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The aim of this article was to analyse the dynamics of sexual offense reports in Colombia over the period between 2010 and 2022. For this, a mixed methodology was applied in the following phases: first, the Colombian National Police registry which included 286 604 sexual crimes reported in the aforementioned period was analysed. Then, a causal loop diagram of System Dynamics was designed to highlight the role of reporting sexual crimes in the Colombian Penal System. The main findings of this article include that 85.73 % of the complaints are mostly associated with women and 68 % of the victims are minors or adolescents of both sexes. It must be noted that Colombian legislation divides these crimes into those that are aggravated by violence and those that are not. It was also found that when the victim was a woman, the crimes occurred in a higher proportion with the aggravating factor of violence. It can also be concluded that during the COVID-19 pandemic confinement, there was a decrease in the number of sexual offense reports due to its negative effect on the possibility of adult women reporting crimes. In addition, it was found that it is imperative to direct the criminal policies towards the general positive prevention of sexual crimes, without instrumentalising individuals, and aimed at completing a detailed follow-up of complaints.
El objetivo de este artículo fue analizar la dinámica de las denuncias por delitos sexuales en Colombia en el periodo comprendido entre 2010 y 2022. Para ello, se aplicó una metodología mixta en las siguientes fases: primero, se analizó el registro de la Policía Nacional de Colombia -que incluyó 286 604 delitos sexuales denunciados en el periodo mencionado-. Luego, se diseñó un diagrama de bucle causal de Dinámica de Sistemas para resaltar el papel de la denuncia de delitos sexuales en el Sistema Penal Colombiano. Entre los principales hallazgos de este artículo se destaca que el 85.73 % de las denuncias están asociadas mayoritariamente a mujeres y el 68 % de las víctimas son menores de edad o adolescentes de ambos sexos. Es de anotar que la legislación colombiana divide estos delitos en agravados por violencia y no agravados por violencia. También se encontró que cuando la víctima es mujer, los delitos se presentan en mayor proporción con el agravante de violencia. También se puede concluir que durante el encierro pandémico COVID-19, hubo una disminución en el número de denuncias de delitos sexuales debido a su efecto negativo en la posibilidad de que las mujeres adultas denuncien delitos. Además, se constató que es imperativo orientar las políticas criminales hacia la prevención general positiva de los delitos sexuales, sin instrumentalizar a los individuos, y dirigidas a completar un seguimiento detallado de las denuncias.
O objetivo deste artigo foi analisar a dinâmica das denúncias de crimes sexuais na Colômbia no período entre 2010 e 2022. Para isso, foi aplicada uma metodologia mista nas seguintes fases: primeiro, foi analisado o registro da Polícia Nacional da Colômbia, que incluía 286 604 crimes sexuais denunciados no período mencionado. Em seguida, foi elaborado um diagrama de loop causal do System Dynamics para destacar o papel da denúncia de crimes sexuais no sistema penal colombiano. As principais conclusões desse artigo incluem que 85.73 % das denúncias estão associadas principalmente a mulheres e 68 % das vítimas são menores ou adolescentes de ambos os sexos. Deve-se observar que a legislação colombiana divide esses crimes entre aqueles que são agravados pela violência e aqueles que não são. Também foi constatado que, quando a vítima era mulher, os crimes ocorreram em uma proporção maior com o agravante de violência. Também se pode concluir que, durante o confinamento da pandemia da COVID-19, houve uma diminuição no número de denúncias de crimes sexuais devido ao seu efeito negativo sobre a possibilidade de mulheres adultas denunciarem crimes. Além disso, constatou-se que é imprescindível direcionar as políticas criminais para a prevenção geral positiva dos crimes sexuais, sem instrumentalizar os indivíduos, e visando à conclusão de um acompanhamento detalhado das denúncias.
