BACKGROUND:Arthroscopic anchor repair has become the main treatment method for rotator cuff tears at present.Among them,the insertion status of the anchor is a key factor in the success or failure of the operation.However,currently,the impact of the insertion depth of the anchor on the stress of the bone tunnel and the anchor under different bone density conditions remains unclear.OBJECTIVE:To explore the stress distribution of the bone tunnel and the anchor when the insertion depth of the anchor varies under different bone density conditions by using three-dimensional finite element analysis technology.METHODS:The CT image data of the humerus of volunteers were collected,and the models of the humerus and the anchor were constructed by using Mimics,3-Matic,and Solidworks software.In 3-Matic,holes with distances of 0,2,4,6,and 8 mm from the surface of the humerus were respectively created at the same position of the humerus and assembled with the anchor.In Mimics,values were assigned based on the CT gray value to obtain a model with normal bone mass(T value ≥-1.0).The parameters were changed to construct models with reduced bone mass(-2.5＜T value＜-1.0)and osteoporosis(T value＜-2.5).In each model,a 70 N pulling force was applied to the anchor along the direction tangent to the inner edge of the bone tunnel.The stress distribution and magnitude of the bone tunnel and the anchor when inserted at different depths under different bone density conditions were observed.RESULTS AND CONCLUSION:(1)When the insertion depth was the same,as the bone density decreased,the maximum equivalent stress of the anchor increased,while the maximum equivalent stress of the bone tunnel decreased.(2)When the bone density was the same,as the insertion depth of the anchor increased,the maximum equivalent stress of the anchor decreased.When the insertion depth was 4 mm,the stress of the bone tunnel was the smallest and the distribution was relatively uniform.The stress of the anchor was mainly distributed around the lower anchor hole and the proximal thread,and the stress of the bone tunnel was mainly at the part in contact with the proximal thread.The increase in the insertion depth would change the uniformity and pattern of the stress distribution,while the bone density had a relatively small impact on the stress distribution pattern.(3)It is concluded that the bone density of the humerus is crucial for the anchor repair of rotator cuff tears.It is recommended that clinicians measure the bone density of the greater tuberosity of the humerus before the operation.Excessive insertion depth of the anchor does not significantly increase its stability.Clinicians can conduct personalized preoperative assessments by using the finite element analysis method in combination with the actual situation of patients to achieve the best surgical results.

Objective To elucidate the changes in the gut microbiota and molecular mechanism of huaier in enhancing the efficacy of oxaliplatin (OXA) chemotherapy in gastric cancer (GC). Methods The effects of huaier on the gut microbiota structure and intestinal barrier function in MKN45-bearing mice were analyzed by using 16S rRNA sequencing, RT-qPCR, and IHC. UPLC-MS and network pharmacology, as well as in vivo experimental approaches, were employed to investigate the key bioactive constituents of huaier systematically and elucidate the underlying mechanisms by which huaier exerts therapeutic effects against GC. The expression of the PI3K/AKT/SREBP pathway was detected in cancer cells and tissues via Western blot analysis. The safety profile of huaier combined with OXA was verified through serum biochemistry and HE-stained tissue section analyses. Results Huaier inhibited the PI3K/AKT/SREBP pathway by increasing the abundance of Akkermansia muciniphila, reduced lipid droplet deposition, and ultimately enhanced the sensitivity to OXA in the treatment of GC. Conclusion This study demonstrates the value of huaier in gastric cancer treatment by enhancing chemosensitivity and provides novel insights into its systemic therapeutic effects through molecular mechanisms and gut microbiota modulation.

