Objective:To explore any effect of high-frequency repetitive transcranial magnetic stimulation (rTMS) of the left cerebellar hemisphere on the swallowing neural network using functional magnetic resonance imaging (fMRI).Methods:Thirty healthy volunteers were recruited and subjected to 10Hz rTMS of the left cerebellar hemisphere. Before and after the stimulation, fMRI was performed. The amplitude of the motor evoked potential (MEP) of the mylohyoid muscle, the amplitude of its low-frequency fluctuations (ALFFs), their fractional amplitude (fALFF), and their regional homogeneity (ReHo) were observed.Results:After the intervention the MEP amplitude of both mylohyoid muscles had increased significantly. The ALFF and fALFF values in the left cerebellar region, occipital lobe, prefrontal lobe, cuneus lobe, anterior central gyrus and posterior central gyrus had increased significantly. And the average ReHo values of the left cerebellum, occipital lobe, parietal lobe, right anterior central gyrus and posterior central gyrus had also significantly increased.Conclusions:The stimulation studied can significantly enhance the excitability of bilateral swallowing cortical tracts, as well as the neural activities of the anterior central gyrus, posterior central gyrus, occipital lobe, cuneus lobe, temporal lobe, inferior parietal gyrus, right premotor cortex, and right dorsolateral prefrontal cortex. That suggests that the cerebellum plays an important role in the swallowing neural network.

Objective : To investigate the effect of solasonine regulation of the STAT3 signaling pathway on the bio- logical behavior of lung adenocarcinoma cells． Methods : H1299 cells were treated with 0. 125，0. 25，0. 5 and 0. 75 mmol /L solasonine，respectively．The proliferative activity of H1299 cells was detected by CCK-8．The mi- gration and invasion ability of H1299 cells were detected by scratch，Transwell migration and invasion assay．The apoptosis level of H1299 cells was detected by flow cytometry and Hoechest 33258 /PI double staining．The protein expression levels of STAT3，p-STAT3 ，Bcl-2 ，Bax ，Caspase-3 ，Cl-Caspase-3 ，Snail ，Slug ，N-cadherin and E- cadherin in H1299 cells were detected by Western blot assay． Results: Solasonine at different concentrations sig- nificantly reduced the proliferation of H1299 cells (P＜0. 05) ．0. 125 and 0. 25 mmol /L solasonine promoted the apoptosis of H1299 cells (P＜0. 05) and inhibited the migration and invasion of H1299 cells (P＜0. 05) ．Solaso- nine inhibited the expression of STAT3，p-STAT3 and Bcl-2 proteins，enhanced the expression of Bax，Caspase-3 and Cl-Caspase-3 proteins．Solasonine inhibited the activation of STAT3 in cells，reduced Snail and Slug protein expression levels，enhanced E-cadherin，reduced N-cadherin(P＜0. 05) ． Conclusion Solasonine can inhibit the activation of STAT3 ，activate the Bcl-2 /Bax / Caspase3 apoptosis pathway ，inhibit the continuous proliferation of lung adenocarcinoma H1299 cells，and promote the apoptosis of lung adenocarcinoma H1299 cells．Meanwhile，it can inhibit the activation of STAT3，reduce the expression of Snail / Slug protein，affect the EMT transformation of lung adenocarcinoma H1299 cells，and inhibit the migration and invasion of lung adenocarcinoma H1299 cells．

Objective To investigate the effects and underlying mechanisms of total flavonoids of sarcandra glabra(TFFSG)on bone marrow mesenchymal stem cells(BMSCs)and their derived exosomes in immune thrombo-cytopenia(ITP),with a focus on promoting megakaryocyte differentiation and maturation.Methods BMSCs induced by rabbit anti-rat platelet serum(APS)were divided into five groups:a blank control group,an ITP-BMSCs model group,and three TFFSG intervention groups with low(1.95 μg/mL),medium(3.90 μg/mL),and high doses(7.80 μg/mL).The apoptosis rates and the expression levels of apoptosis-related proteins-B-cell lymphoma 2(Bcl-2),Bcl-2-associated X protein(BAX),and Cysteinyl aspartate-specific proteinase-3(Caspase-3)-were assessed.Exosomes were isolated from the blank control group(NC-BMSCs-Exos),the ITP-BMSCs model group(ITP-BMSCs-Exos),and the medium-dose TFFSG group(TFFSG-BMSCs-Exos).Each group's exosomes(5 μg/mL)were co-cultured with megakaryocytic lineage Dami cells for 96 hours.Flow cytometry was employed to evaluate the expression of megakaryocytic differentiation markers(CD41a,CD42b,CD61)and the proportion of polyploid cells(≥4 N)in each group.Western Blot analysis was conducted to examine the expression of p-MEK1/2,MEK1/2,p-ERK1/2,and ERK1/2 across all groups.Results Compared with the ITP-BMSCs model group,the apoptosis rates in all TFFSG intervention groups were significantly reduced(P<0.01).In the medium-and high-dose TFFSG groups,BAX and Caspase-3 expression levels were markedly downregulated,whereas Bcl-2 expression was upregulated(P<0.05,P<0.01).Compared with the ITP-BMSCs-Exos group,the TFFSG-BMSCs-Exos group demonstrated increased expression of CD41a+,CD42b+,and CD61+,a higher proportion of polyploid cells(≥4 N)(P<0.05),as well as elevated ratios of p-MEK1/2 to MEK1/2 and p-ERK1/2 to ERK1/2(P<0.05).Conclusion TFFSG inhibits apopto-sis of ITP-state BMSCs in vitro and promotes megakaryocyte differentiation and polyploidization maturation through BMSC-derived exosomes by activating the MEK1/2-ERK1/2 signaling pathway.

