Objective To evaluate the effectiveness of the integrated schistosomiasis control programme in Wuhan City from 2005 to 2023, so as to provide insights into precision control and elimination of schistosomiasis. Methods The integrated measures for schistosomiasis control implemented by health, agriculture, water resources, and forestry departments of Wuhan City, and the epidemiological data of schistosomiasis in Wuhan City were collected from 2005 to 2023, and the prevalence of human schistosomiasis, prevalence of Schistosoma japonicum infections in humans and bovines, areas of S. japonicum-infected snail habitats, areas of snail habitats in inner embankments, and actual areas of snail habitats were retrieved. In addition, the trends in prevalence of schistosomiasis in humans and livestock and snail status were evaluated in Wuhan City from 2005 to 2023 using Mann-Kendall test and a Joinpoint regression model. Results Mann-Kendall test revealed a tendency towards a decline in the prevalence of human schistosomiasis (Z = -4.41, P < 0.01), prevalence of S. japonicum infections in humans (Z = -4.89, P < 0.01) and bovines (Z = -4.50, P < 0.01), areas of S. japonicum-infected snail habitats (Z = -3.91, P < 0.01), areas of snail habitats in inner embankments (Z = -2.28, P = 0.02), and actual areas of snail habitats (Z = -5.95, P < 0.01) in Wuhan City from 2005 to 2023. Joinpoint regression analysis showed an average annual reduction of 8.58% in the prevalence of human schistosomiasis in Wuhan City from 2005 to 2023 [average annual percent change (AAPC) = -8.58%, 95% confidence interval (CI): (-10.02%, -6.65%), P < 0.01], with two joinpoints in 2013 and 2016, respectively, and the tendency towards a decline showed statistical significance during the period from 2013 through 2016 [annual percent change (APC) = -34.41%, 95% CI: (-40.36%, -20.01%), P < 0.01]. The prevalence of S. japonicum human infections appeared an average annual reduction of 51.91% in Wuhan City from 2005 to 2023 [AAPC = -51.91%, 95% CI: (-58.12%, -44.25%), P < 0.01], with two joinpoints in 2014 and 2017, respectively, and the tendency towards a decline showed statistical significance during the period from 2014 through 2017 [APC = -98.17%, 95% CI: (-99.17%, -90.87%), P < 0.01]. The prevalence of S. japonicum infections in bovines appeared an average annual reduction of 53.12% in Wuhan City from 2005 to 2023 [AAPC = -53.12%, 95% CI: (-59.65%, -42.44%), P < 0.01], with two joinpoints in 2011 and 2014, respectively, and the tendency towards a decline showed statistical significance during the period from 2014 through 2017 [APC = -98.63%, 95% CI: (-99.44%, -90.93%), P < 0.01]. The areas of S. japonicum-infected snail habitats appeared an average annual reduction of 47.09% in Wuhan City from 2005 to 2023 [AAPC = -47.09%, 95% CI: (-52.92%, -38.26%), P < 0.01], with two joinpoints in 2011 and 2014, respectively, and the tendency towards a decline showed statistical significance during the period from 2011 through 2014 [APC = -97.27%, 95% CI: (-98.65%, -88.06%), P < 0.01]. The areas of snail habitats in inner embankments appeared an average annual reduction of 4.45% in Wuhan City from 2005 to 2023 [AAPC = -4.45%, 95% CI: (-5.18%, -3.82%), P < 0.01], with three joinpoints in 2011, 2015 and 2018, respectively, and statistical significance was seen in the tendency towards a decline during the period from 2005 through 2011 [APC = -16.38%, 95% CI: (-20.15%, -14.25%), P < 0.01]. In addition, the actual areas of snail habitats appeared an average annual reduction of 2.65% in Wuhan City from 2005 to 2023 [AAPC = -2.65%, 95% CI: (-2.89%, -2.40%), P < 0.01], with a joinpoint in 2013, and the tendency towards a decline showed statistical significance during the period from 2013 through 2023 [APC = -4.06%, 95% CI: (-4.66%, -3.58%), P < 0.01]. Conclusions The integrated schistosomiasis control programme achieved significant effectiveness in Wuhan City from 2005 to 2023, with a tendency towards a decline in morbidity due to schistosomiasis in humans and livestock and snail status. The integrated schistosomiasis control strategy with emphasis on management of the source of S. japonicum infections should continue to be implemented to consolidate the schistosomiasis control achievements and achieve the goal of schistosomiasis elimination in the city.

