Diabetic foot ulcer （DFU） is one of the most severe and costly complications of diabetes， with its refractory nature largely attributed to the persistent vicious cycle of inflammation and oxidative stress. Conventional single-target therapeutic strategies often fail to effectively break this cycle. Traditional Chinese medicine （TCM）， leveraging its unique philosophy of ''holistic regulation and multi-target intervention''， has demonstrated significant advantages in promoting DFU healing. This review introduced a ''systemic intervention'' perspective to systematically elucidate how TCM， through multi-component synergistic networks， precisely deconstructs and intervenes in this pathological loop. Firstly， this study provided an in-depth analysis of how， under hyperglycemic conditions， the crosstalk between the nuclear factor-kappa B （NF-κB） and NOD-like receptor family pyrin domain-containing protein 3 （NLRP3） inflammasome pathways， the imbalance in macrophage polarization and the disruption of redox homeostasis interact to form a self-sustaining vicious cycle that impedes wound repair. Subsequently， the core content systematically discussed the strategies by which TCM breaks this deadlock： （1） Active ingredients from single herbs （e.g.， luteolin and astragaloside Ⅳ） can precisely modulate key nodes such as the phosphatidylinositol 3‑kinase/protein kinase B （PI3K/Akt） and TLR4/NF-κB pathways， thereby suppressing inflammation and oxidative stress. （2） Classical compound formulas （e.g.， Simiao Yong'an decoction and Taohong Siwu decoction） synergistically improve microcirculation and the immune microenvironment through multi-component cooperation. （3） External preparations （e.g.， Shengji Yuhong Ointment and Jinhuang powder） potently exert local anti-inflammatory and pro-repair effects by activating pathways such as nuclear factor erythroid 2-related factor 2/heme oxygenase 1 （Nrf2/HO-1）. Collectively， these three modalities embody a synergistic mechanism characterized by ''internal treatment modulating the internal milieu to address the root cause， and external treatment targeting the lesion to alleviate symptoms''.” Existing clinical evidence has confirmed that the aforementioned multi-target interventions can effectively promote healing and improve symptoms. However， this field still faces persistent challenges， including an unclear material basis for the efficacy of compound formulas， and insufficient standardization in quality control and clinical protocols. These challenges stem from the inherent tension between the complex systems-based characteristics of TCM and the requirements of modern standardization. Future efforts urgently require to leverage cutting-edge technologies， such as network pharmacology， spatial multi-omics， and artificial intelligence to propel the paradigm shift in the prevention and treatment of DFU with TCM from ''empirical multi-target approaches'' toward ''precise systems regulation''. This will provide a theoretical foundation for developing innovative strategies for managing difficult-to-heal wounds based on an integrated traditional Chinese and Western medicine approach.

Objective:To evaluate the accuracy of a self-developed extraoral scanning system based on photogrammetry technology, and to provide evidence for advancing the development and clinical application evaluation of domestically produced scanning devices.Methods:This research group developed a photogrammetry-based implant extraoral scanning system with customized scan bodies. Two distinct edentulous implant resin models were designed and three-dimensional (3D)-printed by Center of Digital Dentistry, Peking University School and Hospital of Stomatology, containing 6 (Model 1) and 8 (Model 2) abutment analogs respectively. Reference data acquisition was performed using a high-precision denture 3D scanner with scan caps mounted on the analogs. Specialized scan bodies were then mounted on the analogs for 3D positional data acquisition using both the self-developed system (experimental group) and the clinically established system (control group). Each system conducted 10 repeated scans per model. Trueness was assessed through root mean square error (RMSE), linear deviation (LD), and angular deviation (AD) relative to reference data, while precision was determined through intra-group RMSE analysis. Systematic comparisons included inter-group performance on identical models and intra-group variability across different models.Results:For Model 1, the experimental group showed statistically significant advantages over controls in intra-group RMSE [(3.10±0.71) μm vs (4.61±1.51) μm, P<0.001], reference-data RMSE [(21.48±0.60) μm vs (32.50±0.63) μm, P<0.001], linear deviation [23.64 (32.35) μm vs 44.86 (55.73) μm, P<0.001], and angular deviation [0.29° (0.29°) vs 0.23° (0.33°), P<0.001]. In Model 2, significant improvements were observed in intra-group RMSE [(4.47±1.58) μm vs (6.21±2.07) μm, P<0.001], reference-data RMSE [(38.84±0.86) μm vs (43.69±1.34) μm, P<0.001], and linear deviation [37.95 (50.68) μm vs 49.71 (58.89) μm, P<0.001]. Both groups exhibited model-dependent variability, with RMSE of precision and trueness of both groups, linear deviation of experimental group, angular deviation of control group showing statistically significant increases (all P<0.001) corresponding to abutment analog quantity. Conclusions:The self-developed scanning system demonstrates superior accuracy in 3D positional acquisition of abutment analogs compared to the contral group system, with implant number identified as a critical determinant of extraoral scanning accuracy.