الموضوعات
Humans , Colombiaالملخص
Objective:To analyze the bubble dynamic characteristics of shock wave enhanced emission photoacoustic streaming(SWEEPS)technique in free water region under different temporay delays.Methods:The Er∶YAG laser tip was activated in free water model with SWEEPS mode at 150-600 μs pulse delay.The bubble dynamic process during irrigation was recorded by a high-speed camera(200 000 Hz).Matlab was used to analyze the interaction between bubble made by the dual pulses frame by frame.The distance between bubble remnants and laser tip was measured before the bubble disappeared.The experimental data were statisti-cally analyzed by SPSS 19.0.Results:In free water region,different temporal delays caused different interaction between the bub-bles activated by the SWEEPS technique with a dual pulse modality.The interactions include bubble fusion,bubble collision and bubble separation.When the temporal delay between 360-440 μs,bubble collision was the most violent,and the farthest distance between bubble remnants and laser tip was reached.Conclusion:In free water region,the dual pulse of SWEEPS technique can lead to bubble interaction which may enhance the cavitation effect of Er∶YAG laser irrigation,and improve the debridement in clinic ap-plication.
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Post-stroke cognitive impairment(PSCI),refers to a range of clinical syndromes of cognitive impairment caused by stroke.Although its specific pathogenesis is still unclear,many studies have confirmed that endoplasmic reticulum-mitochondria interaction has become a key hub for intracellular signal transduction and substance metabolism,and its regulation of various biological processes,such as Ca2+ balance,lipid metabolism,mitochondrial dynamics,autophagy,and neuroinflammation,is closely related to the development of PSCI.There-fore,in this paper,we will review the various functions of endoplasmic reticulum-mitochondrial interactions and explore their specific roles in PSCI,in order to discover new therapeutic targets and provide new theoretical basis and references for the development of PSCI-targeted drugs in the future.
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Objective To investigate the effects of puerarin on myocardial ischemia-reperfusion injury and its mecha-nism.Methods Molecular docking and dynamics simulation were utilized to predict the binding potential of puerarin and SIRT1.A myocardial ischemia-reperfusion model was established in SD rats by ligating the anterior descending branch of the left coronary artery.The protective effect of puerarin on myocardial injury was observed,and the therapeutic effect of puerarin was compared after inhibition of SIRT1 expression.The infarct volume was detected using 2,3,5-triphenyltetrazolium chloride(TTC)staining.The apoptosis rate and SIRT1 expression of cardiomyocytes were detected by using TUNEL combined with im-munofluorescence.Transmission electron microscope was used to observe the myocardial ultrastructure.Western blot was per-formed to detect the expression of ferroptosis-related proteins.Results Molecular docking studies confirmed the formation of stable complexes between puerarin and SIRT1.Puerarin treatment significantly increased myocardial ischemia-reperfusion injury through upregulation of SIRT1,SLC7A11 and GPX4 expression,and downregulation of IREB2 expression in rats.The protec-tive effect of puerarin on myocardium was abolished once SIRT1 protein expression was inhibited.Conclusion Molecular doc-king and molecular dynamics simulation techniques can accurately predict the interaction of puerarin,and the main target SIRT1.Puerarin inhibits ferroptosis by activating SIRT1 pathway,thereby alleviating myocardial ischemia-reperfusion injury.
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BACKGROUND:Mechanical factors can affect the angiogenic ability of vascular endothelial cells.How the vessel number affects the hydrodynamic properties of microvessels remains to be clarified. OBJECTIVE:To investigate the influence of vessel number on the hydrodynamics of vascular networks based on computational fluid dynamics. METHODS:Three three-dimensional models of vascular network with different vessel numbers were constructed using the Geometry module of ANSYS 19.0 software,and then the vascular network was meshed to tetrahedral elements in Mesh module.The vascular network was assumed to rigid wall without slip,and the blood was assumed to laminar,viscous,and incompressible Newtonian fluid.Blood density,velocity,and a series of blood viscosity coefficients were also established.The Navier-Stokes equation was used for calculation.Hydrodynamic properties of different parts of vascular network with different vessel numbers were analyzed and compared. RESULTS AND CONCLUSION:The streamline,velocity,and mass flow all had the same trend in the vascular network,that is,the outlet and inlet were higher and the middle junction of vascular network was lower.The more the number of vessels,the thinner the blood flow lines in each part of the vascular network.Also,the velocity,mass flow,and wall shear decreased with the increase of the number of blood vessels.Therefore,the changes in vessel number could influence the hydrodynamic environment in the vascular network.Computational fluid dynamics indicates that the changes in vessel numbers can influence the hydrodynamic properties of blood,and provides a new idea for treating bone hypoperfusion-induced diseases(fracture nonunion,bone defect,osteoporosis,etc.)through tonifying kidney and activating blood circulation based on the coupling between angiogenesis and osteogenesis.