BACKGROUND:Arthroscopic anchor repair has become the main treatment method for rotator cuff tears at present.Among them,the insertion status of the anchor is a key factor in the success or failure of the operation.However,currently,the impact of the insertion depth of the anchor on the stress of the bone tunnel and the anchor under different bone density conditions remains unclear.OBJECTIVE:To explore the stress distribution of the bone tunnel and the anchor when the insertion depth of the anchor varies under different bone density conditions by using three-dimensional finite element analysis technology.METHODS:The CT image data of the humerus of volunteers were collected,and the models of the humerus and the anchor were constructed by using Mimics,3-Matic,and Solidworks software.In 3-Matic,holes with distances of 0,2,4,6,and 8 mm from the surface of the humerus were respectively created at the same position of the humerus and assembled with the anchor.In Mimics,values were assigned based on the CT gray value to obtain a model with normal bone mass(T value ≥-1.0).The parameters were changed to construct models with reduced bone mass(-2.5＜T value＜-1.0)and osteoporosis(T value＜-2.5).In each model,a 70 N pulling force was applied to the anchor along the direction tangent to the inner edge of the bone tunnel.The stress distribution and magnitude of the bone tunnel and the anchor when inserted at different depths under different bone density conditions were observed.RESULTS AND CONCLUSION:(1)When the insertion depth was the same,as the bone density decreased,the maximum equivalent stress of the anchor increased,while the maximum equivalent stress of the bone tunnel decreased.(2)When the bone density was the same,as the insertion depth of the anchor increased,the maximum equivalent stress of the anchor decreased.When the insertion depth was 4 mm,the stress of the bone tunnel was the smallest and the distribution was relatively uniform.The stress of the anchor was mainly distributed around the lower anchor hole and the proximal thread,and the stress of the bone tunnel was mainly at the part in contact with the proximal thread.The increase in the insertion depth would change the uniformity and pattern of the stress distribution,while the bone density had a relatively small impact on the stress distribution pattern.(3)It is concluded that the bone density of the humerus is crucial for the anchor repair of rotator cuff tears.It is recommended that clinicians measure the bone density of the greater tuberosity of the humerus before the operation.Excessive insertion depth of the anchor does not significantly increase its stability.Clinicians can conduct personalized preoperative assessments by using the finite element analysis method in combination with the actual situation of patients to achieve the best surgical results.

Deep brain stimulation （DBS） has been widely applied in treating neurological disorders such as Parkinson’s disease， with corresponding evidence of safety and efficacy. However， when DBS is experimentally applied in the field of mental disorders， the uncertainty of its therapeutic mechanisms and targets becomes prominent， and there are peculiarities such as the lack of substantive informed consent， partial deprivation of autonomy， and the impact on the homogeneity of personality for research participants or patients. In response to the above situations， the current normative documents are still insufficient， the ethical review re-examination procedure has not yet formed a perfect system， the substantive informed consent of research participants or patients has not yet been clearly guaranteed， as well as the technical scope and regulatory boundaries are not clear. For the new application of DBS in the field of mental disorders， the principle of prudent supervision should be upheld， and appropriate regulation should be carried out to prevent the dilemma of “Collingridge”. Specifically， the ethical review system should be innovated and refined， whole-process informed consent of research participants or patients and guardian assistance in decision-making should be ensured， the legal nature of “experimental treatment” should be clarified， as well as the relevant provisions in the Mental Health Law of the People’s Republic of China should be improved， with a view to providing legal theoretical support and practical operational guidelines for the legalization and standardization of DBS’s application in mental disorder research.

Objective: To analyze the characteristics of injury surveillance cases among the elderly in Ningbo City, Zhejiang Province from 2014 to 2023, so as to provide the basis for formulating targeted injury intervention measures. Methods: Injury surveillance cases aged ≥60 years were collected from seven injury sentinel hospitals in Ningbo City through the Zhejiang Provincial Chronic Disease Surveillance Information Management System from 2014 to 2023. Population distribution, temporal distribution, injury circumstances, and clinical characteristics were described. Results: A total of 67 259 injury surveillance cases among the elderly were reported in Ningbo City from 2014 to 2023, including 32 159 males (47.81%) and 35 100 females (52.19%). The median age was 68.00 (interquartile range, 14.00) years. The three months with a higher number of cases were December (6 271 cases, 9.32%), August (6 226 cases, 9.26%) and October (6 221 cases, 9.25%). The primary causes of injury were falls (25 276 cases, 37.58%), stabs (12 250 cases, 18.21%), and sprains (11 815 cases, 17.57%). The injury occurred mainly in homes (44 975 cases, 66.87%) and streets/urban areas (16 174 cases, 24.05%). The predominant activities at the time of injury were leisure activities (28 801 cases, 42.82%) and household chores (23 647 cases, 35.16%). The proportions of falls as the cause of injury and injuries occurring at home among females and people aged 80 years and above were relatively high. The predominant sites of injury were upper limbs (23 354 cases, 34.72%) and lower limbs (20 343 cases, 30.25%). The predominant nature of injury were soft tissue injuries (43 345 cases, 64.44%) and bone and joint injuries (22 042 cases, 32.77%). Injuries were primarily mild and moderate in severity, with 46 391 cases (68.97%) and 20 205 cases (30.04%), respectively. The proportion of bone and joint injuries, moderate in injuries among females and people aged 80 years and above was relatively high. Conclusions The main causes of injury surveillance cases among the elderly in Ningbo City from 2014 to 2023 were falls and stabs, and the injuries occurred mainly in homes and streets/urban areas. Female and elderly people have a higher risk of injury.

