Objective To investigate the diagnostic value and significance of myocardial injury markers in neonates.Methods A retrospective analysis of 838 cases of myocardial injury markers in neonates,the total positive rate of hs -cTnI and the positive rates of hs -cTnI(hypersensitivity cardiac troponin I)in different kinds of neonatal disease were calculated,the levels of abnormalities consistent rate in hs -cTnI and CK -MBmass(creatine kinase MB mass)were compared with hs -cTnI and MYO(Myoglobin).Results The total positive rate of hs -cTnI was 40.33% in the 838 neonates.The highest incidence of myocardial injury was neonatal sepsis (57.14%),followed by neonatal pulmonary hemorrhage (55.56%)and neonatal convulsions (54.55%).The abnormalities consistent rate of hs -cTnI and CK -MBmass was better than hs -cTnI and MYO (85.50% vs 28.11%,χ2 =226.9,P <0.05). Conclusion Neonatal hospitalized children often complicated by myocardial injury;As a biochemical myocardial injury marker,the hs -cTnI detection is important for early detection of myocardial injury,it should be recommend as routine test items;CK -MBmass has better correlation with hs -cTnI than MYO,which can provide guide for doctors to interpret the data of myocardial injury markers.

Objective:To learn about the single nucleotide polymorphism (SNP) population structure and regional distribution characteristics of Yersinia pestis in the natural focus of plague in Qinghai-Tibet Plateau. Methods:A total of 319 representative strains of Yersinia pestis isolated from natural focus of plague in Qinghai-Tibet Plateau from 1954 to 2020 were selected, and 2 298 SNP loci included in the global Yersinia pestis phylogenetic tree were compared by whole genome sequencing technology. MEGA 6.0 software was used to construct phylogenetic trees of 319 strains of Yersinia pestis from Qinghai-Tibet Plateau, determine the SNP population structure of Yersinia pestis in the focus, and describe its regional distribution characteristics. Results:The 319 strains of Yersinia pestis isolated from Qinghai-Tibet Plateau natural plague foci were distributed in 5 clades, namely 1.IN, 2.ANT, 3.ANT, 0.PE and 2.MED. The 1.IN clade contained 209 strains (65.52%, 209/319), which was the dominant population of strains in Qinghai Province, accounting for 90.51% (143/158). The 2.ANT clade contained 83 strains (26.02%, 83/319), which was the dominant population in Tibet Autonomous Region, accounting for 67.24% (78/116). The 3.ANT, 0.PE, and 2.MED clades contained 12 (3.76%, 12/319), 9 (2.82%, 9/319) and 6 strains (1.88%, 6/319), respectively, which were scattered in Qinghai Province, Gansu Province, Sichuan Province, Tibet Autonomous Region, and Xinjiang Uygur Autonomous Region under the jurisdiction of Qinghai-Tibet Plateau. Conclusion:The SNP population structure of Yersinia pestis in natural focus of plague in Qinghai-Tibet Plateau is relatively rich, and the strains are distributed in 5 clades: 1.IN, 2.ANT, 3.ANT, 0.PE and 2.MED, showing the distribution characteristics of specific regions.