BACKGROUND:Mesenchymal stem cell transplantation has a certain effect on spinal cord injury,but there are still some problems such as low survival rate and poor efficiency of cell transplantation caused by local oxidative stress environment.OBJECTIVE:To explore the protective effect of mangiferin on oxidative stress of bone marrow mesenchymal stem cells.METHODS:Rat bone marrow mesenchymal stem cells at passage 3 were added to mangiferin and incubated for 2 hours according to the gradient of concentration (0,20,40,80,and 160 μmol/L).A serum-free medium containing 400 μmol/L H2O2 was added,and a gradient concentration of mangiferin was added again and cultured for 12 and 24 hours.Rat bone marrow mesenchymal stem cells were cultured as normal control group.Cell survival was detected by MTT assay in each group.The superoxide dismutase,malondialdehyde,and catalase in the culture medium were detected in accordance with the instruction of the kit.RESULTS AND CONCLUSION:Compared with normal control group,cell viability in the H2O2 group was significantly decreased (P<0.01),and the levels of superoxide dismutase and catalase were significantly decreased (P<0.01),while the level of malondialdehyde was significantly increased (P<0.01).Compared with H2O2 group,the survival rate of cells was significantly increased (P<0.01),and the levels of superoxide dismutase and catalase were significantly increased (P<0.01),while the level of malondialdehyde was significantly decreased (P<0.01) in the mangiferin group.Mangiferin showed concentration-dependent antioxidant stress protective activity above 20 μmol/L,and no cytotoxicity below 160 μmol/L.These findings indicate that antioxidant mangiferin can increase the antioxidant activity of bone marrow mesenchymal stem cells and provide a new preconditioning strategy for bone marrow mesenchymal stem cell transplantation.

OBJECTIVES: This study aimed to evaluate the repeatability and reliability of a self-developed domestic wireless surface electromyography (sEMG) system (Oralmetry) in assessing the activity of the temporalis and masseter muscles to provide theoretical support for its clinical application. METHODS: Twenty-two volunteers were recruited. Through multiple repeated measurements, the sEMG signals of bilateral anterior temporalis and masseter muscles during maximum voluntary clenching were collected using the self-developed sEMG device, Oralmetry, and two commercial sEMG devices (Zebris and Teethan), filtered, screened, and standardized. Seven sEMG indicators for assessing masticatory muscle function were calculated. The intraclass correlation coefficient (ICC) was used to evaluate the repeatability of the measurements from the three sEMG devices, and statistical analysis was conducted to compare the consistency of the seven sEMG indicators obtained from the devices. RESULTS: Among the 22 participants, the ICC values of the repeated measurements from the three sEMG devices ranged from 0.88 to 0.99. The measurements of three sEMG indicators (antero-posterior coeffificient, percentage overlapping coeffificient_MM, and percentage overlapping coeffificient_TA) obtained by Zebris were significantly different from those obtained by Oralmetry and Teethan (P<0.05). No significant differences in the measurements of the seven sEMG indicators were found between Oralmetry and Teethan. CONCLUSIONS Oralmetry and the two commercial sEMG devices demonstrated good repeatability in capturing sEMG indicators for evaluating masticatory muscle function. In particular, Oralmetry showed the highest ICC values. All three devices also exhibited good consistency in measuring sEMG indicators, and a high agreement was observed between the two wireless sEMG devices (Oralmetry and Teethan). These findings provide theoretical support for the clinical application of Oralmetry.
Humans ; Electromyography/methods* ; Masseter Muscle/physiology* ; Masticatory Muscles/physiology* ; Wireless Technology ; Reproducibility of Results ; Temporal Muscle/physiology* ; Male ; Adult ; Female ; Young Adult

