Objective To evaluate the therapeutic effect of proximal femoral nail(PFN)and dynamic hip screw(DHS)for intertrochanteric femoral fracture(IFF).Methods From September,2004 to May,2007,39 IFF patients treated by PFN and 36 by DHS were enrolled into the analysis.The operative complications,postoperative complications and the recovery of hip function of IFF patients were observed to evaluate the therapeutic effect of the two methods.Results The blood loss amount was higher,the incidence of postoperative complications was higher and the excellent rate of Harris score of hip function was lower in IFF patients treated by DHS than that in IFF patients by PFN(P

Objective To evaluate the contribution of gyrA and parE detection in Ureaplasma genotyping.Methods Sixty Ureaplasma isolates were selected with the Mycoplasma IST kit.The gyrA and parE were amplified by PCR.The DNA was sequenced and compared with the corresponding sequences in GenBank.Results The nucleotide sequence of gyrA had 100% identity in serovar 1,3,6,14 and 100%identity in serovar 2,4,5,7～13,too.But the sequence had 91%identity between the two groups.The nucleotide sequence of parE had 98%～99% identity in serovar 1,3,6,14.And it had 100% identity in erovar 2,5,7,8,11 and 100% identity in serovar4,12,13.But it had only 90% identity between the two groups.Ureaplasma parvum(Up),Ureaplasma urealyticum(Uu)and Up+Uu infection were found 68.3%(41/60),21.7%(13/60)and 10%(6/60) of clinical specimens,respectively.In Up isolates,serovar 3 was 48.8%(20/41).Conclusion Ureaplasma can be divided into two genotypes(Up and Uu)by gyrA analysis.And Up can be divided into four subtypes which correspond to serovar 1,3,6,14,respectively.Serovar 3 is the main isolate in our research.

Objective To explore the matrix effect on cyclosporine A (CsA) test by fluorescence polarization immunoassay (FPIA) and enzyme-multiplied immunoassay technique (EMIT), explain the discrepancy of external quality control results between these two methods and find the corrective action.Methods One hundred whole blood samples with various concentrations were adopted and CsA levels were detected by FPIA and EMIT.The results were compared with each other.Moreover, the influence of residual metal ions upon immunoreactions was assessed by adding Cu2+ and Zn2+.The effect of non-whole blood matrix on extraction efficiency for quality control materials and CsA calibrator was evaluated by adding identical volume of Hb-rich reagents followed with re-extraction.Results There is good correlation between results measured with FPIA(X) and EMIT(Y) methods ( Y=0.926 8X -8.115,R2 =0.996 9).Neither FPIA nor EMIT was affected by residual metal ions ( P ＞ 0.05 ). Non-whole blood matrix decreased the extraction efficiency of two methods, but it could be corrected by supplementation of the Hb-rich reagents (≥30 g/L).Conclusions Non-whole blood matrix may be the main reason for the inconsistent results measured by FPIA and EMIT methods.It could be corrected by using Hb-rich reagents.In addition,we should consider the influence of low lib on CsA test,espocially for organ transplant patients with lower Hb ( ＜30 g/L).

BACKGROUND:Traditional Chinese medicine compound prescription has a long history in the treatment of primary osteoporosis,and the curative effect is definite,but the medication rule and mechanism are not clear. OBJECTIVE:Using the methodology of data mining and network pharmacology,to explore and verify the law of drug use and molecular mechanism of modern traditional Chinese medicine in the treatment of primary osteoporosis. METHODS:The relevant documents included in CNKI,WanFang,VIP and PubMed were used as data sources,and the relevant data were statistically counted and extracted by Microsoft EXCEL2019,IBMSPSS25.0 and other software.The high-frequency drugs obtained from the data statistics were analyzed by association rules analysis and cluster analysis,and the core drug combination of traditional Chinese medicine compound prescription in the treatment of primary osteoporosis was obtained by combining the two results.The therapeutic mechanism of this combination was explained by network pharmacology and verified by molecular docking. RESULTS AND CONCLUSION:Finally,151 articles were included and 207 prescriptions were selected,involving 285 flavors of Chinese herbs.(1)Ten groups of important drug combinations were obtained through the above two analyses,among which the core drug combination with the highest confidence and improvement was"Drynaria-Eucommia-Angelica."The key components of the combination in the treatment of primary osteoporosis were quercetin,kaempferol,naringenin and so on.The core targets were SRC proto-oncogene,phosphoinositide-3-Kinase regulatory subunit 1 and RELA proto-oncogene.The main pathways were cancer signaling pathway,JAK-STAT signaling pathway,VEGF signaling pathway,and NF-κB signaling pathway.(2)The key active components were docked with the core targets,and the two showed a good combination.To conclude,Chinese herbal compound therapy in the treatment of primary osteoporosis can use a variety of active components to exert its efficacy through multiple signal pathways and acting on multiple targets,which can provide a theoretical basis for the research and development of new drugs for the follow-up treatment of primary osteoporosis.

Accurate classification of the acetabular injuries and appropriate treatment plan are great challenges for orthopedic surgeons because of the irregular anatomical structure of the acetabulum and aggregation of important vessels and nerves around it. Letournel-Judet classification system has been widely applied to classify acetabular fractures. However, there are several limitations, including incomplete inclusion of fracture types, difficulty in understanding and insufficient guidance for surgical treatment, etc. Serious complications such as traumatic arthritis are common due to wrong classification and diagnosis and improper selection of surgical strategy, which brings a heavy burden to the society and families. Three-column classification, based on anatomic characteristics, has advantages of containing more fracture types and being easy to understand, etc. To solve the problems existing in the diagnosis and treatment process based on Letournel-Judet classification, achieve accurate diagnosis and treatment of patients with acetabular fractures, and obtain satisfactory prognosis, the Orthopedic Trauma Emergency Center of Third Hospital of Hebei Medical University and the Trauma Orthopedic Branch of the Chinese Orthopedic Association organized experts from relevant fields to formulate the Expert consensus on the accurate diagnosis and treatment of acetabular fractures based on three-column classification ( version 2023) in terms of principles of evidence-based medicine. Based on the three-column classification, 15 recommendations were proposed, covering the diagnosis, treatment, complication prevention and management, etc, so as to provide reference for accurate diagnosis and treatment of acetabular fractures.

