1.Contrast of Therapeutic Effects Between Two Schemes in Treating the CHB and the Cost-Effectiveness Analysis
Yingmei WU ; Waiping LUI ; Huiyan FU ;
Chinese Journal of Pharmacoepidemiology 2006;0(01):-
0.05)was found in the 2 groups.The costs of the 2 groups were 3270.84 yuan and 10 873.20 yuan respectively,and the cost-effectiveness rates were 37.38 and 117.55 respectively.Conclusion:Scheme A is an effective,safe and economical scheme in the treatment of CHB.
2.Content Determination of Ferulic Acid and Salvianolic Acid B in Yixin Tablets by HPLC
Fengxia XIAO ; Fengyun WANG ; Huiyan FU
Journal of Guangzhou University of Traditional Chinese Medicine 2000;0(04):-
[Objective] To establish a method for the determination of ferulic acid and salvianolic acid B contents in Yixin Tablets. [Methods] High pressure liquid chromatography (HPLC) was adopted. The chromatographic conditions were: 100-fold methanol as solvent, Bonification for 30min, gradient elution on C18 comlumn with acetonitrile and phosphoric acid as mobile phase, the detection wavelength being 320nm. [Results] Ferulic acid had a good linearity in the range of 0.024 32 - 0.729 60 ?g and r=0.999 9; salvianolic acid B had a good linearity in the range of 0.416 8-12.504 0?g and r = 0.9999; the average recovery rate was 100.95% in ferulic acid and 99.35% in salvianolic acid B respectively. [Conclusion] This method is simple, accurate and with good reproducibility.
3.HLA-G 14 bp gene tolvmorthism in relation to Epstein-Barr virus infection in children
Huiyan WANG ; Kegang TIAN ; Miao FU ; Yiping CHEN ; Xiaoqun ZHENG ; Shijun HE
Chinese Journal of Microbiology and Immunology 2012;32(4):358-362
Objective To explore the relationship between the HLA-G 14 bp insertion/deletion polymorphism and the infection of Epstein-Barr virus(EBV) for children.Methods The study genotyped HLA-G 14 bp insertion/deletion polymorphism of 102 infectious mononucleosis children and 165 normal controls by PCR-PAGE,detected the plasma sHLA-G level of 51 infectious mononucleosis children and 146 normal controls by ELISA.Results A significant difference was observed for the frequencies of the HLA-G 14 bp genotype between the two groups( x2 =6.742,P=0.034 ),and a significant difference was also observed for the 14 bp allele frequencies between the two groups( x2 =6.672,P=0.01 ).The plasma sHLA-G levels in the infectious mononucleosis children were dramatically higher than that in normal controls,and a significant difference was observed between the two groups( Z=-9.472,P<0.01 ).Among the infectious mononucleosis children,levels of sHLA-G was find a significant difference between the three genotypes of HLA-G 14 bp insertion/deletion polymorphism( H=6.09,P =0.048 ),and the level of s HLA-G with 14 bp+/+ genotype was markedly lower than that of the two other genotypes (Z=-2.376,P=0.01 8).Conclusion There was a relationship between the HLA-G 14 bp insertion/deletion polymorphism and the susceptibility to the infectious mononucleosis for children.Children who carried the 14 bp-/- genotype or deleted the 14 bp allele may have a significantly increased risk of the infection of EBV.The plasma sHLA-G might be considered as an index for auxiliary diagnosis infectious mononucleosis.
4.Studies of Anti- Human Papillomavirus Activity of Herba Arnebia
Huiyan FU ; Yuanhui DENG ; Yi FENG ; Jing SUN ; Dan ZHOU ; Hailan WANG
Traditional Chinese Drug Research & Clinical Pharmacology 1993;0(04):-
Objective To select the herba anti- human papillomavirus (HPV) active fraction from herba Arnebia. Methods The fractions from herba Arnebia. were separated with systematic solvents including petroleum arieal part of benzin, n- butanol , ethanol and distilled water, and their effects on HPV- DNA were evaluated by fluorescence quantitative polymerase chain reaction (FQ- PCR) technique. Results Only the water- extract of.this drug showed in- vitro inhibitory effect on HPV- DNA and its minimum effective concentration is 0.08g/mL. Conclusion Herba Arnebia. has in- vitro inhibitory effect on HPV- DNA and the active components exists in the water- extract.
5.Application of digital PCR technology in the precise molecular diagnosis: opportunities and challenges
Fengxin XIE ; Weidong JIN ; Huiyan TIAN ; Haiyan HE ; Weiling FU ; Yang ZHANG
Chinese Journal of Laboratory Medicine 2022;45(3):214-219
Digital polymerase chain reaction (dPCR) is an absolute quantitative technique that has been rapidly developed in recent years. This technique assigns the reaction system containing DNA template to a large number of independent reaction units for PCR, and calculates the DNA copy number according to the Poisson distribution and statistical positive signals. In contrast to conventional qPCR, dPCR does not depend on amplification curves, is not affected by amplification efficiency, thus has high accuracy and repeatability, and can achieve the absolute quantification. This article reviews the development history of dPCR and its application in molecular diagnosis, tumor liquid biopsy and prenatal diagnosis of infectious diseases, and looks forward to the application prospect of this technology.