Steroid-induced osteonecrosis of the femoral head(SNOFH)is a prevalent challenging condition in orthopedics,characterized by a high disability rate and intricate pathophysiological mechanisms including diminished an-giogenesis and impaired osteogenic function.The concept of osteogenesis-angiogenesis coupling involves the interplay be-tween osteoblasts and angiogenesis.Restoring the blood supply to bone tissue,boosting bone cell activity,and facilitating bone regeneration are crucial for the recovery of SNOFH patients.Research has demonstrated the significant role of mi-croRNAs(miRNAs)in the coordination of osteogenesis and angiogenesis.MiRNAs have the ability to concurrently regu-late multiple target genes and signaling pathways associated with osteogenesis and angiogenesis,effectively stimulating the regeneration of bones and blood vessels.By considering the interaction of multiple miRNAs and their target genes,the de-velopment of a multi-target combination therapy approach could greatly enhance the treatment outcomes for SNOFH.Through a thorough investigation of miRNA interactions in the regulation of osteogenesis and angiogenesis,the progression of the disease can be elucidated,offering a fundamental basis for early diagnosis,precise treatment,and prognosis evalua-tion of SNOFH.This paper aims to uncover the pivotal nodes and regulatory connections in SNOFH by summarizing the in-volvement of miRNAs in the coupling of osteogenesis and angiogenesis.By identifying potential therapeutic targets and un-derstanding the coordinated function of miRNAs in osteogenesis and angiogenesis coupling,valuable insights can be gained for the personalized treatment of SNOFH.

Steroid-induced osteonecrosis of the femoral head(SNOFH)is a prevalent challenging condition in orthopedics,characterized by a high disability rate and intricate pathophysiological mechanisms including diminished an-giogenesis and impaired osteogenic function.The concept of osteogenesis-angiogenesis coupling involves the interplay be-tween osteoblasts and angiogenesis.Restoring the blood supply to bone tissue,boosting bone cell activity,and facilitating bone regeneration are crucial for the recovery of SNOFH patients.Research has demonstrated the significant role of mi-croRNAs(miRNAs)in the coordination of osteogenesis and angiogenesis.MiRNAs have the ability to concurrently regu-late multiple target genes and signaling pathways associated with osteogenesis and angiogenesis,effectively stimulating the regeneration of bones and blood vessels.By considering the interaction of multiple miRNAs and their target genes,the de-velopment of a multi-target combination therapy approach could greatly enhance the treatment outcomes for SNOFH.Through a thorough investigation of miRNA interactions in the regulation of osteogenesis and angiogenesis,the progression of the disease can be elucidated,offering a fundamental basis for early diagnosis,precise treatment,and prognosis evalua-tion of SNOFH.This paper aims to uncover the pivotal nodes and regulatory connections in SNOFH by summarizing the in-volvement of miRNAs in the coupling of osteogenesis and angiogenesis.By identifying potential therapeutic targets and un-derstanding the coordinated function of miRNAs in osteogenesis and angiogenesis coupling,valuable insights can be gained for the personalized treatment of SNOFH.

Infectious bone defect,one of the complex and refractory types of bone defects,is characterized by infec-tion,inflammation and subsequent bone tissue destruction.These conditions often lead to severe consequences such as limb necrosis,dysfunction or even amputation.The previous treatment method for infectious bone defect primarily involves thorough debridement and bone grafting after infection control with antibacterial drugs.Howev-er,this method carries drawbacks,including the possibility of drug resistance and systemic toxicity due to high-dose use of antimicrobial drugs.With advancements in modern medicine and in-depth research on biomaterials,va-rious novel antibacterial materials have been increasingly applied in the treatment of infectious bone defect,demon-strating promising outcomes.This paper reviews the applications and therapeutic efficacy of novel antibacterial ma-terials in treating infectious bone defect at home and abroad,aiming to provide references for clinical management.

