stained with HE for microscopic examination of the pathological changes (with a light microscope) and for determination of the expression of Beclin1, P62 and microtubule-associated protein 1 light cain 3 (LC3) (by Western blot), and the ratio of LC3Ⅱ to LC3Ⅰ was calculated. Results:Compared with group C, the ejection fraction and short-axis fractional shortening were significantly decreased, the left ventricular end-diastolic internal diameter and left ventricular end-systolic internal diameter were shortened, the left ventricular end-diastolic posterior wall thickness and left ventricular end-systolic posterior wall thickness were decreased, serum CK-MB, LDH and cTnI levels were increased, P62 expression in myocardial tissues was down-regulated, Beclin1 expression was up-regulated, LC3Ⅱ/LC3Ⅰ ratio was increased ( P<0.05), and the pathological changes were found in myocardial tissues in group LPS. Compared with group LPS, the ejection fraction and short-axis fractional shortening were significantly increased, the left ventricular end-systolic internal diameter was shortened, and the left ventricular end-diastolic posterior wall thickness was decreased ( P<0.05), no significant change was found the left ventricular end-diastolic internal diameter and left ventricular posterior end-systolic wall thickness ( P>0.05), the serum CK-MB, LDH and cTnI levels were decreased, and P62 expression in myocardial tissues was up-regulated, Beclin1 expression was down-regulated, LC3Ⅱ/LC3Ⅰ ratio was decreased ( P<0.05), and the pathological changes in myocardial tissues were significantly attenuated in LPS+ SR group. Conclusions:SR9009 can alleviate myocardial injury in endotoxemic mice, and the mechanism may be related to inhibition of autophagy.
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Objective:To evaluate the effect of intraoperative individualized systolic blood pressure (SBP) management on myocardial injury after hip replacement in elderly patients at high risks of hypertension.Methods:One hundred and eighty-two patients of either sex, aged 60-89 yr, with body mass index of 18-26 kg/m 2, with a history of hypertension requiring drug treatment and stratified high risk factors of cardiovascular risk factors, scheduled for elective hip replacement under general anesthesia, were divided into 2 groups ( n=91 each) using a random number table method: routine management group and individualized SBP management group. Individualized SBP management group maintained the intraoperative SBP at 90%-110% of the baseline value, and routine management group implemented blood pressure management according to the current routine clinical pathway.The intermedian cubital venous blood samples were collected before surgery and at 24, 48, and 72 h after surgery for determination of the serum concentrations of high sensitivity cardiac troponin T. Postoperative myocardial injury and myocardial infarction were also recorded. The 30-day all-cause mortality was recorded on day 30 after surgery. Results:The incidence of postoperative myocardial injury and serum concentrations of high sensitivity cardiac troponin T at 24, 48 and 72 h after surgery were significantly decreased, and the length of hospital stay was shortened in individualized SBP management group as compared with routine management group ( P<0.05). Conclusions:Intraoperative individualized SBP management can reduce the postoperative myocardial injury in elderly patients at high risk of hypertension undergoing hip replacement.
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Objective:To compare the myocardial protection in pediatric patients undergoing living-donor liver transplantation (LDLT) performed under propofol- versus desflurane-based anesthesia. Methods:Sixty American Society of Anesthesiologists Physical Status classification Ⅲ or Ⅳ pediatric patients of both sexes, aged 5-24 months, weighing 5-15 kg, scheduled for elective LDLT under general anesthesia, were divided into 2 groups ( n=30 each) using a random number table method: propofol group (group P) and desflurane anesthesia group (group D). During anesthesia maintenance, propofol 5-10 mg·kg -1·min -1 was intravenously infused in group P, desflurane 0.65 MAC-1.30 MAC was inhaled in group D. At 5 min after induction of anesthesia, at 1 h of reperfusion, at the end of surgery, at 1, 2, 3, 7 and 14 days after surgery, and on the day of discharge, the concentrations of serum high-sensitivity cardiac troponin I, creatine kinase isoenzyme, N-terminal pro-B-type natriuretic peptide were determined by enzyme-linked immunosorbent assay, the occurrence of nausea and vomiting, agitation, and shivering, postoperative tracheal extubation time, intensive care unit stay time, and postoperative length of hospital stay were recorded within 24 h after surgery. Results:Compared with group P, the concentrations of serum high-sensitivity cardiac troponin I and creatine kinase isoenzyme were significantly decreased after surgery, the extubation time and intensive care unit stay time were shortened ( P<0.05), and no significant change was found in serum N-terminal pro-B-type natriuretic peptide concentrations, postoperative length of hospital stay and incidence of postoperative adverse effects at each time point in group D ( P>0.05). Conclusions:Desflurane has better myocardial protection than propofol in pediatric patients undergoing LDLT, which is helpful for early prognosis.
