Objective:To explore the characteristics of the brain functional networks in children with spastic cerebral palsy (SCP) while at rest and to correlate them with motor functioning.Methods:Thirty-six children with SCP were enrolled as the SCP group, while thirty-four age-matched healthy children were recruited as the control group (the HC group). Functional near-infrared spectroscopy was used to detect changes in the concentration of oxygenated hemoglobin in the children′s cerebral cortex while at rest. The left prefrontal cortex (LPFC), right prefrontal cortex (RPFC), left motor cortex (LMC), and right motor cortex (RMC) were selected as regions of interest. Phase locking values (PLVs) were used to evaluate the strength of functional connectivity (FC) among these brain regions, and graph theory methods were applied to analyze the topological properties of the brain networks. Motor functioning was assessed using the gross motor function measure (GMFM).Results:The analyses of FC strength revealed that the SCP group had significantly weaker FC among all of the regions of interest while at rest compared to the HC group. Their PLVs for LPFC-RPFC, LPFC-RMC, RPFC-RMC and LMC-RMC connectivity were all significantly smaller. Graph theory analysis showed that the SCP group had significantly lower global efficiency (GE) and smaller clustering coefficients (CCs) and network density (D), while their characteristic path lengths were significantly longer. According to the correlation analysis, the PLVs for LMC-RMC connections in the SCP group were positively correlated with their scores on dimensions D and E of the GMFM ( r=0.496 and r=0.579 respectively). GE ( r=0.587 and r=0.642) and CC ( r=0.318 and r=0.759) showed similar significant positive correlations with GMFM dimensions D and E. Conclusions:At rest, the functional networks in the brains of children with SCP exhibit abnormalities closely associated with their motor dysfunction.

The iridoid glycosides from Veronica anagallis-aquatica L. alleviate heart failure by modulating the gut microbiota and influencing the production of two metabolites with potential antihypertrophic effects, HVA and 2OH-VA.Image 1.

Surgical intervention for malignant bone tumors frequently results in bone defects located at the metaphysis of the long bones in the lower extremities.The morphological heterogeneity of the metaphysis poses significant challenges for conventional treatment methods to adequately conform to the defect area.The utilization of three-dimensional(3D)-printed titanium bone repair scaffolds has emerged as an effective reconstructive approach for metaphyseal bone defects,as these scaffolds offer precise shape conformity and provide adequate mechanical support.However,the current commonly used scaffolds do not adequately replicate the biomechanical environment of bone defects,resulting in suboptimal bone ingrowth within the scaffolds and subsequent prosthesis loosening and failure post-operation.Bone is a highly force-responsive organ,and its fate is regulated by biomechanical signals.Consequently,designing scaffolds with consideration of biomechanical principles to ensure mechanical compatibility between the scaffolds and the bone defect sites is a critical factor influencing the success of bone defects reconstruction.This review primarily introduces the biomechanical factors influencing bone defect repair and the advancements in designing 3D-printed titanium bone repair scaffolds biomechanically matched with bones,offering theoretical guidance for scaffold design and preparation.

Surgical intervention for malignant bone tumors frequently results in bone defects located at the metaphysis of the long bones in the lower extremities.The morphological heterogeneity of the metaphysis poses significant challenges for conventional treatment methods to adequately conform to the defect area.The utilization of three-dimensional(3D)-printed titanium bone repair scaffolds has emerged as an effective reconstructive approach for metaphyseal bone defects,as these scaffolds offer precise shape conformity and provide adequate mechanical support.However,the current commonly used scaffolds do not adequately replicate the biomechanical environment of bone defects,resulting in suboptimal bone ingrowth within the scaffolds and subsequent prosthesis loosening and failure post-operation.Bone is a highly force-responsive organ,and its fate is regulated by biomechanical signals.Consequently,designing scaffolds with consideration of biomechanical principles to ensure mechanical compatibility between the scaffolds and the bone defect sites is a critical factor influencing the success of bone defects reconstruction.This review primarily introduces the biomechanical factors influencing bone defect repair and the advancements in designing 3D-printed titanium bone repair scaffolds biomechanically matched with bones,offering theoretical guidance for scaffold design and preparation.

