Objective: To explore the latent profile characteristics of regulatory emotional self-efficacy and its relationship with non-suicidal self-injurious (NSSI) behavior among junior and senior high school students, so as to provide a basis for effectively reducing NSSI behaviors. Methods: From April to October 2023, a total of 1 217 junior and senior high school students were selected from Tongren City, Zunyi City and Qiannan Prefecture of Guizhou Province by stratified cluster random sampling method. The Scale of Regulatory Emotional Self-efficacy and the Adolescent Self-injury Scale were administered. Latent profile analysis (LPA) was employed to explore distinct profiles of regulatory emotional self-efficacy, and the Lanza, Tan, and Bray s method (LTB) was used to analyze the relationship between these profiles and NSSI behavior. Results: The prevalence rate of NSSI behavior among junior and senior high school students was 28.6%. Among males, regulatory emotional self-efficacy was categorized into two types: moderate positive expression-low negative management group (59.1%, n =353) and high efficacy group (40.9%, n =244); among females, regulatory emotional self-efficacy was classified into three categories: low efficacy group (18.4%, n =114), high positive expression-low negative management group (56.3%, n =349), and high efficacy group (25.3%, n =157). There were statistically significant differences in total NSSI scores across different potential categories of regulatory emotional self-efficacy within both males and females ( Z/H = -5.75 , 57.58, both P <0.01). The differences in NSSI prevalence rates across the potential categories of regulatory emotional self-efficacy were statistically significant for both males and females ( χ 2=38.00, 69.14, both P <0.01), and among females, the differences in NSSI prevalence rates between the high efficacy group and the low efficacy group ( χ 2=60.01) and between the high efficacy group and the high positive expression-low negative management group ( χ 2=31.34) were also statistically significant (both P < 0.016 7 ). Binary Logistic regression analysis revealed that, compared with the high efficacy group within each gender, the moderate positive expression-low negative management group among males ( OR =2.36), and both the low efficacy group and the high positive expression-low negative management group among females ( OR =6.19, 2.97), were at an increased risk of engaging in NSSI (all P <0.01). Conclusion Different latent profiles of regulatory emotional self efficacy among junior and senior high school students are associated with NSSI behavior.

ObjectiveTo provide a basis for the establishment of an ideal animal model of allergic asthma by statistically analyzing the modeling characteristics and the selection of indicators of the available models. MethodsWe retrieved the relevant articles from China National Knowledge Infrastructure（CNKI）， VIP， Wanfang Data， SinoMed， and PubMed with "allergic asthma" as the keyword and the time interval from January 2019 to January 2024. Through integrating the literature and extracting data， we used Excel 2021 to create a personal database and sorted out the animal strains， genders， allergenic substances， modeling routes， and test indicators and methods. Excel 2021， Cytoscape 3.10.2， and SPSS Modeler 18.0 were then used to analyze the relevant characteristics of the animal models. ResultsA total of 418 articles were included in the database， and the comparative analysis showed that the most frequently used animal strain for modeling was BALB/c mice， and female animals were mostly used. The main modeling method was sensitization by intraperitoneal injection of ovalbumin （OVA）， which was combined with intranasal inhalation. The test indicators mainly included appearance signs， cellular analysis， lung histopathology， lung function indicators， and protein and gene expression in the lung. The test methods mainly involved pathological staining， enzyme-linked immunosorbent assay， immunohistochemistry， immunofluorescence， Western blot， and polymerase chain reaction（PCR） assays. ConclusionThere is no recognized modeling method or evaluation standard for the animal models of allergic asthma. Based on the results of data analysis， the OVA-induced allergic asthma model in BALB/c mice is recommended. The main criteria for evaluating the success of modeling are the general behavioral changes， the morphological changes of the airway and inflammatory cell infiltration in the lung tissue， the changes of pro-inflammatory and anti-inflammatory cytokines in the serum， and the alterations of inflammatory cells in the bronchoalveolar lavage fluid.

