BACKGROUND:Patch clamp technique has been developed for more than 40 years as the"gold standard"for the study of ion channels.However,the research content of scientific research institutions is relatively independent,and the existing research results are not systematically summarized,which leads to the phenomenon of high repeatability and weak innovation in the existing research.Therefore,it is urgent to make a comprehensive review of patch clamp technology to clarify the current research status,hot spots,and future development direction.OBJECTIVE:To summarize the research status and development trend of patch clamp technique in recent 10 years.METHODS:Publications on patch clamp technology from 2013 to 2023 were collected using the Web of Science core collection database.CiteSpace and VOSviewer software were used to quantify the number of publications and analyze the network of literature entries,including countries,institutions,journals,authors,keywords,highly cited literature,and co-cited references.RESULTS AND CONCLUSION:(1)In recent 10 years,the research in the field of patch clamp technology has gradually entered a stage of stable development.(2)China and the United States are the leading countries in this regard.The Chinese Academy of Sciences is an institution with core influence.Journal of Neuroscience is the main publication.Park,Won Sun team(Jeonbuk National University)and Chu,Li team(Hebei Key Laboratory of Chinese Medicine Research on Cardio-Cerebrovascular Disease)have made outstanding contributions in this field,but there is less collaboration and communication between the teams and no network cooperation model has been formed.(3)Patch clamp technology is mainly used in the electrophysiological characteristics of the nervous system and the pathological mechanism of the disease,which is the focus of researchers'continuous attention.(4)In the study of electrophysiological characteristics of cardiovascular system and its pathological mechanism,the electrophysiological characteristics of primary cardiomyocytes and induced pluripotent stem cell-derived cardiomyocytes and the pathological mechanism of atrial fibrillation,cardiotoxicity,sudden cardiac death,hypertension and other cardiovascular diseases have been the focus of research in recent years.(5)In the application of patch clamp technology combined with other biotechnology,it will be an important research direction to focus on the cross fusion with optogenetics,two-photon calcium imaging and other technologies.(6)In the research of drug screening and identification of therapeutic targets,especially the research of patch clamp technology and traditional Chinese medicine compound,it will become a great help in the future research of component traditional Chinese medicine.

Acute carbon monoxide poisoning (ACMP) is one of the most common gas poisonings in the emergency department, with tens of thousands of people seeking medical attention for carbon monoxide (CO) poisoning each year. The severity of poisoning is dependent upon environmental and human factors, with hypoxia and oxidative stress being important mechanisms of cardiac toxicity induced by CO. Myocardial involvement is common in moderate to severe ACMP, including myocardial injury, myocardial infarction, arrhythmia, and sudden death, which are associated with a high risk of death. Ferroptosis is a cell death mechanism caused by iron-dependent lipid peroxidation (LPO), although ferroptosis has been shown to play a critical role in various cardiovascular diseases, the potential mechanism by which it contributes to ACMP-induced myocardial injury is unclear. This review discusses the established link between ferroptosis and cardiovascular disease and summarizes the potential role of ferroptosis in ACMP-induced myocardial injury and the detrimental effects of ACMP on the heart. Elucidating these mechanisms could guide the development of novel therapeutic strategies that target ferroptosis to mitigate ACMP-induced myocardial injury. This review aims to provide a theoretical foundation for future research on the potential use of ferroptosis as a therapeutic target for ACMP-induced myocardial injury.
Humans ; Carbon Monoxide Poisoning/complications* ; Ferroptosis ; Lipid Peroxidation ; Myocardium/pathology* ; Oxidative Stress

Objective To investigate the effects of hypoxia on the transcriptional phenotype and ultrastructure of tumor-associated macrophages(TAMs)in glioma.Methods CD14+monocytes were isolated from healthy human peripheral blood samples collected from the Blood Bank of the First Affiliated Hospital of Army Medical University,and the cells were induced to differentiate into TAMs through co-culture with glioma cell-conditioned medium.Hypoxic TAM models were established using varying concentrations of cobalt chloride hexahydrate(CoCl2,50～400 μmol/L)or hypoxic conditions(1%,5%,10%O2)for 48 h,while normoxic TAM models(21%O2)served as controls.RT-qPCR and transcriptome sequencing were employed to analyze transcriptional changes in TAMs under normoxic and hypoxic conditions.Gene set enrichment analysis(GSEA)was applied to compare the differences in angiogenesis,glycolysis and other hypoxia-responsive pathways between the 2 conditions.Transmission electron microscopy(TEM)or immunofluorescence staining was conducted to assess the ultrastructural alterations in cytoskeleton,endoplasmic reticulum(ER),and mitochondria in normoxic and hypoxic TAMs(1%O2).Results Hypoxic TAMs exhibited up-regulated transcription of hypoxia-responsive markers(oxygen transport,glycolysis,pro-angiogenesis),with the effects correlating with hypoxia severity(P<0.05).GSEA revealed significant up-regulation of hypoxia,angiogenesis regulation,glycolysis and gluconeogenesis,and starvation stress pathways,alongside down-regulation of innate immunity,macrophage activation,cytoskeleton,and protein maturation pathways in hypoxic TAMs(P<0.05).TEM and immunofluorescence staining demonstrated obvious ultrastructure changes,including disrupted cytoskeletal organization,shortened rough ER with reduced ribosomes,mitochondrial swelling with cristae damage,and diminished ER-mitochondria contacts in hypoxic TAMs.Conclusion CoCl2 and hypoxia induce a hypoxic transcriptional phenotype in TAMs,which may potentially associated with ultrastructural remodeling of the cytoskeleton,ER,and mitochondria.