Objective:To explore the characteristics of the brain functional networks in children with spastic cerebral palsy (SCP) while at rest and to correlate them with motor functioning.Methods:Thirty-six children with SCP were enrolled as the SCP group, while thirty-four age-matched healthy children were recruited as the control group (the HC group). Functional near-infrared spectroscopy was used to detect changes in the concentration of oxygenated hemoglobin in the children′s cerebral cortex while at rest. The left prefrontal cortex (LPFC), right prefrontal cortex (RPFC), left motor cortex (LMC), and right motor cortex (RMC) were selected as regions of interest. Phase locking values (PLVs) were used to evaluate the strength of functional connectivity (FC) among these brain regions, and graph theory methods were applied to analyze the topological properties of the brain networks. Motor functioning was assessed using the gross motor function measure (GMFM).Results:The analyses of FC strength revealed that the SCP group had significantly weaker FC among all of the regions of interest while at rest compared to the HC group. Their PLVs for LPFC-RPFC, LPFC-RMC, RPFC-RMC and LMC-RMC connectivity were all significantly smaller. Graph theory analysis showed that the SCP group had significantly lower global efficiency (GE) and smaller clustering coefficients (CCs) and network density (D), while their characteristic path lengths were significantly longer. According to the correlation analysis, the PLVs for LMC-RMC connections in the SCP group were positively correlated with their scores on dimensions D and E of the GMFM ( r=0.496 and r=0.579 respectively). GE ( r=0.587 and r=0.642) and CC ( r=0.318 and r=0.759) showed similar significant positive correlations with GMFM dimensions D and E. Conclusions:At rest, the functional networks in the brains of children with SCP exhibit abnormalities closely associated with their motor dysfunction.

Objective:To evaluate the short-term efficacy and safety of 3D printing patient-matched artificial vertebral body in clinical research and application.Methods:A total of 12 patients with spinal tumors were enrolled 7 males (58.33%) and 5 females (41.67%), aged from 18 to 65 years old in The First Affiliated Hospital of Air Force military Medical University (hereinafter referred to as Xijing Hospital) and Peking University people's Hospital from September 2021 to July 2022. The spinal vertebra defect were restored by using 3D printing patient-matched artificial vertebral body after tumor resection. All patients who accepted TES and 3D printing patient-matched artificial vertebral body implantation were included according to the inclusion and exclusion criteria. The bone interface fusion was evaluated by the imaging fusion criteria of Brantigan and Steffee at 3 and 6 months after operation, the curative effect was evaluated by comparing Japanese Orthopaedic Association (JOA) score at 3 and 6 months after operation, visual analogue scale (VAS) 3 months after operation and intervertebral height at 3 and 6 months after operation with those before operation, and the safety was evaluated by adverse event recording.Results:All 12 patients completed the operation successfully, and the operation sites were thoracic vertebrae in 6 cases (50%), thoracolumbar in 3 cases (25%) and lumbar vertebrae in 3 cases (25%). All patients were followed up. The mean follow-up time was 23.92±3.23 months (range, 19-29 months). No tumor recurrence or metastasis was observed during this period. All patients were followed up at 15 days, 3 months and 6 months after operation. During the 6-month follow-up, X ray results showed that interface of bone and the vertebral body were fused in all of the 12 patients, and the effective rate of fusion was 100%. The 95% confidence interval is calculated to be (75.6%-100%). Six months after operation, the improvement rate of JOA score was excellent in 10 cases, good in 1 case, poor in 1 case, and the excellent and good rate was 91.66%. The preoperative VAS score was 4.08 ±2.47, and during the 3-month follow-up, the VAS score was improved to 1.83 ±1.59. Compared with the preoperative VAS score, the difference was statistically significant ( t=2.635, P=0.023). The intervertebral height before operation, 15 days after operation, 3 months after operation and 6 months after operation were 32.75 (25.94, 68.20), 41.09 (30.55, 70.20), 40.70 (30.23, 67.83) and 40.74 (30.23, 67.08), respectively, and there was no statistically significant difference (χ 2=0.768, P=0.857). No implant-related adverse events occurred after operation. Conclusion:The 3D printing patient-matched artificial vertebral body used in this study has satisfactory short-term efficacy and safety in the reconstruction of spinal stability after spinal tumor resection.

