ObjectiveTo investigate the mechanism through which miR‑21 improves chronic renal fibrosis in mice via targeted modulation of the phosphatase and tensin homolog （PTEN）/protein kinase B （AKT）/mammalian target of rapamycin （mTOR） pathway. MethodsThirty‑two chronic kidney disease model mice were randomly divided into four groups （n=8 each group）： model group， miR‑21 overexpression group， miR‑21 inhibition group， and miR‑21 inhibition + MK‑2206 group. Eight healthy mice were included as the control group. The miR‑21 overexpression， miR‑21 inhibition， and miR‑21 inhibition + MK‑2206 groups received tail‑vein injections of lentivirus （50 μL， 1×10⁸ TU per mouse） once weekly for three weeks. The control and model groups were injected with an equal volume of empty vector （LV‑NC）. The miR‑21 inhibition + MK‑2206 group additionally received gavage of the AKT/mTOR pathway inhibitor MK‑2206 （480 mg/kg） once weekly for three weeks. The expressions of miR‑21， 24 h urinary protein， serum creatinine （Scr）， blood urea nitrogen （BUN）， and renal tissue levels of collagen Ⅰ， collagen Ⅲ， α‑smooth muscle actin （α‑SMA）， and PTEN protein， as well as p‑AKT/AKT and p‑mTOR/mTOR ratios， were compared among groups. HE staining was used to observe pathological changes in renal tissue， and Masson staining was used to observe the degree of renal fibrosis. A dual‑luciferase assay was performed to verify the targeting relationship between miR‑21 and PTEN. ResultsCompared with the model group， miR‑21 expression in renal tissue increased in the miR‑21 overexpression group （P<0.05） and decreased in the miR‑21 inhibition group （P<0.05）. Compared with the model group， the miR‑21 overexpression group showed increased 24 h urinary protein， Scr， BUN， and renal tissue expression of collagen Ⅰ， collagen Ⅲ， and α‑SMA （all P<0.05）， while these indicators decreased in the miR‑21 inhibition group （P<0.05）. Compared with the miR‑21 inhibition group， the miR‑21 inhibition + MK‑2206 group exhibited lower 24‑h urinary protein， Scr， BUN， and renal tissue expression of Collagen Ⅰ， Collagen Ⅲ， and α‑SMA （all P<0.05）. Compared with the model group， the miR‑21 overexpression group showed decreased PTEN protein expression （P<0.05） and increased p‑AKT/AKT and p‑mTOR/mTOR ratios （P<0.05）， while the miR‑21 inhibition group showed increased PTEN expression （P<0.05） and decreased p‑AKT/AKT and p‑mTOR/mTOR ratios （P<0.05）. Compared with the miR‑21 inhibition group， the miR‑21 inhibition + MK‑2206 group had lower p‑AKT/AKT and p‑mTOR/mTOR ratios （P<0.05）， with no significant difference in PTEN protein expression. HE and Masson staining showed normal kidney structure and almost no fibrosis in the control group. The model group exhibited glomerular enlargement， capillary loop adhesion， and focal fibrosis. The miR-21 overexpression group showed severe destruction of glomerular structure， accompanied by extensive fibrosis and renal tubular atrophy. The pathological changes and degree of fibrosis were alleviated in the miR-21 inhibition group. The miR-21 inhibition + MK-2206 group showed only mild pathological changes and mild fibrosis， with the interstitium being largely normal. Compared with PTEN-WT + NC mimics 1， the relative luciferase activity in the PTEN-WT + miR-21 mimics group decreased （P<0.001）. There was no statistically significant difference in relative luciferase activity between PTEN-WT + NC mimics group and PTEN-MUT + miR-21 mimics group. ConclusionmiR‑21 may improve renal function indicators and alleviate renal fibrosis in chronic kidney disease mice via targeted modulation of PTEN and subsequently inhibiting the AKT/mTOR pathway.

Objective To assess the clinical value of a novel surgical technique—Tubeless subxiphoid uniportal video-assisted thoracoscopic surgery with percutaneous suspension technique via balance-shaped sternal elevation device in the resection of anterior mediastinal masses. Methods Patients who underwent tubeless subxiphoid uniportal video-assisted thoracoscopic surgery via balance-shaped sternal elevation device in anterior mediastinal masses process at the Department of Thoracic Surgery, West China Hospital, Sichuan University from March to April 2025 were included, and their clinical data were analyzed. Results A total of 4 patients were included, with 2 males and 2 females, aged 58-75 years. The diameter of the tumor was 2.5-3.0 cm. The operation time was 60.0-150.0 min, intraoperative blood loss was 5-10 mL, pain score on the 3rd day after surgery was 0 points, and postoperative hospital stay was 2-3 days. All patients achieved complete resection of the masses and thymus without perioperative complications. Conclusion The tubeless subxiphoid uniportal video-assisted thoracoscopic surgery with percutaneous suspension technique via balance-shaped sternal elevation device technique optimizes surgical visualization and instrument maneuverability while avoiding complications related to conventional anesthesia and tubing, thereby markedly enhancing the minimally invasive profile of anterior mediastinal masses resections. In addition to maintaining procedural safety, this approach effectively reduces postoperative pain and accelerates patient recovery, highlighting its potential for widespread clinical adoption.

