Objective:To explore symptom experiences and self-coping patterns during the early and late stages of chemotherapy in these patients to provide a basis for developing targeted symptom management strategies.Methods:A t...Objective:To explore symptom experiences and self-coping patterns during the early and late stages of chemotherapy in these patients to provide a basis for developing targeted symptom management strategies.Methods:A total of 27 patients with pancreatic cancer undergoing chemotherapy at two medical institutions were recruited between November 2023 and August 2024.Semi-structured interviews were conducted in person or over the phone.Data were analyzed using traditional content and thematic analyses.Results:Three themes were identified:symptom experience,self-coping patterns,and existing obstacles.During the early stages of chemotherapy,patients reported a higher frequency of unpleasant symptoms and recognized these symptoms earlier in the treatment course.Patients in the early stages primarily relied on external support to cope with symptoms,while those in the later stages adopted self-care strategies.Several challenges related to unpleasant symptoms were observed,which appeared to correlate with the self-coping patterns employed.Conclusion:Patients with pancreatic cancer undergoing chemotherapy experience a complex and diverse range of symptoms,with varying coping patterns at different stages of treatment.Symptom management during chemotherapy presents significant challenges.Healthcare providers should improve the ongoing monitoring of symptoms post-chemotherapy.By linking patients’symptom experiences and self-coping patterns at different stages of chemotherapy to their specific challenges,personalized symptom management strategies can be developed to enhance care quality.展开更多
Optimized nitrogen(N)management can increase N-use efficiency in intercropping systems.Legume-nonlegume intercropping systems can reduce N input by exploiting biological N fixation by legumes.Measurement of N utilizat...Optimized nitrogen(N)management can increase N-use efficiency in intercropping systems.Legume-nonlegume intercropping systems can reduce N input by exploiting biological N fixation by legumes.Measurement of N utilization can help in dissecting the mechanisms underlying N uptake and utilization in legume-nonlegume intercropping systems.An experiment was performed with three planting patterns:monoculture maize(MM),monoculture soybean(SS),and maize-soybean relay intercropping(IMS),and three N application levels:zero N(NN),reduced N(RN),and conventional N(CN)to investigate crop N uptake and utilization characteristics.N recovery efficiency and 15N recovery rate of crops were higher under RN than under CN,and those under RN were higher under intercropping than under the corresponding monocultures.Compared with MM,IMS showed a lower soil N-dependent rate(SNDR)in 2012.However,the SNDR of MM rapidly declined from 86.8%in 2012 to 49.4%in 2014,whereas that of IMS declined slowly from 75.4%in 2012 to 69.4%in 2014.The interspecific N competition rate(NCRms)was higher under RN than under CN,and increased yearly.Soybean nodule dry weight and nitrogenase activities were respectively 34.2%and 12.5%higher under intercropping than in monoculture at the beginning seed stage.The amount(Ndfa)and ratio(%Ndfa)of soybean N2 fixation were significantly greater under IS than under SS.In conclusion,N fertilizer was more efficiently used under RN than under CN;in particular,the relay intercropping system promoted N fertilizer utilization in comparison with the corresponding monocultures.An intercropping system helps to maintain soil fertility because interspecific N competition promotes biological N fixation by soybean by reducing N input.Thus,a maize-soybean relay intercropping system with reduced N application is sustainable and environmentally friendly.展开更多
Relay cropping of Poaceae and Fabaceae promotes high yield and land-use efficiency by allowing a double harvest.However,it is difficult to increase yield synergistically because of the reduced photosynthetic abilities...Relay cropping of Poaceae and Fabaceae promotes high yield and land-use efficiency by allowing a double harvest.However,it is difficult to increase yield synergistically because of the reduced photosynthetic abilities of legume leaves under the shade of graminoids.Leaf photosynthetic capacity in relay cropping systems is associated with ecological niche differentiation and photosynthetic compensation after restoration of normal light.We conducted a field experiment in southwest China in 2020–2021 to evaluate the effects of three cropping patterns:maize–soybean relay cropping(IMS),monoculture maize(MM),and monoculture soybean(SS),and N application levels:no N application(NN:0 kg N ha^(−1)),reduced N(RN:180 kg N ha^(−1)),and conventional N(CN:240 kg N ha^(−1)).Compared to monocropping,relay cropping increased the stay-green traits of maize and soybean by 13%and 89%,respectively.Relay cropping prolonged the leaf stay-green duration in the maize and soybean lag phase by almost 4 and 8 days,respectively.Relay cropping maize(IM)increased the leaf area index(LAI)by 79.4%to 88.5%under NN and 55.5%to 148%under RN.Relay cropping soybean(IS)increased the LAI from 115%to 437%at days 40 to 50 after anthesis.IM increased yield by 65.6%.IS increased yield by 9.7%.HI and system yield were at their highest values under RN.In the relay cropping system,reduced N application extended green leaf duration,increased photosynthesis inside the canopy at multiple levels,ultimately increases soybean yield synergistically.展开更多
