Compared to traditional suturing, lung stapling using automatic staplers offers advantages such as smaller trauma, faster wound healing, ease of operation, and lower complication rates, making it widely used in clinical practice. However, there are significant differences in bronchial tissue thickness at different anatomical locations, and the market is flooded with various types of staplers. Currently, there is a lack of recommended stapling schemes for bronchial staplers at different anatomical locations. This article reviews the development and application of automatic staplers and summarizes some types of staplers that are currently used in clinical practice, with the aim of promoting the formation of individualized stapler selection protocols for minimally invasive thoracic surgery based on the Chinese population.

BACKGROUND:Macrophages are an important part of innate immunity.When the internal environment of the body changes,macrophages can produce different polarization phenotypes and play the corresponding inflammatory immune function.Mesenchymal stem cells can secrete a large number of extracellular vesicles into the internal environment of the body,which have the functions of intercellular signaling and immune regulation.Studies have shown that mesenchymal stem cells and mesenchymal stem cells-extracellular vesicles can affect the M1/M2 polarization balance of macrophages so as to treat immune inflammatory diseases.OBJECTIVE:To explore the signaling mechanism of how mesenchymal stem cells and their extracellular vesicles interfere with autoimmune diseases by regulating the polarization of macrophages,as well as the related research progress of engineered extracellular vesicles in this field.METHODS:The first author searched the relevant literature published in PubMed,CNKI and other databases until June 2024.Chinese search terms were"mesenchymal stem cells,extracellular vesicles,exosomes,apoptotic bodies,apoptotic vesicles,macrophage polarization,M1 polarization,M2 polarization,autoimmune diseases,multiple sclerosis,rheumatoid arthritis,systemic lupus erythematosus,type 1 diabetes mellitus,inflammatory bowel disease,autoimmune dacryadenitis,engineered extracellular vesicles,engineering exosomes,drug delivery."English search terms were"macrophage polarization,M1 macrophage,M2 macrophage,autoimmune disease,type 1 diabetes,multiple sclerosis,rheumatoid arthritis,systemic lupus erythematosus,autoimmune dacryadenitis,inflammatory bowel disease,mesenchymal stem cells,extracellular vesicles,engineered extracellular vesicles,engineering exosomes,drug delivery."The title and abstract of each paper were read and initially screened.Finally,70 articles were selected for induction and analysis.RESULTS AND CONCLUSION:(1)Mesenchymal stem cells can regulate M1/M2 polarization by releasing or indirectly acting on functional proteins.(2)Mesenchymal stem cells can regulate macrophage M2 polarization through inflammasome.(3)Mesenchymal stem cells can be combined with commonly used drugs to enhance drug efficacy.(4)Mesenchymal stem cells can regulate the release of mesenchymal stem cells-extracellular vesicles after inflammatory stimulation and affect the polarization of macrophages.(5)Mesenchymal stem cells-extracellular vesicles can regulate autoimmune diseases by targeting macrophage polarization through PTEN,NOTCH,nuclear factor κB,Toll-like receptors,PI3K/AKT and other pathways.(6)Engineered extracellular vesicles can achieve non-invasive targeted drug delivery,prolong the half-life of drugs,promote the oral administration of exosomes,reduce allograft reaction,improve the bioavailability of Chinese herbs and overcome the blood-brain barrier,opening up a new path for drug delivery.

Obesity is a significant risk factor for cancer and is associated with breast cancer metastasis. Nevertheless, the mechanism by which alterations in systemic metabolism affect tumor microenvironment (TME) and consequently influence tumor metastasis remains inadequately understood. Herein, we found that perturbations in circulating metabolites induced by obesity promote metastasis-like phenotypes in breast cancer. Oleoylcarnitine (OLCarn) concentrations were elevated in the serum of obese mice and humans. Administration of exogenous OLCarn induces metastasis-like characteristics in breast cancer cells. Mechanistically, OLCarn directly interacts with the Arg176 site of adenylate cyclase 10 (ADCY10), leading to the activation of ADCY10 and enhancement of cAMP production. Mutations at Arg176 prevent OLCarn from binding to ADCY10, disrupting the ADCY10-mediated activation of cyclic adenosine monophosphate (cAMP) signaling pathway. This activation promotes transcription factor 4 (TCF4)-dependent kinesin family member C1 (KIFC1) transcription, thereby driving breast cancer metastasis. Conversely, the neutralization of both ADCY10 and KIFC1 through knockdown or pharmacological inhibition abrogates the oncogenic effects mediated by OLCarn. Hence, obesity-induced systemic environmental changes lead to the aberrant accumulation of OLCarn within the TME, making it a potential therapeutic target and biomarker for breast cancer.

