1.Study on Quality Standard of Lithocarpus polystachys
Song HUANG ; Mingli LUO ; Yan TAO ; Jihang CHEN ; Wei ZHAO ; Xiaoping LAI
China Pharmacy 2005;0(23):-
OBJECTIVE: To establish the quality standard of Lithocarpus polystachys.METHODS: TLC was used for the qualitative identification of L.polystachys.The content of total flavonoids of L.polystachys was determined by UV spectrophotometry and the content of phloridzin was determined by HPLC.RESULTS: The TLC spots of polyamide were clear and well separated.The maximum absorption wavelength of phlorizin was 284 nm.The content of total flavonoids of 6 batches of L.polystachys ranged from 103.12 mg?g-1 to 183.54 mg?g-1.The linear ranges of phlorizin were 0.099 8~1.197 6 ?g (r=0.999 7) with an average recovery of 97.23%(RSD=1.57%,n=6).CONCLUSION: Established quality standard is applicable for the quality control of L.polystachys.
2.Recent advances in digestive endoscopy in the field of pancreaticobiliary diseases
Lili CHENG ; Chaofeng TANG ; Jihang ZHAO
Journal of Clinical Hepatology 2019;35(1):222-225
The clinical application of digestive endoscopic technique in the field of pancreaticobiliary diseases profoundly affects or even overturns many traditional thoughts. From endoscopic sphincterotomy and endoscopic biliary drainage to endoscopic ultrasonography-guided drainage and debridement of infectious pancreatic necrosis, and pancreatic pseudocyst drainage at present, digestive endoscopic technique helps to achieve revolutionary changes in disease diagnosis and treatment, especially during the past two or three years. In order to help clinicians in the field of pancreaticobiliary diseases quickly understand the latest research advances in digestive endoscopy and related advanced techniques, this article elaborates on the latest research advances in digestive endoscopy in the field of pancreaticobiliary diseases.
3.Methotrexate prevents knee intraarticular adhesion via endoplasmic reticulum stress signaling pathway
Hui CHEN ; Xiaolei LI ; Lianqi YAN ; Yu SUN ; Yuan LIANG ; Shuai ZHAO ; Gengyao ZHU ; Jihang DAI ; Jun HE ; Jingcheng WANG
Chinese Journal of Tissue Engineering Research 2016;20(24):3615-3620
BACKGROUND:The pathogenesis of knee intraarticular adhesion is yet unknown. Excessive proliferation of fibroblasts is considered to cause knee intraarticular adhesion. OBJECTIVE:To study the preventive effects of methotrexate on knee intraarticular adhesion through fibroblast apoptosis induced by endoplasmic reticulum stress. METHODS:The viability of the cultured fibroblasts treated with methotrexate(10-5-10-9mol/L)or PBSwas determined after 24 hours. Fibroblast apoptosis was detected by Hoechst33342 staining. Endoplasmic reticulum stress-and apoptosis-related proteins, including cleaved-PARP, CHOP, Bax and Bcl-2, were determined by western blotassay. Eighteen healthy male New Zealand white rabbits were used to establish the knee intraarticular adhesion models, and equaly randomized into three groups, and received topical application of 2 or 1 g/L methotrexate, or normal saline (control). The preventive effects of methotrexate on knee intraarticular adhesion and CHOP expression in scar tissue were observed. RESULTS AND CONCLUSION:Methotrexate inhibited the proliferation and viability of fibroblasts in a dose-dependent manner. The number of apoptotic fibroblasts was significantly increased compared with control group. Protein expression of cleaved-PARP, CHOP, and bax was increased, while protein expression of bcl-2 was decreased with time. The animal experiment showed that preventive effects of 2 g/L methotrexate on knee intraarticular adhesion were superior to 1 g/L methotrexate treatment. CHOP expression in the scar tissue in the methotrexate groups was higher than the control group and that was higher in high-dose methotrexate group. Our results suggest that methotrexate prevents knee intraarticular adhesionviaendoplasmic reticulum stress-induced fibroblast apoptosis.
4.Efficacy of TiRobot-assisted minimally invasive percutaneous screw fixation for pelvic fractures
Guang YANG ; Baochang QI ; Tianhao ZHAO ; Tong LIN ; Jihang YAO ; Dahui SUN
Chinese Journal of Orthopaedic Trauma 2022;24(3):200-205
Objective:To investigate the clinical efficacy of TiRobot-assisted minimally invasive percutaneous screw fixation for pelvic fractures.Methods:The clinical data of 44 patients with pelvic fracture were retrospectively analyzed who had undergone TiRobot-assisted minimally invasive percutaneous screw fixation from May 2018 to April 2021 at Department of Orthopedic Traumatology, The First Hospital of Jilin University. There were 30 males and 14 females, aged from 11 to 78 years (average, 40.6 years). According to the Tile classification, there were 20 type C1 fractures, 23 type C2 fractures and one type C3 fracture. The time from injury to operation averaged 8.2 days (from 1 to 41 days). The minimally invasive percutaneous screw fixation was assisted by the orthopaedic TiRobot in all patients. Operation time, fluoroscopy time, reduction quality, complications and functional recovery at the final follow-up were recorded and analyzed.Results:A total of 96 screws were implanted in this cohort. The total fluoroscopy time ranged from 17 to 66 s, with an average of 17.8 s for each single screw. The operation time ranged from 50 to 355 min, averaging 179.7 min. According to the Matta criteria, the reduction quality was rated as excellent in 36 cases, as good in 5 and as fair in 3, yielding an excellent and good rate of 93.2%(41/44). All the 44 patients were followed up for 6 to 42 months (average, 20.4 months). The fracture healing time ranged from 2 to 6 months, averaging 3.3 months. The Majeed scores at the final follow-up ranged from 51 to 100 points (average, 83.7 points); there were 28 excellent, 8 good, 7 fair and one poor cases, giving an excellent to good rate of 81.8% (36/44). Follow-up found no such complications as iatrogenic neurovascular injury, incision infection, malunion, implant loosening or fracture re-displacement in all the 44 patients.Conclusion:TiRobot-assisted minimally invasive internal fixation can result in fine clinical efficacy for pelvic fractures, showing advantages of accuracy, minimal invasion and safety.