BACKGROUND:Mesenchymal stem cell transplantation has a certain effect on spinal cord injury,but there are still some problems such as low survival rate and poor efficiency of cell transplantation caused by local oxidative stress environment.OBJECTIVE:To explore the protective effect of mangiferin on oxidative stress of bone marrow mesenchymal stem cells.METHODS:Rat bone marrow mesenchymal stem cells at passage 3 were added to mangiferin and incubated for 2 hours according to the gradient of concentration (0,20,40,80,and 160 μmol/L).A serum-free medium containing 400 μmol/L H2O2 was added,and a gradient concentration of mangiferin was added again and cultured for 12 and 24 hours.Rat bone marrow mesenchymal stem cells were cultured as normal control group.Cell survival was detected by MTT assay in each group.The superoxide dismutase,malondialdehyde,and catalase in the culture medium were detected in accordance with the instruction of the kit.RESULTS AND CONCLUSION:Compared with normal control group,cell viability in the H2O2 group was significantly decreased (P<0.01),and the levels of superoxide dismutase and catalase were significantly decreased (P<0.01),while the level of malondialdehyde was significantly increased (P<0.01).Compared with H2O2 group,the survival rate of cells was significantly increased (P<0.01),and the levels of superoxide dismutase and catalase were significantly increased (P<0.01),while the level of malondialdehyde was significantly decreased (P<0.01) in the mangiferin group.Mangiferin showed concentration-dependent antioxidant stress protective activity above 20 μmol/L,and no cytotoxicity below 160 μmol/L.These findings indicate that antioxidant mangiferin can increase the antioxidant activity of bone marrow mesenchymal stem cells and provide a new preconditioning strategy for bone marrow mesenchymal stem cell transplantation.

Objective:To evaluate the accuracy of a self-developed extraoral scanning system based on photogrammetry technology, and to provide evidence for advancing the development and clinical application evaluation of domestically produced scanning devices.Methods:This research group developed a photogrammetry-based implant extraoral scanning system with customized scan bodies. Two distinct edentulous implant resin models were designed and three-dimensional (3D)-printed by Center of Digital Dentistry, Peking University School and Hospital of Stomatology, containing 6 (Model 1) and 8 (Model 2) abutment analogs respectively. Reference data acquisition was performed using a high-precision denture 3D scanner with scan caps mounted on the analogs. Specialized scan bodies were then mounted on the analogs for 3D positional data acquisition using both the self-developed system (experimental group) and the clinically established system (control group). Each system conducted 10 repeated scans per model. Trueness was assessed through root mean square error (RMSE), linear deviation (LD), and angular deviation (AD) relative to reference data, while precision was determined through intra-group RMSE analysis. Systematic comparisons included inter-group performance on identical models and intra-group variability across different models.Results:For Model 1, the experimental group showed statistically significant advantages over controls in intra-group RMSE [(3.10±0.71) μm vs (4.61±1.51) μm, P<0.001], reference-data RMSE [(21.48±0.60) μm vs (32.50±0.63) μm, P<0.001], linear deviation [23.64 (32.35) μm vs 44.86 (55.73) μm, P<0.001], and angular deviation [0.29° (0.29°) vs 0.23° (0.33°), P<0.001]. In Model 2, significant improvements were observed in intra-group RMSE [(4.47±1.58) μm vs (6.21±2.07) μm, P<0.001], reference-data RMSE [(38.84±0.86) μm vs (43.69±1.34) μm, P<0.001], and linear deviation [37.95 (50.68) μm vs 49.71 (58.89) μm, P<0.001]. Both groups exhibited model-dependent variability, with RMSE of precision and trueness of both groups, linear deviation of experimental group, angular deviation of control group showing statistically significant increases (all P<0.001) corresponding to abutment analog quantity. Conclusions:The self-developed scanning system demonstrates superior accuracy in 3D positional acquisition of abutment analogs compared to the contral group system, with implant number identified as a critical determinant of extraoral scanning accuracy.

