1.Caudatin combined with Gefitinib reversing HGF induced non-small cell lung cancer to EGFR-TKI acquired drug resistance
Fangtian FAN ; Qingya BIAN ; Hongyan WU
Chinese Journal of Biochemical Pharmaceutics 2016;36(6):56-59
Objective To investigate the effect and underlying mechanism of Caudatin combined with Gefitinib on Gefitinib resistance induced by HGF in PC-9.Methods Model of EGFR-TKIs resistance in PC-9 cells was induced by exogenous HGF and co-cultured with MRC-5.Caudatin was tested as a drug resistant modulator to reverse the resistance of Gefitinib in PC-9 cells induced by HGF by MTT assay.Western blot was performed to observe the mechanism of Caudatin combined with Gefitinib reversing the resistance of PC-9 induced by HGF.Results The resistance of gefitinib to PC-9 was induced by exogenous HGF and co-cultured with MRC-5 which could reduce relative inhibitory rate ( P<0.05 ) .Neither caudatin ( 0-32 μM ) or Gefitinib (1μM) alone could significantly inhibit proliferation of PC-9 in the presence of HGF, which could be inhibited in a dose-dependent manner by Caudatin combined with Gefitinib ( P<0.05 ); Caudatin combined with Gefitinib down-regulated the phosphorylation levels of Met and PI3K/Akt simultaneously (P<0.05).Conclusion Caudatin could reverse the drug resistance of Gefitinib in PC-9 induced by HGF, the mechanism of which may be related to the inhibition of Met/PI3K/AKT pathway.
2.The Constructing Practice and Exploration Of Teaching Experiment Center of Pharmacy Specialty
Jingjia ZHANG ; Li LIN ; Qingya FAN
Chinese Journal of Medical Education Research 2003;0(04):-
By reviewing the practice of lab administrating system of reform in the School of Chinese Pharmaceutical Science in Guangzhou University of Chinese Medicine in recent years,we think that the setup of administrating system,the running mechanism and the reasonable allocation will be beneficial to and effective for further speeding up the experiment teaching reform in pharmacy specialty and improving the level of experiment teaching.
3.Analysis of treatment outcomes of elderly pulmonary tuberculosis aged 65 and above in Chongqing from 2015 to 2020
FAN Jun ; ZHANG Ya ; ZHANG Ting ; YU Ya ; SU Qian ; CHENG Jun ; WANG Qingya
China Tropical Medicine 2023;23(7):715-
Abstract: Objective To analyze the treatment outcomes of elderly patients with pulmonary tuberculosis in Chongqing, so as to provide reference for the prevention and control strategies of the epidemic of elderly pulmonary tuberculosis. Methods The data of tuberculosis cases aged ≥65 years in Chongqing from 2015 to 2020 were collected from the National Health Insurance Information Project Disease Prevention and Control Information system. Descriptive statistical methods were used to analyze the data. Results The registration rates of elderly active pulmonary tuberculosis patients and etiological positive patients were 110.95/10-5and 32.25/10-5 in 2015 and 84.06/10-5 and 57.29/10-5 in 2020. The annual decline rate of active tuberculosis registration was 5.40%, and the annual increase rate of pathogenic-positive tuberculosis registration was 12.18%. The registration rates of active tuberculosis patients and etiological positive patients in the whole population were 70.75/10-5 and 17.63/10-5 in 2015 and 50.34/10-5 and 29.14/10-5 in 2020. The annual decline rate of active tuberculosis registration was 6.58%, and the annual increase rate of pathogenic-positive tuberculosis registration was 10.57%. From 2015 to 2020, a total of 25 931 cases of elderly pulmonary tuberculosis were registered, of which 21 374 (82.43%) cases were successfully treated and 4 010 (15.80%) cases had unfavorable outcomes. The proportion of cured and death patients showed an increasing trend year by year (χ2trend=313.853, 100.502, P<0.01). From 2015 to 2020, the average annual successful treatment rate of elderly pulmonary tuberculosis in the whole city was 82.43%, with the lowest rate in southeast Chongqing (74.23%), followed by urban areas (81.99%). The success rate of elderly pulmonary tuberculosis treatment in the whole city, west Chongqing, northeast Chongqing and southeast Chongqing showed a downward trend year by year (χ2trend=230.199, 35.278, 108.076, 112.130, all P<0.01), with annual decline rates of 2.77%, 2.26%, 3.0% and 4.12%, respectively. Among the registered elderly patients, female, 65-<75 years old, Han nationality, newly diagnosed, no complications, and negative for etiology (χ2=15.234, 255.910, 146.842, 179.998, 25.575, 131.170, P<0.01) had higher success treatment rates. Conclusions The prevalence of pulmonary tuberculosis in the elderly population in Chongqing City is declining, but the positive registration rate of etiology is increasing annually, and the success rate of treatment is decreasing. Therefore, it is necessary to strengthen the systematic management, publicity and education of elderly patients (especially those in southeast Chongqing, male, positive patients and severe patients) to effectively control the epidemic of tuberculosis in the elderly.
4.Formulation Optimization of Capsaicin Solid Dispersion and Its Characterization
Guoye YOU ; Qingya FAN ; Jing DU ; Huina LI
China Pharmacy 2019;30(11):1464-1469
OBJECTIVE: To prepare Capsaicin solid dispersion, to optimize its formulation and characterize the dispersion. METHODS: Capsaicin solid dispersion was prepared by melting method using P188 or PEG4000 as carrier. Using 60 min accumulative dissolution rate in vitro as index, orthogonal test was used to optimize type of carrier, drug ratio and stirring time. Validation test was conducted. The stability of Capsaicin solid dispersion within 0, 30, 180 d was investigated at 40 ℃ under the relative humidity of 75%, and X-ray diffraction (XRD) was used to analyze whether there were peaks. Capsaicin solid dispersion was characterized by differential scanning calorimetry (DSC) and XRD. RESULTS: The optimized formula included P188-PEG4000 as carrier, capsaicin-P188-PEG 4000 mass ratio of 1 ∶ 5 ∶ 3, stirring for 20 min. Accumulative dissolution rate in vitro of Capsaicin solid dispersion was 84.6% within 60 min (n=3), and the preparation kept stable within 180 d [RSD of content was 3% (n=3); XRD showed that there was no peak]. The phase characteristics showed that capsaicin was highly dispersed in the amorphous or molecular state in carrier. CONCLUSIONS: The optimized technology can be used to prepare Capsaicin solid dispersion, and improves more than 80% dissolution rate in vitro at 60 min. It is stable, simple and feasible.