1.The Intervention Effect of Agkistrodon in Treating Sjogren's Syndrome with YiQiYangYinQuYu Medicine
Xinchang WANG ; Xiaoyang TANG ; Miaoquan HE
Journal of Zhejiang Chinese Medical University 2014;(8):999-1003
Objective] To observe the clinical efficacy of Agkistrodon in treating Sjogren's syndrome. [Methods] 52 patients were randomly divided into two groups: Treatment of 26 patients taking Agkistrodon and the basic prescription medicine(YIQIYANGYINQUYU drugs); 26 patients in the control received the basic prescription medicine. The clinical symptoms,the disease activity score of SSDAI,the score of TCM symptom and life quality and the index of serology were recorded in this clinical observation. [Results] The treatment group had better results of immune function than the control group after treatment, in particular had a substantial decrease in IgG. In addition, the clinical symptoms, the disease activity score of SSDAI, the score of TCM symptom and life quality were improved. [Conclusion] Agkistrodon has significantly immunosuppressive effects on the patients with Sjogren's syndrome , thus improving the patients' condition,the standard of living and the quality of life.
2.Analysis of CUMS-induced differentially expressed proteins in rat hippocampus by ITRAQ
Lisha CAO ; Fang ZHANG ; Wen LUO ; Jing CHEN ; Miaoquan HE ; Jisheng WANG
Chinese Pharmacological Bulletin 2016;32(5):697-702
Aims To compare hippocampus between CUMS rats and normal rats, to find differentially ex-pressed proteins and to explore the pathogenesis of de-pression in the protein levels and biological marker. Methods Chronic unpredicted mild stress was taken to establish rat depression model. The ITRAQ-labeled proteins and peptides were separated by the cation col-umn, and differentially expressed proteins were detec-ted and identified by 2D LC-MS/MS. The functions of proteins were analyzed by bioinformatics. Results To-tally 5 109 proteins were identified, 33 differentially expressed proteins were identified, the expressions of 8 proteins were increased and 25 proteins downregulated. Conclusion ITRAQ based sereening is effective in discovering the nosogenesis of depression and new bio-logical marker.
3.Proteomic biomarkers of depression
Li TANG ; Yingxu SONG ; Xue YANG ; Junjie YANG ; Wencheng TANG ; Miaoquan HE
Sichuan Mental Health 2022;35(2):194-200
This study aims to review the biomarkers of depression discovered by proteomic techniques to guide the identification of specific biomarkers for depression. Depression is a common psychological disease, and its diagnosis and efficacy evaluation rely on subjective clinical evaluation, lacking objective diagnostic tools. Proteomics is the primary method to discover and verify biomarkers. This study reviews proteomic biomarkers in brain tissue, cerebrospinal fluid and blood of patients with depression, as well as the latest strategies for screening biomarkers of depression.
4.Meta-analysis of Efficacy and Safety of Tapentadol Immediate-release Preparation for Relie ving Moderate and Severe Acute Pain after Brachiocephalic Arteritis
Miaoquan HE ; Jisheng WANG ; Jingping XIAO ; Yunzi WANG ; Yang LIU ; Haoning GUO
China Pharmacy 2019;30(8):1117-1123
OBJECTIVE: To systematically evaluate the efficacy and safety of Tapentadol immediate-release preparation (Tap IR) for relieving severe acute pain after brachiocephalic arteritis, and to provide evidence-based reference for rational drug use. METHODS: Retrieved from PubMed, Medline, Cochrane library, CNKI, VIP, Wanfang database and American clinical trial database, randomized controlled trials (RCTs) about Tap IR (trial group) versus Oxycodone immediate-release preparation or placebo for relieving severe acute pain after brachiocephalic arteritis were collected. After literature screening, data extraction and literature quality evaluation with modified Jadad scale, Meta-analysis was conducted by using RevMan 5.3 software. RESULTS: A total of 6 RCTs were included, involving 2 378 patients. Results of Meta-analysis showed that 48 h total pain relief value (TOTPAR48) of trial group was significantly higher than control group [MD=35.60,95%CI(27.31, 43.88), P<0.000 01]. Results of sub-group analysis showed that TOTPAR48 of trial group using Tap IR 50 mg [MD=28.68, 95%CI (18.18, 39.17),P<0.00 001], 75 mg [MD=39.97, 95%CI (34.21, 45.73), P<0.000 01] and 100 mg[MD=38.50, 95%CI(1.46, 75.54),P=0.04] were significantly higher than control group; TOTPAR48 of patients who received Tap IR 75 mg were significantly higher than patients who received Tap IR 50 mg [MD=9.04,95% CI(4.31, 13.77),P=0.000 2]. There was no statistical significance in the utilization rate of rescue medicine (URM) between 2 groups [RR=1.23,95% CI(0.84, 1.80),P=0.29]. Subgroup analysis showed that URM in patients who received Tap IR 75 mg was significantly lower than those receiving Tap IR 50 mg [RR=0.62,95%CI(0.41, 0.94),P=0.02]. The total difference of 48 h pain intensity (SPID48) in trial group was significantly lower than control group [MD=-18.96,95%CI(-37.28,-0.64),P=0.04]. Subgroup analysis showed that SPID48 in patients who received Tap IR 75 mg was significantly higher than those receiving Tap IR 50 mg [MD=21.66,95%CI(8.93, 34.39),P=0.000 9]. There was no statistical significance in the total change of pain impression (PGIC) between 2 groups [RR=0.95,95%CI(0.88, 1.03),P=0.23]. Subgroup analysis showed that PGIC in patients who received Tap IR 75 mg was significantly higher than those receiving Tap IR 50 mg [RR=1.07,95%CI(1.01, 1.13),P=0.02] but significantly lower than those receiving Tap IR 100 mg [RR=0.86,95%CI(0.77, 0.97),P=0.01]. The incidence of nausea, vomiting, constipation, dizziness and headache in trial group were significantly lower than control group (P<0.05). CONCLUSIONS: Tap IR shows good therapeutic efficacy and safety for severe acute pain after brachiocephalic arteritis, and the efficacy of Tap IR might be better when the dose of Tap IR is 75 mg.