Objective·To construct a pH-responsive manganese-based nanoprobe and explore the therapeutic efficacy of chemotherapy/ferroptosis synergistic treatment in breast cancer and the effect of pH-responsive magnetic resonance-activated imaging.Methods·BSA-MnO2@CPT(BMC)nanoprobes were prepared by biomineralization,and their physicochemical properties were characterized by transmission electron microscope(TEM)and dynamic light scattering.The magnetic resonance imaging(MRI)was used to evaluate the pH-responsive MRI T1 activation and time-dependent activation efficacy at the cellular level,with quantitative analysis of MRI T1 signal intensity.The reactive oxygen species(ROS)generation and glutathione(GSH)depletion by BMC nanoprobes were respectively detected by methylene blue(MB)and DTNB in vitro.The synergistic efficacy of chemotherapy and ferroptosis mediated by the nanoprobes in 4T1 breast cancer cells was evaluated using the Thiazolyl Blue Tetrazolium Bromide(MTT)assay.After co-incubation 4T1 cells with BMC,intracellular ROS levels were determined through the staining of ROS fluorescence indicator 2',7'-dichlorodihydrofluorescein diacetate(DCFH-DA)and the level of lipid peroxide(LPO)expression was detected by using BODIPY581/591 C11 probe.A subcutaneous xenograft tumor model of 4T1 breast cancer was established in mice,with four experimental groups:Control group(PBS group),CPT group,BSA-MnO2(BM)group,and BMC group.The pH-responsive T1 activation effect of the BMC nanoprobes was dynamically monitored in vivo,while the ferroptosis-based antitumor efficacy was evaluated by measuring tumor volume and ferroptosis biomarkers(LPO and ROS).Results·TEM revealed that the prepared BMC nanoprobes exhibited a spherical morphology with an average diameter of approximately 150 nm.The MRI results demonstrated that the nanoprobes were pH-activable,exhibiting progressively enhanced T1 signal intensity under acidic conditions,and displaying pH-dependent r1 relaxivity enhancement.These findings validated their dual pH/time-responsive activation efficacy at the cellular level.In vitro solution-level MB and DTNB assays demonstrated that the BMC nanoprobes effectively enhanced the generation of ROS and the consumption of GSH.Fluorescence staining with DCFH-DA and BODIPY581/591 C11 demonstrated that the combination of ferroptosis effect and chemotherapy significantly enhanced intracellular generation of ROS and LPO accumulation.The MTT assay demonstrated that the survival rate of tumor cells significantly decreased to 17%(P=0.003).In vivo MRI demonstrated that the T1 signal was significantly enhanced and reached its peak at 4 h after tail vein injection of the BMC nanoprobes.Furthermore,in vivo antitumor therapy showed that the BMC group exhibited upregulated levels of LPO and ROS in tumor tissues,accompanied by marked tumor suppression(P=0.009).Conclusion·The pH-responsive theranostic BMC nanoprobes enhances antitumor efficacy via the synergistic interaction of chemotherapy and ferroptosis,while enabling tumor microenvironment-activated MRI.