Ovarian cancer poses a significant threat to women's health, necessitating effective therapeutic strategies. Emd-D, an emodin derivative, demonstrates enhanced pharmaceutical properties and bioavailability. In this study, Cell Counting Kit 8 (CCK8) assays and Ki-67 staining revealed dose-dependent inhibition of cell proliferation by Emd-D. Migration and invasion experiments confirmed its inhibitory effects on OVHM cells, while flow cytometry analysis demonstrated Emd-D-induced apoptosis. Mechanistic investigations elucidated that Emd-D functions as an inhibitor by directly binding to the glycolysis-related enzyme PFKFB4. This was corroborated by alterations in intracellular lactate and pyruvate levels, as well as glucose transporter 1 (GLUT1) and hexokinase 2 (HK2) expression. PFKFB4 overexpression experiments further supported the dependence of Emd-D on PFKFB4-mediated glycolysis and SRC3/mTORC1 pathway-associated apoptosis. In vivo experiments exhibited reduced xenograft tumor sizes upon Emd-D treatment, accompanied by suppressed glycolysis and increased expression of Bax/Bcl-2 apoptotic proteins within the tumors. In conclusion, our findings demonstrate Emd-D's potential as an anti-ovarian cancer agent through inhibition of the PFKFB4-dependent glycolysis pathway and induction of apoptosis. These results provide a foundation for further exploration of Emd-D as a promising drug candidate for ovarian cancer treatment.
Female ; Humans ; Ovarian Neoplasms/physiopathology* ; Phosphofructokinase-2/genetics* ; Apoptosis/drug effects* ; Glycolysis/drug effects* ; Animals ; Cell Line, Tumor ; Mice ; Cell Proliferation/drug effects* ; Emodin/administration & dosage* ; Mice, Nude ; Mice, Inbred BALB C ; Hexokinase/metabolism* ; Xenograft Model Antitumor Assays

Objective To investigate the clinical outcome differences between robotic-assisted intramedullary nailing and traditional manual surgery,and to analyze the advantages and feasibility of robotic-assisted intramedullary nail fixation in the treatment of intertrochanteric fractures in elderly patients.Methods From December 2023 to December 2024,elderly patients with intertrochanteric fractures who underwent surgery at Department of Trauma Orthopedics,Beijing Luhe Hospital,Capital Medical University were included.Patients were divided into two groups based on the surgical method.The robotic-assisted group underwent robotic-assisted intramedullary nail fixation,while the traditional group received manual intramedullary nail fixation.Baseline data and observation indicators were collected and compared between the two groups to assess any differences.Results There were no statistically significant differences in baseline data between the two groups(P>0.05).The intraoperative blood loss in the robotic-assisted group was(94.28±9.43)mL,compared to(143.00±11.11)mL in the traditional group(P<0.001).The operative time in the robotic-assisted group was(53.06±9.89)min,while in the traditional group,it was(66.74±10.18)min(P<0.001).The skin incision length for the main nail in the robotic-assisted group was(3.23±0.64)cm,whereas in the traditional group,it was(4.03±0.79)cm(P<0.01).Postoperative hemoglobin levels in the robotic-assisted group decreased by(12.63±4.27)g/L,compared to(17.29±4.32)g/L in the traditional group(P=0.018).At 6 months postoperatively,the Harris hip scores in the robotic-assisted group showed 30 cases of excellent,10 good,and 3 poor outcomes,while in the traditional group,there were 22 excellent,15 good,and 6 poor cases(P=0.198).Conclusion Robotic-assisted intramedullary nailing for intertrochanteric fractures offers advantages such as minimally invasive and precise procedures,shorter operative times,and reduced blood loss.Compared to traditional surgical methods,it demonstrates certain benefits in reducing postoperative complications in elderly patients.

Objective To explore the technical advantages and applicable scenarios of surgical robot-assisted versus conventional freehand minimally invasive surgery for pelvic fractures by comparing clinical indicators,thereby providing evidence for clinical decision-making.Methods A retrospective case-control study was conducted on 59 patients with pelvic fractures treated with minimally invasive internal fixation between January 2022 and December 2024.Patients were divided into a conventional group(26 cases)and a robot-assisted navigation group(33 cases)based on the surgical technique.Pre-and postoperative pelvic computed tomography(CT)scans were performed,and anteroposterior,outlet,and inlet view radiographs were obtained.The maximum residual displacement after pelvic reduction and screw placement accuracy were measured based on radiographic and CT imaging.Intraoperative fluoroscopy frequency,radiation dose,operative time,blood loss,number of implanted screws,maximum residual displacement after reduction,and screw accuracy were recorded.Results No significant differences were observed between the two groups in age,gender,injury mechanism,or fracture classification,indicating comparability.Blood loss and fracture reduction quality showed no significant differences.The operative time was 52.5(30.8,62.3)min in the conventional group and 60(50,82.5)min in the robot-assisted group.Intraoperative fluoroscopy frequency and radiation dose were(19.1±5.4)times and 33.1(27.5,43.9)mGy in the conventional group,compared to(12.1±4.9)times and 123.1(101.1,131.4)mGy in the robot-assisted group.The robot-assisted group demonstrated superior screw placement accuracy,increased utilization of anterior column screws,and shorter postoperative ambulation time.Conclusion Robot-assisted minimally invasive surgery for pelvic fractures significantly outperforms conventional freehand techniques in improving screw placement accuracy and reducing radiation exposure for surgeons.It represents a preferable option for treating unstable pelvic fractures.