Infectious chronic refractory wounds are common in the department of dermatology,and have a great influence on the quality of life of patients.Their incidence is increasing year by year.The pathogensis of infectious chronic refractory wounds is due to the exuberance of pathogenic heat and toxin,disharmony between nutritive qi and defensive qi,and imbalance of zang-fu organs,which is related with the theory of qi-fluid and sweat pores.Therefore,it is proposed that stagnation and obstruction of sweat pores contribute to the pathological basis for the onset of infectious chronic refractory wounds,and therapeutic principle of opening sweat pores was presented.In the medication view of treating the skin diseases with the skin-related Chinese medicinals,skin-related Chinese medicinals are good at treating skin diseases,and consequently the application of skin-related Chinese medicinals to open sweat in treating infectious chronic refractory wounds was discussed.It is suggested that for the treatment of infectious chronic refractory wounds due to pathogenic fire-toxin accumulation in sweat pores,therapy of clearing heat and expelling fire to open sweat pores should be exployed,and skin-related Chinese medicinals such as Phellodendri Chinensis Cortex,Dictamni Cortex and Fraxini Cortex can be selected;for the treatment of infectious chronic refractory wounds due to blood-stasis stagnation in sweat pores,therapy of cooling and activating blood to open sweat pores should be exployed,and skin-related Chinese medicinals such as Moutan Cortex and Lycii Cortex can be selected;for the treatment of infectious chronic refractory wounds due to wind and dampness obstructing sweat pores,therapy of expelling wind and eliminating dampness to unblock sweat pores should be exployed,and skin-related Chinese medicinals such as Acanthopanacis Cortex,Citri Reticulatae Pericarpium,and Poriae Cutis can be selected;for the treatment of infectious chronic refractory wounds due to healthy qi deficiency resulting in the obstruction of sweat pores,therapy of invigorating spleen and tonifying kidney to nourish sweat pores should be exployed,and skin-related Chinese medicinals such as Cinnamomi Cortex,Eucommiae Cortex,and black soybean testa(Testa Glycinea Macids)can be chosen.Guided by the theory of qi-fluid and sweat pores,this paper explored the application of skin-related Chinese medicinals in the treating infectious chronic refractory wounds,which provides theoretical basis for such an approach,enriches the theory of traditional Chinese medicine for the treatment of infectious chronic refractory wounds,and expands the clinical application of the theory of sweat pores.

Natural killer cells(NK)are important innate immune cells that do not require prior antigen exposure and can directly recognize and attack virus-infected cells and tumor cells.The activation and effector functions of NK cells are regulated by a balance of signals delivered through their surface activating receptors and inhibitory re-ceptors,which bind to ligands on target cells to achieve cytotoxicity via"induced self"and"missing self"recogni-tion models.The killing mechanisms of NK cells primarily include release of cytotoxic granules such as perforin and granzymes to induce target cell lysis,death receptor-mediated apoptosis,secretion of various cytokines,chemokines and growth factors to coordinate with other immune cells in killing tumor cells,thereby generating secondary im-mune responses and antibody-dependent cellular cytotoxicity(ADCC).

Objective To investigate the correlations of serum stromal cell-derived factor-1(SDF-1),chemokine receptor 7(CXCR7)and vascular density in the optic disc area with clinical stages in patients with normal-tension glaucoma(NTG).Methods A total of 157 patients with NTG were included in the NTG group and divided into stage Ⅰ group(n=29),stage Ⅱ group(n=88),and stage Ⅲ group(n=40)based on different clinical stages;additionally,56 healthy individuals with physical examinations in the same period were selected as control group.Serum SDF-1 and CXCR7 levels were compared between the NTG group and the control group;changes in vascular den-sity in the optic disc area among patients with different clinical stages were analyzed;the multivariate Logistic regression analysis was conducted to explore the risk factors for NTG.Results Compared with the control group,the NTG group had significantly increased serum levels of SDF-1 and CXCR7(P＜0.05).Compared with the control group,patients in the NTG group showed significantly decreased densities of large vessels,capillaries,and the entire area,as well as significantly increased density of avascular areas(P＜0.05).The densities of capillaries and the entire area were significantly lower in the stage Ⅱ group and stage Ⅲ group than the stage Ⅰ group,while the density of avascu-lar areas was significantly higher(P＜0.05).The densities of large vessels(r=-0.503,P=0.006),capillaries(r=-0.546,P＜0.001),and the entire area(r=-0.553,P＜0.001)were negatively significantly correlated with clinical stages,while the density of avascular area was positively significantly correlated with clinical stages(r=0.521,P=0.002).The proportions of patients with hypertension,history of alcohol consumption,family history of glaucoma,and high ser-um levels of SDF-1 and CXCR7 in the NTG group were significantly higher than those in the control group(P＜0.05).Multivariate Logistic regression analysis revealed that hypertension,family histo-ry of glaucoma,history of alcohol consumption,and high serum levels of SDF-1 and CXCR7 were risk factors for NTG(P＜0.05).Conclusion Patients with NTG have significantly increased ser-um levels of SDF-1 and CXCR7.The densities of large vessels,capillaries,and the entire area are negatively correlated with clinical stages,while the density of avascular areas is positively correlated with clinical stages.Serum levels of SDF-1 and CXCR7 can serve as effective reference indicators for the diagnosis and clinical staging of NTG.