Osteoarticular diseases,common chronic degenerative disorders in the elderly,involve the gradual deterioration and degeneration of bones or joints.The metabolic capacity declines with age.Impaired bone metabolism dis-rupts homeostasis,leading to osteoarticular dysfunctions.Cuprotosis,a novel form of programmed cell death mediated by ferredoxin 1,matters for the pathologic process in osteoarticular diseases.Cuprotosis influences the levels of intercellular signal transduction to induce oxidative stress,inflammation,pyroptosis,and ferroptosis in joints.Those cell death and mi-tochondrial dysfunction ultimately exacerbate the progression of osteoarticular diseases.Therefore,this review summarizes the mechanism of copper homeostasis-cuprotosis in osteoarticular diseases and the potential applications targeting copper homeostasis-cuprotosis.

Infectious bone defect,one of the complex and refractory types of bone defects,is characterized by infec-tion,inflammation and subsequent bone tissue destruction.These conditions often lead to severe consequences such as limb necrosis,dysfunction or even amputation.The previous treatment method for infectious bone defect primarily involves thorough debridement and bone grafting after infection control with antibacterial drugs.Howev-er,this method carries drawbacks,including the possibility of drug resistance and systemic toxicity due to high-dose use of antimicrobial drugs.With advancements in modern medicine and in-depth research on biomaterials,va-rious novel antibacterial materials have been increasingly applied in the treatment of infectious bone defect,demon-strating promising outcomes.This paper reviews the applications and therapeutic efficacy of novel antibacterial ma-terials in treating infectious bone defect at home and abroad,aiming to provide references for clinical management.

Osteoarticular diseases,common chronic degenerative disorders in the elderly,involve the gradual deterioration and degeneration of bones or joints.The metabolic capacity declines with age.Impaired bone metabolism dis-rupts homeostasis,leading to osteoarticular dysfunctions.Cuprotosis,a novel form of programmed cell death mediated by ferredoxin 1,matters for the pathologic process in osteoarticular diseases.Cuprotosis influences the levels of intercellular signal transduction to induce oxidative stress,inflammation,pyroptosis,and ferroptosis in joints.Those cell death and mi-tochondrial dysfunction ultimately exacerbate the progression of osteoarticular diseases.Therefore,this review summarizes the mechanism of copper homeostasis-cuprotosis in osteoarticular diseases and the potential applications targeting copper homeostasis-cuprotosis.

ObjectiveThis study aimed to evaluate the clinical efficacy of Ruyi Zhenbaowan（RYZBW）in the treatment of initial and early knee osteoarthritis （KOA） through a prospective multicenter，randomized，double-blind，and placebo-parallel controlled trial. MethodFrom October 13^th， 2021 to December 25^th， 2021， 240 KOA subjects meeting the acceptance criteria were enrolled in 15 sub-centers including Wangjing Hospital， Chinese Academy of Chinese Medical Sciences， and they were randomly divided into observation group and control group， with 120 cases in each group. The intervention measures for the observation group were RYZBW + health education， and the intervention measures for the control group were RYZBW placebo + health education. The intervention period in both groups was four weeks， and they were followed up for four weeks after the intervention. The primary outcome measure was the total score of Western Ontario and McMaster University Osteoarthritis Index score （WOMAC score）， and the secondary outcome measures were the response rate of visual scale （VAS） pain score， WOMAC sub item scores （joint pain， joint stiffness， and joint function）， quality of life （SF-12） score， and traditional Chinese medicine （TCM） syndrome score. Result（1） Efficacy evaluation. The marginal model results showed that the observation group was better than the control group in improving the WOMAC total score and WOMAC pain score in the treatment of KOA with RYZBW， and the difference was statistically significant （P<0.05）. There was no significant difference between the two groups in improving VAS score response rate， WOMAC function score， WOMAC stiffness score， SF12-PCS （quality of life-physical health） score， SF12-MCS （quality of life-mental health） score， and TCM syndrome score. （2） Subgroup analysis. ① In terms of VAS score response rate， the response rate of the observation group was higher than that of the control group for subjects with baseline VAS score of （4， 5］， and the difference was statistically significant （P<0.05）. ② In terms of TCM syndrome score， for subjects aged ［56， 60］ and ［61， 65］， the decrease in total TCM syndrome score in the observation group was better than that in the control group， and the difference was statistically significant （P<0.05）. ConclusionTibetan medicine RYZBW has good clinical efficacy in improving WOMAC total score， VAS score response rate， WOMAC pain score， WOMAC function score， and TCM syndrome score for patients with initial and early KOA， which can fill the lack of Tibetan medicine RYZBW in the treatment of KOA and make a demonstration study for the inheritance and development of ethnic medicine.