Lens injury is an important etiological factor in the reduction of visual function following ocular trauma.Currently, there are no clear standards for the classification of lens injury, and comprehensive diagnostic tools are lacking.This deficiency leads to numerous controversies and challenges in critical areas, such as diagnosis and preoperative evalution, timing of surgery, surgical strategy, and assessment of postoperative prognosis.Tomographic imaging technology, such as computed tomography, magnetic resonance imaging, optical coherence tomography, has introduced a new dimension to the evaluation of lens injury, which is crucial for assessing the transparency, texture, location, morphology, and integrity of the lens, as well as the zonules and nearby intraocular structures.However, the use of tomographic imaging technology is somewhat limited due to the limitations of relying on a single method.With the ongoing advancement of imaging technologies and the rapid development of big data and artificial intelligence, tomographic imaging will become an increasingly essential tool in the future management of lens injury.Our expert group reviewed the epidemiological characteristics and classification of lens injury and the major challenges currently faced in the diagnosis and treatment of lens injury, and provided expert recommendations mainly focusing on the application, shortcomings and limitations of current tomographic imaging technology in the diagnosis and treatment of lens injury, and future development directions.

Objective To explore the changes in neural activity in patients with type 2 diabetes mellitus(T2DM)and their corre-lation with executive function,and to analyze the neural mechanisms underlying the decline in executive function in T2DM patients.Methods Thirty-one T2DM patients(T2DM group)and thirty-two healthy controls(HC)(HC group)matched for body mass index(BMI)underwent resting-state functional magnetic resonance imaging(rs-fMRI)scans and N-back task tests were included.Differ-ences in the amplitude of low-frequency fluctuation(ALFF),regional homogeneity(ReHo),and seed-based functional connectivity(FC)between the two groups were compared,and partial correlation analyses were performed between the difference results and N-back task performance.Results The T2DM group showed prolonged reaction time(RT)in the 1-back and 2-back tasks.T2DM patients exhibited increased ALFF in the bilateral caudate nucleus,left medial superior frontal gyrus,and right postcentral gyrus,as well as elevated ReHo in the right putamen.FC analysis revealed significant alterations in FC between the caudate nucleus,putamen,and multiple brain regions in T2DM patients,with some of these FC changes significantly correlated with RT and accuracy(ACC)in the N-back task.Conclusion The decline in executive function in T2DM patients may be associated with abnormal neural activity in brain regions such as the striatum,salience network,and frontoparietal control network.FC further decreases under increased cognitive load.These findings provide evidence for the study of the neural mechanisms of executive function impairment in T2DM patients.

Lens injury is an important etiological factor in the reduction of visual function following ocular trauma.Currently, there are no clear standards for the classification of lens injury, and comprehensive diagnostic tools are lacking.This deficiency leads to numerous controversies and challenges in critical areas, such as diagnosis and preoperative evalution, timing of surgery, surgical strategy, and assessment of postoperative prognosis.Tomographic imaging technology, such as computed tomography, magnetic resonance imaging, optical coherence tomography, has introduced a new dimension to the evaluation of lens injury, which is crucial for assessing the transparency, texture, location, morphology, and integrity of the lens, as well as the zonules and nearby intraocular structures.However, the use of tomographic imaging technology is somewhat limited due to the limitations of relying on a single method.With the ongoing advancement of imaging technologies and the rapid development of big data and artificial intelligence, tomographic imaging will become an increasingly essential tool in the future management of lens injury.Our expert group reviewed the epidemiological characteristics and classification of lens injury and the major challenges currently faced in the diagnosis and treatment of lens injury, and provided expert recommendations mainly focusing on the application, shortcomings and limitations of current tomographic imaging technology in the diagnosis and treatment of lens injury, and future development directions.

