Oral squamous cell carcinoma(OSCC)has a high incidence of metastasis.Tumour immunotherapy targeting PD-L1 or PD-1 has been revolutionary;however,only a few patients with OSCC respond to this treatment.Therefore,it is ...Oral squamous cell carcinoma(OSCC)has a high incidence of metastasis.Tumour immunotherapy targeting PD-L1 or PD-1 has been revolutionary;however,only a few patients with OSCC respond to this treatment.Therefore,it is essential to gain insights into the molecular mechanisms underlying the growth and metastasis of OSCC.In this study,we analysed the expression levels of protein kinase D3(PKD3)and PD-L1 and their correlation with the expression of mesenchymal and epithelial markers.We found that the expression of PKD3 and PD-L1 in OSCC cells and tissues was significantly increased,which correlated positively with that of mesenchymal markers but negatively with that of epithelial markers.Silencing PKD3 significantly inhibited the growth,metastasis and invasion of OSCC cells,while its overexpression promoted these processes.Our further analyses revealed that there was positive feedback regulation between PKD3 and PD-L1,which could drive EMT of OSCC cells via the ERK/STAT1/3 pathway,thereby promoting tumour growth and metastasis.Furthermore,silencing PKD3 significantly inhibited the expression of PD-L1,and lymph node metastasis of OSCC was investigated with a mouse footpad xenograft model.Thus,our findings provide a theoretical basis for targeting PKD3 as an alternative method to block EMT for regulating PD-L1 expression and inhibiting OSCC growth and metastasis.展开更多
Lithium metal batteries are among the strong contenders to satisfy the ever-increasing needs of energy storage systems,which however suffer from poor composition of the solid electrolyte interphase(SEI)layer and uncon...Lithium metal batteries are among the strong contenders to satisfy the ever-increasing needs of energy storage systems,which however suffer from poor composition of the solid electrolyte interphase(SEI)layer and uncontrolled Li dendrites formation.In this regard,we report on the design of an ionreleased MgI_(2)-doped polyacrylonitrile(PAN)based nanofiber(MPANF)separator,which can lead to conducive SEI layer and dendrite-free Li anode.The combination of the lithophilic MgI_(2)nanoparticles with polarized PAN matrix comprehensively functions as a high-compatible interpenetrating network to homogenize ionic transportation and confront dendrite growth.The released I ions introduce the highion-conductivity LiI into SEI layer,which could induce the formation of favorable and protective interface layer in the early stage,as embodied in the enrichment of advantageous components such as LiN_(x)O_(y),Li_(2)O,LiF,and Li_(3)N.Profited from the high-affinity MPANF separator,the Li||Li symmetric cell achieves an ultralow voltage hysteresis of 46 mV with an extended lifespan of 580 h.And a prolonged lifetime of 590cycles with an enhanced specific capacity of 140.1 m Ah g^(-1)and the Coulombic efficiency of 96.2%at 1C can be obtained in full cells.This work may offer a facile and high-affinity alternative to traditional polymeric separators for high-performance and dendrite-free Li metal batteries.展开更多
To build the top class of higher education by focusing on the goal of the“Double First-Class”,it needs to analyze the defect and deficiency and identify the demand for the training of the talent under the background...To build the top class of higher education by focusing on the goal of the“Double First-Class”,it needs to analyze the defect and deficiency and identify the demand for the training of the talent under the background of“Double First-Class”.Considering of those issues,it is suggested that building the curriculum system scientifically and rationally in following aspects:deepening the training objectives,professionalizing the structure and contents of the curriculum system,optimizing the content,enhancing the construction of practical education system and internationalizing the curriculum system.Also,with those aspects,a reference is provided for the cultivation of talents with innovative consciousness and ability to solve complex engineering problems under the background of the“Double First-Class”construction.展开更多
Innovative practice courses are the basis for the implementation of innovation credit and play an important role in cultivating college students'innovative ability.Innovative practice courses should be based on gu...Innovative practice courses are the basis for the implementation of innovation credit and play an important role in cultivating college students'innovative ability.Innovative practice courses should be based on guiding innovation.The construction of courses needs to be carried out comprehensively in the aspects of course content,class organization,and course evaluation methods.Based on the construction of innovative practice courses"Mobile Development Technology Practice",the attempt in the construction of innovative practice courses is introduced.There are still some problems in the development of innovative practice courses in the course selection,evaluation,time setting,and the improvement of innovation,which is needed to be resolved in many ways.In response to the problems,some thoughts and suggestions is given in the paper.展开更多