Purpose/Significance To explore the changes,challenges,key application scenarios and future development directions of generative artificial intelligence(AI)represented by ChatGPT in the field of hospital management,and to provide references for the ap-plication of AI natural language processing(NLP)technology in the field of hospital management in China.Method/Process Through literature review and analysis,the changes and challenges brought about by the rapid development of generative AI in the field of hospital management are sorted out,its key application scenarios and future development directions in the field of hospital management are empha-sized and explored.Result/Conclusion AI has broad application prospects in the field of hospital management,and it should focus on exploring its practical application scenarios and strategic directions to provide reference and guidance for promoting the high-quality de-velopment of public hospitals.

Objective To investigate the effects of Yishen Jiangu Pills on the expressions of AMPK/Cyclin Y/CDK16 pathway and autophagy and apoptosis-related proteins in cartilage tissue of rats with knee osteoarthritis(KOA);To discuss its mechanism for the treatment of KOA.Methods Totally 60 2-month-old SD rats were selected and randomly divided into sham-operation group,model group,agonist group,and TCM low-,medium-and high-dosage groups,with 10 rats in each group.Except for the sham-operation group,each group underwent medial meniscectomy and cruciate ligamentotomy to establish the KOA rat model,and the corresponding interventions were given for 14 d.Lequesne MG score was used to evaluate rat behavior,morphology of cartilage tissue was observed by HE and Safranin O-fixed green staining,and Mankin score was performed,Western blot was performed to detect expression of AMPK/Cyclin Y/CDK16 pathway proteins and autophagy proteins such as ULK-1,Beclin-1,LC3B,p62 and apoptotic proteins such as Bcl-2,Bax,Caspase-3,Caspase-9 in cartilage tissue,and autophagosome were observed using transmission electron microscopy.Results Compared with the sham-operation group,Lequesne MG score significantly increased in the model group(P<0.01),there was a significant defect in the surface layer of cartilage,thinning of the cartilage layer,disordered arrangement and irregular morphology of chondrocytes,and a significant increase in Mankin score(P<0.01),the expressions of AMPK,Cyclin Y,CDK16,ULK1,Beclin-1,LC3BⅡ/Ⅰ and Bcl-2 protein in cartilage tissue decreased,while the expressions of p62,Bax,Caspase-3 and Caspase-9 protein increased(P<0.01).Compared with the model group,the Lequesne MG scores of rats in the agonist group and TCM high-dosage group were significantly decreased(P<0.01),the TCM high-dosage group showed smoother cartilage surface,more regular arrangement of chondrocytes,basic integrity of cartilage layer structure,weakened cartilage tissue proliferation,and significantly decreased Mankin score(P<0.01),the expressions of AMPK,Cyclin Y,CDK16,ULK1,Beclin-1,LC3BⅡ/Ⅰ and Bcl-2 protein in cartilage tissue of rats in the agonist group and TCM medium-and high-dosage groups significantly increased(P<0.05,P<0.01),while the expressions of p62,Bax,Caspase-3 and Caspase-9 protein significantly decreased(P<0.05,P<0.01).Conclusion Yishen Jiangu Pills may promote chondrocyte autophagy and inhibit cell apoptosis by activating the AMPK/Cyclin Y/CDK16 pathway in cartilage tissue of KOA model rats,thus reduce cartilage damage.