Focal nodular hyperplasia (FNH) is a common benign hepatic tumor which is often treated non-operatively until it appears apparent symptoms such as pain and upper abdominal distension. We report here a case of trans-ca...Focal nodular hyperplasia (FNH) is a common benign hepatic tumor which is often treated non-operatively until it appears apparent symptoms such as pain and upper abdominal distension. We report here a case of trans-catheter arterial embolization (TAE) using pingyangmycin-lipiodol emulsion (PLE) for blocking a fatal bleeding originated from percutaneous biopsy as well as for FNH treatment. After embolization by means of the mixture of PLE and particles of gelfoam, the bleeding was stopped and the FNH was apparently shrinked 1 year later. TAE using PLE may be considered as a safe and effective method for the treatment of FNH.展开更多
Ag nanoparticles used as physical developing nuclei in photographic science were prepared by reduction method. The as-formed Ag nanoparticle colloid was characterized by UV-Vis absorption spectrum, Atomic Force Micro...Ag nanoparticles used as physical developing nuclei in photographic science were prepared by reduction method. The as-formed Ag nanoparticle colloid was characterized by UV-Vis absorption spectrum, Atomic Force Microscopy(AFM) and Charge Coupled Device (CCD) technique. It is found that the source of Ag ions, the addition of surfactant and polymer, all have great influence on the size, topography and catalytic activity of Ag nanoparticles.展开更多
In this work, we used a linear CCD to detect the whole physical developing process of silver diffusion transfer reversal process in photographic chemistry. The influence of the ingredient of the working solution was s...In this work, we used a linear CCD to detect the whole physical developing process of silver diffusion transfer reversal process in photographic chemistry. The influence of the ingredient of the working solution was studied.展开更多
Chronic hepatitis B virus(HBV)infection remains a major health burden worldwide.To establish a persistence infection,HBV needs to evade both adaptive and innate immune surveillance.Multiple mechanisms for adaptive imm...Chronic hepatitis B virus(HBV)infection remains a major health burden worldwide.To establish a persistence infection,HBV needs to evade both adaptive and innate immune surveillance.Multiple mechanisms for adaptive immunity evasion have been established,but how HBV evades the innate surveillance is less clear.There are three types of host cells involving in the innate immune responses against HBV infection:Hepatocytes,hepatic nonparenchymal cells and conventional innate immune cells.Among these,hepatocytes are the only target cells that are susceptible to HBV infection and the only confirmed site where HBV replication takes place.This review focuses on the hepatocyte-intrinsic innate immunity;one of the earliest host defense responses.After entering hepatocytes,the viral components can be sensed by the cellular pattern recognition receptors.This triggers downstream antiviral responses capable of inhibiting viral replication and even degrading the viral DNA genome directly or indirectly.However,HBV has evolved a variety of sophisticated strategies to evade intracellular immune defense,resulting in the establishment of infection.Here,we provide insights into the mechanisms of the intrinsic innate immune response of hepatocytes and how HBV escapes these defense mechanisms.Hopefully,this will lay the foundation for the development of novel anti-HBV therapies.展开更多
The interactions of charge transfer(CT)and nonradiative energy transfer(ET)in heterojunctions of two-dimensional(2D)transition metal dichalcogenides and quasi-2D single crystal perovskite thin films have the potential...The interactions of charge transfer(CT)and nonradiative energy transfer(ET)in heterojunctions of two-dimensional(2D)transition metal dichalcogenides and quasi-2D single crystal perovskite thin films have the potential applications in sensor,energy harvesting and solar cells.However,the CT and ET between them are not clear.Herein,we examine the ET in a(PEA)_(2)PbI_(4)/WS_(2)(PEA stands for phenethylamine and(PEA)_(2)PbI_(4)is abbreviated as PEPI)heterojunction using combined ultrafast spectroscopy and nonlinear optical absorption measurements.The ET from PEPI to WS_(2)predicted by band alignment is first observed with photoluminescence spectroscopy and then revealed by femtosecond transient absorption spectroscopy to exhibit a high ET efficiency approximating 68%.展开更多