Objective:To develop an original-mirror alignment associated deep learning algorithm for intelligent registration of three-dimensional maxillofacial point cloud data,by utilizing a dynamic graph-based registration network model(maxillofacial dynamic graph registration network,MDGR-Net),and to provide a valuable reference for digital design and analysis in clinical dental applications.Methods:Four hundred clinical patients without significant deformities were recruited from Peking University School of Stomatology from October 2018 to October 2022.Through data augmentation,a total of 2 000 three-dimensional maxillofacial datasets were generated for training and testing the MDGR-Net algorithm.These were divided into a training set(1 400 cases),a validation set(200 cases),and an internal test set(200 cases).The MDGR-Net model constructed feature vectors for key points in both original and mirror point clouds(X,Y),established correspondences between key points in the X and Y point clouds based on these feature vectors,and calculated rotation and translation matrices using singular value decomposi-tion(SVD).Utilizing the MDGR-Net model,intelligent registration of the original and mirror point clouds were achieved,resulting in a combined point cloud.The principal component analysis(PCA)algorithm was applied to this combined point cloud to obtain the symmetry reference plane associated with the MDGR-Net methodology.Model evaluation for the translation and rotation matrices on the test set was performed using the coefficient of determination(R2).Angle error evaluations for the three-dimensional maxillofacial symmetry reference planes were constructed using the MDGR-Net-associated method and the"ground truth"iterative closest point(ICP)-associated method were conducted on 200 cases in the inter-nal test set and 40 cases in an external test set.Results:Based on testing with the three-dimensional maxillofacial data from the 200-case internal test set,the MDGR-Net model achieved an R2 value of 0.91 for the rotation matrix and 0.98 for the translation matrix.The average angle error on the internal and external test sets were 0.84°±0.55° and 0.58°±0.43°,respectively.The construction of the three-dimensional maxillofacial symmetry reference plane for 40 clinical cases took only 3 seconds,with the model performing optimally in the patients with skeletal Class Ⅲ malocclusion,high angle cases,and Angle Class Ⅲ orthodontic patients.Conclusion:This study proposed the MDGR-Net association method based on intelligent point cloud registration as a novel solution for constructing three-dimensional maxillo-facial symmetry reference planes in clinical dental applications,which can significantly enhance diagnos-tic and therapeutic efficiency and outcomes,while reduce expert dependence.