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BACKGROUND:Mitochondrial quality control is a complex process,which involves three aspects:mitochondrial biogenesis,mitochondrial dynamics change and mitochondrial autophagy,among which mitochondrial dynamics change is the intermediate link between mitochondrial biogenesis and mitochondrial autophagy.Mitochondria can improve their own quality control through dynamics change and then maintain their stable state. OBJECTIVE:To explore the molecular mechanism underlying the influence of exercise on mitochondrial dynamics,so as to provide theoretical basis for improving mitochondrial network homeostasis and promoting functional health. METHODS:Using the method of literature review,CNKI,Bailianyun Library,PubMed,Web of Science,EBCSO were searched for relevant literature with the keywords of"Exercise,Mitochondrial Steady State,Mitochondrial Quality Control,Mitochondrial Dynamics,Mitochondrial Fusion and Mitochondrial Division"in Chinese and English.The finally obtained literature was screened,read,and summarized. RESULTS AND CONCLUSION:Dynamin-related proteins 1/2 are responsible for mitochondrial fission,while mitofusins 1/2 and optic atrophy type 1 mediate the fusion of outer membrane and inner mitochondrial membranes respectively.Exercise training can improve the function of mitochondria by up-regulating the protein expression of mitofusins 1/2 and optic atrophy type 1 and down-regulating the protein expression level of dynamin-related protein 1,promoting mitochondrial fusion and inhibiting mitochondrial fission.The findings that a single acute exercise affects changes in mitochondrial dynamics are controversial.Furthermore,there is tissue variability in exercise-mediated changes in mitochondrial dynamics.
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Vascular biomechanics mainly explores how vascular cells perceive mechanical stimuli,how mechanics affects the development of diseases,and the exploitation of various mathematical models to analyze the effects of mechanical factors on diseases.In recent years,researches in the field of vascular biomechanics are developing rapidly,and various research teams have analyzed the mechanical and biological processes of blood vessels from different directions,in order to gain a deeper understanding of the regulatory mechanisms of vascular biomechanical factors affecting the progression of various vascular diseases,and provide a theoretical basis based on the mechanobiology for the prevention and treatment of cardiovascular and cerebrovascular diseases.This article summarizes and discusses the recent research hotspots and emerging trends in the field of vascular mechanobiology based on domestic and foreign expert teams and combined with the work of this research team,thus providing a systematic framework for grasping hotspots and exploring new research directions in the field of vascular mechanobiology.
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Objective To investigate the effects of force on mechanical stability of FLNa-Ig21/αⅡbβ3-CT complex and the regulation mechanism.Methods The FLNa-Ig21/αⅡbβ3-CT crystal structures were taken from the PDB database.The stability of the complexes in a physiological environment as well as the unfolding path and mechanical stability induced by mechanical forces were analyzed using equilibrium and steered molecular dynamics simulations.Results During the equilibration,the survival rate of most salt bridge and hydrogen bonds was below 0.5,and the interactions between FLNa-Ig21 and αⅡbβ3-CT was relatively weak.During stretching at a constant velocity,the complex could withstand a tensile force of 70-380 pN,and its mechanical strength depended on the force-induced dissociation path.Under a constant force of 0-60 pN,the complexes exhibited a slipping-bond trend,and the force increase facilitated the breakage of the R995-D723 salt bridge and the activation of αⅡbβ3 integrin.Conclusions The force-induced allostery of αⅡbβ3-MP enhanced the complex mechanical strength and delayed FLNa-Ig21 dissociation from αⅡbβ3-CT.After breaking through the 20 pN threshold,force positively regulated the activation of αⅡbβ3 integrin.These results provide insights into the molecular mechanism of αⅡbβ3 activation and the development of related targeted drugs.