This paper reviews the definition and current situation of virtual reality, the application conditions, intervention mechanisms, effectiveness evaluation indicators, application forms and effects, shortcomings and prospects of virtual reality intervention in smoking cessation, in order to provide guidance and basis for the clinical practice and nursing of virtual reality intervention in smoking cessation in China.

Virtual reality is a computer-generated immersive interactive 3D technology that enables real-time interaction between users and virtual environments. It has been applied by scholars in the treatment and nursing of patients with Down syndrome and has become one of the non-pharmacological intervention methods for Down syndrome. In view of this, this paper reviews the definition and classification of virtual reality technology, the mechanism, application status, shortcomings, and prospects of virtual reality technology applied to patients with Down syndrome, in order to provide theoretical basis and practical guidance for the clinical application and nursing of virtual reality technology in patients with Down syndrome.

Objective The aim of this study was to explore the correlation between the methylation status of microRNA let-7a-3 in esophageal squamous cell carcinoma(ESCC)and the expression of insulin-like growth factor 2(IGF-Ⅱ).Methods The methylation specific PCR(qMSP)was used to detect the methylation status of let-7a-3 in 83 cases of esophageal cancer and corre-sponding adjacent normal tissues.The enzyme linked immunosorbent assay(ELISA)was used to detect the expression of IGF-Ⅱ in plasma.Results The degree of let-7a-3 methylation in cancer tissues of 83 patients with ESCC was significantly higher than that in normal tissues adjacent to cancer(P<0.001).The expression of IGF-Ⅱ in the plasma of 83 patients with ESCC was positively corre-lated with the methylation degree of let-7a-3,which was statistically significant(r=0.600,P<0.001).Conclusion microRNAlet-7a-3 may participate in the occurrence and progression of ESCC by regulating the methylation of downstream molecules,which is of great significance for understanding the mechanisms of ESCC development and providing a basis for the diagnosis and prognosis of ESCC.

Objective To explore the influencing factors of poor prognosis after clipping in patients with ruptured intracranial aneurysm and hematoma,and to construct a clinical prediction model.Methods A total of 151 patients with aneurysmal intracranial hematoma in Dongyang People's Hospital were selected from September 2017 to October 2023.3 months after operation,the patients were grouped by modified Rankin scale(mRS),with 93 cases in good prognosis group and 58 cases in poor prognosis group.Univariate analysis and multivariate Logistic regression analysis were used to explore the risk factors affecting the poor prognosis of patients with postoperative prognosis,and a poor prognostic prediction model for patients with intracranial aneurysm rupture and hematoma clamping was constructed,the discriminant validity of the area under the curve(AUC)was evaluated,and the fit of the model was established using the Hosmer-Lemeshow test.Results The Hunt-Hess gradeⅣ-Ⅴ(OR=5.339),modified Fisher grade Ⅲ-Ⅳ(OR=5.145),hematoma volume≥ 50ml(OR=7.426),hematoma clearance rate was≤50％(OR=8.381),size of the responsible aneurysm＞5mm(OR=3.053),operation time window＞5h(OR=2.659),and intraoperative vascular operation time＞3h(OR=2.305)were independent risk factors for poor prognosis after clipping in patients with intracranial aneurysm ruptured and intracranial hematoma(P＜0.05).The AUC of the poor prognosis prediction model of patients with intracranial aneurysm rupture with hematoma after clipping was 0.863(95％CI:0.781-0.946,P＜0.001),the specificity was 79.6％,the sensitivity was 86.2％,and the prediction accuracy was 82.1％.Hosmer-Lemeshow testx2=5.778,P=0.679,and there was no significant difference between the predicted value of the model and the actual observed value.Conclusion Hunt-Hess grade Ⅳ-Ⅴ,the modified Fisher grade Ⅲ-Ⅳ,hematoma volume≥50ml,hematoma clearance rate≤50％,responsible aneurysm size＞5mm,operation time window＞5h,and intraoperative vascular operation time＞3h were independent risk factors for poor prognosis after clipping in patients with intracranial aneurysm ruptured.The model constructed in this study has high predictive performance and can provide guidance for the treatment and postoperative recovery of patients undergoing craniotomy and clipping surgery in clinical practice.