Objective·To investigate the mechanisms by which different subtypes of G protein-coupled receptor kinases(GRKs)regulate the biased signaling transduction mediated by the muscarinic acetylcholine receptor 1(M1 receptor),focusing on their molecular effects in modulating the binding of the M1 receptor to the downstream heterotrimeric G protein(Gαq-Gβ1-Gγ2)andβ-arrestin 2(βarr2).Methods·By establishing a highly sensitive protein interaction detection system based on bioluminescence resonance energy transfer(BRET),six M1 receptor agonists/allosteric modulators were selected to measure the dynamic interactions between the M1 receptor and four GRK subtypes(GRK2/3/5/6),βarr2,and the G protein under stimulation.All BRET data were statistically quantified using the area under the curve(AUC)of the time-response curves.First,concentration-effect curves were established by treatment with gradient concentrations of agonists/allosteric modulators and AUC fitting,to comprehensively analyze the differences in efficacy between each agonist/allosteric modulator and the endogenous agonist acetylcholine chloride(ACh)in promoting the interactions of M1 receptor with GRK3/5,βarr2,and the G protein;next,GRKs were divided into two groups based on subtypes:GRK2/3 and GRK5/6.The maximum AUC values for the interaction between the M1 receptor and the two GRK groups under high concentrations were calculated respectively,to further evaluate the regulatory propensity of different types of GRKs on the binding strength of the M1 receptor to βarr2 or the G protein.Results·All six agonists/allosteric modulators effectively induced the association of the M1 receptor with GRK3,while simultaneousey inducing dissociation of the M1 receptor from GRK5.The allosteric modulator BQCA not only activated the M1 receptor alone and triggered its binding to downstream signaling proteins,but also,when co-treated with ACh,caused a significant leftward shift of the concentration-effect curves in the M1-G protein and M1-βarr2 systems,suggesting that its potentiation effect on ACh was mainly achieved by reducing the half-maximal effective concentration.A moderate positive correlation was observed between the maximum AUC values of M1-βarr2 and M1-G protein interactions induced by the seven groups of drug treatments(r=0.722,P=0.067).Further analysis showed that the ratio of the maximum AUC for M1-GRK2/3 interaction to that for M1-GRK5/6 interaction was also positively correlated with the ratio of the maximum AUC for M1-βarr2 interaction to that for M1-G protein interaction(r=0.760,P=0.047).Conclusion·The M1 receptor may be pre-coupled with GRK5/6 under basal conditions,and they dissociate upon receptor activation,suggesting that GRK5/6 may be involved in M1 receptor inactivation or signal reprogramming.The relative efficiency of the M1 receptor's interaction with different GRK subtypes determines its preference for downstream signaling pathways.