Objective Long non-coding RNAs(lncRNAs)are critical in the pathogenesis of hematological malignancies,including acute myeloid leukemia(AML).However,the specific role and underlying mechanisms of the lncRNA chromosome ...Objective Long non-coding RNAs(lncRNAs)are critical in the pathogenesis of hematological malignancies,including acute myeloid leukemia(AML).However,the specific role and underlying mechanisms of the lncRNA chromosome 9 open reading frame 139(C9orf139)in AML remain unclear.This study aimed to investigate the role and molecular mechanism of C9orf139 in AML development.Methods AML-related sequencing and microarray data were retrieved from The Cancer Genome Atlas(TCGA)and Gene Expression Omnibus(GEO)databases.Significant lncRNAs and mRNAs influencing AML progression were identified and analyzed.A competing endogenous RNA network involving lncRNA–microRNA(miRNA)3–mRNA interactions was subsequently constructed.The expression levels of C9orf139,miR-24-3p,and human TAO kinase 1(TAOK1)were assessed via real-time fluorescent quantitative polymerase chain reaction(PCR).Cell proliferation was evaluated via the Cell Counting Kit-8(CCK8)assay,whereas Transwell assays were used to assess cell invasion and migration.Apoptosis was measured by Annexin V Fluorescein Isothiocyanate(FITC)double staining.Tumor formation in nude mice was assessed to examine the effect of C9orf139 on in vivo tumor growth.The C9orf139-miR-24-3p-TAOK1 regulatory axis was validated via dual luciferase reporter assays and RNA-binding protein immunoprecipitation(RIP).Western blot assays were used to assess the expression and phosphorylation of key proteins in the mitogen-activated protein kinase(MAPK)signaling pathway.Results Bioinformatics analysis identified C9orf139 and TAOK1 as differentially expressed genes that play key roles in AML pathogenesis.The C9orf139-miR-24-3p-TAOK1 axis was tightly linked to AML development,as confirmed by clinical sample analysis.In vitro,C9orf139 downregulation resulted in reduced proliferation,invasion,and migration and enhanced the apoptosis of AML cells.In vivo,the inhibition of C9orf139 significantly impaired tumor growth in nude mice.The regulatory axis was further validated.C9orf139 knockdown reduced the phosphorylation levels of the key MAPK pathway proteins,including Raf,mitogen-activated protein kinase kinase(MEK),and extracellular regulated protein kinase(ERK).Conclusion C9orf139 regulates AML progression by activating the MAPK signaling pathway through the C9orf139-miR-24-3p-TAOK1 axis.展开更多
Alzheimer's disease(AD),the most prevalent form of dementia,disproportionately affects the elderly population.While aging is widely recognized as a major risk factor for AD,the precise mechanisms by which aging co...Alzheimer's disease(AD),the most prevalent form of dementia,disproportionately affects the elderly population.While aging is widely recognized as a major risk factor for AD,the precise mechanisms by which aging contributes to the pathogenesis of AD remain poorly understood.In our previous work,the neuropathological changes in the brains of aged cynomolgus monkeys(≥18 years old)following parenchymal cerebral injection of amyloid-β oligomers(AβOs)have been characterized.Here,we extend our investigation to middle-aged cynomolgus monkeys(≤15 years old)to establish an AD model.Surprisingly,immunohistochemical analysis reveals no detectable AD-related pathology in the brains of middle-aged monkeys,even after AβOs injection.In a comprehensive pathological analysis of 38 monkeys,we observe that the amyloid-β(Aβ)burden increases significantly with advancing age.Notably,the density of Aβ plaques is markedly higher in the ventral regions compared with the dorsal regions of aged monkey brains.Furthermore,we demonstrate that tau phosphorylation coincides with the accumulation of extensive Aβplaques and exhibits a positive correlation with Aβ burden in aged monkeys.Collectively,these findings underscore the critical role of the aged brain in providing the necessary conditions for AβO-induced AD pathologies in cynomolgus monkeys.展开更多
Modulating the dipole polarization loss in the single-atom region and establishing its direct relationship with the electromagnetic wave absorption(EWA)performance remain an unmet challenge.Here,a dual-ligand modulati...Modulating the dipole polarization loss in the single-atom region and establishing its direct relationship with the electromagnetic wave absorption(EWA)performance remain an unmet challenge.Here,a dual-ligand modulation strategy,i.e.,partially changing coordination atoms in the single-metal region(sMr),is introduced to effectively break the coordination symmetry of conjugated metal-organic frameworks(cMOFs),finally enhancing EWA property of cMOFs materials.Further,the asymmetrical sMr is experimentally found to elicit the dipole polarization loss,overcoming the handicaps of other electromagnetic wave loss mechanisms,which directly contribution to enhance EWA performance of this series of cMOFs.This strategy is further confirmed by replacing metal centers.Among studied series of cMOFs,Cu_(2.25)/Co_(0.75)(HHTP1.67HITP0.33)achieves excellent EWA performance with an effective absorption bandwidth of 5.00 GHz and a reflection loss of66.03 dB.We introduce a dual-ligand modulation strategy targeting single-metal regions within cMOFs here,aiming to achieve superior EWA performance through atomic-scale dipole polarization loss modulation.We hope our study can inspire more exploration to realize high-performance EWA materials.展开更多