Tissue-resident memory T (TRM) cells are a recently defined subtype of non-recirculating memory T cells with longevity and protective functions in peripheral tissues. As an essential frontline defense against infections, TRM cells have been reported to robustly patrol the tissue microenvironment in malignancies. Accumulating evidence also implicates that TRM cells in the relapse of chronic inflammatory skin diseases such as psoriasis and vitiligo. In light of these developments, this review aims to synthesize these recent findings to enhance our understanding of TRM cell characteristics and actions. Therefore, after providing a brief overview of the general features of the TRM cells, including precursors, homing, retention, and maintenance, we discuss recent insights gained into their heterogeneous functions in skin diseases. Specifically, we explore their involvement in conditions such as psoriasis, vitiligo, fixed drug eruption - dermatological manifestations of drug reactions at the same spot, cutaneous T cell lymphoma, and melanoma. By integrating these diverse perspectives, this review develops a comprehensive model of TRM cell behavior in various skin-related pathologies. In conclusion, our review emphasizes that deciphering the characteristics and mechanisms of TRM cell actions holds potential not only for discovering methods to slow cancer growth but also for reducing the frequency of recurrent chronic inflammation in skin tissue.
Humans ; Skin Diseases/immunology* ; Memory T Cells/immunology* ; Animals ; Vitiligo/immunology* ; Psoriasis/immunology* ; Immunologic Memory

OBJECTIVE: To evaluate the feasibility and accuracy of cone-beam CT (CBCT) images for radiotherapy dose calculation in pelvic tumors. METHODS: An improved volumetric density coverage method was used to establish CT value-relative electron density (RED) curves for CBCT images. The planning CT plans were transferred to the CBCT images, and the constructed density curves were applied to calculate doses for CBCT plans while maintaining the optimization parameters unchanged. Dose calculation deviations between the two plans were analyzed. RESULTS: The mean differences in dosimetric parameters for the target volume and organs at risk (OAR) between the two plans were less than 1% and 1.5%, respectively. The target conformity index (CI), homogeneity index (HI), and gamma passing rates were highly consistent, with no statistically significant differences. CONCLUSION CBCT images corrected by this method can be used for dose calculation in pelvic tumor radiotherapy planning.
Cone-Beam Computed Tomography/methods* ; Humans ; Radiotherapy Planning, Computer-Assisted/methods* ; Radiotherapy Dosage ; Pelvic Neoplasms/diagnostic imaging*

Acute Gelsemium poisoning is a systemic disease primarily affecting the central nervous system and respiratory symptoms caused by the ingestion of a substantial amount of Gelsemium within a short period. It manifests as sudden onset and rapid progression, primarily caused by accidental ingestion due to misidentification, and posing significant health risks. The compilation of the Technical Plan for Emergency Health Response to Acute Gelsemium Poisoning describes in detail the specialized practice and technical requirements in the process of handling acute Gelsemium poisoning, including accident investigation and management, laboratory testing and identification, in-hospital treatment, and health monitoring. The guidelines clarify key procedures and requirements such as personal protection, investigation elements, etiology determination, medical rescue, and health education. The key to acute Gelsemium poisoning investigation lies in promptly identifying the toxin through exposure history, clinical manifestations, and sample testing. Because there is no specific antidote for Gelsemium poisoning, immediate removal from exposure, rapid elimination of the toxin, and respiratory monitoring are critical on-site rescue measures. Visual identification of food or herbal materials, followed by laboratory testing to determine Gelsemium alkaloids in samples is a rapid effective screening method. These guidelines offer a scientific, objective, and practical framework to support effective emergency responses to acute Gelsemium poisoning incidences.

