Background 900 MHz radiofrequency radiation (RF) is a commonly used frequency in modern wireless communication devices, and its potential health effects have drawn much attention, especially its impact on bone metabolism, which has not been fully clarified. Objective To investigate the effects of 900 MHz RF on the bone tissue and osteoblast senescence of mice, as well as the dose-effect relationship. Methods In vivo, 3-month-old female C57BL/6 mice were divided into five groups (n=10): sham exposure, low-dose RF (50 μW·cm⁻²), medium-dose RF (150 μW·cm⁻²), high-dose RF (450 μW·cm⁻²), and D-galactose positive control (D-gal). Treatments were administered for 4 h per day for 28 d. Bone mineral density (BMD) and microstructure, including bone volume (BV), tissue volume (TV), bone volume fraction (BV/TV), trabecular number (Tb.N), trabecular separation (Tb.Sp), and trabecular thickness (Tb.Th), were assessed by Micro-CT; bone morphology was examined after hematoxylin and eosin (HE) staining; osteoprotegerin (OPG) and receptor activator of nuclear factor kappa-κΒ ligand (RANKL) expression was detected by immunohistochemistry; serum OPG, tartrate-resistant acid phosphatase 5b (TRACP-5b), plasminogen activator inhibitor-1 (PAI-1), interleukin-6 (IL-6), and C-X-C motif chemokine ligand 15 (CXCL15) levels were measured by enzyme-linked immunosorbent assay (ELISA); mRNA expression of Tp53, Cdkn1a, and Cdkn2a in bone tissue was analyzed by reverse transcription polymerase chain reaction (RT-PCR). In vitro, MC3T3-E1 pre-osteoblasts were grouped into sham, low-dose RF (50 μW·cm⁻²), medium-dose RF (150 μW·cm⁻²), high-dose RF (450 μW·cm⁻²), and H₂O₂ control, groups, and were exposed for 4 h per day for 5 d. Cell morphology was observed by microscopy; viability was tested by cell counting kit-8 (CCK-8); senescence was evaluated by senescence-associated β-galactosidase (SA-β-gal) staining; P53 and P21 protein expression was detected by Western blot; Tp53 and Cdkn1a mRNA levels were measured by RT-PCR. Results In vivo, RF at each dose significantly reduced the BMD of the mice's femurs and the bone microstructure parameters, such as BV/TV, Tb.N, and Tb.Th (P<0.05). Among them, Tb.Sp only increased in the 150 μW·cm⁻² RF group (P<0.05), with a looser bone network; fewer, sparser trabeculae and increased marrow fat were observed after HE staining; down-regulated OPG and up-regulated RANKL expression levels were observed by immunohistochemistry; the ELISA test revealed that the serum OPG levels in the 150 μW·cm⁻² RF group and the 450 μW·cm⁻² RF group of mice were significantly decreased (P<0.05), while the indicator in the 50 μW·cm⁻² RF group showed a decreasing trend but the difference was not statistically significant (P>0.05), TRACP-5b rose, and PAI-1, IL-6, and CXCL15 levels increased (P<0.05); the RT-PCR results showed thatTp53, Cdkn1a, and Cdkn2a mRNA expression was upregulated (P<0.05). In vitro, radiofrequency radiation induced cell flattening, reduced viability (P<0.05), increased SA-β-gal-positive cells (P<0.05), and upregulated P53, P21, Tp53, and Cdkn1a expression (P<0.05). Conclusion 900 MHz RF disrupts bone metabolism in mice by inhibiting bone formation, promoting resorption, and inducing osteoblast senescence, accelerating bone aging. The 150 μW·cm⁻² RF dose exhibits the most pronounced effect, reflecting a nonlinear “window effect,” highlighting potential health risks.

Epilepsy is a chronic neurological disorder affecting ~65 million individuals worldwide. Abnormal synaptic plasticity is one of the most important pathological features of this condition. We investigated how ubiquitin-specific peptidase 47 (USP47) influences synaptic plasticity and its link to epilepsy. We found that USP47 enhanced excitatory postsynaptic transmission and increased the density of total dendritic spines and the proportion of mature dendritic spines. Furthermore, USP47 inhibited the degradation of the ubiquitinated α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptor (AMPAR) subunit glutamate receptor 1 (GluR1), which is associated with synaptic plasticity. In addition, elevated levels of USP47 were found in epileptic mice, and USP47 knockdown reduced the frequency and duration of seizure-like events and alleviated epileptic seizures. To summarize, we present a new mechanism whereby USP47 regulates excitatory postsynaptic plasticity through the inhibition of ubiquitinated GluR1 degradation. Modulating USP47 may offer a potential approach for controlling seizures and modifying disease progression in future therapeutic strategies.
Animals ; Receptors, AMPA/metabolism* ; Neuronal Plasticity/physiology* ; Seizures/physiopathology* ; Disease Models, Animal ; Mice, Inbred C57BL ; Mice ; Ubiquitin Thiolesterase/genetics* ; Male ; Excitatory Postsynaptic Potentials/physiology* ; Ubiquitination ; Dendritic Spines/metabolism* ; Hippocampus/metabolism*