Chemical hydrogen storage in organic materials is a promising method thanks to its high storage density,reversibility,and safety.However,the dehydrogenation process of organic materials requires high temperatures due ...Chemical hydrogen storage in organic materials is a promising method thanks to its high storage density,reversibility,and safety.However,the dehydrogenation process of organic materials requires high temperatures due to their unfavorable thermodynamic properties.This study proposes a strategy to design a new type of hydrogen storage materials,i.e.,alkali metal pyridinolate/piperidinolate pairs,by combining the effects of a heteroatom and an alkali metal in one molecule to achieve suitable dehydrogenation thermodynamics along with high hydrogen storage capacities.These air-stable compounds can be synthesized using low-cost reactants and water as a green solvent.Thermodynamic predictions indicate that enthalpy changes of dehydrogenation(ΔH_(d))can be significantly reduced to the optimal range for efficient hydrogen release,exemplified by lithium 2-piperidinolate with a 5.6 wt%hydrogen capacity and a suitableΔH_(d)of 32.2 kJ/mol-H_(2).Experimental results obtained using sodium systems validate the computational predictions,demonstrating reversible hydrogen storage even below 100℃.The superior hydrogen desorption performance of alkali metal piperidinolates could be attributed to their suitableΔH_(d)induced by the combined effect of ring nitrogen and metal substitution on their structures.This study not only reports new low-cost hydrogen storage materials but also provides a rational design strategy for developing metalorganic compounds possessing high hydrogen capacities and suitable thermodynamics for efficient hydrogen storage.展开更多
Objectives Retinal ischemia-reperfusion(RIR)injury results in irreversible visual impairments.The disruption of the outer blood-retinal barrier(OBRB)is a major ocular pathogenic process that RIR injury affects.Current...Objectives Retinal ischemia-reperfusion(RIR)injury results in irreversible visual impairments.The disruption of the outer blood-retinal barrier(OBRB)is a major ocular pathogenic process that RIR injury affects.Current clinical strategies are limited.This study aimed to elucidate how electroacupuncture(EA)protects the OBRB against RIR injury.Methods Male Wistar rats(7 weeks old,250 g to 280 g)were used in this study.Three independent experiments were conducted.First,Opioid peptide levels were quantified using enzyme-linked immunosorbent assay(ELISA).42 rats were randomly divided into 7 groups(n=6/group):Control:No treatment;high intraocular pressure(HIOP):Acute intraocular pressure elevation-induced RIR injury;HIOP+SHAM EA:RIR injury+sham EA at Xinming(Extra acupoint)and Jingming(BL1)for 30 min(shallow needle insertion but without electric stimulation);HIOP+2 Hz EA:RIR injury+2 Hz EA at Xinming and BL1 for 30 min;HIOP+100 Hz:RIR injury+100 Hz EA at Xinming and BL1 for 30 min;HIOP+2/100 Hz EA:RIR injury+2/100 Hz EA at Xinming and BL1 for 30 min;HIOP+4/20 Hz EA:RIR injury+4/20 Hz EA at Xinming and BL1 for 30 min.Second,retinal morphology was assessed by hematoxylin and eosin(HE)staining.20 rats were randomly allocated into 4 groups(n=5/group):Control:No treatment;HIOP:Acute intraocular pressure elevation-induced RIR injury;HIOP+SHAM EA:RIR injury+sham EA at Xinming and BL1 for 30 min(shallow needle insertion but without electric stimulation);HIOP+2 Hz EA:RIR injury+2 Hz EA at Xinming and BL1 for 30 min.Third,the permeability of OBRB was evaluated using the fluorescein isothiocyanate(FITC)-dextran leakage assay.15 rats were randomly divided into 5 groups(n=3/group):Control:No treatment;HIOP:Acute intraocular pressure elevation-induced RIR injury;HIOP+SHAM EA:RIR injury+sham EA at Xinming and BL1 for 30 min(shallow needle insertion but without electric stimulation);HIOP+2 Hz EA:RIR injury+2 Hz EA at Xinming and BL1 for 30 min;Nal+HIOP+2 Hz EA:Intravitreal injection ofδ-opioid receptor antagonist Naltridole(10µl,100 nM)30 min before RIR injury induction,followed by 2 Hz EA treatment at Xinming and BL1 for 30 min.In vitro studies examined enkephalins'effects on oxygen–glucose deprivation/reperfusion(OGD/R)induced injury in ARPE‐19 cells.Cell viability was evaluated by cell counting kit-8(CCK-8)assay,and morphological changes were recorded by Molecular Devices.Apoptosis was detected by Annexin V-FITC flow cytometry.Delta opioid receptor(DOR)expression in total protein and membrane protein were analyzed by western blotting(WB).Immunofluorescence(IF)staining and WB assessed ZO-1 and Claudin-19.For cell-based assays,n indicates the number of biologically independent replicates.Results It was found that 2 Hz EA treatment increased enkephalins(methionine-enkephalin and leucine-enkephalin)levels(P<0.01),restoring the increased retinal thickness(P<0.05)and mitigating RGCs loss(P<0.05)post-RIR injury.FITC-dextran leakage in the outer retina was ameliorated by 2 Hz EA(P<0.05),reversibly countered by Naltrindole(P<0.05),a DOR antagonist.Treatment with 30µM enkephalins enhanced ARPE-19 cell viability(P<0.001,P<0.0001)and inhibited apoptosis(P<0.0001).Enkephalins elevated DOR levels in total protein(P<0.05)and membrane protein fractions(P<0.001,P<0.0001),as well as elevated ZO-1(P<0.001,P<0.01)and Claudin-19(P<0.0001,P<0.001)levels following OGD/R,counteracted by Naltrindole.Conclusion It was found that 2 Hz EA inhibits the breakdown of OBRB via enkephalins activate DOR in RIR injury.展开更多
基金supported by the State Key Laboratory of Ultrasonic Medical Engineering/the Chongqing Science and Technology Bureau(Project No.2022KFKT7011)the Postdoctoral Fellowship Program of CPSF(GZC20233357)+1 种基金the Health Commission of Sichuan Province Medical Science and Technology Program(24QNMP007)the Medical Research Program of Health Commission of Chengdu(2023535).
