Objective:To screen the differentially expressed miRNAs in umbilical cord tissue of children with nonsyndromic cleft lip and/or cleft palate( NSCL/P) using miRNA microarray and comprehensive bioinformatics analysis for the prediction of related the bio-logical process and signaling pathways. Methods:Umbilical cord tissues of 4 cases of healthy newborns' and 4 lip or palate tissues of 4 cases with NSCL/P without other disease aged younger than 2 years were collected. The differentially expressed miRNAs were screened by miRNA microarray. Targets of dysrugulated miRNAs were predicted by TARGETSCAN-VERT, MIRDB and RNA22-HSA. All the gene sets were analyzed by gene ontology and pathway enrichment. Results: MiRNA microarray demonstrated that 254 miRNAs were dysregulated(181 miRNAs were up-regulated and 73 downregulated,P <0. 05). The dysregulated miRNAs targets contained 5029 genes. The dysregulated miRNAs targets were enriched in anatomical structure development,cell adhesion,cell proliferation,cell motili-ty and other biological processes. The dysregulated miRNAs targets were enriched in Wnt, mTOR, cGMP-PKG, TGFβ, PI3K-Akt and other signaling pathways. Conclusion:The target genes set of miRNAs are enriched in multiple biological processes and signaling path-ways related to NSCL/P, which indicate that genetic and environmental factors may influence the development process of NSCL/P.

Ischemic stroke has a higher disability and mortality rate. Good collateral circulation is beneficial to improve the success rate of ischemic stroke reperfusion, and is associated with good outcome. Collateral blood flow can prolong the survival time of brain tissue after occlusion of the intracranial artery, so improving collateral blood flow may become a potential therapeutic target for ischemic stroke.