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With the deepening of the research on coronary artery related diseases,people gradually realize that coronary microcirculation disorders have an important impact on the occurrence,development,curative effect and prognosis of cardiovascular diseases,and coronary microcirculation diseases have received more and more attention in ischemic heart disease.Since coronary microvessels cannot be directly observed through imaging,there are currently some indicators to evaluate coronary microcirculation function in clinical practice,among which the index of microcirculatory resistance(IMR)is widely used for the evaluation of coronary microcirculation function.Computational fluid dynamics derived IMR is accurate,easy to perform,and has a broad application prospect.This article provides a comprehensive review of the establishment,development,clinical applications,and progress of IMR.
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Objective To observe the effects of electroacupuncture on the motor function and mitochondrial dynamics of skeletal muscle of SAMP8 mice;To explore the mechanism of electroacupuncture in improving the motor dysfunction of Alzheimer disease(AD)from the perspective of mitochondrial dynamics.Methods Totally 18 SAMP8 mice were divided into model group and electroacupuncture group,with 9 mice in each group,and the SAMR1 mice with the same age were set as control group."Baihui","Dazhui"and"Shenshu"were selected in the electroacupuncture group,and electroacupuncture was performed daily for 20 min,8 d as a course of treatment.Each course of treatment was separated by 2 d,for a total of 3 courses of treatment.The model group and the control group were not intervened.The motor function of mice was tested by grip strength test,suspension test,hind limb extension test and Morris water maze experiment.The morphology and structure of gastrocnemius were observed by HE staining,ATP content in gastrocnemius was determined by colorimetry,the mRNA expression of optic atrophy 1(OPA1),mitofusin 2(MFN2)and dynamin-related protein 1(DRP1)in gastrocnemius were detected by real-time quantitative PCR,the expressions of OPA1,MFN2 and DRP1 in gastrocnemius were detected by Western blot.Results Compared with the control group,the grip strength,the score in suspension test,and the average speed and maximum speed of Morris water maze experiment of mice in model group significantly decreased(P<0.01);the arrangement of fibers in the gastrocnemius muscle tissue was disordered,the gaps become wider,and the distribution of nuclei was uneven;the ATP content in the gastrocnemius muscle tissue was significantly decreased(P<0.01),the mRNA and protein expressions of OPA1 and MFN2 were significantly decreased(P<0.01),and the expression of DRP1 mRNA and protein significantly increased(P<0.01).Compared with the model group,the grip strength,the score in suspension test,and the average speed and maximum speed of Morris water maze experiment in electroacupuncture group significantly increased(P<0.01);the arrangement of gastrocnemius muscle tissue was relatively neat,the gaps become narrower,and the distribution of nuclei was more uniform;the ATP content in gastrocnemius muscle tissue significantly increased(P<0.01),while the mRNA and protein expressions of OPA1 and MFN2 significantly increased(P<0.05,P<0.01),the expression of DRP1 mRNA and protein significantly decreased(P<0.01).Conclusion Electroacupuncture can improve the skeletal muscle morphological structure and motor dysfunction of SAMP8 mice,and the mechanism may be related to the correction of skeletal muscle mitochondrial dynamic imbalance and the increase of skeletal muscle ATP content.
