ABSTRACT
MicroRNAs (miRNAs)are small,non-coding RNAs that regulate the translation of specific protein coding genes. Recent studies have revealed the role of miRNAs in a variety of basic biological and pathological processes.Previous studies have suggested miRNAs can be servered as a new tumor biomarker in the early diagnosis,treatment and assessment of prog-nosis of CRC,which also can be servered as the treatment target in vivo of CRC patients.This paper reviews the expression and targets of miRNAs,its mechanism of the development and prospect in clinical application in CRC.
ABSTRACT
Since there is a clinical need for the tissue-engineered vascular graft (TEVG), fabricating the vascular scaffold individually appears to be necessary. In this work, we have developed the traditional tubular scaffold and branch vascular scaffold utilizing low-temperature deposition manufacturing (LDM) technology. Then different tubular scaffolds were fabricated by changing the processing parameters, and the morphological properties of the scaffolds were assessed. The scaffolds reproduced the structure of 3D vascular model accurately. Wall thickness of the scaffold increased with the increase of velocity ratio (V(L)/V(s)) and nozzle temperature, and both the micropore size and wall roughness were positively correlated with the nozzle temperature. However, the porosity was barely affected by the nozzle temperature. This approach, fabricating vascular scaffold with special structure and appearance features via LDM technology, is potential for the individual fabrication of vascular scaffold.