Objective To investigate the clinical outcome differences between robotic-assisted intramedullary nailing and traditional manual surgery,and to analyze the advantages and feasibility of robotic-assisted intramedullary nail fixation in the treatment of intertrochanteric fractures in elderly patients.Methods From December 2023 to December 2024,elderly patients with intertrochanteric fractures who underwent surgery at Department of Trauma Orthopedics,Beijing Luhe Hospital,Capital Medical University were included.Patients were divided into two groups based on the surgical method.The robotic-assisted group underwent robotic-assisted intramedullary nail fixation,while the traditional group received manual intramedullary nail fixation.Baseline data and observation indicators were collected and compared between the two groups to assess any differences.Results There were no statistically significant differences in baseline data between the two groups(P>0.05).The intraoperative blood loss in the robotic-assisted group was(94.28±9.43)mL,compared to(143.00±11.11)mL in the traditional group(P<0.001).The operative time in the robotic-assisted group was(53.06±9.89)min,while in the traditional group,it was(66.74±10.18)min(P<0.001).The skin incision length for the main nail in the robotic-assisted group was(3.23±0.64)cm,whereas in the traditional group,it was(4.03±0.79)cm(P<0.01).Postoperative hemoglobin levels in the robotic-assisted group decreased by(12.63±4.27)g/L,compared to(17.29±4.32)g/L in the traditional group(P=0.018).At 6 months postoperatively,the Harris hip scores in the robotic-assisted group showed 30 cases of excellent,10 good,and 3 poor outcomes,while in the traditional group,there were 22 excellent,15 good,and 6 poor cases(P=0.198).Conclusion Robotic-assisted intramedullary nailing for intertrochanteric fractures offers advantages such as minimally invasive and precise procedures,shorter operative times,and reduced blood loss.Compared to traditional surgical methods,it demonstrates certain benefits in reducing postoperative complications in elderly patients.

Objective To explore the technical advantages and applicable scenarios of surgical robot-assisted versus conventional freehand minimally invasive surgery for pelvic fractures by comparing clinical indicators,thereby providing evidence for clinical decision-making.Methods A retrospective case-control study was conducted on 59 patients with pelvic fractures treated with minimally invasive internal fixation between January 2022 and December 2024.Patients were divided into a conventional group(26 cases)and a robot-assisted navigation group(33 cases)based on the surgical technique.Pre-and postoperative pelvic computed tomography(CT)scans were performed,and anteroposterior,outlet,and inlet view radiographs were obtained.The maximum residual displacement after pelvic reduction and screw placement accuracy were measured based on radiographic and CT imaging.Intraoperative fluoroscopy frequency,radiation dose,operative time,blood loss,number of implanted screws,maximum residual displacement after reduction,and screw accuracy were recorded.Results No significant differences were observed between the two groups in age,gender,injury mechanism,or fracture classification,indicating comparability.Blood loss and fracture reduction quality showed no significant differences.The operative time was 52.5(30.8,62.3)min in the conventional group and 60(50,82.5)min in the robot-assisted group.Intraoperative fluoroscopy frequency and radiation dose were(19.1±5.4)times and 33.1(27.5,43.9)mGy in the conventional group,compared to(12.1±4.9)times and 123.1(101.1,131.4)mGy in the robot-assisted group.The robot-assisted group demonstrated superior screw placement accuracy,increased utilization of anterior column screws,and shorter postoperative ambulation time.Conclusion Robot-assisted minimally invasive surgery for pelvic fractures significantly outperforms conventional freehand techniques in improving screw placement accuracy and reducing radiation exposure for surgeons.It represents a preferable option for treating unstable pelvic fractures.