Objective To investigate the therapeutic effects of copper-doped barium titanate(BaCuTiO4)piezoelectric materials combined with low-intensity pulsed ultrasound(LIPUS)to activate their piezoelectric-catalytic synergistic effect for treating implant-associated infections.Methods BaCuTiO4 coatings were synthesized on the surface of Ti-6Al-4V substrates using a hydrothermal method,and their surface morphology was characterized by scanning electron microscopy.The piezoelectric characteristics of the coatings were analyzed using a piezoresponse force microscope.An in vitro biofilm model of methicillin-resistant staphylococcus aureus(MRSA)was used,with barium titanate(BaTiO3)coatings serving as the control group.Under LIPUS intervention(1.0 W/cm2,1 MHz,10 min),the bacterial viability was assessed using colony counting to evaluate the antibacterial performance of the BaCuTiO4 coatings.Confocal microscopy was used to observe biofilm viability in different groups,assessing the biofilm removal capability of the coatings.Reactive oxygen species(ROS)generation in each group was detected using Rhodamine b as a probe to evaluate the catalytic efficiency of the coatings in generating ROS.Results Copper doping significantly reduced the piezoelectric coefficient of the coating(from 17.7 pm/V to 7.8 pm/V),bringing its piezoelectric performance closer to the requirements of natural bone tissues.Under LIPUS activation,the BaCuTiO4 coatings increased the generation efficiency of reactive oxygen species by 67.5％and effectively disrupted and removed biofilms formed by MRSA,achieving an antibacterial rate of 90.5％.Conclusions The BaCuTiO4 coatings achieve efficient antibacterial and biofilm-clearing functions through a piezoelectric-catalytic synergistic mechanism.Their piezoelectric properties are well-matched with natural bone tissues,promoting implant osseointegration.

Objective To investigate the therapeutic effects of copper-doped barium titanate(BaCuTiO4)piezoelectric materials combined with low-intensity pulsed ultrasound(LIPUS)to activate their piezoelectric-catalytic synergistic effect for treating implant-associated infections.Methods BaCuTiO4 coatings were synthesized on the surface of Ti-6Al-4V substrates using a hydrothermal method,and their surface morphology was characterized by scanning electron microscopy.The piezoelectric characteristics of the coatings were analyzed using a piezoresponse force microscope.An in vitro biofilm model of methicillin-resistant staphylococcus aureus(MRSA)was used,with barium titanate(BaTiO3)coatings serving as the control group.Under LIPUS intervention(1.0 W/cm2,1 MHz,10 min),the bacterial viability was assessed using colony counting to evaluate the antibacterial performance of the BaCuTiO4 coatings.Confocal microscopy was used to observe biofilm viability in different groups,assessing the biofilm removal capability of the coatings.Reactive oxygen species(ROS)generation in each group was detected using Rhodamine b as a probe to evaluate the catalytic efficiency of the coatings in generating ROS.Results Copper doping significantly reduced the piezoelectric coefficient of the coating(from 17.7 pm/V to 7.8 pm/V),bringing its piezoelectric performance closer to the requirements of natural bone tissues.Under LIPUS activation,the BaCuTiO4 coatings increased the generation efficiency of reactive oxygen species by 67.5％and effectively disrupted and removed biofilms formed by MRSA,achieving an antibacterial rate of 90.5％.Conclusions The BaCuTiO4 coatings achieve efficient antibacterial and biofilm-clearing functions through a piezoelectric-catalytic synergistic mechanism.Their piezoelectric properties are well-matched with natural bone tissues,promoting implant osseointegration.

Objective To evaluate the clinical efficacy and safety of anatomical repair and anatomical reconstruction through Meta-analysis.Methods Systematically search PubMed,Embase,Wanfang database,China National Knowledge Infrastructure and other databases were used to obtain the relevant literature in the treatment of chronic lateral instability of the ankle joint with anatomical repair and reconstruction from the establishment of each database to December 2022,and Revman 5.4 and R 4.2 software were used for Meta-analysis.Results Eight articles were finally included in this paper.All were randomized controlled trials.The results of Meta-analysis showed that:there were statistically significant differences between anatomical repair and anatomical reconstruction in the anterior talar translation (MD=0.54,95％CI:0.27-0.81,P<0.01),talus tilt angle (MD=0.36,95％CI:0.07-0.66,P=0.02),and American Orthopaedic Foot & Ankle Society scale (MD=-4.79,95％CI:-6.58--3.01,P<0.01),but there was no statistically significant difference in complications (RR=1.13,95％CI:0.32-3.97,P=0.85).Conclusion Anatomical reconstruction is superior to anatomical repair in clinical efficacy,while the risk of complications is comparable between two.