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Objective:To evaluate the effects of inhaling high concentration hydrogen on myocardial injury and mitochondrial biogenesis in septic mice.Methods:One hundred and twenty-eight clean-grade healthy male C57BL/6J mice, aged 6-8 weeks, weighing 20-25 g, were divided into 4 groups ( n=32 each) using a random number table method: sham operation group (group Sham), sham operation + hydrogen group (group Sham+ H), sepsis group (group Sep), and sepsis+ hydrogen group (group Sep+ H). The sepsis model was developed by cecal ligation and puncture in anesthetized animals. In Sham+ H and Sep+ H groups, 67% H 2 was inhaled for 1 h starting from 1 and 6 h after operation, respectively. Twenty mice in each group were randomly selected to observe the survival conditions at 7 days after operation. Blood samples were taken from the remaining mice at 24 h after operation for determination of tumor necrosis factor-α (TNF-α), interleukin-1β (IL-1β), cardiac troponin I (cTnI) and creatine kinase isoenzyme (CK-MB) (by enzyme-linked immunosorbent assay), for examination of the pathological changes of myocardial tissues (by HE staining), and for determination of the mitochondrial membrane potential (MMP) (by fluorescence spectrophotometry), ATP content (by luciferase assay), and expression of myocardial peroxisome proliferator-activated receptor gamma coactivator-1α (PGC-1α), nuclear respiratory factor 2 (NRF2) and mitochondrial transcription factor A (TFAM) (by Western blot). Results:Compared with Sham group, the survival rate was significantly decreased, the serum concentrations of TNF-α, IL-1β, cTnI and CK-MB and pathological score were increased, the MMP and content of ATP in myocardial mitochondria were decreased, and the expression of PGC-1α, NRF2 and TFAM in myocardial tissues was down-regulated in Sep group ( P<0.05), and no significant change was found in the parameters mentioned above in Sham+ H group ( P>0.05). Compared with group Sep, the survival rate was significantly increased, the serum concentrations of TNF-α, IL-1β, cTnI and CK-MB and pathological score were decreased, the MMP and content of ATP in myocardial mitochondria were increased, and the expression of PGC-1α, NRF2 and TFAM in myocardial tissues was up-regulated in group Sep+ H ( P<0.05). Conclusions:Inhaling high concentration hydrogen can attenuate sepsis-induced myocardial injury in mice, and the mechanism may be related to promotion of mitochondrial biosynthesis and improvement in mitochondrial function.
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Objective:To evaluate the relationship between Sestrin2 and mitochondrial DNA (mtDNA)-NOD-like receptor associated protein 3 (NLRP3) inflammasome pathway during endotoxin-induced myocardial injury in mice.Methods:One hundred and eighty-four clean-grade healthy male ICR mice, aged 8-12 weeks, weighing 20-25 g, were used in this study. One hundred and sixty-eight mice were divided into 7 groups ( n=24 each) using the random number table method: normal control group (N group), lipopolysaccaride(LPS) group (L group), mtDNA group, LPS+ mtDNA group (M group), normal control+ negative control adeno-associated virus (AAV-NC)group (NC group), LPS+ mtDNA+ AAV-NC group (MC group), and LPS+ mtDNA+ Sestrin2 overexpression adeno-associated virus (AAV-Sestrin2) group (MSgroup). Another 10 mice were used to detect the transfection effect of AAV-Sestrin2, and the left 6 mice were used for mtDNA extraction. The model of endotoxemia was developed by intraperitoneal injection of LPS 10 mg/kg. mtDNA 5 mg/kg was intraperitoneally injected in mtDNA group, and mtDNA 5 mg/kg was intraperitoneally injected at 30 min after LPS injection in M group.AAV-Sestrin2 150 μl was injected via the tail vein in MS group, and the equal volume of AAV-NC was injected via the tail vein in MC and NC groups. Four weeks after virus injection, LPS 10 mg/kg was intraperitoneally injected and 30 min later mtDNA 5 mg/kg was intraperitoneally injected in MS and MC groups. Blood samples were collected at 24 h after LPS injection for determination of serum creatine kinase-MB (CK-MB) and lactate dehydrogenase (LDH) activities (by biochemical assay), concentrations of serum cardiac troponin I (cTnI), interleukin-18 (IL-18) and interleukin-1beta (IL-1β)(by enzyme-linked immunesorbent assay), and expression of mtDNA (by quantitative real-time polymerase chain reaction). The animals were sacrificed after the end of blood sampling and myocardial tissues were obtained for determination of the contents of reactive oxygen species (ROS), total