文摘Objective:To explore symptom experiences and self-coping patterns during the early and late stages of chemotherapy in these patients to provide a basis for developing targeted symptom management strategies.Methods:A total of 27 patients with pancreatic cancer undergoing chemotherapy at two medical institutions were recruited between November 2023 and August 2024.Semi-structured interviews were conducted in person or over the phone.Data were analyzed using traditional content and thematic analyses.Results:Three themes were identified:symptom experience,self-coping patterns,and existing obstacles.During the early stages of chemotherapy,patients reported a higher frequency of unpleasant symptoms and recognized these symptoms earlier in the treatment course.Patients in the early stages primarily relied on external support to cope with symptoms,while those in the later stages adopted self-care strategies.Several challenges related to unpleasant symptoms were observed,which appeared to correlate with the self-coping patterns employed.Conclusion:Patients with pancreatic cancer undergoing chemotherapy experience a complex and diverse range of symptoms,with varying coping patterns at different stages of treatment.Symptom management during chemotherapy presents significant challenges.Healthcare providers should improve the ongoing monitoring of symptoms post-chemotherapy.By linking patients’symptom experiences and self-coping patterns at different stages of chemotherapy to their specific challenges,personalized symptom management strategies can be developed to enhance care quality.
基金supported by the National Natural Science Foundation of China(31671625,31271669)the National Key Research and Development Program of China(2016YFD0300202)
文摘Optimized nitrogen(N)management can increase N-use efficiency in intercropping systems.Legume-nonlegume intercropping systems can reduce N input by exploiting biological N fixation by legumes.Measurement of N utilization can help in dissecting the mechanisms underlying N uptake and utilization in legume-nonlegume intercropping systems.An experiment was performed with three planting patterns:monoculture maize(MM),monoculture soybean(SS),and maize-soybean relay intercropping(IMS),and three N application levels:zero N(NN),reduced N(RN),and conventional N(CN)to investigate crop N uptake and utilization characteristics.N recovery efficiency and 15N recovery rate of crops were higher under RN than under CN,and those under RN were higher under intercropping than under the corresponding monocultures.Compared with MM,IMS showed a lower soil N-dependent rate(SNDR)in 2012.However,the SNDR of MM rapidly declined from 86.8%in 2012 to 49.4%in 2014,whereas that of IMS declined slowly from 75.4%in 2012 to 69.4%in 2014.The interspecific N competition rate(NCRms)was higher under RN than under CN,and increased yearly.Soybean nodule dry weight and nitrogenase activities were respectively 34.2%and 12.5%higher under intercropping than in monoculture at the beginning seed stage.The amount(Ndfa)and ratio(%Ndfa)of soybean N2 fixation were significantly greater under IS than under SS.In conclusion,N fertilizer was more efficiently used under RN than under CN;in particular,the relay intercropping system promoted N fertilizer utilization in comparison with the corresponding monocultures.An intercropping system helps to maintain soil fertility because interspecific N competition promotes biological N fixation by soybean by reducing N input.Thus,a maize-soybean relay intercropping system with reduced N application is sustainable and environmentally friendly.
基金the Special Fund for the Industrial Technology System Construction of Modem Agriculture(CARS-04-PS20)the National Natural Science Foundation of China(31872856,31671625)the National Key Research and Development Program of China(2021YFF1000500)。
文摘Relay cropping of Poaceae and Fabaceae promotes high yield and land-use efficiency by allowing a double harvest.However,it is difficult to increase yield synergistically because of the reduced photosynthetic abilities of legume leaves under the shade of graminoids.Leaf photosynthetic capacity in relay cropping systems is associated with ecological niche differentiation and photosynthetic compensation after restoration of normal light.We conducted a field experiment in southwest China in 2020–2021 to evaluate the effects of three cropping patterns:maize–soybean relay cropping(IMS),monoculture maize(MM),and monoculture soybean(SS),and N application levels:no N application(NN:0 kg N ha^(−1)),reduced N(RN:180 kg N ha^(−1)),and conventional N(CN:240 kg N ha^(−1)).Compared to monocropping,relay cropping increased the stay-green traits of maize and soybean by 13%and 89%,respectively.Relay cropping prolonged the leaf stay-green duration in the maize and soybean lag phase by almost 4 and 8 days,respectively.Relay cropping maize(IM)increased the leaf area index(LAI)by 79.4%to 88.5%under NN and 55.5%to 148%under RN.Relay cropping soybean(IS)increased the LAI from 115%to 437%at days 40 to 50 after anthesis.IM increased yield by 65.6%.IS increased yield by 9.7%.HI and system yield were at their highest values under RN.In the relay cropping system,reduced N application extended green leaf duration,increased photosynthesis inside the canopy at multiple levels,ultimately increases soybean yield synergistically.