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Heart failure is a group of complex clinical syndromes in the middle and late stages of cardiovascular diseases.Mitochondrial homeostasis imbalance is one of the pathological mechanisms in the occurrence and development of heart failure.This article revolved around the"yin-yang theory"in TCM and explained the pathological mechanism of heart failure through mitochondrial homeostasis.Heart failure is the syndrome of deficiency in nature and excess in superficiality fundamental.Its basic pathogenesis is"yang deficiency and yin excess".Based on the deficiency of heart yang qi and the stagnation of yin pathogens,the combination of deficiency and excess runs through the entire disease.Mitochondrial homeostasis imbalance is a manifestation of yin-yang imbalance at the cellular micro level,mainly manifested as inhibition of mitochondrial biosynthesis,mitochondrial dynamics imbalance,mitophagy disorder,etc.,which affects mitochondrial structure and function and leads to abnormal myocardial energy metabolism.Therefore,based on the"yin-yang theory",the basic treatment method is to"tonify deficiency and damage excess"to regulate mitochondrial biosynthesis,mitochondrial dynamics,and mitophagy,thereby maintaining mitochondrial homeostasis and improving myocardial energy metabolism,which is of great significance for the prevention and treatment of heart failure.
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Mitochondrial quality control plays an important role in maintaining homeostasis of mitochondrial network and normal function of mitochondria. ATPase family AAA domain-containing protein 3A (ATAD3A) is one of the mitochondrial membrane proteins involved in the regulation of mitochondrial structure and function, mitochondrial dynamics, mitophagy and other important biological processes. Recent studies show that ATAD3A not only interacts with Mic60/Mitofilin and mitochondrial transcription factor A (TFAM) to maintain mitochondrial cristae morphology and oxidative phosphorylation, but also interacts with dynamin-related protein 1 (Drp1) to positively/negatively regulate mitochondrial fission. In addition, ATAD3A serves as a bridging factor between the translocase of the outer mitochondrial membrane (TOM) complex and translocase of the inner mitochondrial membrane (TIM) complex to facilitate the import of PTEN-induced putative kinase protein 1 (PINK1) into mitochondria and its processing displays a pro-autophagic or anti-autophagic activity. This article reviews the role and mechanism of ATAD3A in regulating mitochondrial quality control. Firstly, as an inner mitochondrial membrane protein, ATAD3A is involved in maintaining the stability of mitochondrial crista structure, and its gene deletion or mutation will cause the loss and breakage of crista. Secondly, ATAD3A is also involved in maintaining mitochondrial respiratory function and mitochondrial nucleoid homeostasis, and its gene deletion or mutation can reduce the activity of mitochondrial respiratory chain complex and enhance the size and movement of nucleoid. Thirdly, ATAD3A participates in the negative regulation of mitochondrial fusion, but its role in mitochondrial fission may dependent on specific cell types, as it can promote and/or inhibit the mitochondrial fission by increasing and/or decreasing phosphorylation or oligomerization of Drp1. Finally, ATAD3A can interact with mitophagy-related proteins (e.g. PINK1, autophagy/beclin-1 regulator 1 (AMBRA1), acylglycerol kinase (AGK)) to enhance/reduce PINK1-Parkin-dependent mitophagy.
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ObjectiveIt was reported that the transthyretin (TTR) has a neuroprotective effect on Alzheimer’s disease (AD), which is manifested by the ability of TTR to inhibit the pathological aggregation of amyloid beta protein (Aβ). In this work, we investigated the mechanism of the interactions between TTR and Aβ at the molecular level to reveal the neuroprotective effect of TTR on AD. MethodsProtein-protein docking was used to explore the models of interaction between different structural forms of TTR and Aβ, and molecular dynamics simulation was further applied to investigate the dynamic process of the interaction between the two. ResultsBoth TTR tetramer and monomer can interact with Aβ monomer, and the thyroxine-binding channel of TTR tetramer is the main binding site of Aβ monomer. In addition, the EF helix and EF loop of TTR tetramer were also able to bind Aβ monomer. When the TTR tetramer dissociates, the hydrophobic site of the internal TTR monomer is exposed, which has a strong affinity for Aβ monomer. For the interaction between Aβ aggregates and TTR, a higher degree of aggregation can be formed between TTR monomer and Aβ aggregates due to the β-sheet-rich property of TTR monomer and Aβ aggregates, which may therefore reduce the cytotoxicity of Aβ aggregates. ConclusionBoth TTR tetramer and monomer can inhibit Aβ aggregation by “sequestering” Aβ monomer, while TTR monomer can reduce the cytotoxicity of Aβ aggregates by forming large co-aggregation with Aβ aggregates. This work can provide an important theoretical basis for the design and discovery of anti-AD drugs based on the neuroprotective effects of TTR.