Objective·To prepare self-assembled drug-loaded nanoprobes with activatable chemical exchange saturation transfer(CEST)imaging capability,and evaluate their imaging performance and therapeutic potential for photodynamic-sensitized pyroptosis in breast cancer in vivo and in vitro.Methods·GC nanoprobes co-loaded with gemcitabine(Gem)and chlorin e6(Ce6)were constructed by using a self-assembly strategy.The physicochemical properties of the GC nanoprobes were characterized by scanning electron microscopy(SEM)and dynamic light scattering(DLS).The pH-/time-dependent CEST activation and drug release profiles were investigated.The 2',7'-dichlorodihydrofluorescein diacetate(DCFH-DA)probe was used to detect the generation of reactive oxygen species(ROS),and enzyme-linked immunosorbent assay(ELISA)was used to detect the release of inflammatory factors such as interleukin-1β(IL-1β)and IL-18 in mouse breast cancer 4T1 cells after treatment with GC nanoprobes with synergistic laser irradiation.Immunofluorescence was performed to detect immunogenic cell death(ICD)markers,including calreticulin(CRT)and high mobility group box 1 protein(HMGB1).The 4T1 breast cancer mouse models were established to validate tumor-specific CEST activation and evaluate anti-tumor efficacy by measuring tumor volume and detecting inflammatory factors and ICD markers.Results·SEM and DLS confirmed the uniform spherical morphology of the GC nanoprobes.The CEST imaging results showed that the nanoprobes had excellent pH-concentration and time-dependent activation imaging effects both in the simulated acidic microenvironment and at the cellular level in vitro.The drug release from this drug-loaded nanoprobe was 80％at pH 5.0,which was significantly higher than at pH 7.4(P=0.003).DCFH-DA fluorescence staining demonstrated that GC-mediated photodynamic therapy induced a significant generation of ROS.Analysis of pyroptosis-related factors revealed a marked increase in the release levels of IL-1β and IL-18(both P＜0.05),along with elevated fluorescence expression of CRT and HMGB1.The in vivo CEST imaging results showed that the CEST signal at the tumor site was significantly enhanced,peaking at 4 h with tail vein injection of GC.The GC nanoprobes with synergistic laser irradiation group showed markedly elevated inflammatory factors(IL-1β,IL-18),changed ICD biomarkers(HMGB1 and CRT),and significant tumor suppression,compared to the PBS control group(all P＜0.05).Conclusion·The GC nanoprobes enables specific CEST imaging-guided photodynamic therapy,effectively inducing pyroptosis and precise ablation of breast cancer.

Purpose To summarize the clinical pathological and immunohistochemical characteristics of esophage-al carcinoma with ductal differentiation of esophageal gland,and analyze the somatic mutation characteristics,key driv-ing mutation genes,and significantly mutated genes based on whole exome sequencing.Methods The clinicopatho-logical features of 9 cases of esophageal carcinoma with esophageal duct differentiation were retrospectively analyzed,and the immunohistochemistry EnVision two-step method was used to stain them,and 3 of the samples were subjected to whole exome sequencing and data analysis.Results Among the 9 patients,6 were males and 3 were females.The average age was 68.3 years old(61-80 years old).All 9 cases were located in the middle-lower segment of the e-sophagus.The diameter of the lesion was from 1.5 cm to 3.5 cm.Most areas of the tumor had a double-layer epithelial structure,including the inner layer of luminal epithelium and the outer layer of basal epithelium.Focal areas could be seen with keratinization and mucinous cells.Immunohistochemistry showed that CK7 was positive in the inner epitheli-um,while p63 was positive in the outer basal epithelium.S-100,SOX10 and c-myb were all negative,and p53 was mutated(diffuse strongly positive).The results of whole exome sequencing analysis showed somatic mutation character-istics(796 SNV,37 InDel,482 CNV),key driving mutation genes(12),and significantly mutated genes(TP53).No intraepithelial neoplasia was observed on the surface squamous epithelium of all cases,and no Barrett's esophagus or ectopic gastric mucosa was observed.The average follow-up time was 21.9 months(8 days-51 months),with 8 ca-ses surviving and 1 case dying of severe pulmonary infection 8 days after surgery.Conclusion Esophageal carcinoma with ductal differentiation of esophageal gland is a rare epithelial derived malignant tumor of the esophagus,character-ized by unique morphological,immunohistochemical,and molecular changes.