文摘Focal nodular hyperplasia (FNH) is a common benign hepatic tumor which is often treated non-operatively until it appears apparent symptoms such as pain and upper abdominal distension. We report here a case of trans-catheter arterial embolization (TAE) using pingyangmycin-lipiodol emulsion (PLE) for blocking a fatal bleeding originated from percutaneous biopsy as well as for FNH treatment. After embolization by means of the mixture of PLE and particles of gelfoam, the bleeding was stopped and the FNH was apparently shrinked 1 year later. TAE using PLE may be considered as a safe and effective method for the treatment of FNH.
基金The authors are grateful to National Natural Science Foundation of China(NO.60108005)
文摘Ag nanoparticles used as physical developing nuclei in photographic science were prepared by reduction method. The as-formed Ag nanoparticle colloid was characterized by UV-Vis absorption spectrum, Atomic Force Microscopy(AFM) and Charge Coupled Device (CCD) technique. It is found that the source of Ag ions, the addition of surfactant and polymer, all have great influence on the size, topography and catalytic activity of Ag nanoparticles.
文摘In this work, we used a linear CCD to detect the whole physical developing process of silver diffusion transfer reversal process in photographic chemistry. The influence of the ingredient of the working solution was studied.
基金Supported by Shenzhen Medical Research Fund,No.D2301010Shenzhen Science and Technology Program,No.RCYX20231211090346060。
文摘Chronic hepatitis B virus(HBV)infection remains a major health burden worldwide.To establish a persistence infection,HBV needs to evade both adaptive and innate immune surveillance.Multiple mechanisms for adaptive immunity evasion have been established,but how HBV evades the innate surveillance is less clear.There are three types of host cells involving in the innate immune responses against HBV infection:Hepatocytes,hepatic nonparenchymal cells and conventional innate immune cells.Among these,hepatocytes are the only target cells that are susceptible to HBV infection and the only confirmed site where HBV replication takes place.This review focuses on the hepatocyte-intrinsic innate immunity;one of the earliest host defense responses.After entering hepatocytes,the viral components can be sensed by the cellular pattern recognition receptors.This triggers downstream antiviral responses capable of inhibiting viral replication and even degrading the viral DNA genome directly or indirectly.However,HBV has evolved a variety of sophisticated strategies to evade intracellular immune defense,resulting in the establishment of infection.Here,we provide insights into the mechanisms of the intrinsic innate immune response of hepatocytes and how HBV escapes these defense mechanisms.Hopefully,this will lay the foundation for the development of novel anti-HBV therapies.
基金financially supported by the National Natural Science Foundation of China(Nos.52472153,11704081,and 62175210)Guangxi Natural Science Foundation(No.2020GXNSFAA297182)the special fund for"Guangxi Bagui Scholars,"National Science and Technology Innovation Talent Cultivation Program(No.2023BZRC016)
文摘The interactions of charge transfer(CT)and nonradiative energy transfer(ET)in heterojunctions of two-dimensional(2D)transition metal dichalcogenides and quasi-2D single crystal perovskite thin films have the potential applications in sensor,energy harvesting and solar cells.However,the CT and ET between them are not clear.Herein,we examine the ET in a(PEA)_(2)PbI_(4)/WS_(2)(PEA stands for phenethylamine and(PEA)_(2)PbI_(4)is abbreviated as PEPI)heterojunction using combined ultrafast spectroscopy and nonlinear optical absorption measurements.The ET from PEPI to WS_(2)predicted by band alignment is first observed with photoluminescence spectroscopy and then revealed by femtosecond transient absorption spectroscopy to exhibit a high ET efficiency approximating 68%.
基金supported by the Youth Talent Science and Technology Project of Health Commission of Changzhou(QN202223)the Education Research Project of Nanjing Medical University(2023ZC086)the Changzhou Medical Center(CMCB202422).
文摘Objective Long non-coding RNAs(lncRNAs)are critical in the pathogenesis of hematological malignancies,including acute myeloid leukemia(AML).However,the specific role and underlying mechanisms of the lncRNA chromosome 9 open reading frame 139(C9orf139)in AML remain unclear.This study aimed to investigate the role and molecular mechanism of C9orf139 in AML development.Methods AML-related sequencing and microarray data were retrieved from The Cancer Genome Atlas(TCGA)and Gene Expression Omnibus(GEO)databases.Significant lncRNAs and mRNAs influencing AML progression were identified and analyzed.A competing endogenous RNA network involving lncRNA–microRNA(miRNA)3–mRNA interactions was subsequently constructed.The expression levels of C9orf139,miR-24-3p,and human TAO kinase 1(TAOK1)were assessed via real-time fluorescent quantitative polymerase chain reaction(PCR).Cell proliferation was evaluated via the Cell Counting Kit-8(CCK8)assay,whereas Transwell assays were used to assess cell invasion and migration.Apoptosis was measured by Annexin V Fluorescein Isothiocyanate(FITC)double staining.Tumor formation in nude mice was assessed to examine the effect of C9orf139 on in vivo tumor growth.The C9orf139-miR-24-3p-TAOK1 regulatory axis was validated via dual luciferase reporter assays and RNA-binding protein immunoprecipitation(RIP).Western blot assays were used to assess the expression and phosphorylation of key proteins in the mitogen-activated protein kinase(MAPK)signaling pathway.Results Bioinformatics analysis identified C9orf139 and TAOK1 as differentially expressed genes that play key roles in AML pathogenesis.The C9orf139-miR-24-3p-TAOK1 axis was tightly linked to AML development,as confirmed by clinical sample analysis.In vitro,C9orf139 downregulation resulted in reduced proliferation,invasion,and migration and enhanced the apoptosis of AML cells.In vivo,the inhibition of C9orf139 significantly impaired tumor growth in nude mice.The regulatory axis was further validated.C9orf139 knockdown reduced the phosphorylation levels of the key MAPK pathway proteins,including Raf,mitogen-activated protein kinase kinase(MEK),and extracellular regulated protein kinase(ERK).Conclusion C9orf139 regulates AML progression by activating the MAPK signaling pathway through the C9orf139-miR-24-3p-TAOK1 axis.