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Objective:To investigate the molecular biological mechanism of Bw07 allele and its transferase alteration carried by a proband of ABw07 subtype.Methods:A 2-year-old male child was selected as the research object. The peripheral blood of the proband and his parents was identified for ABO blood type by the test tube method, and the ABO subgroup PCR-SSP detection and ABO gene sequencing were performed on the three individuals to determine their blood type genotypes. Finally, the effect of the p.Arg352Gln mutation on Bw07 transferase was verified by virtual mutation, DUET structure prediction, molecular dynamics analysis, and in vitro cellular experiments.Results:The serological phenotypes of the proband and his mother were ABw and Bw, respectively, while his father was normal A. The ABO subgroup PCR-SSP assay identified the three genotypes as Bw07/A, Bw07/O, and A/A, respectively.Sanger sequencing further verified that the proband and his mother carried the Bw07 gene, and virtual mutation showed that the intermolecular forces were weakened by the R352Q mutation. DUET predicted that this p.Arg352Gln mutation could affect the thermodynamic stability of Bw07 transferase. Molecular dynamics analysis confirmed that the alteration of thermodynamic stability was mainly related to the appearance of large fluctuations in the amino acid backbone atoms in the 125-133, 193-198 and 336-354 regions, and in vitro cellular experiments further verified the weakened antigen synthesis of Bw07 transferase.Conclusion:The formation of the ABw07 phenotype is associated with the mutation of the highly conserved Arg352 to Gln in Bw07 transferase.
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Objective To predict the core targets and action pathways of Hedysari Radix based on UPLC-MS/MS and network pharmacology methods,and to verify the results of network pharmacology by molecular docking and molecular dynamics techniques.This article aims to investigate immune regulation mechanism of effective components absorbed into blood from Hedysari Radix.Methods Qualitative quantification of effective components absorbed into blood from Hedysari Radix were operated by using UPLC-MS/MS technique.The corresponding targets of effective components absorbed into blood from Hedysari Radix were screened by TCMSP and HERB databases.Targets of immune-related disease were obtained through DisGeNET,OMIM,TTD,and MalaCards databases.The network of"components absorbed into blood from Hedysari Radix-immune-related diseases"was then constructed.GO and KEGG enrichment analysis and mapped the PPI network were performed.Molecular docking and molecular dynamics techniques were applied for validation.Results A total of 8 prototype components absorbed into blood,synergistically acting on 101 targets,were identified by UPLC-MS/MS.They mediated 538 biological processes including immune response,positive regulation of gene expression,receptor binding,and cytokine activity.Meanuhile,116 signaling pathways,such as HIF-1,Toll-like receptor,JAK-STAT,T cell receptor,PI3K-Akt,and FoxO etc.were involved.The core targets were MAPK14,PTGS2,MMP9,PPARG,CCND1,etc..The results of molecular docking showed that formononetin and calycosin had strong docking binding activity with MAPK14.And molecular dynamics simulations further demonstrated that the binding between MAPK14 and formononetin or calycosin had good structural stability and binding affinity.Conclusion The results of serum pharmacochemistry,network pharmacology and molecular dynamics were verified to reveal the material basis and mechanism of Hedysari Radix in regulating immunity.The aim of this study is to provide scientific basis for its immunomodulatory mechanism.
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@#The pulsatile flow experiment can not only evaluate the preclinical safety and risk of prosthetic heart valve (PHV) but also play an important role in the computational model and fluid simulation, providing an experimental basis for the performance optimization of PHV. This paper mainly reviews the development and the latest progress of PHV pulsatile flow experiments and the characteristics of experimental pulse duplicator, and discuss the research direction of pulsatile flow experiments, expecting a further development in this field.
