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Objective By taking usage of bioinformatics screening methods,this medical research aimed at exploring how the miRNAs in endothelial progenitor cell exosomes relate to the regulation of angiogenesis.Methods miRNAs in endothelial progenitor cells exosomes and angiogenesis-related miRNA was intersected from the existing database to obtain the candidates of miRNA molecules related to angiogenesis in endothelial progenitor exosomes.Results 160 and 50 miRNAs in endothelial progenitor cell candidates were obtained through experimental data analysis and literature searching respectively.600 candidates of angiogenesis-related miRNAs were obtained through literature searching;the top 20 with the highest frequency were selected out.Finally,9 miRNA candidates (miR-126,miR-21,miR-221,miR-92a,miR-199a,miR-210,miR-214,miR-155,miR-146a) that may be highly expressed in endothelial progenitor exosomes and associated with angiogenesis were obtained for the following research.Conclusions Based on data analysis and literature searching,bioinformatics could screen out the target miRNAs for follow-up studies easily and reliably,it is worthy to be widely applied and popularized.
RESUMO
Objective To prepare a new-type acellular dermal matrix (ADM) and research on its relevant performance,which would provide theoretical evidence for clinical application.Methods Skin of Bama suckling pig was taken as resource of skin,and technologies of physics,chemistry and biology were selected to prepare new-type ADM.To detect the external structure,physical and chemical property as well as biological property of the prepared new-type ADM,hematoxylin-eosin (HE) staining observation,scanning electron microscope observation,amino acid analysis,material porosity and hydrophilicity test,tensile strength and in vitro degradation experiment,cytotoxicity test,and animal experiment have been conducted.Results New-type ADM cells have been thoroughly removed and dermal matrix remains intact with collagen content of 95.55%,connective three-dimensional pore structure,(85.03 ± O.99) % of porosity,(24.56 ± 0.57) ° of contact angle implying new-type ADM was hydrophilic substance,(5.48 ± 0.44) Pa of tensile strength implying its moderate level of pulling force,in vitro degradation period reduced to (28.7 ± O.76) h,and >75% relative growth rate (RGR).Cells grew and proliferated on new-type ADM and could be replaced by original tissue after degradation.Conclusions New-type ADM have overcome disadvantages of traditional preparation method in sabotaging dermal matrix structure and incompletely removing cells from matrix,which is qualified with higher level of collagen content and porosity.With improved biological property,greatly reduced inflammation immunoreactions,and accelerated degradation rate,new-type ADM is of higher level of clinical application value.