ObjectiveTo investigate the mechanism of quercetin in regulating chondrocyte extracellular matrix metabolism and inflammatory response in knee osteoarthritis （KOA） from the perspective of autophagy. MethodChondrocytes were extracted and cultured， and the primary cells were identified by immunofluorescence staining with collagen Ⅱ. The chondrocytes induced by lipopolysaccharide （LPS） were divided into a control group （without any treatment）， a model group （10 mg·L^-1 LPS treatment for 48 h）， and low-， medium-， and high-dose quercetin group （10 mg·L^-1 LPS treatment for 48 h combined with 50， 100， and 150 mmol·L^-1 quercetin for 24 h）. The inhibitory effects of LPS （2.5， 5， 7.5， 10， 12.5 mg·L^-1） on the proliferation of chondrocytes for different periods （24， 48， 72 h） were detected by cell counting kit-8 （CCK-8）. The effects of quercetin （50， 100， 150， 200 mmol·L^-1） on the LPS-induced proliferation of chondrocytes for different periods （12， 24， and 48 h） were investigated. The expression of microtubule-associated protein 1 light chain 3Ⅱ （LC3Ⅱ） and ubiquitin-binding protein p62 was detected by Western blot. LPS-induced chondrocytes were treated with 3-methyladenine （3-MA）. The resultant cells were divided into a control group （without any treatment）， a model group （10 mg·L^-1 LPS）， a quercetin group （model group + 100 mmol·L^-1 quercetin）， a 3-MA group （model group + 100 μmol·L^-1 3-MA）， and a 3-MA + quercetin group （model group + 100 μmol·L^-1 3-MA + 100 mmol·L^-1 quercetin， specifically， LPS for 48 h， 3-MA for 2 h， and then quercetin for 24 h）. The content of interleukin （IL）-1β and tumor necrosis factor （TNF）-α was determined by enzyme-linked immunosorbent assay （ELISA）. The protein expression of matrix metalloproteinase 13 （MMP-13） and tissue inhibitor of metalloproteinase 1 （TIMP1） was detected by Western blot. ResultCollagen Ⅱ immunofluorescence staining showed that the extracted cells were consistent with the characteristics of chondrocytes. As revealed by CCK-8， the optimum concentration of LPS was 10 mg·L^-1 with an action time of 48 h， and the optimum concentration of quercetin was 100 mmol·L^-1 with an action time of 24 h. Western blot results showed that compared with the control group， the model group showed decreased expression of LC3Ⅱ （P<0.01） and increased expression of p62 （P<0.01）. The expression of LC3Ⅱ in the quercetin groups was higher than that in the control group （P<0.01）， especially in the medium-dose quercetin group. The p62 expression in the quercetin groups was lower than that in the control group （P<0.01）， especially in the medium-dose quercetin group. Compared with the control group， the model group showed increased expression of MMP-13 （P<0.05） and decreased expression of TIMP1 （P<0.01）. Compared with the model group， the quercetin groups and the 3-MA + quercetin group showed decreased expression of MMP-13 （P<0.05， P<0.01）， especially the quercetin groups， and increased expression of TIMP1 （P<0.01）， especially the quercetin groups. Morphological changes in chondrocytes under the inverted microscope showed that quercetin could restore the morphology of damaged chondrocytes. CCK-8 showed that compared with the control group， the model group showed inhibited chondrocyte proliferation （P<0.01）， and compared with the model group， the quercetin groups and the 3-MA + quercetin group showed promoted chondrocyte proliferation （P<0.01）， especially the quercetin groups. ELISA results showed that IL-1β and TNF-α levels in the model group were higher than those in the control group （P<0.01）， and the levels of IL-1β and TNF-α in the quercetin groups and the 3-MA + quercetin group were lower than those in the model group （P<0.05， P<0.01）， and the decrease in the quercetin groups was the most significant. ConclusionQuercetin can promote LPS-induced chondrocyte proliferation， regulate chondrocyte extracellular matrix synthesis and metabolic balance， inhibit the inflammatory response， and restore chondrocyte function. The mechanism may be related to the activation of autophagy by quercetin.