Objective: To investigate the effects of fiber surface deposited with silicon dioxide films by atomic layer deposition on properties of dental fiber-reinforced composites. Methods : SiO2 films were deposited on the surface of quartz fiber by atomic layer deposition(ALD). Then the quartz fiber was used to manufacture fiber resin composites, which were divided into four groups: A(no soaking agent removal), B(soaking agent removed), C(soaking agent removed and silanization), and D(soaking agent removed, 600 ALD cycles performed and then silanization). Scanning electron microscopy, water contact angle test, hygroscopicity test, CCK8 test and three-point bending test were used to investigate the properties of fiber resin composites. Results: The surface morphology of the quartz fiber treated by ALD was smooth and had no obvious change compared with that before treatment. Moreover, the quartz fiber showed hydrophobicity after silanization. The results of three-point bending test revealed that the mechanical properties of fiber-resin composites modified by ALD were significantly improved(P<0.05). When viewed by scanning electron microscopy, a good interfacial bonding could be seen between quartz fibers and the resin matrix in Group D. In addition, it was found that Group D had low absorbability, low solubility and good biocompatibility. Conclusion It is shown that deposition of SiO2 films on the quartz fiber by ALD can significantly enhance the mechanical properties of fiber-reinforced composites.

OBJECTIVE To optimize the extraction process of blumeatin from Blumea balsamifera and to evaluate its antibacterial and anti-inflammatory activity. METHODS The content of blumeatin in the extract of B. balsamifera was determined by HPLC. On the basis of the single factor experiment， the extraction technology of blumeatin was optimized by the Box-Behnken response surface method with the volume fraction of ethanol， liquid-solid ratio and extraction time as the factors， using the yield of blumeatin as index. Microdilution method was used to determine the antibacterial activity of blumeatin against Streptococcus pyogenes， Staphylococcus aureus， Streptococcus agalactiae， Streptococcus mutans， Bacillus subtilis and Micrococcus luteus. The anti-inflammatory activity of blumeatin was evaluated by ear swelling test and capillary permeability test in mice. RESULTS The optimal extraction technology was as follows： ethanol concentration of 90%， liquid-material ratio of 15∶1， extraction time of 2 h at 80 ℃； the yield of blumeatin using this extraction process was 1.97 mg/g. The minimum inhibitory concentrations of blumeatin for S. pyogenes， S. aureus， S. agalactiae， S. mutans， B. subtilis and M. luteus were 50.00， 200.00， 400.00， 400.00， 800.00 and 1 600.00 μg/mL， respectively； the minimum bactericidal concentrations of blumeatin for S. pyogenes and S. aureus were 400.00 and 1 600.00 μg/mL， respectively. Blumeatin could significantly inhibit the ear swelling induced by xylene and capillary permeability induced by acetic acid in mice（P＜0.05 or P＜0.01）. CONCLUSIONS The optimized extraction technology of blumeatin is stable and feasible. The extracted blumeatin has a certain antibacterial effect against S. pyogenes and a good anti-inflammatory activity.

Influenza has caused high morbidity and mortality worldwide, seriously endangering human health and life. The continuous mutation of influenza virus has brought new challenges to the prevention and treatment of influenza. Animal models provide convenience for a comprehensive understanding of influenza virus pathogenesis, transmission mechanism, vaccine development, and evaluation of therapeutic effects. The construction and use of animal models of influenza virus infection vary in different studies, and the application of different animal models also has its own characteristics. This article reviewed the current status of the construction and use of various animal models, and summarized the advantages and limitations of animal models in evaluating the efficacy of antibodies, drugs and vaccines, with the aim of providing reference for the selection and optimization of animal models in the future.

Objective:To understand the psychology of patients undergoing breast augmentation, and to provide reference for preoperative communication between clinicians and patients.Methods:From September 2016 to September 2017, the Guangdong Second Provincial General Hospital formulated a 37-question questionnaire based on BREAST-Q and Chinese national conditions, and investigated patients who planned to undergo breast augmentation in 34 hospitals.Results:A total of 2066 valid questionnaires were collected. Fifty-four percent of women were dissatisfied with their nude appearance, which was more dissatisfied compared with their appearance when dressed. Surgical safety (20.1%), surgical effect (16.8%), surgical method and incision selection (16.5%), breast implant material (14.5%) and doctor′s skill (11.6%) were the five most important factors for considering breast augmentation. Only 26.6% of the respondents were supported by their family members or partners when they made the decision to have breast augmentation. Most women had limited knowledge of breast augmentation, with only 24.9 percent of respondents having a thorough understanding of the procedure.Conclusions:Women undergoing breast augmentation have an urgent need to improve their appearance, and their decision-making process is affected by many factors, among which surgical safety is the most worrying factor for patients. This group of people have limited knowledge about surgery, and the popularization of breast augmentation by plastic surgeons remains to be strengthened.