Aim To investigate the protective effects of methyl rosmarinate(MR)on myocardial injury in-duced by high-altitude hypoxia and explore its underly-ing mechanisms.Methods BALB/c mice were ran-domly divided into a control group,a model group,and low-,medium-,and high-dose MR groups(25,50,and 75 mg·kg-1,respectively).Except for the control group,all other groups were exposed to a hypobaric hypoxia chamber and administered MR via intraperitoneal injection daily for three days.After the experiment,myocardial tissues were collected for he-matoxylin and eosin(HE)staining to observe morpho-logical changes.Levels of malondialdehyde(MDA),glutathione(GSH),and superoxide dismutase(SOD)were measured to evaluate the anti-myocardial injury activity of MR.Network pharmacology was employed to predict drug-disease interaction targets,construct a protein-protein interaction(PPI)network,and identify core targets.Functional enrichment analysis was car-ried out using Gene Ontology(GO)and Kyoto Ency-clopedia of Genes and Genomes(KEGG)pathways.Molecular docking was used to verify the binding affini-ty of MR to core targets,and Western blot was conduc-ted to detect the expression of related proteins.Results MR significantly alleviated myocardial injury caused by high-altitude hypoxia.Network pharmacology analy-sis identified EGFR,Bcl-2,STAT3,MMP9,ESR1,and MTOR as key targets.Molecular docking con-firmed strong binding between MR and these core tar-gets.Western blot results demonstrated that MR im-proved myocardial injury by regulating the expression of STAT3,Bax,and Bcl-2 proteins.Conclusion MR may exert its protective effects on high-altitude hypoxi-a-induced myocardial injury through a multi-target mechanism.

Aim To investigate the protective effects of methyl rosmarinate(MR)on myocardial injury in-duced by high-altitude hypoxia and explore its underly-ing mechanisms.Methods BALB/c mice were ran-domly divided into a control group,a model group,and low-,medium-,and high-dose MR groups(25,50,and 75 mg·kg-1,respectively).Except for the control group,all other groups were exposed to a hypobaric hypoxia chamber and administered MR via intraperitoneal injection daily for three days.After the experiment,myocardial tissues were collected for he-matoxylin and eosin(HE)staining to observe morpho-logical changes.Levels of malondialdehyde(MDA),glutathione(GSH),and superoxide dismutase(SOD)were measured to evaluate the anti-myocardial injury activity of MR.Network pharmacology was employed to predict drug-disease interaction targets,construct a protein-protein interaction(PPI)network,and identify core targets.Functional enrichment analysis was car-ried out using Gene Ontology(GO)and Kyoto Ency-clopedia of Genes and Genomes(KEGG)pathways.Molecular docking was used to verify the binding affini-ty of MR to core targets,and Western blot was conduc-ted to detect the expression of related proteins.Results MR significantly alleviated myocardial injury caused by high-altitude hypoxia.Network pharmacology analy-sis identified EGFR,Bcl-2,STAT3,MMP9,ESR1,and MTOR as key targets.Molecular docking con-firmed strong binding between MR and these core tar-gets.Western blot results demonstrated that MR im-proved myocardial injury by regulating the expression of STAT3,Bax,and Bcl-2 proteins.Conclusion MR may exert its protective effects on high-altitude hypoxi-a-induced myocardial injury through a multi-target mechanism.

Thyroid radiofrequency ablation and microwave ablation are widely adopted minimally invasive treatments for diverse thyroid conditions worldwide. Fundamental skills such as the trans-isthmic approach and the moving shot technique are crucial for performing thyroid ablation, and advanced techniques, including hydrodissection and vascular ablation, improve safety and efficacy and reduce complications. Given the learning curve associated with ultrasound-guided therapeutic procedures, operators need training and experience. While training models exist, limited attention has been given to ultrasound maneuvers in ablation needle manipulation. This article introduces two essential maneuvers, the zigzag moving technique and the alienate maneuver, while also reviewing the latest ultrasound techniques in thyroid ablation, contributing valuable insights into this evolving field.

Adult ; Drainage ; Female ; Humans ; Hysterectomy, Vaginal ; adverse effects ; Laparoscopy ; adverse effects ; Radiography ; Subphrenic Abscess ; diagnostic imaging ; etiology ; therapy ; Ultrasonography

Aged ; Female ; Fractures, Compression ; surgery ; Humans ; Male ; Middle Aged ; Spinal Fractures ; surgery ; Vertebroplasty ; methods