antioxidant capacity (T-AOC), and adenosine triphosphate (ATP) and expression of NOD-like receptor associated protein 3 (NLRP3), active subunit p20 of caspase-1 (caspase-1p20) and apoptosis-associated microprotein (ASC) in myocardial tissues (by Western blot) and for microscopic examination of the pathological changes after HE staining (with a light microscope). Results:Compared with N group, the levels of CK-MB, LDH, cTnI, IL-1β and IL-18 in serum were significantly increased, the expression of mtDNA was up-regulated, the ROS content in myocardial tissues was increased, the T-AOC and ATP contents in myocardial tissues were decreased, the expression of NLRP3, caspase-1p20 and ASC in the myocardial tissues was up-regulated( P<0.05), and the pathological changes of myocardial tissues were aggravated in L group and mtDNA group.Compared with L group and mtDNA group, the levels of CK-MB, LDH, cTnI, IL-1β and IL-18 in serum were significantly increased, the expression of mtDNA was up-regulated, the ROS content in myocardial tissues was increased, the T-AOC and ATP contents in myocardial tissues were decreased, the expression of NLRP3, caspase-1p20 and ASC in the myocardial tissues was up-regulated( P<0.05), and the pathological changes of myocardial tissues were aggravated in M group. Compared with M group, the levels of CK-MB, LDH, cTnI, IL-1β and IL-18 in serum were significantly decreased, the expression of mtDNA was down-regulated, the ROS content in myocardial tissues was decreased, the T-AOC and ATP contents in myocardial tissues were increased, the expression of NLRP3, caspase-1p20 and ASC in the myocardial tissues was down-regulated( P<0.05), and the pathological changes of myocardial tissues were significantly attenuated in MS group. Conclusions:Sestrin2 can reduce endotoxin-induced myocardial injury in mice by alleviating mitochondrial damage, inhibiting oxidative stress, protecting mtDNA from oxidative damage, and then inhibiting mtDNA-NLRP3 inflammasome pathway.
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Objective:To evaluate the role of the autophagy in hydrogen-induced reduction of myocardial injury in septic mice.Methods:A total of 192 clean-grade healthy male C57BL/6J mice, aged 6-8 weeks, weighing 20-25 g, were divided into 6 groups ( n=32 each) using a random number table method: sham operation group (group Sham), sham operation plus hydrogen group (group Sham+ H 2), sepsis group (group S), sepsis plus hydrogen group (group S+ H 2), sepsis plus bafilomycin A1 group (group S+ BafA1) and sepsis plus hydrogen plus bafilomycin A1 group (group S+ H 2+ BafA1). Sepsis was produced by cecal ligation and puncture (CLP) after anesthesia. The mice inhaled 2% hydrogen for 1 h starting from 1 and 6 h after operation in group Sham+ H 2, group S+ H 2 and group S+ H 2+ BafA1. Bafilomycin A1 1 mg/kg was intraperitoneally injected at 1 h after operation in S+ BafA1 and S+ H 2+ BafA1 groups. Twenty mice in each group were selected to record the 7-day survival rates after operation. Then the mice were sacrificed at 24 h after operation to observe the pathological changes of myocardial tissues which were scored and detect the serum cardiac troponin I (cTnI) concentration (by enzyme-linked immunosorbent assay) and determine the level of microtubule-associated protein 1 light chain 3 B (LC3B) and P62 (by Western blot). LC3Ⅱ/LC3Ⅰratio was calculated. Results:Compared with group Sham, the 7-day survival rate after operation was significantly decreased, the serum cTnI concentrations and pathological scores of myocardial tissues were increased, the expression of P62 was up-regulated ( P<0.05), no significant change was found in LC3Ⅱ/LC3Ⅰratio ( P>0.05), and no significant change was found in the parameters mentioned above in group Sham+ H 2 ( P>0.05). Compared with group S, the 7-day survival rate after operation was significantly increased, the serum cTnI concentrations and pathological scores of myocardial tissues were decreased, LC3Ⅱ/LC3Ⅰratio was increased, and the expression of P62 was down-regulated in group S+ H 2, and LC3Ⅱ/LC3Ⅰratio was significantly decreased, and the expression of P62 was up-regulated in group S+ BafA1 ( P<0.05). Compared with group S+ H 2, the 7-day survival rate was significantly decreased, the serum cTnI concentrations and pathological scores of myocardial tissues were increased, LC3Ⅱ/LC3Ⅰratio was decreased, and the expression of P62 was up-regulated in group Sham+ H 2 ( P<0.05). Conclusions:The mechanism by which hydrogen alleviates myocardial damage may be related to promoting autophagy in septic mice.