Objective To compare the differences in stress on maxillary anterior implants and labial cortical bone under varying thicknesses of palatal bone plates through three-dimensional finite element analysis.Methods Using CBCT scan data and finite ele-ment software,a three-dimensional finite element model of maxillary central incisor implant restoration was constructed.The thickness of the palatal bone plate at the cervical region of the implant was set to 0,0.5,1.0 mm,respectively.The effects of different palatal bone plate thicknesses on the equivalent stress of the implant and the minimum principal stress(compressive stress)of the labial corti-cal bone under normal occlusal conditions were simulated.Results Under normal occlusion,when the palatal cervical bone plate thickness was 0,0.5,1.0 mm,the maximum equivalent stress of the implant was consistently located at the midline of the labial cervi-cal region at the implant-abutment interface,with values of 106.8,103.5,99.71 MPa,respectively.Meanwhile,the minimum princi-pal stress of the cortical bone appeared at the alveolar crest at the junction of the implant-abutment and labial alveolar bone,measuring 107.8,103.2,95.55 MPa,respectively.The results indicated that as the palatal cervical bone plate thickness decreased,both the maximum equivalent stress of the implant and the minimum principal stress of the labial cortical bone exhibited an increasing trend,though they remained below their respective yield strengths.Conclusion From a biomechanical perspective,maxillary anterior implant restoration remains feasible even when the thickness of the palatal bone plate at the cervical region of the implant is 0 mm.

Objective To compare the stress difference of the resin with different thicknesses in the screw access hole using three-dimensional finite element method.Methods A three-dimensional finite element model of the implant at the site of the mandibular first molar was established by computer aided design(CAD)software.A static load of 200 N was applied to the resin models with different thicknesses(1,2,3,4,5 mm)to analyze the effect of thickness on the von Mises stress and shear stress of the resin.Results In a certain range,the maximum von Mises stress and the maximum shear stress of the resin decreased with the increase of the thickness.At the thickness of 1mm,the maximum von Mises stress and shear stress of the resin were 23.85 MPa and 11.82 MPa,respectively.When the thickness was 2 mm,the maximum von Mises stress and shear stress of the resin were 18.75 MPa and 9.73 MPa respectively.At the thickness of 3 mm,the maximum von Mises stress and shear stress of the resin were 17.46 MPa and 9.04 MPa,respectively.When the thickness of the resin was more than 3 mm,the stress on it was in a stable level trend.When the thickness was 4 mm,the maximum von Mises stress and shear stress of the resin were 17.38 MPa and 9.04 MPa,respectively.When the thickness was 5 mm,the maxi-mum von Mises stress and maximum shear stress of the resin were 17.18 MPa and 8.85 MPa,respectively.Conclusion When the res-in reaches a certain thickness,the stress is small and stable.This study provides a new design strategy for reducing the complications after implant restoration caused by stress fatigue of the resin.

Objective To develop a multi-parameter gait kinematics analysis and measurement system using artificial intelligence key point detection technology(AI system),and verify the effectiveness of the measurement.Methods A total of ten inpatients with abnormal gait were selected in Peking University Third Hospital from April to Oc-tober,2022,while ten normal subjects were recruited.Their gait data were measured using GaitWatch and AI sys-tem simultaneously.Results Compared with those from GaitWatch,the mean absolute error(MAE)of stride frequency,gait period,stride length and stride speed were little from AI system,with high accuracy(>95%)and good consistency(ICC>0.75);however,MAE of hip,knee and ankle angles was larger,and correlation was satisfactory(r>0.60).Conclusion The novel gait analysis system is accurate and consistent in measuring spatiotemporal gait parameters,but not well in measuring joint angles,which need to be modified.

