Objective To develop the instrument for inpatients involvement in patient medication safety,and to test the reliability and validity of the scale.Methods The draft scale was formulated by combining results of literature review,semi-structured interviews and Delphi expert consultation.Totally 461 inpatients in a tertiary hospital in Wuhan were selected for investigation to examine its reliability and validity.Results The final scale consisted of 3 dimensions and 23 items.The Cronbach's α coefficient was 0.916 for the total scale and ranged from 0.777 to 0.858 for 3 dimensions;Spearman-Brown coefficients of 3 dimensions varied from 0.740 to 0.843;the test-retest correlation was 0.742 for the total scale.The scale content validity index was 0.923,and the item content validity index ranged from 0.833 to 1.000.Factor analysis was used to extract 5 factors,and 3 factors were allowed according to the scree test.Therefore,the cumulative variance contribution rate was 51.191％ for 3 factors.Conclusion The Inpatients Involvement in Patient Medication Safety Scale has good reliability and validity.It can be used to evaluate inpatients' engagement behavior in medication safcty,and provide reference for quality management of nursing safety.

BACKGROUND:Increasing studies have shown that autophagy plays an important role in the treatment of osteoarthritis,and moderate autophagy can preserve the normal physiological function of osteoarticular chondrocytes.Traditional Chinese medicine(TCM)monomers can target and modulate autophagy to treat osteoarthritis,and their characteristics such as single components,clear efficacy,low price,and easy availability have obvious benefits in the treatment of osteoarthritis.OBJECTIVE:To review the effects of TCM monomers on the targeted regulation of autophagy in the treatment of osteoarthritis and the research progress,with a view to laying a foundation for the treatment of osteoarthritis and even other bone metabolic diseases.METHODS:Relevant literature published from January 2012 to October 2022 was retrieved in PubMed,Web of Science,CNKI,and WanFang using the keywords of"traditional Chinese medicine,Chinese herbal monomer,autophagy,osteoarthritis"in English and Chinese.Inclusion and exclusion criteria were developed,and 63 relevant articles were finally included by screening through reading the title,abstract,and full-text content.RESULTS AND CONCLUSION:TCM monomers can treat osteoarthritis by targeting autophagy to inhibit chondrocyte apoptosis,protect cartilage extracellular matrix,reduce inflammation and antagonize oxidative stress injury.Different TCM monomers can regulate autophagy in the same way,and the same TCM monomers can affect autophagy in different ways.The combination of multiple monomers and the multi-target and multi-pathway regulation of autophagy by TCM monomers remain to be explored.The regulation of autophagy by TCM monomers can provide new ideas and strategies for the prevention and treatment of osteoarthritis.Moderate regulation of autophagy by TCM monomers to keep the autophagic flux unimpeded may be the key to treating osteoarthritis.

BACKGROUND:More and more studies have shown that oxidative stress should play an important role in the treatment of osteoporosis.Oxidative stress should cause the accumulation of oxidation activity,which will damage bone-related cells.Finally,it causes the imbalance of bone resorption and bone formation,resulting in a decrease in bone volume and the destruction of the slight structure.Research in recent years has found that some natural products can regulate oxidative stress to treat osteoporosis.The characteristics of extensive sources and small side effects have obvious advantages in the treatment of osteoporosis,and the efficacy is objective. OBJECTIVE:To discuss the mechanism of natural product regulation of oxidation stress in treatment of osteoporosis,conduct a review based on the latest related research progress,provide reference and ideas for more natural products to treat osteoporosis in the future,and provide data support for the clinical application of natural compounds in the treatment of osteoporosis. METHODS:"oxidative stress,free radical,antioxidant,phytotherapy,plant extracts,medicinal plants,herbal medicine,osteoporosis,bone density,bone loss"were used as the keywords in PubMed,Web of Science,Embase,Cochrane,VIP,CBM,WanFang,and CNKI databases to search relevant articles published from January 2010 to February 2023.Inclusion and exclusion criteria were developed,and 64 relevant articles were selected by reading titles,abstracts,and full texts. RESULTS AND CONCLUSION:(1)Some natural products have antioxidant effects and can regulate osteogenic differentiation,osteoblast bone matrix mineralization,osteoclast-mediated bone resorption,proliferation,differentiation,activity,and apoptosis of bone-related cells by improving oxidative stress,thus affecting bone metabolism.(2)These natural products with antioxidant effects play a role in treating osteoporosis by improving bone remodeling balance.(3)The research on the combination of a variety of natural products to improve osteoporosis remains to be explored.(4)The use of natural products to regulate oxidative stress may become a powerful weapon for the clinical treatment of osteoporosis in the future.

Objective:To analyze the mutation sites and characteristics of phospholipase CE1( PLCE1) gene in children with primary nephrotic syndrome(PNS) in Zhuang, Guangxi, China, so as to explore the expression status of PLCE1 protein in peripheral blood of PNS patients. Methods:(1)Blood samples of 154 Zhuang children with PNS and 98 healthy children of Zhuang nationality from July 2015 to September 2017 in Affiliated Hospital of Youjiang Medical College for Nationalities were collected to sequence PLCE1 gene with FastTarget target gene capture method in the combination with next generation sequencing.Based on the comparison between mutation results and information from the database, the pathogenicity, phenotype and distribution characteristics of these mutation sites were discovered and appraised.(2)The concentration of PLCE1 protein in serum samples were measured by enzyme-linked immuno sorbent assay, then the data of PNS group and healthy control group were compared and analyzed statistically with SPSS 25.0. Results:(1)A total of 18 low-frequency mutations of PLCE1 were observed, 5 of them(c.670C>T, c.578T>C, c.923G>T, c.4916C>T, and c. 5927_5929del) were found only in the PNS group, and 3 of them occurred in both PNS group and healthy control group: c.176C>T, c.389T>C, and c. 4304C>T.Five newly discovered mutations (c.923G>T, c.958T>A, c.1151C>T, c.2341A>G, and c. 3592G>C)were discovered and only c. 923 G>T is pathogenic mutation of PLCE1.(2)The concentration of PLCE1 protein in healthy control group was 414.65 (231.20, 729.81) ng/L and the level of PLCE1 in PNS group was 237.84 (116.14, 535.85) ng/L, ( Z=-3.212, P<0.001), and the value of PNS group was lower than that in the healthy control group. Conclusions:(1)As a new pathogenic mutation of PLCE1, c.923G>T was found.(2)The phenotype of PLCE1 gene mutation in Zhuang children with PNS was diverse, and they may differ by race and region.(3) PLCE1 protein of serum may act as a protective protein to guarantee various life activities of cells by participating in multiple signal transduction pathways.