基金supported in part by the National Key Basic Research and Development Program of China(2019YFA0801402,2018YFA0107200,2018YFA0801402,2018YFA0800100)the Strategic Priority Research Program of the Chinese Academy of Sciences(XDA16020501 and XDA16020404)the National Natural Science Foundation of China(32130030,31900454,32470866,32471010,32100800)。
文摘Alzheimer's disease(AD),the most prevalent form of dementia,disproportionately affects the elderly population.While aging is widely recognized as a major risk factor for AD,the precise mechanisms by which aging contributes to the pathogenesis of AD remain poorly understood.In our previous work,the neuropathological changes in the brains of aged cynomolgus monkeys(≥18 years old)following parenchymal cerebral injection of amyloid-β oligomers(AβOs)have been characterized.Here,we extend our investigation to middle-aged cynomolgus monkeys(≤15 years old)to establish an AD model.Surprisingly,immunohistochemical analysis reveals no detectable AD-related pathology in the brains of middle-aged monkeys,even after AβOs injection.In a comprehensive pathological analysis of 38 monkeys,we observe that the amyloid-β(Aβ)burden increases significantly with advancing age.Notably,the density of Aβ plaques is markedly higher in the ventral regions compared with the dorsal regions of aged monkey brains.Furthermore,we demonstrate that tau phosphorylation coincides with the accumulation of extensive Aβplaques and exhibits a positive correlation with Aβ burden in aged monkeys.Collectively,these findings underscore the critical role of the aged brain in providing the necessary conditions for AβO-induced AD pathologies in cynomolgus monkeys.
基金supported by the National Natural Science Foundation of China(52172091,52172295)Defense Industrial Technology Development Program(JCKY2023605C002)+3 种基金Basic Research Program of Jiangsu(BK20232013)the National Key Laboratory on Electromagnetic Environmental Effects and Electro-optical Engineering(NO.61422062301)The Postgraduate Research&Practice Innovation Program of Jiangsu Province(KYCX23_0371,KYCX24_0571,KYCX25_0602)Opening Project of Science and Technology on Reliability Physics and Application Technology of Electronic Component Laboratory(ZHD202305).
文摘Modulating the dipole polarization loss in the single-atom region and establishing its direct relationship with the electromagnetic wave absorption(EWA)performance remain an unmet challenge.Here,a dual-ligand modulation strategy,i.e.,partially changing coordination atoms in the single-metal region(sMr),is introduced to effectively break the coordination symmetry of conjugated metal-organic frameworks(cMOFs),finally enhancing EWA property of cMOFs materials.Further,the asymmetrical sMr is experimentally found to elicit the dipole polarization loss,overcoming the handicaps of other electromagnetic wave loss mechanisms,which directly contribution to enhance EWA performance of this series of cMOFs.This strategy is further confirmed by replacing metal centers.Among studied series of cMOFs,Cu_(2.25)/Co_(0.75)(HHTP1.67HITP0.33)achieves excellent EWA performance with an effective absorption bandwidth of 5.00 GHz and a reflection loss of66.03 dB.We introduce a dual-ligand modulation strategy targeting single-metal regions within cMOFs here,aiming to achieve superior EWA performance through atomic-scale dipole polarization loss modulation.We hope our study can inspire more exploration to realize high-performance EWA materials.