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@#Objective To establish a personalized Stanford type B aortic dissection numerical simulation model, and using computational fluid dynamics (CFD) numerical simulation to obtain the hemodynamic behavior and law of the type B aortic dissection at different stages of development. Methods Based on the theory of three-dimensional model reconstruction, we used CT images of a patient with type B aortic dissection in the Xiamen Cardiovascular Hospital of Xiamen University, relevant medical image processing software to reconstruct a personalized aortic three-dimensional model, and CFD to reconstruct the model which was simulated in fluid mechanics. Results The three-dimensional reconstruction model could intuitively observe the changing trend of the false cavity at different stages of the dissection development. Through fluid mechanics simulation, the blood flow rate, pressure, wall shear stress, vascular wall Von Mises stress and other parameters at different stages of the dissection development were obtained. Conclusion The hemodynamic behavior and law of relevant parameters in the development stage of aortic dissection are analyzed. The combination of the values of relevant parameters and clinical medical detection and diagnosis can well predict the development of the disease, and finally provide more theories and methods for the scientific diagnosis of aortic dissection.
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ObjectiveTo explore the possible mechanism of Shipi Xiaoji Beverage (实脾消积饮) in treating primary liver cancer from the perspective of mitochondrial dynamics imbalance and ferroptosis. MethodsThe Shipi Xiaoji Beverage-containing serum was prepared, and liver cancer HepG2 cells were cultured in vitro. The blank group, control group, cisplatin group (10 µg/ml), and 5%, 10%, and 15% medicated serum groups were set, with 4 duplicate holes in each group. After adding the corresponding medicinals to each group, the cell survival rate was calculated using the CCK-8 test after 24-hour culture at 37 ℃ with 5% CO2. Using transwell invasion assay, the number of cells that reached the upper chamber membrane through penetrating the Matrigel was calculated after culturing for 48 hours. The scratch migration rate was calculated after incubation for 24 h and 48 h in the scratch experiment, and the concentration of the medicated serum was screened for subsequent experiments. The control group, 10% medicated serum group (the screened concentration) and 10% medicated serum+Mdivi-1 group were set up. After culturing for 24 hours, the average fluorescence intensity of mitochondria and reactive oxygen species (ROS), adenosine triphosphate (ATP) content and level were measured, and the protein expression of cytoplasmic and mitochondrial dynein-related protein 1 (Drp1) and mitochondrial phosphorylated dynamin-related protein 1 (p-Drp1) was detected. The control group, 10% medicated serum group, ferroptosis activator group (Erastin, 10 μmol/L) and 10% medicated serum+ferroptosis inhibitor group (fer-1,10 μmol/L) were set up, and after adding the corresponding medicinals to each group and culture for 24 hours, the intracellular glutathione (GSH), malondialdehyde (MDA) content and ferrous ion level were detected, as well as the protein expression of solute carrier family 7 member 11 (SLC7A11) and glutathione peroxidase 4 (GPX4) in cells. ResultsCompared to those in the control group, the cell survival rate, invasion number, 24 h and 48 h scratch migration rate in all medicated serum groups and cisplatin group significantly decreased (P<0.01); as the concentration of medicated serum increased, the cell survival rate, invasion number and 48h scratch migration rate of each medicated serum group gradually decreased (P<0.01), and finally, 10% of Shipi Xiaoji Beverage-containing serum was selected for subsequent experimental concentration. Compared to the control group, the 10% medicated serum group had decreased average fluorescence intensity of mitochondria and ATP content and increased average fluorescence intensity of ROS (P<0.05); compared to the 10% medicated serum group, the 10% medicated serum+Mdivi-1 group had higher average fluorescence intensity of mitochondria and ATP content and lower average fluorescence intensity of ROS (P<0.05 or P<0.01). Compared to those in the control group, GSH content and protein expression of SLC7A11 and GPX4 in other groups significantly decreased, while MDA content and ferrous ion level increased (P<0.05 or P<0.01); compared to the ferroptosis activator group, the 10% medicated serum group and the 10% medicated serum+ferroptosis inhibitor group had decreased MDA content and ferrous ion level, and increased protein expression of SLC7A11 and GPX4 (P<0.05 or P<0.01); the 10% medicated serum+ferroptosis inhibitor group had higher GSH level than the 10% medicated serum group (P<0.01). ConclusionShipi Xiaoji Beverage may inhibit the proliferation, infestation, migration of HepG2 cells by causing mitochondrial dynamics imbalance and inducing ferroptosis, thereby playing against liver cancer.