Objective·To investigate the mechanisms by which different subtypes of G protein-coupled receptor kinases(GRKs)regulate the biased signaling transduction mediated by the muscarinic acetylcholine receptor 1(M1 receptor),focusing on their molecular effects in modulating the binding of the M1 receptor to the downstream heterotrimeric G protein(Gαq-Gβ1-Gγ2)andβ-arrestin 2(βarr2).Methods·By establishing a highly sensitive protein interaction detection system based on bioluminescence resonance energy transfer(BRET),six M1 receptor agonists/allosteric modulators were selected to measure the dynamic interactions between the M1 receptor and four GRK subtypes(GRK2/3/5/6),βarr2,and the G protein under stimulation.All BRET data were statistically quantified using the area under the curve(AUC)of the time-response curves.First,concentration-effect curves were established by treatment with gradient concentrations of agonists/allosteric modulators and AUC fitting,to comprehensively analyze the differences in efficacy between each agonist/allosteric modulator and the endogenous agonist acetylcholine chloride(ACh)in promoting the interactions of M1 receptor with GRK3/5,βarr2,and the G protein;next,GRKs were divided into two groups based on subtypes:GRK2/3 and GRK5/6.The maximum AUC values for the interaction between the M1 receptor and the two GRK groups under high concentrations were calculated respectively,to further evaluate the regulatory propensity of different types of GRKs on the binding strength of the M1 receptor to βarr2 or the G protein.Results·All six agonists/allosteric modulators effectively induced the association of the M1 receptor with GRK3,while simultaneousey inducing dissociation of the M1 receptor from GRK5.The allosteric modulator BQCA not only activated the M1 receptor alone and triggered its binding to downstream signaling proteins,but also,when co-treated with ACh,caused a significant leftward shift of the concentration-effect curves in the M1-G protein and M1-βarr2 systems,suggesting that its potentiation effect on ACh was mainly achieved by reducing the half-maximal effective concentration.A moderate positive correlation was observed between the maximum AUC values of M1-βarr2 and M1-G protein interactions induced by the seven groups of drug treatments(r=0.722,P=0.067).Further analysis showed that the ratio of the maximum AUC for M1-GRK2/3 interaction to that for M1-GRK5/6 interaction was also positively correlated with the ratio of the maximum AUC for M1-βarr2 interaction to that for M1-G protein interaction(r=0.760,P=0.047).Conclusion·The M1 receptor may be pre-coupled with GRK5/6 under basal conditions,and they dissociate upon receptor activation,suggesting that GRK5/6 may be involved in M1 receptor inactivation or signal reprogramming.The relative efficiency of the M1 receptor's interaction with different GRK subtypes determines its preference for downstream signaling pathways.

Objective On the premise of meeting the image quality requirements of simulated location for pediatric radiotherapy,the simulated localizable CT parameters are optimized through phantom scanning to reduce the radiation dose.Methods CatPhan700 phantom was used to simulate the child's body,Philip 24-row large-aperture spiral simulated localizable CT was performed,and the CT images were obtained by scanning the phantom at different mAs and tube voltages.The mAs range was set at 60-400 mAs,the scanning was performed every 20 mAs interval,and the kV was set at 80,100,and 120 kV.Image evaluation was carried out using parameters such as image noise(N10 and mean SD),uniformity,low contrast resolution,high contrast resolution,and the stabilities of HU values of Air,Acrylic,50%bone,LDPE,20%bone,Teflon,Polystyrene,DelrinTM,Lung,PMP and Water.The CTDIVol and DLP automatically calculated by the simulated localizable CT system were read to evaluate the radiation dose.Results At 100 kV,as mAs increased,both CTDI and DLP showed upward trends,and the fitting results were linear correlated,with slopes of 0.034 5 and 0.932 4.Image noise was decreased nonlinearly with the increasing mAs.When mAs increased from 60 to 140 mAs,N10 decreased from 0.25%to 0.14%,and SD reduced from 3.74 HU to 2.54 HU.When mAs reached 180 mAs or higher,N10 fluctuated between 0.1%and 0.12%,the mean SD fluctuated between 2.0 and 2.5 HU,and the downward trends obviously slowed down.When mAs increased from 60 to 200 mAs,the low contrast resolution of the image dropped from 0.53 to 0.29.The image uniformity,high contrast resolution and HU values of different substances were less affected by mAs.The image quality of 100 kV and 200 mAs scanning was close to that of 120 kV scanning,but the image quality of 80 kV scanning failed to meet the clinical requirements.Conclusion In order to reduce the radiation dose as much as possible,the mAs should be set at 200 mAs when the tube voltage is set at 100 kV for a simulated cylinder with a diameter of 20 cm.In the actual simulation scanning for pediatric radiotherapy,the scanning parameters should be fine-tuned according to the phantom results and the actual physical characteristics of children to satisfy the optimization principle for radiation protection.

Using high-energy proton to image the region of interest can directly obtain the accurate estimation of the proton stopping power of the lesions,which is of great significance to reduce the range uncertainty in proton therapy.As a fundamental function of proton computed tomography(CT),radiographic imaging plays a crucial role in assisting clinical positioning.The study develops a compact proton CT detector based on an active array pixel CMOS chip in Monte-Carlo simulation toolkit Geant4,and evaluates the radiographic imaging capability of the system using 180 MeV protons.The angles of tracks are successfully reconstructed.CTP404,CTP528,and the CTP515 of specific materials are used for simulation,obtaining the spatial and density resolutions,and measuring the proton relative stopping power(RSP).The image signal-to-noise ratio is improved when using 2° proton scattering angle cut-off value.The spatial resolution is 3-4 lp/cm measured using CTP528 module.The density resolution is better than 0.05 g/cm3,and the RSP resolution is within 5%when CTP404 module is used.Through the imaging of CTP515 phantom of specific material,it is demonstrated that the system has potential for imaging common human tissues.