OBJECTIVES: To clarify the role of hippocampal glutamate system in regulating HPA axis in mediating the effect of electroacupuncture (EA) at the heart meridian for improving myocardial injury in rats with acute myocardial ischemia (AMI). METHODS: Male SD rats were randomized into sham-operated group, AMI group, EA group, and L-glutamic acid+EA group (n=9). Rat models of AMI were established by left descending coronary artery ligation, and EA was applied at the "Shenmen-Tongli" segment; the rats in L-glutamic acid+EA group were subjected to microinjection of L-glutamic acid into the bilateral hippocampus prior to AMI modeling and EA treatment. Cardiac functions of the rats were evaluated using echocardiography, and ECG and heart rate variation (HRV) were analyzed using PowerLab and LabChart. Pathological changes in the myocardial tissue was examined using HE staining, and serum levels of myocardial enzymes were detected with ELISA. Myocardial expressions of TH and GAP43 were detected with immunohistochemistry, and colocalization of VGLUT1, VGLUT2 and c-fos were observed using immunofluorescence staining; the expressions of VGLUT1, VGLUT2, NMDAR1 and NMDAR2B were detected using Western blotting. RESULTS: The rat models of AMI showed significantly decreased LVEF and LVFS and increased serum levels of myocardial enzymes in positive correlation with the HPA axis. Numerous TH- and GAP43-positive cells were observed in the hippocampus, where the expressions of NE and E, neurons colabeled with VGLUT1, VGLUT2 and c-fos, and expressions of VGLUT1, VGLUT2, NMDAR1, NMDAR2B and Glu increased significantly. All these changes were significantly improved by interventions with EA as compared with those in AMI and L-Glutamate+EA groups. CONCLUSIONS In rats with AMI, EA at the heart meridian can regulate excessive glutamate release in the hippocampus, thereby inhibiting HPA axis hyperactivity and reducing sympathetic nerve activity to protect the myocardial tissue.
Animals ; Electroacupuncture ; Male ; Rats, Sprague-Dawley ; Hippocampus/metabolism* ; Rats ; Glutamic Acid/metabolism* ; Myocardial Ischemia/physiopathology* ; Hypothalamo-Hypophyseal System/physiopathology* ; Pituitary-Adrenal System/physiopathology* ; Receptors, N-Methyl-D-Aspartate/metabolism*

The correlation between meridians and zangfu organs is one of the core contents of the theory of zangfu organs and meridians, which has significant research value and clinical application potential. In this paper, the research literature on correlation between meridians and zangfu organs in the past five years is sorted out and summarized, and it is found that more clinical application basis is added in meridian-diagnosis, and a new situation of high-quality evidence-based medicine is opened in the aspect of meridian-treatment. In terms of internal connection and biological mechanism, the neurobiological characteristics and regulatory mechanism represented by "heart meridian-heart" are illustrated. The research model of the relationship between the meridians-zangfu organs and the brain, which combines the functional connection of the brain network in clinic and the basic neural circuit mechanism under the premise of the "effect law", is clearly proposed.
Meridians ; Humans ; Brain/physiology*

A novel fumigation moxibustion device has been designed to enable adjustable and controllable moxa smoke temperature, maintaining a relatively stable fumigation temperature while improving the utilization efficiency of moxa smoke. The device consists of five main components: a temperature control chamber, fumigation outlet, temperature measurement module, moxa smoke filtration chamber, and elastic band. It is compact, refined, and easy to operate. The device allows users to set the desired fumigation temperature according to therapeutic needs and simultaneously filters and eliminates residual moxa smoke after treatment. This design addresses the challenges of traditional fumigation moxibustion therapy, including unstable moxa smoke temperature, difficulty in regulation, low utilization efficiency, and high dependence on manual operation. It contributes to the promotion and application of fumigation moxibustion therapy and supports the establishment of a standardized moxibustion system.
Moxibustion/methods* ; Humans ; Equipment Design ; Fumigation ; Temperature