BACKGROUND:Patch clamp technique has been developed for more than 40 years as the"gold standard"for the study of ion channels.However,the research content of scientific research institutions is relatively independent,and the existing research results are not systematically summarized,which leads to the phenomenon of high repeatability and weak innovation in the existing research.Therefore,it is urgent to make a comprehensive review of patch clamp technology to clarify the current research status,hot spots,and future development direction.OBJECTIVE:To summarize the research status and development trend of patch clamp technique in recent 10 years.METHODS:Publications on patch clamp technology from 2013 to 2023 were collected using the Web of Science core collection database.CiteSpace and VOSviewer software were used to quantify the number of publications and analyze the network of literature entries,including countries,institutions,journals,authors,keywords,highly cited literature,and co-cited references.RESULTS AND CONCLUSION:(1)In recent 10 years,the research in the field of patch clamp technology has gradually entered a stage of stable development.(2)China and the United States are the leading countries in this regard.The Chinese Academy of Sciences is an institution with core influence.Journal of Neuroscience is the main publication.Park,Won Sun team(Jeonbuk National University)and Chu,Li team(Hebei Key Laboratory of Chinese Medicine Research on Cardio-Cerebrovascular Disease)have made outstanding contributions in this field,but there is less collaboration and communication between the teams and no network cooperation model has been formed.(3)Patch clamp technology is mainly used in the electrophysiological characteristics of the nervous system and the pathological mechanism of the disease,which is the focus of researchers'continuous attention.(4)In the study of electrophysiological characteristics of cardiovascular system and its pathological mechanism,the electrophysiological characteristics of primary cardiomyocytes and induced pluripotent stem cell-derived cardiomyocytes and the pathological mechanism of atrial fibrillation,cardiotoxicity,sudden cardiac death,hypertension and other cardiovascular diseases have been the focus of research in recent years.(5)In the application of patch clamp technology combined with other biotechnology,it will be an important research direction to focus on the cross fusion with optogenetics,two-photon calcium imaging and other technologies.(6)In the research of drug screening and identification of therapeutic targets,especially the research of patch clamp technology and traditional Chinese medicine compound,it will become a great help in the future research of component traditional Chinese medicine.

Scientifically preparing technical requirement for medical equipment can ensure that the purchase results meet the actual needs of the hospital.This study introduces the platform guarantee model implemented by the First Affiliated Hospital of Sun Yat-sen University in the management of medical equipment,analyzes the advantages,disadvantages,opportunities,and challenges of technical requirement preparation based on this model management,and proposes optimization strategies based on the analysis results,aiming to provide reference for the technical requirement preparation in general hospitals.

ObjectiveTo employ the effective components and antiarrhythmic mechanism of Wenxin Granules （WXKL） by cell membrane chromatography （CMC） and ultra-performance liquid chromatography-quadrupole time-of-flight mass spectrometry （UPLC-Q-TOF/MS）， combined with network pharmacology. MethodIn this study， the CMC/UPLC-Q-TOF/MS technique was employed to identify the components in WXKL that could specifically bind to myocardial cell membranes. By utilizing databases such as SwissTarget Prediction and GeneCards， the targets of WXKL's effective components and arrhythmia-related targets were mined. Cytoscape software was used to construct a "component-target-disease" network. Gene ontology（GO） function and Kyoto encyclopedia of genes and genomes（KEGG） pathway enrichment analyses were carried out， and molecular docking of key components and targets was performed. Finally， further verification was conducted through in vivo experiment of rats. ResultA total of 39 effective components were identified in WXKL. These included 13 components derived from Panax notoginseng， 15 components from Codonopsis pilosula， seven components from Glycyrrhizae Radix et Rhizoma， one component from Succinum， one component from Polygonatum odoratum， one component shared by both P. odoratum and C. pilosula， and one component shared by both Panax notoginseng and C. pilosula. Network pharmacology predicted that WXKL had 16 core antiarrhythmic targets and 79 related pathways， mainly involving adrenergic signaling in cardiomyocytes， cyclic guanosine monophosphate （cGMP）/protein kinase G （PKG）， calcium signal， cyclic adenosine monophosphate （cAMP）， interleukin （IL）-17， mitogen-activated protein kinase （MAPK）， and tumor necrosis factor （TNF） signaling pathways. The results of in vivo experiment of rats showed that WXKL significantly improved the expression of β₁-adrenergic receptor （β₁-AR）， cAMP， TNF-α， and calcium voltage-gated channel subunit alpha 1C （CACNA1C）. ConclusionWXKL can exert its antiarrhythmic effects through multiple components， multiple targets， and multiple pathways. This study provides a scientific basis for explaining the potential pharmacodynamic substance foundation and mechanism of action of traditional Chinese medicine in treating arrhythmia.