基金partially supported by the National Key R&D Program of China(2023YFE0198900)support provided by the National Natural Science Foundation of China(52171226,22309174)。
文摘Chemical hydrogen storage in organic materials is a promising method thanks to its high storage density,reversibility,and safety.However,the dehydrogenation process of organic materials requires high temperatures due to their unfavorable thermodynamic properties.This study proposes a strategy to design a new type of hydrogen storage materials,i.e.,alkali metal pyridinolate/piperidinolate pairs,by combining the effects of a heteroatom and an alkali metal in one molecule to achieve suitable dehydrogenation thermodynamics along with high hydrogen storage capacities.These air-stable compounds can be synthesized using low-cost reactants and water as a green solvent.Thermodynamic predictions indicate that enthalpy changes of dehydrogenation(ΔH_(d))can be significantly reduced to the optimal range for efficient hydrogen release,exemplified by lithium 2-piperidinolate with a 5.6 wt%hydrogen capacity and a suitableΔH_(d)of 32.2 kJ/mol-H_(2).Experimental results obtained using sodium systems validate the computational predictions,demonstrating reversible hydrogen storage even below 100℃.The superior hydrogen desorption performance of alkali metal piperidinolates could be attributed to their suitableΔH_(d)induced by the combined effect of ring nitrogen and metal substitution on their structures.This study not only reports new low-cost hydrogen storage materials but also provides a rational design strategy for developing metalorganic compounds possessing high hydrogen capacities and suitable thermodynamics for efficient hydrogen storage.
基金Supported by the National Natural Science Foundation of China:81574078。
文摘Objectives Retinal ischemia-reperfusion(RIR)injury results in irreversible visual impairments.The disruption of the outer blood-retinal barrier(OBRB)is a major ocular pathogenic process that RIR injury affects.Current clinical strategies are limited.This study aimed to elucidate how electroacupuncture(EA)protects the OBRB against RIR injury.Methods Male Wistar rats(7 weeks old,250 g to 280 g)were used in this study.Three independent experiments were conducted.First,Opioid peptide levels were quantified using enzyme-linked immunosorbent assay(ELISA).42 rats were randomly divided into 7 groups(n=6/group):Control:No treatment;high intraocular pressure(HIOP):Acute intraocular pressure elevation-induced RIR injury;HIOP+SHAM EA:RIR injury+sham EA at Xinming(Extra acupoint)and Jingming(BL1)for 30 min(shallow needle insertion but without electric stimulation);HIOP+2 Hz EA:RIR injury+2 Hz EA at Xinming and BL1 for 30 min;HIOP+100 Hz:RIR injury+100 Hz EA at Xinming and BL1 for 30 min;HIOP+2/100 Hz EA:RIR injury+2/100 Hz EA at Xinming and BL1 for 30 min;HIOP+4/20 Hz EA:RIR injury+4/20 Hz EA at Xinming and BL1 for 30 min.Second,retinal morphology was assessed by hematoxylin and eosin(HE)staining.20 rats were randomly allocated into 4 groups(n=5/group):Control:No treatment;HIOP:Acute intraocular pressure elevation-induced RIR injury;HIOP+SHAM EA:RIR injury+sham EA at Xinming and BL1 for 30 min(shallow needle insertion but without electric stimulation);HIOP+2 Hz EA:RIR injury+2 Hz EA at Xinming and BL1 for 30 min.Third,the permeability of OBRB was evaluated using the fluorescein isothiocyanate(FITC)-dextran leakage assay.15 rats were randomly divided into 5 groups(n=3/group):Control:No treatment;HIOP:Acute intraocular pressure elevation-induced RIR injury;HIOP+SHAM EA:RIR injury+sham EA at Xinming and BL1 for 30 min(shallow needle insertion but without electric stimulation);HIOP+2 Hz EA:RIR injury+2 Hz EA at Xinming and BL1 for 30 min;Nal+HIOP+2 Hz EA:Intravitreal injection ofδ-opioid receptor antagonist Naltridole(10µl,100 nM)30 min before RIR injury induction,followed by 2 Hz EA treatment at Xinming and BL1 for 30 min.In vitro studies examined enkephalins'effects on oxygen–glucose deprivation/reperfusion(OGD/R)induced injury in ARPE‐19 cells.Cell viability was evaluated by cell counting kit-8(CCK-8)assay,and morphological changes were recorded by Molecular Devices.Apoptosis was detected by Annexin V-FITC flow cytometry.Delta opioid receptor(DOR)expression in total protein and membrane protein were analyzed by western blotting(WB).Immunofluorescence(IF)staining and WB assessed ZO-1 and Claudin-19.For cell-based assays,n indicates the number of biologically independent replicates.Results It was found that 2 Hz EA treatment increased enkephalins(methionine-enkephalin and leucine-enkephalin)levels(P<0.01),restoring the increased retinal thickness(P<0.05)and mitigating RGCs loss(P<0.05)post-RIR injury.FITC-dextran leakage in the outer retina was ameliorated by 2 Hz EA(P<0.05),reversibly countered by Naltrindole(P<0.05),a DOR antagonist.Treatment with 30µM enkephalins enhanced ARPE-19 cell viability(P<0.001,P<0.0001)and inhibited apoptosis(P<0.0001).Enkephalins elevated DOR levels in total protein(P<0.05)and membrane protein fractions(P<0.001,P<0.0001),as well as elevated ZO-1(P<0.001,P<0.01)and Claudin-19(P<0.0001,P<0.001)levels following OGD/R,counteracted by Naltrindole.Conclusion It was found that 2 Hz EA inhibits the breakdown of OBRB via enkephalins activate DOR in RIR injury.