Objective:To observe the development process of the neuronal synapse in cerebral cortex and basal ganglionic eminence(GE)regions of the mice,and to clarify the differences in the development of excitatory and inhibitory synapses in different brain regions in vivo and in vitro.Methods:The female C57BL/6 mice were euthanized by cervical dislocation from the 13.5th day to the 15.5th day during the pregnancy,and the embryos were collected under the sterile conditions.The cortex and GE regions of brain tissue of the embryonic mice were gradually isolated under microscope.The primary neurons from the embryonic mice were cultured in vitro,and the cell samples were collected on the 3rd,7th,14th,and 21th days,respectively,and regarded as culture 3 d,7 d,14 d,and 21 d groups.The expression levels of postsynaptic density 95(PSD95)and Gephyrin mRNA in the primary neurons from the cortex and GE regions of the mice in various groups were detected by real-time fluorescence quantitative PCR(RT-qPCR)method.Immunofluorescence method was used to detect the expression levels of vesicular glutamate transporter 1(vGLUT1),PSD95,vesicular GABA transporter(vGAT),and Gephyrin proteins in the neurons from the cortex and GE regions of the mice in various groups.Immunofluorescence method was also used to detect the expression levels of vGLUT1 and vGAT proteins in the neurons from the cortical and GE regions in brain tissue of the embryonic mice.Results:Compared with culture 3 d group,the expression levels of PSD95 and Gephyrin mRNA in cortex and GE regions of the mice in culture 14 d and 21 d groups were significantly increased(P<0.01).Compared with cortex area,the expression level of Gephyrin mRNA in the neurons from GE region of the mice in culture 14 d group was significantly decreased(P<0.01).The microscope observation results showed that the excitatory and inhibitory synapses in the neurons from cortex and GE regions of the mice in culture 14 d group showed preliminary development,with positive expression of relevant proteins;among them,the excitatory synaptic proteins showed more distinct positive expression in the cortex neurons,and the presynaptic vGLUT1 and postsynaptic PSD95 molecules exhibited co-localization in the cell bodies and protrusions of the cortical neurons;the inhibitory presynaptic vGAT protein and postsynaptic Gephyrin protein in the neurons from GE region also exhibited co-localization in the cell bodies and protrusions,and there were more distinct expressions of the presynaptic molecule proteins than postsynaptic molecule proteins.Compared with cortex region,the levels of vGLUT1 and PSD95 proteins in the neurons from GE region of the mice in culture 14 d group were significantly decreased(P<0.01),while the levels of vGAT and gephyrin proteins were significantly increased(P<0.01).In culture 21 d group,the positive expressions of synaptic protein in the neurons from cortex and GE regions were increased,and the excitatory and inhibitory synapses further matured and enhanced.In the neurons from cortex and GE regions,rich patterns of corresponding pre-and postsynaptic expression were formed in the cell bodies and protrusions,and synapse structures showed gradual,positive development,with more apparent expression of presynaptic molecules compared wih postsynaptic proteins.Compared with cortex region,the levels of vGLUT1 and PSD95 proteins in the neurons from GE region of the mice in culture 21 d group were significantly decreased(P<0.01),and the levels of vGAT and Gephyrin proteins were significantly increased(P<0.01).Compared with cortex region,the expression level of vGLUT1 protein in the neurons from GE region in brain tissue of the embryonic mice was significantly decreased(P<0.01),while the expression level of vGAT protein was significantly increased(P<0.05).Conclusion:There are distinct differences in synaptic development between the neurons from cortex and GE regions,the excitatory synapses develope earlier in the cortical region and the inhibitory synapses develope earlier in the GE region.The region-specific development of synapses suggests that different types of neural diseases with different cell types might originate from different developmental processes.

Parvalbumin interneurons belong to the major types of GABAergic interneurons. Although the distribution and pathological alterations of parvalbumin interneuron somata have been widely studied, the distribution and vulnerability of the neurites and fibers extending from parvalbumin interneurons have not been detailly interrogated. Through the Cre recombinase-reporter system, we visualized parvalbumin-positive fibers and thoroughly investigated their spatial distribution in the mouse brain. We found that parvalbumin fibers are widely distributed in the brain with specific morphological characteristics in different regions, among which the cortex and thalamus exhibited the most intense parvalbumin signals. In regions such as the striatum and optic tract, even long-range thick parvalbumin projections were detected. Furthermore, in mouse models of temporal lobe epilepsy and Parkinson's disease, parvalbumin fibers suffered both massive and subtle morphological alterations. Our study provides an overview of parvalbumin fibers in the brain and emphasizes the potential pathological implications of parvalbumin fiber alterations.
Mice ; Animals ; Epilepsy, Temporal Lobe/pathology* ; Parvalbumins/metabolism* ; Parkinson Disease/pathology* ; Neurons/metabolism* ; Interneurons/physiology* ; Disease Models, Animal ; Brain/pathology*