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Objective:To evaluate the effect of resveratrol on radiation-induced myocardial injury in mice.Methods:A total of 80 C57BL/6 mice were randomly divided into the control group, resveratrol (Res) group, radiation (RT) group and radiation+resveratrol (RT+Res) group. In the RT group, mice were given with heart radiation and mice in the Res group were given with resveratrol by gavage for 3 months. Cardiac ultrasound was used to evaluate cardiac function at 3 months after cardiac radiation. The hearts of mice were collected for HE staining, immunofluorescence, TUNEL staining, Masson staining and Western blot to evaluate the expression of silent information regulator 1 (SIRT1), the level of oxidative stress, inflammatory response, apoptosis and the degree of fibrosis in myocardial tissues. Experimental data were expressed as Mean ± SD. Continous data were statistically analyzed by t-test. Results:After 3 months of irradiation, compared with the control group, the ejection fraction (EF) and fractional shortening (FS) of cardiac function were decreased, and myocardial degeneration and disorder, reactive oxygen species (ROS) and inflammatory levels (interleukin-1β, interleukin-6, tumor necrosis factor-α), myocardial apoptosis (TUNEL positive cell rate) and fibrosis were increased in the RT group. In the RT+Res group, the cardiac function was improved, the expression of SIRT1 was increased, and the levels of oxidative stress, inflammation, myocardial apoptosis and fibrosis were decreased.Conclusions:Resveratrol can reduce oxidative stress, inflammatory infiltration, apoptosis and fibrosis of myocardium in mice with radiation-induced myocardial injury, thereby improving cardiac structural abnormalities and cardiac dysfunction. This protective effect can be mediated by upregulation of SIRT1 expression.
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Objective:To analyze and explore the independent risk factors of 28-day mortality in patients with septic myocardial injury.Methods:A retrospective cohort study was conducted to collect clinical data of 505 patients diagnosed with sepsis related myocardial injury admitted to the intensive care unit (ICU) of the Affiliated Hospital of Jining Medical University from January 2015 to December 2020. According to the 28-day survival status of patients, they were divided into survival group and death group. COX multivariate regression analysis was used to analyze the influencing factors of the 28-day mortality rate of sepsis related myocardial injury patients, and receiver operating characteristic (ROC) curves were drawn to evaluate the effectiveness of independent risk factors in predicting the 28-day mortality rate of sepsis related myocardial injury patients.Results:A total of 505 patients with sepsis myocardial injury were included, of which 282 survived on 28 days and 223 died, with a mortality rate of 44.16%. COX multivariate regression analysis showed that Sequential Organ Failure Assessment (SOFA) score, Acute Physiology and Chronic Health Evaluation Ⅱ (APACHE Ⅱ) score, blood lactate (LAC), oxygenation index (PaO 2/FiO 2), admission heart rate, and albumin were independent risk factors for sepsis associated myocardial injury mortality at 28 days (all P<0.05). ROC curve analysis showed that the area under the ROC curve (AUC) of SOFA score was 0.766 2, and the 95% confidence interval (95% CI) was 0.724 5-0.807 9; The predictive value of 28-day mortality in sepsis associated myocardial injury patients was superior to APACHE Ⅱ score, LAC, PaO 2/FiO 2, admission heart rate, and albumin [The AUC values were 0.754 1(0.711 5-0.796 7), 0.752 6(0.710 1-0.795 1), 0.697 0(0.649 7-0.744 2), 0.623 2(0.573 7-0.672 7), and 0.620 3(0.570 8-0.669 7), respectively]. Conclusions:SOFA score, APACHE Ⅱ score, LAC, PaO 2/FiO 2, admission heart rate, and albumin are independent risk factors for the 28-day mortality rate of sepsis related myocardial injury. Clinical practice should identify these factors early, intervene early, and improve patient prognosis.
