Ting Fei Xi scite author profile

Ting Fei Xi

4Publications

57Citation Statements Received

41Citation Statements Given

How they've been cited

138

How they cite others

114

Affiliations

Shaanxi University of Science and Technology, Peking University, King University

Publications

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Cytotoxicity and altered c‐myc gene expression by medical polyacrylamide hydrogel

Fan

Feng

et al. 2006

J Biomedical Materials Res

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Medical Polyacrylamide Hydrogel (PAMG)has been used in plastic and aesthetic surgery for years. However, its safety is still in doubt in many countries. In the current research, first an approach, using high performance liquid chromatography (HPLC), to determine the amount of residual acrylamide monomer (AM) in the PAMG was presented. Then the cytotoxicity of PAMG was investigated using cell counting and methyl thiazolyl tetrazolium (MTT) assay. To explore the mechanism of this toxicity, normal human fibroblasts cultured in medium extracts were analyzed. Membrane changes and other related parameters were investigated using flow cytometry (FCM). Real time fluorescent polymerase chain reaction (real time PCR) was also introduced to determine the biological response of the fibroblasts. During this process, three representative genes (p53, beta-actin, and c-myc, which are tumor suppressor genes, housekeeping genes, and proto-oncogenes respectively) were selected for examination. Results indicated that a method based on HPLC is practical and simple for determining AM in PAMG. The detection limits can reach the desired ppb level, and so it can fully meet the requirements of the studies of PAMG. Polyacylamide Hydrogel inhibits the growth of human fibroblasts and may cause the apoptosis of human fibroblasts. Moreover, it can alter physical parameters such as the size and the granularity of these cells. Furthermore, these three genes have a relatively typical amplification plot and highly related, wide-range standard curves, and so this reaction system is definitely suitable for the semiquantification of these genes. PAMG induces the increase of the message ribonucleic acid (mRNA) expression of c-myc, while the p53 and beta-actin remain even. This change is not related to the concentration of AM in the gel and may be incited by other components in the extract of PMAG.

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Comparative study on effects of epoxy sizing involving ZrO2 and GO on interfacial shear strength of carbon fiber/epoxy composites through one and two steps dipping routes

Zhao

et al. 2020

Composites Part A: Applied Science and Manufacturing

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ZrO2 strengthened NiAl/Cr(Mo,Hf) composite fabricated by powder metallurgy

Sheng

Zhang

et al. 2012

Progress in Natural Science: Materials International

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<i>In Vitro</i> Structural Changes of Nano-Bacterial Cellulose Immersed in Phosphate Buffer Solution

Chen

Zheng

et al. 2011

JBBTE

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Abstract. Nano-bacterial cellulose (nBC), secreted by Acetobacter xylinum, is expected to have potential applications in tissue engineering. In this paper, the in-vitro degradation performance and the corresponding mechanism of nBC immersed in phosphate buffer solution (PBS) for different time periods was investigated. The pH value variation of solution, material degradation, and the swelling and structural changes of nBC was analysed successively. The results indicate that water molecules attack the exposed nBC fibrils, weakening the bonding strength of inter-and intra-molecular chains and disconnecting partial C-O-C bonds. The disconnection of C-O-C bonds is considered the primary reason for the degradation of nBC large molecular chains after nBC is immersed in PBS. The present work is instructive for controlling the in-vivo degradation performance of nBC acting as bone tissue engineered scaffold materials.

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Ting Fei Xi

Cytotoxicity and altered c‐myc gene expression by medical polyacrylamide hydrogel

Comparative study on effects of epoxy sizing involving ZrO2 and GO on interfacial shear strength of carbon fiber/epoxy composites through one and two steps dipping routes

ZrO2 strengthened NiAl/Cr(Mo,Hf) composite fabricated by powder metallurgy

<i>In Vitro</i> Structural Changes of Nano-Bacterial Cellulose Immersed in Phosphate Buffer Solution

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