Purpose/Significance To construct a specialized database for inflammatory demyelinating disease of the central nervous system(CNS),so as to contribute to clinical research and improve the diagnostic and treatment capabilities of primary healthcare institu-tions.Method/Process Using the internet to collect medical data,after processing and analysis,the CNS inflammatory demyelinating disease database is constructed.Using statistical analysis,natural language processing(NLP),artificial intelligence(AI)image recog-nition and data visualization and other technologies,the database information is integrated and analyzed.Result/Conclusion A standard-ized big database for CNS inflammatory demyelinating diseases is constructed,which enables visualization of clinical research data,pro-vides patient education and specialist training,and facilitates multi-center teleconsultations.The establishment of a specialized database for the CNS inflammatory demyelinating disease can promote the transformation of medical research achievements,provide references for future real-world clinical research,optimize the process of diagnosis and treatment,and improve the clinical capability of primary healthcare institutions.

Scientifically preparing technical requirement for medical equipment can ensure that the purchase results meet the actual needs of the hospital.This study introduces the platform guarantee model implemented by the First Affiliated Hospital of Sun Yat-sen University in the management of medical equipment,analyzes the advantages,disadvantages,opportunities,and challenges of technical requirement preparation based on this model management,and proposes optimization strategies based on the analysis results,aiming to provide reference for the technical requirement preparation in general hospitals.

Objective:To study the clinical characteristics and prognosis of Brucella and other pathogens infections complicated with anti-myelin oligodendrocyte glycoprotein-IgG associated disorders (MOGAD). Methods:The clinical data of a patient with brucellosis complicated with MOGAD diagnosed in the Department of Neurology of the First Affiliated Hospital of Zhengzhou University in April 2022 were reported, and related case reports of infection coexisting with MOGAD were reviewed and summarized.Results:This case was a 44-year-old male, with recurrent fever and anorexia, followed by sudden weakness, numbness, pain in both lower limbs and dysuria, and then pain in the right neck. Magnetic resonance imaging showed lesions in the spine and spinal cord. Due to the positive myelin oligodendrocyte glycoprotein antibodies in cerebrospinal fluid and serum, and the growth of Brucella in blood culture, he was diagnosed as brucellosis complicated with MOGAD. After anti-brucellosis and glucocorticoid therapy, his symptoms improved. The literature on infection coexisting with MOGAD was reviewed and 22 cases were included. The infection sources included COVID-19, Borrelia burgdorferi, etc. No case of Brucella infection complicated with MOGAD had been reported. The main clinical manifestations of the 22 cases included myelitis (63.6%, 14/22), optic neuritis (40.9%, 9/22), acute disseminated encephalomyelitis (18.2%, 4/22), multiphasic disseminated encephalomyelitis (4.5%, 1/22) and meningoencephalitis (4.5%, 1/22). Magnetic resonance imaging was performed in 20 cases, showing spinal cord lesions in 12 cases (60.0%, 12/20), intracranial lesions in 10 cases (50.0%, 10/20) and optic nerve lesions in 6 cases (30.0%, 6/20). Cerebrospinal fluid examination was performed in 19 patients, of whom 13 (13/19) had increased cerebrospinal fluid cell count and 10 (10/18) had increased cerebrospinal fluid protein. Twenty-two patients received glucocorticoid therapy, of which 95.5% (21/22) responded well and 95.5% (21/22) had a good prognosis. Conclusions:Brucella and other pathogens infection may complicate with MOGAD, with similar clinical manifestations, and glucocorticoid therapy is effective.

Exosomes are small vesicles with a diameter of about 40-160 nm actively secreted by cells. They participate in a variety of pathophysiological processes and are closely related to the occurrence and development of diseases. As a newly carrier of intercellular communication and circulating biomarkers of disease diagnosis and prognosis, exosomes have attracted great attention for their potential clinical applications. However, many aspects such as exosome biogenesis, targeted transport, and mechanism of action are still unclear. This paper focuses on the exosome biogenesis, summarizes the exosome biogenesis pathways, and describes relevant molecular modulation mechanisms of importance. And this review provides a theoretical basis for disease treatment based on regulating exosome production.