2.Study on the Quality Standard of Chanhou Zhuyu Capsules
Song HUANG ; Dongxu JIANG ; Shanshan HUANG ; Honghui GUAN ; Xiaoping LAI ; Honghua XU
Traditional Chinese Drug Research & Clinical Pharmacology 1993;0(04):-
Objective To establish the quality standard for Chanhou Zhuyu Capsules.Methods Leonurus Japonicus and Ligusticum chuanxiong in Chanhou Zhuyu Capsules were identified by TLC,and the content of stachydrine hydrochloride was determined by TLC Scanning.Results The quality identification by TLC was specific.Stachydrine hydrochloride had a good linearity in the range of 4.0~12.0 ?g,r=0.999 7,and the average recovery was 99.87 %,RSD=1.67 %.Conclusion The methods of identification and content determination are simple,reliable and reproducible.They can be used effectively for the quality control of Chanhou Zhuyu Capsules.
3.Status and Trends of GAP Base Construction of Chinese Materia Medica in Guangdong Province
Ping DING ; Xiaoping LAI ; Honghua XU ; Qin DU ; Jiangang WANG ; Ge YING ; Huijun LIAO ; Lei DAI ; Yanhua SHAO
Chinese Herbal Medicines 2012;04(1):33-42
It is one of the key points for modernization and internationalization of traditional Chinese medicines to construct the Good Agricultural Practice (GAP) base of Chinese materia medica (CMM).GAP helps to minimize contamination and improve the quality of CMM during the plantation and the production of Chinese crude drugs.In this article,the status and development of CMM production bases of GAP in Guangdong Province,China,are presented.The suggestions upon the problems during the development of GAP for Chinese crude drugs are also provided.
4.Platelet parameter determination of the patients with uterine cervical cancer and its clinical significance
Wenjuan WU ; Fangjing ZHENG ; Yikuang LIN ; Honghua LAI ; Qiuhui YE
Cancer Research and Clinic 2018;30(6):388-390,395
Objective To investigate the level of platelet parameter of uterine cervical cancer patients and its clinical significance. Methods Seventy-four cases with cervical cancer (the observation group) from Ningde Municipal Hospital, the Affiliated Hospital of Fujian Medical University from May 2014 to May 2016 were chosen as the research subjects. Seventy-four cases of healthy people were treated as the control group. According to the International Federation of Gynecology and Obstetrics (FIGO), the observation group was divided into 15 cases under stage ⅡB(the early stage group), 59 cases of ⅡBstage and above (the middle and advanced stage group). Platelet count (Plt) and mean volume of platelet were monitored and compared by using Japan automatic blood cell analyzer. Results Plt in the observation group was higher than that in the control group [(266 ±71) × 109/L vs. (215 ±42) × 109/L, respectively], and the difference was statistically significant (t = 5.322, P< 0.05). The average volume of platelet in the observation group was lower than that in the control group [(9.2±1.2) fl vs. (9.9±1.3) fl, respectively], and the difference was statistically significant (t =-3.931, P < 0.05); There was no statistical difference in the Plt and mean volume of platelet between the early stage group and the middle and advanced stage group (both P>0.05). Conclusions The determination of platelet parameter has a certain clinical significance for screening and early detection of uterine cervical cancer.
5. Epidemiological features of rabies and molecular evolution characteristics of the rabies virus strains in Xishuangbanna prefecture of Yunnan province, China
Hongmei YANG ; Yun FENG ; Mingyue LAI ; Baohua LI ; Jianhua FAN ; Long MA ; Honghua WEN ; Yunqiao XU ; Yinghua DAO ; Meihui SU ; Huaxing LIU ; Yuzhen ZHANG ; Weihong YANG ; Hailin ZHANG
Chinese Journal of Experimental and Clinical Virology 2019;33(2):113-120
Objective:
To understand the epidemiologic features of the rabies in Xishuang banna prefecture of Yunnan province, China in 2008-2017 and the viral molecular-evolution characteristics.
Methods:
The data of rabies case questionnaire were collected. The brain tissue samples from mad dogs, suspicious sick dogs and human brain tissue, saliva and cerebrospinal fluid samples from rabies patients were collected in Xishuangbanna. Coding region of nucleoprotein and glycoprotein genes were amplified by RT-PCR and sequenced. Homology and phylogenetic analysis were performed using the relevant bioinformatics software.
Results:
A total of 62 cases of human rabies were occurred in 28 districts of the 3 counties, Xishuangbanna prefecture in 2008-2017. Of them, 37 cases in Jinghong county, 15 in Menghai county and 10 in Mengla county. In which 48 cases were bitten by domestic dogs (77.42%), 11 cases were bitten by wild dogs (17.74%). Rabies case was occurred every year in the past decade. The seasonal incidence was not obvious. The majority of patients were aged from 30 to 59 years-old, with the youngest 1 year-old and the eldest 91 year-old. The male to female ratio was 1.70∶1, most cases were farmers. The nucleotide sequences of nucleoprotein gene of 9 virus strains (7 from Jinghong, 1 from Menghai and 1 from Mengla) were obtained from the samples of dogs and patients. Homology and phylogenetic analyses indicated that the 5 strains belonged to clade China-Ⅰ, 3 clade China-Ⅱ and 1 clade China-Ⅵ. The nucleotide sequences of glycoprotein gene of 5 virus strains (3 from Jinghong, 1 from Menghai and 1 from Mengla) were obtained from these positive samples, and all were clade China-Ⅰ, it is same with nucleoprotein genes analysis result from these 5 virus strains. These China-Ⅰ and China-Ⅱ strains from Xishuangbanna have a closer genetic relationship with same clade strains isolated from Pu’er and other prefectures of Yunnan province as well as Sichuan, Guizhou and Guangxi. The China-Ⅵ strain from Xishuangbanna share high homology and genetic relationship with China-Ⅵ strains isolated from southwestern Yunnan and neighbouring countries such as Myanmar, Laos and Vietnam in recent years.
Conclusions
In Xishuangbanna, rabies mainly occurred in rural area and domestic dog was the main source of transmission. These RABV clades China-Ⅰ, China-Ⅱ and China-Ⅵ were found in this region and the China-Ⅰ was principal clade. The transmission source of China-Ⅰ and China-Ⅱ were from adjacent areas in the province and China-Ⅵ was from Myanmar and Laos.