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RESUMO Objetivo: Caracterizar a lesão miocárdica e as complicações cardiovasculares e seus preditores em pacientes graves e críticos com COVID-19 admitidos à unidade de terapia intensiva. Métodos: Este foi um estudo de coorte observacional em pacientes graves e críticos com COVID-19 admitidos à unidade de terapia intensiva. A lesão miocárdica foi definida como níveis sanguíneos de troponina cardíaca acima do limite de referência superior ao percentil 99. Os eventos cardiovasculares considerados foram combinação de trombose venosa profunda, embolia pulmonar, acidente vascular cerebral, infarto do miocárdio, isquemia aguda de membros, isquemia mesentérica, insuficiência cardíaca e arritmia cardíaca. Regressão logística univariada e multivariada ou modelos de risco proporcional de Cox foram utilizados para determinar os preditores de lesão miocárdica. Resultados: Foram admitidos à unidade de terapia intensiva 567 pacientes graves e críticos com COVID-19, dos quais 273 (48,1%) apresentavam lesão miocárdica. Dos 374 pacientes críticos com COVID-19, 86,1% tinham lesão miocárdica, além de apresentarem mais disfunção orgânica e maior mortalidade aos 28 dias (56,6% versus 27,1%; p < 0,001). Foram preditores de lesão miocárdica idade avançada, hipertensão arterial e uso de imunomoduladores. Complicações cardiovasculares ocorreram em 19,9% dos pacientes graves e críticos com COVID-19 admitidos à unidade de terapia intensiva, e a maioria dos eventos deu-se em pacientes com lesão miocárdica (28,2% versus 12,2%; p < 0,001). A ocorrência de evento cardiovascular precoce durante internação em unidade de terapia intensiva estava associada à maior mortalidade aos 28 dias em comparação com eventos tardios ou inexistentes (57,1% versus 34,0% versus 41,8%; p = 0,01). Conclusão: Pacientes com formas graves e críticas de COVID-19 admitidos à unidade de terapia intensiva foram comumente diagnosticados com lesão miocárdica e complicações cardiovasculares, e ambas estavam associadas à maior mortalidade nesses pacientes.
ABSTRACT Objective: To characterize myocardial injury and cardiovascular complications and their predictors in severe and critical COVID-19 patients admitted to the intensive care unit. Methods: This was an observational cohort study of severe and critical COVID-19 patients admitted to the intensive care unit. Myocardial injury was defined as blood levels of cardiac troponin above the 99th percentile upper reference limit. Cardiovascular events considered were the composite of deep vein thrombosis, pulmonary embolism, stroke, myocardial infarction, acute limb ischemia, mesenteric ischemia, heart failure and arrhythmia. Univariate and multivariate logistic regression or Cox proportional hazard models were used to determine predictors of myocardial injury. Results: Of 567 patients with severe and critical COVID-19 admitted to the intensive care unit, 273 (48.1%) had myocardial injury. Of the 374 patients with critical COVID-19, 86.1% had myocardial injury, and also showed more organ dysfunction and higher 28-day mortality (56.6% versus 27.1%, p < 0.001). Advanced age, arterial hypertension and immune modulator use were predictors of myocardial injury. Cardiovascular complications occurred in 19.9% of patients with severe and critical COVID-19 admitted to the intensive care unit, with most events occurring in patients with myocardial injury (28.2% versus 12.2%, p < 0.001). The occurrence of an early cardiovascular event during intensive care unit stay was associated with higher 28-day mortality compared with late or no events (57.1% versus 34% versus 41.8%, p = 0.01). Conclusion: Myocardial injury and cardiovascular complications were commonly found in patients with severe and critical forms of COVID-19 admitted to the intensive care unit, and both were associated with increased mortality in these patients.
