1.Evaluation of in vitro/in vivo correlation for three kinds of self-designed sustained-release nitrendipine formulations using deconvolution method.
Ming-shi YANG ; Ben-gang YOU ; Ming-hua YANG ; Dong-mei CUN ; An-jin TAO ; Fu-de CUI
Acta Pharmaceutica Sinica 2004;39(9):738-741
AIMTo evaluate the in vitro/in vivo correlation for three kinds of self-designed sustained-release nitrendipine formulations using deconvolution method.
METHODSThe characteristics of in vivo release were calculated by deconvolution method using the data of plasma concentration of three kinds of self-designed sustained-release nitrendipine formulations in healthy dogs, in which the in vivo results of nitrendipine solution after oral administrated to dogs were used as weight function. It was the compared with characteristics of in vitro release to assess the in vitro/in vivo correlations.
RESULTSThe good correlations of in vitro/in vivo were shown in three kinds of self-designed sustained-release nitrendipine formulations using deconvolution method.
CONCLUSIONThe deconvolution method exhibited advantage in evaluation of in vitro/in vivo correlation for self-designed sustained-release nitrendipine formulations.
Administration, Oral ; Animals ; Delayed-Action Preparations ; Dogs ; Methylcellulose ; analogs & derivatives ; Microspheres ; Nitrendipine ; administration & dosage ; blood ; pharmacokinetics ; Powders ; Silicone Gels ; Technology, Pharmaceutical ; methods
2.Cryptosporidium infection in Nanjing City from 2015 to 2016
cai Pei YANG ; ying Hong ZHANG ; Wei ZHOU ; gang Wei YIN ; Pei WU ; Ke ZHANG ; sheng Hong FU ; rong Ben YOU ; xin Li WAN ; Jun YOU
Chinese Journal of Schistosomiasis Control 2017;29(6):752-755
Objective To investigate the status of Cryptosporidium infection in the population in Nanjing City so as to pro-vide the evidence for the prevention and control of cryptosporidiosis. Methods A total of 100 fecal samples were collected from each of three districts(Liuhe,Qixia and Gaochun)and one hospital(Nanjing Zhongda Hospital)in 2015 and 2016 respective-ly. The fecal samples were detected for Cryptosporidium with microscopy(by using the gold amine phenol-modified acid-fast staining)and the positive samples were detected again for the molecular biology confirming by using the fluorescence quantita-tive PCR. Results During the two years,581 cases of normal population who lived in the city were surveyed and no Cryptospo-ridium infection was found. Among 202 cases of outpatients with chronic diarrhea,there were 9 Cryptosporidium positive cases with the microscope scanning method (4.46%),and among the 9 cases,7 cases showed obvious logarithmic amplification curves showing positive Cryptosporidium nucleic acid,but 2 cases without the obvious logarithmic amplification curves,and the Cryptosporidium nucleic acid positive rate was 3.47%. Conclusions Cryptosporidium infection is not found in the normal popu-lation of Nanjing City,but the Cryptosporidium infection is found in the chronic diarrhea patients. The results imply that we should strengthen the detection of Cryptosporidium in the chronic diarrhea patients,so as to provide the evidence for improving the diagnosis and treatment of cryptosporidiosis.
3.Study on safe use of 10% difenoconazole in GAP of Gentiana scabra.
Hai-Tao LIU ; Hong-Ke LIU ; Jian XUE ; You-Lan ZHENG ; Feng CHEN ; Ben-Gang ZHANG
China Journal of Chinese Materia Medica 2008;33(18):2096-2098
OBJECTIVETo investigate the safe use of 10% difenoconazole in planting Gentiana scabra.
METHODThe degradation dynamics of 10% ifenoconazole in the stems and leaves of G. scabra collecting in different time were determined by GC with ECD detection, and the half life of difenoconazole in the plant was calculated, and then the safe use method of 10% difenoconazole was formulated.
RESULTUnder the local climatic conditions, the half life of 10% difenoconazole was 6.84-6.90 days.
CONCLUSIONIn the good agricultural practice (GAP) of G. scabra, the maximal concentration of 10% difenoconazole is 400 g x ha(-1), the safety interval of using 10% difenoconazole is 40 days.
Agriculture ; methods ; Dioxolanes ; pharmacokinetics ; Gentiana ; metabolism ; Half-Life ; Plant Leaves ; metabolism ; Plant Stems ; metabolism ; Time Factors ; Triazoles ; pharmacokinetics