The aim of the research was to investigate the pharmacokinetics(PK) of enteric-coated mycophenolate sodium(EC-MPS) by quantification of the active metabolite of mycophenolic acid(MPA)after multiple escalating oral dos...The aim of the research was to investigate the pharmacokinetics(PK) of enteric-coated mycophenolate sodium(EC-MPS) by quantification of the active metabolite of mycophenolic acid(MPA)after multiple escalating oral doses in Han kidney transplant recipients. A total of 28 Han postoperative kidney transplant recipients were given a multiple-dose of 540, 720 or 900 mg of EC-MPS two times a day in combination with tacrolimus for 6 days. Blood specimens were collected at each time point from0 to 12 h after EC-MPS administration. MPA plasma concentrations were measured by UPLC–UV. The relationship between the EC-MPS dose and its PK parameters was assessed. In the range from 540 to900 mg, C_(max) and AUC_(0–12h) did not increase with dose escalation. The AUC_(0–12h), C_(max), C_0 and T_(max) for the 540 720 and 900 mg doses were not significantly different, respectively(P 40.05). AUC_0–12 h and C_(max) were increased less than proportionally with increasing EC-MPS dose levels. Inter-individual variability in AUC_(0–12h), C_(max) and C_0 were considerable. Nonlinear PK relationships were found from the doses of 540–900 mg of EC-MPS.展开更多
In search of effective and stable bifunctional electrocatalyst for electrocatalytic water splitting is still a major challenge for the highly efficient H_(2) production.Here,we reported a facile strategy to design hig...In search of effective and stable bifunctional electrocatalyst for electrocatalytic water splitting is still a major challenge for the highly efficient H_(2) production.Here,we reported a facile strategy to design high-indexed Cu_(3)Pd_(13)_S_(7) nanoparticles(NPs)in situ synthesized on the three-dimensional(3D)carbon nanofibers(CNFs)by combining electrospinning and chemical vapor deposition(CVD)technology.The high-index facets with abundant active sites,the 3D architecture CNFs with high specific surface area and synergistic effect of Cu-Pd-S bonds with strong electron couplings together promote the elec-trocatalytic performance.The Cu_(3)Pd_(13)_S_(7)/CNFs shows excellent electrocatalytic activity with low overpotentials of 52 mV(10 mA cm^(−2))for hydrogen evolution reaction(HER)and 240 mV(10 mA cm^(−2))for oxygen evolution reaction(OER).The excellent protection of Cu_(3)Pd_(13)_S_(7) by CNFs from aggregation and electrolyte corrosion lead to the high stability of Cu_(3)Pd_(13)_S_(7)/CNFs under acidic and alkaline conditions.展开更多
基金supported by the youth fund of The First Affiliated Hospital of Zhengzhou University
文摘The aim of the research was to investigate the pharmacokinetics(PK) of enteric-coated mycophenolate sodium(EC-MPS) by quantification of the active metabolite of mycophenolic acid(MPA)after multiple escalating oral doses in Han kidney transplant recipients. A total of 28 Han postoperative kidney transplant recipients were given a multiple-dose of 540, 720 or 900 mg of EC-MPS two times a day in combination with tacrolimus for 6 days. Blood specimens were collected at each time point from0 to 12 h after EC-MPS administration. MPA plasma concentrations were measured by UPLC–UV. The relationship between the EC-MPS dose and its PK parameters was assessed. In the range from 540 to900 mg, C_(max) and AUC_(0–12h) did not increase with dose escalation. The AUC_(0–12h), C_(max), C_0 and T_(max) for the 540 720 and 900 mg doses were not significantly different, respectively(P 40.05). AUC_0–12 h and C_(max) were increased less than proportionally with increasing EC-MPS dose levels. Inter-individual variability in AUC_(0–12h), C_(max) and C_0 were considerable. Nonlinear PK relationships were found from the doses of 540–900 mg of EC-MPS.
基金supported by the National Natural Science Foundation of China(NSFC)(Grant nos.51803077,52073124)Natural Science Foundation of Jiangsu Province(Grant nos.BK20180627)+3 种基金Postdoctoral Science Foundation of China(2018M630517,2019T120389)the MOE and SAFEA,111 Project(B13025)the national first-class discipline program of Light Industry Technology and Engineering(LITE2018-19)the Fundamental Research Funds for the Central Universities.
文摘In search of effective and stable bifunctional electrocatalyst for electrocatalytic water splitting is still a major challenge for the highly efficient H_(2) production.Here,we reported a facile strategy to design high-indexed Cu_(3)Pd_(13)_S_(7) nanoparticles(NPs)in situ synthesized on the three-dimensional(3D)carbon nanofibers(CNFs)by combining electrospinning and chemical vapor deposition(CVD)technology.The high-index facets with abundant active sites,the 3D architecture CNFs with high specific surface area and synergistic effect of Cu-Pd-S bonds with strong electron couplings together promote the elec-trocatalytic performance.The Cu_(3)Pd_(13)_S_(7)/CNFs shows excellent electrocatalytic activity with low overpotentials of 52 mV(10 mA cm^(−2))for hydrogen evolution reaction(HER)and 240 mV(10 mA cm^(−2))for oxygen evolution reaction(OER).The excellent protection of Cu_(3)Pd_(13)_S_(7) by CNFs from aggregation and electrolyte corrosion lead to the high stability of Cu_(3)Pd_(13)_S_(7)/CNFs under acidic and alkaline conditions.