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Resumo Fundamento Alguns estudos demonstraram uma maior prevalência de óbitos em portadores de fatores de risco cardiovascular (FRC) durante internação por COVID-19. Objetivos Avaliar o impacto do alto risco cardiovascular em pacientes internados em terapia intensiva por COVID-19 Métodos Estudo retrospectivo com pacientes admitidos em terapia intensiva, com diagnóstico confirmado de COVID-19 por RT-PCR e com pelo menos uma dosagem de troponina durante a internação. Os critérios para definição de paciente de alto risco cardiovascular (ARC) foram: histórico de doença cardiovascular estabelecida (infarto, AVC ou doença arterial periférica), diabetes, doença renal crônica com clearance < 60ml/min ou presença de 3 FRC (hipertensão, tabagismo, dislipidemia ou idade > 65 anos). O desfecho primário deste estudo é mortalidade hospitalar por todas as causas. P<0,05 foi considerado significativo. Resultados Foram incluídos 236 pacientes, média de idade= 61,14±16,2 anos, com 63,1% homens, 55,5% hipertensos e 33,1% diabéticos. Um total de 47,4% dos pacientes apresentavam ARC. Observou-se um aumento significativo da mortalidade conforme aumento do número de fatores de risco (0 FRC: 5,9%; 1 FRC: 17,5%; 2 FRC: 32,2% e ≥3 FRC: 41,2%; p=0,001). Na regressão logística ajustada para gravidade (escore SAPS3), o grupo de alto risco cardiovascular e troponina elevada apresentou maior ocorrência de mortalidade hospitalar (OR 40,38; IC95% 11,78-138,39). Pacientes sem alto risco cardiovascular, mas com troponina elevada, também exibiram associação significativa com o desfecho primário (OR 16,7; IC95% 4,45-62,74). Conclusão Em pacientes internados em terapia intensiva por COVID-19, a presença de alto risco cardiovascular afeta a mortalidade hospitalar somente em pacientes que apresentaram elevação de troponina.
Abstract Background Some studies have shown a higher prevalence of deaths in patients with cardiovascular risk factors (CRF) during hospitalization for COVID-19. Objectives To assess the impact of high cardiovascular risk in patients hospitalized in intensive care for COVID-19 Methods Retrospective study with patients admitted to an intensive care unit, with a diagnosis of COVID-19 confirmed by RT-PCR, and with at least one troponin measurement during hospitalization. The criteria for defining high cardiovascular risk (HCR) patients were: history of established cardiovascular disease (myocardial infarction, stroke, or peripheral arterial disease), diabetes, chronic kidney disease with clearance < 60ml/min, or presence of 3 CRFs (hypertension, smoking, dyslipidemia, or age > 65 years). The primary outcome of this study is all-cause in-hospital mortality. P<0.05 was considered significant. Results This study included 236 patients, mean age = 61.14±16.2 years, with 63.1% men, 55.5% hypertensive, and 33.1% diabetic; 47.4% of the patients also presented HCR. A significant increase in mortality was observed as the number of risk factors increased (0 FRC: 5.9%; 1 FRC: 17.5%; 2 FRC: 32.2% and ≥3 FRC: 41.2%; p=0.001). In the logistic regression adjusted for severity (SAPS3 score), the HCR and myocardial injury group had a higher occurrence of in-hospital mortality (OR 40.38; 95% CI 11.78-138.39). Patients without HCR but with myocardial injury also exhibited a significant association with the primary outcome (OR 16.7; 95% CI 4.45-62.74). Conclusion In patients hospitalized in intensive care for COVID-19, HCR impacts in-hospital mortality only in patients with myocardial injury.
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Objective:To evaluate the value of endogenous digitalis-like factor (EDLF) dynamic changes in predicting myocardial injury and prognosis in patients with sepsis.Methods:A total of 160 sepsis patients admitted to the emergency department of Beijing Friendship Hospital Affiliated to Capital Medical University from July 2017 to January 2019 were selected and divided into the myocardial injury(MI) group ( n=75) and the non-myocardial injury (NMI) group ( n=85) according to whether there was myocardial injury. The plasma EDLF concentration was tested on the 1 st, 3 rd and 7 th day after admission. The predictive factors of MI and 90-days outcome were evaluated by logistics regression analysis. Cox proportional hazards regression model was used to estimate the prognostic value of EDLF concentration on the 90 days after admission for sepsis. Results:Septic patients with MI had increased levels of myocardial enzymes, decreased left ventricular fractional shortening index (FS) and interventricular septum (IVS) amplitude and abnormal wall motion, when compared to NMI patients (all P<0.05). EDLF concentration on the 7 th day in the MI group was significantly lower than in the NMI group ( P=0.019). Logistic regression showed that EDLF 7 th was an independent protective factor for MI and 90-day mortality in sepsis respectively ( OR=0.964, 95% CI: 0.934-0.994, P=0.021; OR=0.931, 95% CI: 0.871-0.995, P=0.036). Cox proportional hazards regression analysis suggested that EDLF 7 th concentration <26.7 pmol/L was an independent predictor of 90-day mortality in patients with sepsis ( HR=4.601, 95% CI: 1.030-20.563, P=0.046). Conclusions:EDLF 7 th may serve as a protective factor for sepsis-induced MI and adverse outcome. The exogenous supplement of cardiotonic drugs at one week after MI may be a potential treatment to improve the survival rate of septic patients.