BACKGROUND:Macrophages are an important part of innate immunity.When the internal environment of the body changes,macrophages can produce different polarization phenotypes and play the corresponding inflammatory immune function.Mesenchymal stem cells can secrete a large number of extracellular vesicles into the internal environment of the body,which have the functions of intercellular signaling and immune regulation.Studies have shown that mesenchymal stem cells and mesenchymal stem cells-extracellular vesicles can affect the M1/M2 polarization balance of macrophages so as to treat immune inflammatory diseases.OBJECTIVE:To explore the signaling mechanism of how mesenchymal stem cells and their extracellular vesicles interfere with autoimmune diseases by regulating the polarization of macrophages,as well as the related research progress of engineered extracellular vesicles in this field.METHODS:The first author searched the relevant literature published in PubMed,CNKI and other databases until June 2024.Chinese search terms were"mesenchymal stem cells,extracellular vesicles,exosomes,apoptotic bodies,apoptotic vesicles,macrophage polarization,M1 polarization,M2 polarization,autoimmune diseases,multiple sclerosis,rheumatoid arthritis,systemic lupus erythematosus,type 1 diabetes mellitus,inflammatory bowel disease,autoimmune dacryadenitis,engineered extracellular vesicles,engineering exosomes,drug delivery."English search terms were"macrophage polarization,M1 macrophage,M2 macrophage,autoimmune disease,type 1 diabetes,multiple sclerosis,rheumatoid arthritis,systemic lupus erythematosus,autoimmune dacryadenitis,inflammatory bowel disease,mesenchymal stem cells,extracellular vesicles,engineered extracellular vesicles,engineering exosomes,drug delivery."The title and abstract of each paper were read and initially screened.Finally,70 articles were selected for induction and analysis.RESULTS AND CONCLUSION:(1)Mesenchymal stem cells can regulate M1/M2 polarization by releasing or indirectly acting on functional proteins.(2)Mesenchymal stem cells can regulate macrophage M2 polarization through inflammasome.(3)Mesenchymal stem cells can be combined with commonly used drugs to enhance drug efficacy.(4)Mesenchymal stem cells can regulate the release of mesenchymal stem cells-extracellular vesicles after inflammatory stimulation and affect the polarization of macrophages.(5)Mesenchymal stem cells-extracellular vesicles can regulate autoimmune diseases by targeting macrophage polarization through PTEN,NOTCH,nuclear factor κB,Toll-like receptors,PI3K/AKT and other pathways.(6)Engineered extracellular vesicles can achieve non-invasive targeted drug delivery,prolong the half-life of drugs,promote the oral administration of exosomes,reduce allograft reaction,improve the bioavailability of Chinese herbs and overcome the blood-brain barrier,opening up a new path for drug delivery.

Objective To investigate the expression of CKS1B in endometrial carcinoma(EC)and its relationship with clinicopathological features and prognosis.Methods The expression profile data and clinical data of CKS1B from the TCGA and GTEx databases were downloaded to investigate the expression of CKS1B in EC and its relationship with clinicopathological features.The expression of CKS1B at the protein level was verified using the UALCAN database.The relationship between CKS1B expression and clinicopathological parameters was analyzed by Logistic regression.The r program perform enrichment analysis on CKS1B co-expressed genes in the TCGA database.Finally,CKS1B mRNA expression was discovered in the cell lines Ishikawa and HEC-1-A by quantitative real-time PCR(qRT-PCR).CKS1B protein expression was detected in EC tissues and adjacent tissues by Western Bolt(WB).Results CKS1B mRNA and protein were remarkably higher in EC tissues than in normal endometrium,and the differences were statistically significant(P<0.05).The level of CKS1B mRNA expression was strongly correlated with FIGO stage(F=42.994),histological grade(F=70.350),histological type(F=87.341)and age(F=40.097)(all P<0.05).The results of the Kaplan-Meier method showed that patients with high CKS1B mRNA expression had a lower overall survival rate(Log-rank x2=1.175,P<0.01).Multifactorial COX analysis showed that FIGO stage(HR=3.065,95%CI:1.906～4.926)and CKS1B expression(HR=1.856,95%CI:1.154～2.985)were independent risk factors affecting the prognosis of patients with EC(P<0.05).GO analysis showed that CKS1B was mainly involved in nuclear division and chromosome separation.KEGG analysis showed it was mainly enriched in the cell cycle,spliceosome and DNA replication.Further verification showed that CKS1B mRNA was highly expressed in Ishikawa and HEC-1-A cell lines(F=44.560,P<0.001),CKS1B protein was highly expressed in EC tissues(t=14.900,P<0.001).Conclusion CKS1B is upregulated in EC and is linked to clinicopathological variables in the patients.It may play a role in the development of EC by regulating the cell cycle,and it is expected to be a new marker for the diagnosis and prognosis of EC.