Purpose To summarize the clinical pathological and immunohistochemical characteristics of esophage-al carcinoma with ductal differentiation of esophageal gland,and analyze the somatic mutation characteristics,key driv-ing mutation genes,and significantly mutated genes based on whole exome sequencing.Methods The clinicopatho-logical features of 9 cases of esophageal carcinoma with esophageal duct differentiation were retrospectively analyzed,and the immunohistochemistry EnVision two-step method was used to stain them,and 3 of the samples were subjected to whole exome sequencing and data analysis.Results Among the 9 patients,6 were males and 3 were females.The average age was 68.3 years old(61-80 years old).All 9 cases were located in the middle-lower segment of the e-sophagus.The diameter of the lesion was from 1.5 cm to 3.5 cm.Most areas of the tumor had a double-layer epithelial structure,including the inner layer of luminal epithelium and the outer layer of basal epithelium.Focal areas could be seen with keratinization and mucinous cells.Immunohistochemistry showed that CK7 was positive in the inner epitheli-um,while p63 was positive in the outer basal epithelium.S-100,SOX10 and c-myb were all negative,and p53 was mutated(diffuse strongly positive).The results of whole exome sequencing analysis showed somatic mutation character-istics(796 SNV,37 InDel,482 CNV),key driving mutation genes(12),and significantly mutated genes(TP53).No intraepithelial neoplasia was observed on the surface squamous epithelium of all cases,and no Barrett's esophagus or ectopic gastric mucosa was observed.The average follow-up time was 21.9 months(8 days-51 months),with 8 ca-ses surviving and 1 case dying of severe pulmonary infection 8 days after surgery.Conclusion Esophageal carcinoma with ductal differentiation of esophageal gland is a rare epithelial derived malignant tumor of the esophagus,character-ized by unique morphological,immunohistochemical,and molecular changes.

Objective·To construct a pH-responsive manganese-based nanoprobe and explore the therapeutic efficacy of chemotherapy/ferroptosis synergistic treatment in breast cancer and the effect of pH-responsive magnetic resonance-activated imaging.Methods·BSA-MnO2@CPT(BMC)nanoprobes were prepared by biomineralization,and their physicochemical properties were characterized by transmission electron microscope(TEM)and dynamic light scattering.The magnetic resonance imaging(MRI)was used to evaluate the pH-responsive MRI T1 activation and time-dependent activation efficacy at the cellular level,with quantitative analysis of MRI T1 signal intensity.The reactive oxygen species(ROS)generation and glutathione(GSH)depletion by BMC nanoprobes were respectively detected by methylene blue(MB)and DTNB in vitro.The synergistic efficacy of chemotherapy and ferroptosis mediated by the nanoprobes in 4T1 breast cancer cells was evaluated using the Thiazolyl Blue Tetrazolium Bromide(MTT)assay.After co-incubation 4T1 cells with BMC,intracellular ROS levels were determined through the staining of ROS fluorescence indicator 2',7'-dichlorodihydrofluorescein diacetate(DCFH-DA)and the level of lipid peroxide(LPO)expression was detected by using BODIPY581/591 C11 probe.A subcutaneous xenograft tumor model of 4T1 breast cancer was established in mice,with four experimental groups:Control group(PBS group),CPT group,BSA-MnO2(BM)group,and BMC group.The pH-responsive T1 activation effect of the BMC nanoprobes was dynamically monitored in vivo,while the ferroptosis-based antitumor efficacy was evaluated by measuring tumor volume and ferroptosis biomarkers(LPO and ROS).Results·TEM revealed that the prepared BMC nanoprobes exhibited a spherical morphology with an average diameter of approximately 150 nm.The MRI results demonstrated that the nanoprobes were pH-activable,exhibiting progressively enhanced T1 signal intensity under acidic conditions,and displaying pH-dependent r1 relaxivity enhancement.These findings validated their dual pH/time-responsive activation efficacy at the cellular level.In vitro solution-level MB and DTNB assays demonstrated that the BMC nanoprobes effectively enhanced the generation of ROS and the consumption of GSH.Fluorescence staining with DCFH-DA and BODIPY581/591 C11 demonstrated that the combination of ferroptosis effect and chemotherapy significantly enhanced intracellular generation of ROS and LPO accumulation.The MTT assay demonstrated that the survival rate of tumor cells significantly decreased to 17%(P=0.003).In vivo MRI demonstrated that the T1 signal was significantly enhanced and reached its peak at 4 h after tail vein injection of the BMC nanoprobes.Furthermore,in vivo antitumor therapy showed that the BMC group exhibited upregulated levels of LPO and ROS in tumor tissues,accompanied by marked tumor suppression(P=0.009).Conclusion·The pH-responsive theranostic BMC nanoprobes enhances antitumor efficacy via the synergistic interaction of chemotherapy and ferroptosis,while enabling tumor microenvironment-activated MRI.