BACKGROUND:Currently,there are various rat models of lumbar disc herniation used in experiments,each with its own advantages and disadvantages.The most common modeling methods include autologous nucleus pulposus transplantation and annulus fibrosus puncture models.OBJECTIVE:To establish two autologous nucleus pulposus transplantation models(with spinous process and mastoid process excision and with transverse process and mastoid process excision)as well as an annulus fibrosus puncture model,and to compare and evaluate the characteristics of the three models.METHODS:Forty male adult Sprague-Dawley rats were randomly divided into four groups(n=10 per group):sham surgery group,spinous process group,transverse process group,and annulus fibrosus puncture group.In the sham surgery group,surgical preparation was performed,the skin was incised,and the spinous process was exposed,and then sutured.In the spinous process group,L5 spinous process and transverse process were excised,and two pieces of tail nucleus pulposus were placed in the intervertebral foramen.In the transverse process group,L5 transverse process and transverse process were excised,and two pieces of tail nucleus pulposus were placed in the intervertebral foramen.In the annulus fibrosus puncture group,the transverse process was excised and annulus fibrosus puncture and intervertebral disc injection of interleukin 1β were then performed.Thermal paw withdrawal latencies were tested before and after modeling.Lumbar spine MRI was performed 2 weeks after modeling.Pathological changes in the intervertebral discs were observed using hematoxylin-eosin staining and safranin-O-fast green staining.Immunofluorescence was used to observe CD68+positive expression.RESULTS AND CONCLUSION:(1)Thermal withdrawal threshold testing results showed that compared with the sham surgery group,pain sensitivity and tolerance time of rats decreased significantly after modeling(P<0.05).(2)Lumbar spine MRI images showed that the spinous process and transverse process groups had obvious protrusion of nucleus pulposus tissue,which more closely resembled MRI images of patients with common lumbar disc herniation.(3)Hematoxylin-eosin staining revealed that compared with the sham surgery group,nucleus pulposus tissues in the model groups showed varying degrees of degeneration,inflammatory cell infiltration,and degradation of spinal cord cells,with the appearance of cystic changes,among which the annulus fibrosus puncture group had the most severe pathological changes.(4)Safranin-O-fast green staining showed that compared with the sham surgery group,the boundaries of nucleus pulposus tissues in the three model groups were blurred,with extensive inflammatory reactions and varying degrees of degeneration in the annulus fibrosus.(5)CD68+immunofluorescence staining results showed that compared with the sham surgery group,the expression of CD68+in the model groups was higher and more widespread,with the annulus fibrosus puncture model showing the highest expression.All the three methods could be used to effectively establish rat models of lumbar disc herniation,with the annulus fibrosus puncture model established after excision of the transverse process being superior to the autologous nucleus pulposus transplantation model(spinous process+mastoid process),and the first two models being superior to the autologous nucleus pulposus transplantation model(transverse process+mastoid process).

Objective To compare the stress difference of the resin with different thicknesses in the screw access hole using three-dimensional finite element method.Methods A three-dimensional finite element model of the implant at the site of the mandibular first molar was established by computer aided design(CAD)software.A static load of 200 N was applied to the resin models with different thicknesses(1,2,3,4,5 mm)to analyze the effect of thickness on the von Mises stress and shear stress of the resin.Results In a certain range,the maximum von Mises stress and the maximum shear stress of the resin decreased with the increase of the thickness.At the thickness of 1mm,the maximum von Mises stress and shear stress of the resin were 23.85 MPa and 11.82 MPa,respectively.When the thickness was 2 mm,the maximum von Mises stress and shear stress of the resin were 18.75 MPa and 9.73 MPa respectively.At the thickness of 3 mm,the maximum von Mises stress and shear stress of the resin were 17.46 MPa and 9.04 MPa,respectively.When the thickness of the resin was more than 3 mm,the stress on it was in a stable level trend.When the thickness was 4 mm,the maximum von Mises stress and shear stress of the resin were 17.38 MPa and 9.04 MPa,respectively.When the thickness was 5 mm,the maxi-mum von Mises stress and maximum shear stress of the resin were 17.18 MPa and 8.85 MPa,respectively.Conclusion When the res-in reaches a certain thickness,the stress is small and stable.This study provides a new design strategy for reducing the complications after implant restoration caused by stress fatigue of the resin.