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ObjectiveTo prepare a rat model of heart failure after myocardial infarction by ligation of the anterior descending branch of the left coronary artery, and to observe the effect of Shenfu Yixin granules on the mitochondrial dynamics of rats with heart failure. MethodFifty SD male rats were randomly taken ten as the sham operation group and the rest as modeling group. The rat model of heart failure after myocardial infarction was prepared by ligation of anterior descending branch of left coronary artery. According to the left ventricular ejection fraction(LVEF) on the 28th day after operation, the model rats were randomly divided into the model group, Shenfu Yixin granule low-dose and high-dose groups(3.011, 15.055 g·kg-1) and sacubitril valsartan sodium group(20.83 mg·kg-1). Each administration group was gavaged daily with the corresponding dose of drug solution, while the sham operation group and model group were given the same amount of normal saline once a day for 28 days, with 6 rats in each group. Ultrasound was used to detect the cardiac function parameters, rat heart mass and body mass were weighed to calculate the cardiac mass index, enzyme linked immunosorbent assay(ELISA) was used to detect serum brain natriuretic peptide(BNP) and soluble growth stimulation expressed gene 2 protein(sST2) levels. Hematoxylin-eosin(HE) staining was used to observe the pathological morphology of the myocardium. Real-time fluorescence quantitative polymerase chain reaction(Real-time PCR) and Western blot were used to detect the mRNA and protein expression of mitochondrial fusion protein 1/2(Mfn1/2), optic atrophy protein 1(Opa1), dynamin-related protein 1(Drp1) and fission protein 1(Fis1). ResultCompared with the sham operation group, the mRNA and protein expression of LVEF, Mfn1, Mfn2, Opal in the model group decreased(P<0.05), while BNP, sST2, cardiac mass index, Drp1, Fis1 mRNA and protein levels increased(P<0.05). Compared with the model group, the expression of LVEF, Mfn1, Mfn2, Opal mRNA and protein increased in Shenfu Yixin granule high-dose and sacubitril valsartan sodium groups(P<0.05), while BNP, sST2, cardiac mass index, Drp1, Fis1 mRNA and protein levels decreased(P<0.05). Pathological observation showed that compared with the sham operation group, the model group had disordered arrangement of myocardial cells, inflammatory cell infiltration and myocardial fibrosis. Compared with the model group, the degree of inflammatory cell infiltration, myocardial or interstitial fibrosis was improved and alleviated in all administered groups. ConclusionShenfu Yixin granules can resist heart failure, reduce cardiac mass index, decrease BNP and sST2 contents, and improve cardiac function. Its mechanism may be related to the adjustment of mitochondrial dynamics.
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Investigating the structural characteristics of proton tautomers is of great significance for understanding organic reactions and biochemical processes.In this study,a method based on ion mobility mass spectrometry combined with ab initio molecular dynamics calculations was proposed.The structures of proton tautomers were determined by comparing the experimental and theoretical collision-induced dissociation(CID)mass spectrograms of different proton tautomers.Ion mobility mass spectrometry was used to separate proton tautomerism produced during ionization.The CID mass spectra of each isomer could be obtained after mobility separation.The quantum chemical mass spectrometry(QCXMS)program based on ab initio molecular dynamics calculations was used to calculate the fragmentation process and obtain the theoretical CID mass spectra.The results of experiment and calculation showed that this method effectively solved the issue of difficult identification of proton tautomers.This method was also of great significance for the study of ionization mechanism and organic reaction process using mass spectrometry.