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- 저자 : Xiaozhong Zhang (검색결과 5 건)
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Kynurenine 3-monooxygenase is a critical regulator of renal ischemia–reperfusion injury
Xiaozhong Zheng,Ailiang Zhang,Margaret Binnie,Kris McGuire,Scott P. Webster,Jeremy Hughes,Sarah E. M. Howie,Damian J. Mole 생화학분자생물학회 2019 Experimental and molecular medicine Vol.51 No.-
Acute kidney injury (AKI) following ischemia–reperfusion injury (IRI) has a high mortality and lacks specific therapies. Here, we report that mice lacking kynurenine 3-monooxygenase (KMO) activity (Kmonull mice) are protected against AKI after renal IRI. We show that KMO is highly expressed in the kidney and exerts major metabolic control over the biologically active kynurenine metabolites 3-hydroxykynurenine, kynurenic acid, and downstream metabolites. In experimental AKI induced by kidney IRI, Kmonull mice had preserved renal function, reduced renal tubular cell injury, and fewer infiltrating neutrophils compared with wild-type (Kmowt) control mice. Together, these data confirm that flux through KMO contributes to AKI after IRI, and supports the rationale for KMO inhibition as a therapeutic strategy to protect against AKI during critical illness.
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Effects of Reynolds number on the flow field in a low-pressure turbine with incoming wakes
Xu Zhao,Yunfei Wang,Xiaozhong Ma,Yaowen Zhang,Long Yue,Bin Zheng 대한기계학회 2023 JOURNAL OF MECHANICAL SCIENCE AND TECHNOLOGY Vol.37 No.11
In order to further understand the effects of the Reynolds number on the flow field within a low-pressure turbine with incoming wakes, the transition SST turbulence model was employed for numerical simulation under four Reynolds number conditions ranging from 0.6×10 5 to 3.0×10 5 . The numerical results showed that the boundary layer separation at the rear part of the suction surface was prone to occur in the condition of low Reynolds number (Re 2th = 0.6×10 5 ), and the separation bubble was semi-open and semi-closed. The separation bubble impedes the development of the passage vortex and wall vortex towards mid-span region. When the Reynolds number exceeds 1.0×10 5 , boundary layer separation does not occur. The influence of Reynolds number on the total pressure loss coefficient is primarily evident on the suction surface side, and the growth rate of total pressure loss coefficient first increases and then decreases along the streamwise direction. As the Reynolds number increases from 0.6×10 5 to 3.0×10 5 , the peak point location of total pressure loss decreases by approximately 12 %. The influence of Reynolds number on corner vortex and wall vortex is relatively more sensitive compared to that of passage vortex.
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Jian Xue,Zefei Jiang,Fan Qi,Shuanghong Lv,Shaohua Zhang,Tao Wang,Xiaozhong Zhang 한국유방암학회 2014 Journal of breast cancer Vol.17 No.4
Purpose: In the present study, we investigated the incidence ofcardiotoxicity within 5 years of trastuzumab treatment and evaluatedpotential risk factors in clinical practice. Methods: The studycohort included 415 patients diagnosed with early breast cancer(EBC). Cardiotoxicity incidence was evaluated in patients receivingtrastuzumab and those who did not. Multivariate Cox proportionalhazards regression models were used to estimate hazardratios and 95% confidence intervals of potential risk factorsfor trastuzumab-related cardiotoxicity after appropriate adjustments. Results: Incidence of cardiotoxicity in patients treatedwith trastuzumab was significantly higher than that in controls(23.7% vs. 10.8%, p<0.001). This result was adjusted for factorsthat might increase the risk of cardiotoxicity, such as historyof coronary artery diseases or the use of anthracyclines for morethan four cycles. Conclusion: Our findings indicated that treatmentwith trastuzumab was strongly associated with cardiotoxicityin EBC patients.
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Graphitization of graphene oxide films under pressure
Chen, Xianjue,Deng, Xiaomei,Kim, Na Yeon,Wang, Yu,Huang, Yuan,Peng, Li,Huang, Ming,Zhang, Xu,Chen, Xiong,Luo, Da,Wang, Bin,Wu, Xiaozhong,Ma, Yufei,Lee, Zonghoon,Ruoff, Rodney S. Elsevier 2018 Carbon Vol.132 No.-
<P><B>Abstract</B></P> <P>Lightweight, flexible graphite foils that are chemically inert, high-temperature resistant, and highly electrically and thermally conductive can be used as component materials in numerous applications. “Graphenic” foils can be prepared by thermally transforming graphene oxide films. For this transformation, it is desirable to maintain a densely packed film structure at high heating rates as well as to lower the graphitizing temperatures. In this work, we discuss the pressure-assisted thermal decomposition of graphene oxide films by hot pressing at different temperatures (<I>i.e.</I>, 300 °C, 1000 °C, or 2000 °C). The films pressed at 1000 °C or 2000 °C were subsequently heated at 2750 °C to achieve a higher degree of graphitization. The combination of heating and pressing promotes the simultaneous thermal decomposition and graphitic transformation of G-O films. Films pressed at 2000 °C as well as films further graphitized at 2750 °C show high chemical purity, uniformity, and retain their flexibility. For films pressed at 2000 °C and then further heated at 2750 °C, the mechanical performances outperform the reported values of the “graphite” foils prepared by calendering exfoliated graphite flakes; the electrical conductivity is ∼3.1 × 10<SUP>5</SUP> S/m and the in-plane thermal conductivity is ∼1.2 × 10<SUP>3</SUP> W/(m·K).</P> <P><B>Graphical abstract</B></P> <P>[DISPLAY OMISSION]</P>
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Jiang, Yi,Ryu, Gyeong Hee,Joo, Se Hun,Chen, Xiong,Lee, Sun Hwa,Chen, Xianjue,Huang, Ming,Wu, Xiaozhong,Luo, Da,Huang, Yuan,Lee, Jeong Hyeon,Wang, Bin,Zhang, Xu,Kwak, Sang Kyu,Lee, Zonghoon,Ruoff, Rodn American Chemical Society 2017 ACS APPLIED MATERIALS & INTERFACES Vol.9 No.33
<P>Rational bottorritup construction of two-dimensional (2D) covalent or nonCovalent organic materials with precise structural control at the: atomic or molecular level remains a challenge. The design and synthesis of metal organic frameworks (MOFS) based on new building blocks is of great significance in achieving new types of 2D monolayer MOF films. Here, we demonstrate that a complexation between copper(II) ions and tri(beta-diketone) ligands yields a novel 2D MOF siyucture, either-inthe form of a powder.or.as a monolayer filth. It has been Characterized by Fourier transform infrared, Raman, ultraviolet-visible, X-ray photoelectron, and electron paramagnetic-resonance spectroscopies. Selected area electron diffraction and powder X-ray diffraction results show that the MOF is Crystalline and has a hexagonal structure. A MOF-based membrane has been prepared by vacuum filtration of an aqueous dispersion of the MOF powder onto a porous Anodisc filter having pore-size 0.02 mu m. The porous MOF membrane filters gold nanOparticies with a cutoff of similar to 2.4 nm.</P>
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