Network-Based Pharmacology and Bioinformatics Study on the Mechanism of Action of Gujiansan in the Treatment of Steroid-Induced Avascular Necrosis of the Femoral Head.

Objective: To investigate the main pharmacological basis and mechanism of action of Gujiansan in the treatment of steroid-induced avascular necrosis of the femoral head (SANFH). Methods: The active constituents and targets of Gujiansan were screened by using TCMSP and other databases, and relevant disease targets were obtained by analyzing the microarray of SANFH in the GEO database. The intersection of the two was taken to obtain the potential targets of Gujiansan for the treatment of SANFH, and key active constituents were screened with the "active constituent-target" network constructed by the Cytoscape software; then, the STRING database was used to construct the protein interaction network to screen the key targets. The Gene Ontology and Kyoto Encyclopedia of Genes and Genomes enrichment analyses of key targets were performed by the DAVID database, and the relationship between the "key active constituent-key target-key signaling pathway" was explored. Finally, the molecular docking between key active constituents and key targets was verified. In addition, qPCR detection technology was used to evaluate the preventive and therapeutic effects of key active constituents of Gujiansan in a rat osteoblast model of SANFH to verify the possible mechanism of the effect of Gujiansan in the treatment of SANFH. Results: (1) 106 active constituents and 55 targets were obtained for the treatment of SANFH. (2) Quercetin, luteolin, kaempferol, cryptotanshinone, and naringenin were the key active constituents for the treatment of SANFH. (3) IL1B, STAT3, CAT, PTGS2, and MAPK3 were the key targets for the treatment of SANFH. (4) IL1B, STAT3, CAT, PTGS2, MAPK3, and HMOX1 are key targets in the protein interaction network. (5) DAVID enrichment analysis mainly covers the regulation of DNA-binding transcription factor activity, positive regulation of cytokine production, and response to oxidative stress and other biological processes, involving IL-17, AGE-RAGE, C-type lectin receptor, and other signaling pathways. (6) Gujiansan is a multitarget and multisignaling pathway for the treatment of SANFH. (7) Good binding activity exists between key active constituents and key targets. Conclusion: This study analyzes the potential mechanism of action of Gujiansan in the treatment of SANFH with network pharmacology, which can provide a reference for the further study of its pharmacological basis and targets.

CT findings of Madelung's disease in the head and neck region / 中华放射学杂志

Objective To investigate the CT findings of Madelung's disease in the head and neck region,and to evaluate the value of CT in demonstrating the Madelung's disease in the head and neck region.Methods CT findings of Madelung's disease in the head and neck region in 7 cases were analyzed retrospectively.All were males,with the age from 36 to 60 years,mean 51 years.All patients were underwent CT native scan,and enhanced CT scan was performed on 3 of them.Results CT images in the neck of all patients showed accumulation of nonencapsulated fat within the subcutaneous tissue and(or) deep to the platysma,and(or)within the spaces between the muscles.The fat deposits were ill-defined and symmetrical.In most cases the fat deposits involved the anterior part of the neck(infrahyoid and suprahyoid),submandibular region,the subcutaneous tissue of the nape and deep to the stenomastoid muscles.Conclusions Madelung's disease in the head and neck region have characteristic CT findings,and CT has great value in qualitative and quantitative diagnosis in Madelung's disease.

Multi-slice spiral CT urography in the diagnosis of urinary congenital abnormities / 中华放射学杂志

Objective To evaluate the imaging methods,characteristics,diagnostic value of multi- slice CT urography(MSCTU)in congenital abnormities of urinary system.Methods To collect 33 urinary congenital abnormities cases in three years and to analyses these MSCTU images.All examinations were performed with a multi-slice spiral CT scanner.The patients were intravenously injected with 90 ml of Iohexol 300 with a power injector at the rate of 3 ml/s.Nephrographic-phase images were obtained at 75 s after initiation of the injection of contrast material,the appropriate delay time is according to Kidney's enhancement extent and nephrohydrosis degree.Excretory-phase images were obtained through the abdomen and pelvis from 10 min.to 23 h after initiation of the injection of contrast material without abdominal compression.Excretory-phase images were transferred to the workstation and performed maximun intensity projection(MIP),multiplanar reconstruction(MPR),volume rendering(VR),and virtual cystoscopy (VC).Results The urinary congenital abnormities diagnosed by MSCTU in 33 cases,including 1 ectopic kidney,1 horseshoe kidney,1 renal malrotaion,2 supernumerary kidneys,2 ureteral valves,2 retrocaval ureters,4 congenital megaureters,6 ureteropelvic junction stenosis,9 pelviureteric duplication malformations and 5 bladder diverticula.The displaying rate of ureter was 91%(61/66).The scanning time of excretory-phase was less than 20 seconds in All cases.The average CT value of contrast media in displayed ureter lumens was 520 HU.The postprocessing images had clear,dimensional feature and It was satisfy the diagnosis.Conclusion MSCTU has clear,dimensional feature and has strong ability of displaying total anatomy shape and tiny pathology change of congenital abnormities in the urinary system.It is a very useful method for detecting the congenital abnormities in the urinary system.