BACKGROUND:Iron overload refers to excessive accumulation of iron in the body,which can cause pathological changes in various tissues.At present,the molecular mechanism and potential gene targets related to iron overload in osteoarthritis still need to be further studied and explored. OBJECTIVE:To analyze the key genes of iron overload in osteoarthritis by means of bioinformatics and verify them in animal experiments,so as to provide a new idea for preventing and treating osteoarthritis from the perspective of iron overload. METHODS:GEO database and GeneCards database were used to screen out genes associated with osteoarthritis and genes associated with iron overload.Then,the intersection of the two was taken to obtain a collection of genes commonly associated with osteoarthritis and iron overload.GO and KEGG enrichment analyses were used to screen the functions and pathways of these genes.To further investigate the interactions between these genes,a protein-protein interaction network was constructed and five computational methods of Cytoscape software were utilized to identify the Hub genes for iron overload in osteoarthritis.Finally,12 male Sprague-Dawley rats were divided into osteoarthritis group and normal group,with 6 rats in each group.A knee osteoarthritis model was established by the modified Hulth method in the osteoarthritis group.The expression of Hub genes in the knee joint of rats in each group was detected by PCR. RESULTS AND CONCLUSION:(1)A total of 51 genes associated with iron overload were identified in osteoarthritis.GO enrichment analysis showed that these genes were mainly involved in cytokine receptor binding,chemokine receptor binding,cytokine activity,growth factor receptor binding and oligosaccharide binding.(2)KEGG enrichment analysis showed that genes associated with iron overload in osteoarthritis was mainly involved in tumor necrosis factor signaling pathway and lipid and atherosclerosis signaling pathway.(3)The protein-protein interaction network was constructed,and five Hub genes of iron overload,intercellular cell adhesion molecule-1,tumor necrosis factor superfamily member 11,myelocytomatosis oncogene,janus kinase 2,and interleukin 6,were obtained by further analysis.Animal experiments verified that there were significant differences in the expression of the above Hub genes in the rat knee joint between the control group and the experimental group(P<0.05).(4)All these findings show that intercellular cell adhesion molecule-1,tumor necrosis factor superfamily member 11,myelocytomatosis oncogene,janus kinase 2,and interleukin 6 can be used as the Hub genes of iron overload in osteoarthritis,which are expected to become new targets for the prevention and treatment of osteoarthritis.

Objective To investigate the protective effect of mitochondrial fission inhibitor 1(Mdivi-1),on organ function in rats with explosive blast injury combined with hemorrhagic shock.Methods A total of 192 SD rats(half male and half female,12 weeks old,weighing about 220 g)were randomly divided into 6 groups:Sham group(only surgical incision along the midline of the abdomen),model group(ESH group,thermal radiation and shock wave injury followed by femoral artery hemorrhage),lactated Ringer's solution resuscitation group(ESH+LR group,LR solution infusion in the femoral vein for resuscitation),and low-,middle-and high-dose Mdivi-1 groups(0.1,0.5 and 1.0 mg/kg Mdivi-1 intervention after infusion of LR solution).Fluorescent protein tracing was used to determine the leakage amount of fluorescent protein in the lung and kidney tissues to evaluate the vascular permeability.Evans blue dye staining was employed to observe the intestinal permeability and pulmonary vascular permeability.Laser Doppler flowmetry was applied to monitor the tissue blood perfusion in the liver,kidneys,and intestine.Serum levels of cardiac injury marker troponin I(TNI),liver function markers aspartate aminotransferase(AST)and alanine aminotransferase(ALT),and renal function markers serum creatinine(Scr)and blood urea nitrogen(BUN)were detected to evaluate the functions of corresponding organs.The water contents of the lungs and brain were calculated by measuring wet weight and dry weight of the lung and brain tissues.Blood pressure,heart rate,and respiratory rate were monitored.The survival time and 72-hour survival rate were recorded and calculated.Results Compared with the Sham group,the ESH group exhibited significantly increased vascular permeability in the lungs and kidneys as well as intestinal tissue(P<0.05),along with obviously elevated water contents in the lungs and brain(P<0.05),and decreased blood perfusion in the liver,kidneys,and intestine by 57.1%,39.2%,and 43.2%of the Sham group,respectively(P<0.05),elevated levels of TNI,AST,ALT,Scr and BUN(P<0.05),mean survival time of 3.8±1.1 h,and a 72-hour survival rate of 0(P<0.05).Although LR solution resuscitation reduced vascular permeability and alleviated organ injury in rats with explosive injury combined with hemorrhagic shock,there were no significant differences compared to the ESH group(P>0.05).Mdivi-1 treatment notably decreased vascular permeability in the lungs and kidneys and intestine,and water contents in the lungs and brain when compared with the LR group(P<0.05),with the dose of 0.5 mg/kg demonstrating the most significant effect.Additionally,Mdivi-1 treatment also significantly enhanced organ perfusion,improved organ functions,prolonged survival time,and increased survival rate.The 0.5 mg/kg treatment resulted in a 72-hour average survival time 55.64 h and a survival rate of 62.5%.Conclusion Mitochondrial fission inhibitor Mdivi-1 can reduce the permeabilities in the lungs,kidneys and intestine,improve tissue blood perfusion,protect the organ functions of the heart,liver and kidneys,and finally prolong survival time and increase survival rate in rats with concomitant explosive blast injury and hemorrhagic shock.