OBJECTIVE： To investigate the mechanism of Drynariae rhizoma in the treatment of osteoporosis （OP）. METHODS： The active compounds and targets of D. rhizoma were obtained by using Bioinformatics Analysis Tool for Molecular Mechanism of Traditional Chinese Medicine （BATMAN-TCM database）. The targets of relevant compounds were also obtained by GeneCards database， and targets of D. rhizoma were obtained by the combination of the two. The disease targets corresponding to OP were obtained by using TTD， DrugBank， OMIM， GAD， PharmGKB and CTD database. The D. rhizoma-OP disease intersection targets were obtained after intersecting with the target of D. rhizoma. PPI network was constructed by STRING online database， analyzed by using Cytoscape 3.6.1 software to obtain key targets and showed by network visualization. Gene ontology（GO） analysis of drug-disease intersection target were conducted by DAVID online tools. KEGG pathway enrichment analysis was conducted by KOBAS online tools to screen the significant enrichment pathway （P＜0.05）. The key genes were screened by MCC algorithm. RESULTS： There were 7 active compounds of D. rhizoma 136 intersection targets of D. rhizoma-OP disease. GO analysis results showed that the biological function of intersection target mainly included chemical reaction， steroid metabolic process as well as cellular response to chemical stimulus and so on； cell composition mainly included extracellular space， extracellular area and cytoplasm；molecular functions included heme binding， tetrapyrrole binding and monooxygenase activity， etc. KEGG pathway enrichment showed that above targets were mainly related to bone metabolism， endocrinology， inflammation， tumor， apoptosis， etc. Thirty key genes （such as ALB， AKT1， JUN， etc.， P≤1.96×10－9） were screened by MCC algorithm. CONCLUSIONS： The mechanism of action of D. rhizoma in the treatment of OP is in multi-target and multi-system manner. In addition to influencing the related pathways of bone metabolism， it can also affect various metabolic pathways in vivo.

OBJECTIVE： To investigate the effects and its mechanism of calcium phosphate bone cement （CPC） loading total flavonoids of Davallia mariesii on osteogenic differentiation of induced membrane in rats. METHODS： Drug-loading CPC and drug-loading polymethyl methacrylate （PMMA） cement were prepared with the contents of Qianggu capsules （total flavonoids of D. mariesii as active ingredient） using CPC and PMMA cement as carrier. Totally 64 male SD rats were randomly divided into drug-loading CPC group， drug-loading PMMA cement group， no-drug CPC group， no-drug PMMA cement group， with 16 rats in each group. The femur of rats was separated and osteotomized to prepare bone defect model， and then the corresponding bone cement was implanted. Four weeks after modeling， the induced membranes of rats were cut and protected. Bone cement was taken out and autogenous cancellous bone was implanted. At the 4th week after modeling， X-ray photographs were taken on the hind limb bones of rats. At the 4th week after modeling and 6th week after bone grafting， induced membranes and new bone were taken from the bone defect area of rats respectively. HE staining was used to observe the morphology of induced membrane， and the width of bone rabecular and the number of osteoblasts of new bone tissue were measured. Immunohistochemistry was used to detect the protein expression of BMP-2 and VEGF in induced membrane. Western blotting assay was used to detect the protein expression of Smad1， Smad4 and Smad7 in new bone. RESULTS： Compared with other 3 groups， the degradation of bone cement in drug-loading CPC group was more obvious in the bone defect areas， which showed that the formation of induced membrane was observed and the bone defect areas were smaller； capillary endothelial cells were abundant and orderly arranged in the induced membranes， and the width of bone trabeculae and the number of osteoblasts in the new bone tissue increased significantly （P＜0.05）； the protein expression of BMP-2 and VEGF in the induced membrane， the protein expression of Smad1， Smad4 and Smad7 in new bone were increased significantly （P＜0.05）. CONCLUSIONS： CPC loading total flavonoids of D. mariesii promotes the formation of induced membrane osteoblast in bone defect model rats， which may be associated with regulating osteoblast differentiation by activating BMP-2/Smad pathway； at the same time， it can promote bone healing by promoting the differentiation of vascular endothelial cells， accelerating the formation of capillary network and increasing the expression of vascular endothelial cells.

G protein-coupled receptors (GPCRs) are a large family of membrane protein receptors, and Takeda G protein-coupled receptor 5 (TGR5) is a member of this family. As a membrane receptor, TGR5 is widely distributed in different parts of the human body and plays a vital role in regulating metabolism, including the processes of energy consumption, weight loss and blood glucose homeostasis. Recent studies have shown that TGR5 plays an important role in glucose and lipid metabolism disorders such as fatty liver, obesity and diabetes. With the global obesity situation becoming more and more serious, a comprehensive explanation of the mechanism of TGR5 and filling the gaps in knowledge concerning clinical ligand drugs are urgently needed. In this review, we mainly explain the anti-obesity mechanism of TGR5 to promote the further study of this target, and show the electron microscope structure of TGR5 and review recent studies on TGR5 ligands to illustrate the specific binding between TGR5 receptor binding sites and ligands, which can effectively provide new ideas for ligand research and promote drug research.