Objective:To explore the method of obtaining the key parameters of the average value articulator in healthy people based on mandibular movement trajectory data, with a view to providing a reference for the clinical application of the average value articulator.Methods:One hundred healthy volunteers (42 males and 58 females) with individual normal occlusion, aged 18-55 years old, who met the inclusion criteria were recruited from Beijing, and their mandibular movement trajectory data were collected. The left and right sagittal condylar inclination(SCI) and transversal condylar inclination(TCI) were obtained from the values of the articulator parameters which were generated in the mandibular movement analysis system.The SCI and TCI were grouped by gender and calculated separately for the two groups and the overall sample; the gender differences in the two parameters and the differences between the mean values of the two parameters and the average value articulator empirical values (35° for SCI and 15° for TCI) for the overall sample were compared.Results:The differences between SCI (35.8°±7.4°) and TCI [11.2° (11.3°)] in males and the corresponding parameters [35.6°±8.3° and 10.8° (9.5°), respectively] in females were not statistically significant ( t=0.10, P=0.922; Z=-0.60, P=0.552); the overall sample SCI (35.7°±7.9°) did not differ statistically from the average value articulator empirical value ( t=1.23, P=0.221), and the overall sample TCI [10.9° (10.3°)] was significantly smaller than the average value articulator empirical value ( W=5 825.00, P<0.001). Conclusions:The mandibular movement trajectory data of 100 adults with individual normal occlusion in this study shows that the gender factor does not affect the setting of the key parameters of the average value articulator, the SCI of the average value articulator empirical values is appropriate, and the TCI has the possibility of being on the large side. In the clinical use of the articulator to assist in the design of restorations, the parameter values should be rationally adjusted according to the actual situation of the patient′s dentition and mandibular movement.

Objective This study proposes a chairside digital design and manufacturing method for band and loop space maintainers and preliminarily validates its clinical feasibility.Methods Clinical cases of 10 children requiring space maintenance caused by premature loss of primary teeth were collected.Intraoral scan data of the affected children were also collected to establish digital models of the missing teeth.Using a pediatric band and loop space maintainer de-sign software developed by our research team,a rapid personalized design of band and loop structures was achieved,and a digital model of an integrated band and loop space maintainer was ultimately generated.A chairside space maintainer was manufactured through metal computer numerical control machining for the experimental group,whereas metal 3D printing in the dental laboratory was used for the control group.A model fitting assessment was conducted for the space maintainers of both groups,and senior pediatric dental experts were invited to evaluate the clinical feasibility of the space maintainers with regard to fit and stability using the visual analogue scale scoring system.Statistical analysis was also performed.Results The time spent in designing and manufacturing the 10 space maintainers of the experimental group was all less than 1 h.Statistical analysis of expert ratings showed that the experimental group outperformed the control group with regard to fit and stability.Both types of space maintainers met clinical requirements.Conclusion The chairside digital design and manufacturing method for pediatric band and loop space maintainers proposed in this study can achieve same-day fitting of space maintainers at the first appointment,demonstrating good clinical feasibility and significant potential for clinical application.

A 55-year-old female patient with ovarian cancer received bevacizumab (intravenous infusion of 400 mg on day 1) and paclitaxel liposomes (intravenous infusion of 180 mg on day 1) 9 years after surgery due to disease progression, with 21 days as a cycle of chemotherapy. Due to the improvement of the patient′s general condition, the chemotherapy regimens for the 3rd and 4th cycles were adjusted to addtionally give intravenous infusion of carboplatin 500 mg on day 1, and in the 5th cycle, the dose of bevacizumab was increased to 700 mg. Starting from the 2th cycle of chemotherapy, after each intravenous infusion of paclitaxel, the patient immediately experienced itching symptoms on the distal skin of both upper limbs, which were mild and could be relieved on their own. After the 5th cycle of chemotherapy, the patient′s itching symptoms worsened progressively. Four days later, keratinization of the skin on both hands and forearms of upper limbs appeared, with tight skin and waxy luster, gradually developing towards the proximal end. The modified Rodnan skin score was 1-2 (mild to moderate skin thickening). Laboratory tests showed positive results for anti-nuclear antibodies and anti-centromere antibodies.Pathological examination of skin biopsy tissue of the right forearm showed dermal fibrosis, involving subcutaneous adipose tissue and epidermal atrophy. It was considered to be localized cutaneous systemic sclerosis caused by paclitaxel liposomes. Paclitaxel liposomes was stopped and anti-inflammatory and topical application of glucocorticoids locally treatments were given for 3 days, the patient′s itching symptoms were improved. At a 2-month follow-up, the patient′s itching symptoms were improved and did not recur.