Objective·To prepare self-assembled drug-loaded nanoprobes with activatable chemical exchange saturation transfer(CEST)imaging capability,and evaluate their imaging performance and therapeutic potential for photodynamic-sensitized pyroptosis in breast cancer in vivo and in vitro.Methods·GC nanoprobes co-loaded with gemcitabine(Gem)and chlorin e6(Ce6)were constructed by using a self-assembly strategy.The physicochemical properties of the GC nanoprobes were characterized by scanning electron microscopy(SEM)and dynamic light scattering(DLS).The pH-/time-dependent CEST activation and drug release profiles were investigated.The 2',7'-dichlorodihydrofluorescein diacetate(DCFH-DA)probe was used to detect the generation of reactive oxygen species(ROS),and enzyme-linked immunosorbent assay(ELISA)was used to detect the release of inflammatory factors such as interleukin-1β(IL-1β)and IL-18 in mouse breast cancer 4T1 cells after treatment with GC nanoprobes with synergistic laser irradiation.Immunofluorescence was performed to detect immunogenic cell death(ICD)markers,including calreticulin(CRT)and high mobility group box 1 protein(HMGB1).The 4T1 breast cancer mouse models were established to validate tumor-specific CEST activation and evaluate anti-tumor efficacy by measuring tumor volume and detecting inflammatory factors and ICD markers.Results·SEM and DLS confirmed the uniform spherical morphology of the GC nanoprobes.The CEST imaging results showed that the nanoprobes had excellent pH-concentration and time-dependent activation imaging effects both in the simulated acidic microenvironment and at the cellular level in vitro.The drug release from this drug-loaded nanoprobe was 80％at pH 5.0,which was significantly higher than at pH 7.4(P=0.003).DCFH-DA fluorescence staining demonstrated that GC-mediated photodynamic therapy induced a significant generation of ROS.Analysis of pyroptosis-related factors revealed a marked increase in the release levels of IL-1β and IL-18(both P＜0.05),along with elevated fluorescence expression of CRT and HMGB1.The in vivo CEST imaging results showed that the CEST signal at the tumor site was significantly enhanced,peaking at 4 h with tail vein injection of GC.The GC nanoprobes with synergistic laser irradiation group showed markedly elevated inflammatory factors(IL-1β,IL-18),changed ICD biomarkers(HMGB1 and CRT),and significant tumor suppression,compared to the PBS control group(all P＜0.05).Conclusion·The GC nanoprobes enables specific CEST imaging-guided photodynamic therapy,effectively inducing pyroptosis and precise ablation of breast cancer.

Hepatic ischemia-reperfusion injury (HIRI), as an unavoidable complication after liver surgery such as liver transplantation, can lead to postoperative hepatic impairment or even hepatic failure, which threatens patients' lives. As an important component of immune cells, macrophages have a key role in the process of HIRI. The polarization of liver resident Kupffer cells (KCs) plays a completely opposite role in HIRI. The polarization of KCs toward M2 cells antagonizes the pro-inflammatory response caused by M1 polarization and thus protects against liver injury. However, the signaling pathways of KCs polarized toward M1 or M2 are not yet fully understood. The in-depth elucidation of the role of M2 type polarization can further guide the development of subsequent targeted drugs, which will play an important role in alleviating or curing HIRI. The authors summarize the relevant applications and possible signaling pathways involved in the role of M2-type polarization of hepatic macrophages in HIRI, which will provide references for the development of clinically targeted drugs in the future.

It is believed that retention due to deficient qi is an important pathogenesis of endometriosis （EMs）. Deficient qi is the root of the disease， mainly manifested as spleen deficiency， while retention is the branch pathogenesis of the disease， mainly with blood stasis， complicated with constraint， phlegm， heat， toxin and other pathological factors. Therefore， it is proposed to follow the treatment principle of supplementing deficiency and unblocking stagnation， and take the methods of replenishing qi and fortifying the spleen， removing stasis and eliminating concretions. Self-made Fuzheng Huayu Formula （扶正化瘀方） is taken as the basic formula， and can be modified with the symptoms in menstrual and non-menstrual periods. Additionally， the methods of moving qi， dispelling phlegm， clearing heat， relieving toxin and others can be combined， and it is recommended to treat the root and the branch simultaneously.