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Chae, Jung-Woo,Chua, Peh Siang,Ng, Terence,Yeo, Angie Hui Ling,Shwe, Maung,Gan, Yan Xiang,Dorajoo, Sreemanee,Foo, Koon Mian,Loh, Kiley Wei-Jen,Koo, Si-Lin,Chay, Wen Yee,Tan, Tira Jing Ying,Beh, Sok Yu Springer-Verlag 2018 Breast cancer research and treatment Vol.168 No.3
<P>This is the first study to show that the reduction of mtDNA content in peripheral blood is associated with the onset of CRF in patients receiving chemotherapy. Further validation studies are required to confirm the findings.</P>
Jaysiva Ganesamurthi,Xiang-Ren Chen,Ruey-Shin Juang,Siang-Yu Wei,Da-Yuan Lin 한국공업화학회 2023 Journal of Industrial and Engineering Chemistry Vol.127 No.-
In recent decades, nitroimidazole derivatives have played an effectual role against bacterial and protozoaninfections that can be used as anti-cancer and antibiotic drugs. Ornidazole (ORD) consists of a major5-imidazole nucleus which complements to first nitro groups, ORD invades into lipid tissue and othernitroimidazole derivatives. The periodic intake of ORD orally causes side effects of headache, nausea,vomiting, and breathing difficulties such effects need potential monitoring and develop essential electrochemicalsensing toward ORD. In this study, we developed a ternary cobalt germanium oxide (Co2GeO4)nanoparticle prepared by a facile hydrothermal method and followed by calcination. The carbon-basedgraphitic carbon nitride (GCN, g-C3N4) nanosheets were therefore supported for electrochemical sensingapplications in order to improve the features like the catalytic activity, electrical conductivity, and activesurface area of Co2GeO4 composites. The structural, chemical composition, and morphological propertiesof samples were characterized. Subsequently, the fabrication of cobalt germanium oxide with graphiticcarbon nitride (Co2GeO4/GCN) was modified over a screen-printed carbon electrode (SPCE) towards electrochemicaldetection of ORD. Electrochemical measurements were recorded by cyclic voltammetry (CV)and differential pulse voltammetry (DPV) for the determination of ORD. The Co2GeO4/GCN nanocompositeexhibits a wide linear range response of 0.049–94.9 lM in DPV with a nanomolar limit of detection of7.2 nM of ORD and a high sensitivity of 2.66 lA lM1 cm2. An interference study was carried out for theCo2GeO4/GCN nanocomposite in the existence of hazardous metals, biological compounds, and similardrugs for examining the selectivity of the sensor. The proposed Co2GeO4/GCN nanocomposite revealssuperior sensing selectivity towards ORD; hence, repeatability, reproducibility, and storage stability wererecorded in their RSD and found to be less than 0.4%, adding to this practical feasibility of the sensor analyzedby real samples of blood serum & human urine with exceptional recovery percentages.