Objective To investigate the effects and underlying mechanisms of total flavonoids of sarcandra glabra(TFFSG)on bone marrow mesenchymal stem cells(BMSCs)and their derived exosomes in immune thrombo-cytopenia(ITP),with a focus on promoting megakaryocyte differentiation and maturation.Methods BMSCs induced by rabbit anti-rat platelet serum(APS)were divided into five groups:a blank control group,an ITP-BMSCs model group,and three TFFSG intervention groups with low(1.95 μg/mL),medium(3.90 μg/mL),and high doses(7.80 μg/mL).The apoptosis rates and the expression levels of apoptosis-related proteins-B-cell lymphoma 2(Bcl-2),Bcl-2-associated X protein(BAX),and Cysteinyl aspartate-specific proteinase-3(Caspase-3)-were assessed.Exosomes were isolated from the blank control group(NC-BMSCs-Exos),the ITP-BMSCs model group(ITP-BMSCs-Exos),and the medium-dose TFFSG group(TFFSG-BMSCs-Exos).Each group's exosomes(5 μg/mL)were co-cultured with megakaryocytic lineage Dami cells for 96 hours.Flow cytometry was employed to evaluate the expression of megakaryocytic differentiation markers(CD41a,CD42b,CD61)and the proportion of polyploid cells(≥4 N)in each group.Western Blot analysis was conducted to examine the expression of p-MEK1/2,MEK1/2,p-ERK1/2,and ERK1/2 across all groups.Results Compared with the ITP-BMSCs model group,the apoptosis rates in all TFFSG intervention groups were significantly reduced(P<0.01).In the medium-and high-dose TFFSG groups,BAX and Caspase-3 expression levels were markedly downregulated,whereas Bcl-2 expression was upregulated(P<0.05,P<0.01).Compared with the ITP-BMSCs-Exos group,the TFFSG-BMSCs-Exos group demonstrated increased expression of CD41a+,CD42b+,and CD61+,a higher proportion of polyploid cells(≥4 N)(P<0.05),as well as elevated ratios of p-MEK1/2 to MEK1/2 and p-ERK1/2 to ERK1/2(P<0.05).Conclusion TFFSG inhibits apopto-sis of ITP-state BMSCs in vitro and promotes megakaryocyte differentiation and polyploidization maturation through BMSC-derived exosomes by activating the MEK1/2-ERK1/2 signaling pathway.

Objective To explore the changes in neural activity in patients with type 2 diabetes mellitus(T2DM)and their corre-lation with executive function,and to analyze the neural mechanisms underlying the decline in executive function in T2DM patients.Methods Thirty-one T2DM patients(T2DM group)and thirty-two healthy controls(HC)(HC group)matched for body mass index(BMI)underwent resting-state functional magnetic resonance imaging(rs-fMRI)scans and N-back task tests were included.Differ-ences in the amplitude of low-frequency fluctuation(ALFF),regional homogeneity(ReHo),and seed-based functional connectivity(FC)between the two groups were compared,and partial correlation analyses were performed between the difference results and N-back task performance.Results The T2DM group showed prolonged reaction time(RT)in the 1-back and 2-back tasks.T2DM patients exhibited increased ALFF in the bilateral caudate nucleus,left medial superior frontal gyrus,and right postcentral gyrus,as well as elevated ReHo in the right putamen.FC analysis revealed significant alterations in FC between the caudate nucleus,putamen,and multiple brain regions in T2DM patients,with some of these FC changes significantly correlated with RT and accuracy(ACC)in the N-back task.Conclusion The decline in executive function in T2DM patients may be associated with abnormal neural activity in brain regions such as the striatum,salience network,and frontoparietal control network.FC further decreases under increased cognitive load.These findings provide evidence for the study of the neural mechanisms of executive function impairment in T2DM patients.

Objective:To explore any effect of high-frequency repetitive transcranial magnetic stimulation (rTMS) of the left cerebellar hemisphere on the swallowing neural network using functional magnetic resonance imaging (fMRI).Methods:Thirty healthy volunteers were recruited and subjected to 10Hz rTMS of the left cerebellar hemisphere. Before and after the stimulation, fMRI was performed. The amplitude of the motor evoked potential (MEP) of the mylohyoid muscle, the amplitude of its low-frequency fluctuations (ALFFs), their fractional amplitude (fALFF), and their regional homogeneity (ReHo) were observed.Results:After the intervention the MEP amplitude of both mylohyoid muscles had increased significantly. The ALFF and fALFF values in the left cerebellar region, occipital lobe, prefrontal lobe, cuneus lobe, anterior central gyrus and posterior central gyrus had increased significantly. And the average ReHo values of the left cerebellum, occipital lobe, parietal lobe, right anterior central gyrus and posterior central gyrus had also significantly increased.Conclusions:The stimulation studied can significantly enhance the excitability of bilateral swallowing cortical tracts, as well as the neural activities of the anterior central gyrus, posterior central gyrus, occipital lobe, cuneus lobe, temporal lobe, inferior parietal gyrus, right premotor cortex, and right dorsolateral prefrontal cortex. That suggests that the cerebellum plays an important role in the swallowing neural network.

Hemodynamically unstable pelvic fracture is an important cause of trauma-related deaths and its treatment presents a major challenge for trauma surgery. Internal iliac artery devascularization including ligation and embolization of the internal iliac artery with occlusion of the internal iliac artery as their hemostatic mechanism, has been proved to be effective in controlling massive hemorrhage after pelvic fracture. Nevertheless, there still remain substantial differences in the understanding of internal iliac artery devascularization in clinical practice. Some and issues that should be paid attention to its emergency application in the management of hemodynamically unstable pelvic fracture have not been fully elucidated. To this end, the authors emphasized the efficacy and safety of internal iliac artery devascularization, its indications, and key points in implementation, aiming to promote its standardized application in the treatment of hemodynamically unstable pelvic fracture, thus improving treatment outcomes.