The success or failure of practical teaching in data structures and algorithms coxirse determines the success or failure of the course group.The reform of practical teaching in this course takes the course group as th...The success or failure of practical teaching in data structures and algorithms coxirse determines the success or failure of the course group.The reform of practical teaching in this course takes the course group as the background and aims to meet the needs of students at different levels.It proposes a hierarchical practical teaching mode involving three levels in terms of foundation,design,and synthesis driven by cases throughout the whole course group and a fine process control mechanism based on multi-stage process assessment.展开更多
Locoregional recurrence and distant metastasis of breast cancer still pose a significant risk for patients’survival.To address the clinical challenge,functional absorbable sponges(HA-SH/PP-Dox/Lap/COL I(HCNPs))were c...Locoregional recurrence and distant metastasis of breast cancer still pose a significant risk for patients’survival.To address the clinical challenge,functional absorbable sponges(HA-SH/PP-Dox/Lap/COL I(HCNPs))were constructed by biomimetic extracellular matrix of collagen I/hyaluronic acid complex conjugated with doxorubicin/lapatinib(Dox/Lap)-loaded nanoparticles.The HCNPs sponge exhibited excellent clotting ability and blood absorption rate.Worthily,Dox/Lap-loaded nanoparticles were synchronously endowed with a large number of oligo hyaluronic acid segments after degradation,which thus enhanced the ability of targeting into CD44-overexpressed tumor cells.The implantable HCNPs sponge in resected cavity of postoperative 4T1 models inhibited the spread of scattered tumor cells by absorbing the inevitable bleeding.More importantly,CD44 targeted nanoparticle with suitable Dox/Lap proportion continuously released from sponge to kill tumor cells of surrounding HCNPs and those remaining at surgical margin,thus prevented local recurrence as well as distant metastasis.Therefore,the functional HCNPs sponge might provide a safer and more effective strategy for postoperative treatment of cancer.展开更多
Fluorescent silicon quantum dots(Si QDs)were hydrothermally synthesized from a mixture of 3(2-aminoethylamino)propyl(dimethoxymethylsilane)(AEAPDMMS)and poly(vinylpyrrolidine)(PVP).The resulting Si QDs exhibited good ...Fluorescent silicon quantum dots(Si QDs)were hydrothermally synthesized from a mixture of 3(2-aminoethylamino)propyl(dimethoxymethylsilane)(AEAPDMMS)and poly(vinylpyrrolidine)(PVP).The resulting Si QDs exhibited good water solubility and high stability.Under the optimized conditions,the probe revealed an excellent linear fluorescence quenching effect on Co2+ranging from 1μmol/L to 120μmol/L with a limit of detection of 0.37μmol/L(based on 3 s/k).The quenching mechanism was studied,showing that static quenching(SQE)causes the main effect.Furthermore,the test paper based on Si QDs was prepared,which is cost-effective,high sensitivity,good selectivity,easy to use and show excellent anti-interference capability.This method was applied to analyze the content of Co2+in environmental water samples with satisfying results.展开更多
Self-immolative linkers have been widely used to construct prodrugs to improve their efficacy and safety.In this study,we report the use of phenoxysilyl linker as a self-immolative unit to prepare antibody-drug conjug...Self-immolative linkers have been widely used to construct prodrugs to improve their efficacy and safety.In this study,we report the use of phenoxysilyl linker as a self-immolative unit to prepare antibody-drug conjugates(ADCs).Phenoxysily based ADC Ate-PPS-CA4 was prepared and its release was systematically investigated by mass spectrometry.Biological evaluation showed that Ate-PPS-CA4 displayed the ability to target delivery and self-immolative release the active payload CA4 on PD-L1 positive cells MDA-MB-231.As the same with its payload CA4,it could arrest the cell cycle to the G2/M phase and induced changes in cell morphology at the dose of its IC_(50).The development of this linker with novel drug release mechanisms will expand the methodology to construct ADCs,especially for non-internalizing ADCs by extracellular cleavage.展开更多
目的老年人群中主观认知下降(Subjective Cognitive Decline,SCD)的研究显著增加。本研究采用文献计量学的方法分析近20年老年人SCD研究的热点和趋势,旨在为研究者开展该领域的研究提供参考。方法本研究选择Web of Science核心合集中200...目的老年人群中主观认知下降(Subjective Cognitive Decline,SCD)的研究显著增加。本研究采用文献计量学的方法分析近20年老年人SCD研究的热点和趋势,旨在为研究者开展该领域的研究提供参考。方法本研究选择Web of Science核心合集中2003年至2023年发表的关于老年人SCD的研究,初步检索获得1502篇,最终纳入1436篇。采用CiteSpace软件对国家、机构、作者、期刊、关键词和突现词等进行分析。结果老年人SCD研究整体呈现上升趋势。美国在该研究领域占据主导地位,其次为中国和法国;加州大学系统、法国国家健康与医学研究院及UDICE法国研究型大学联盟是发文量处于前3位的研究机构;Frank Jessen、韩瑛和Kathryn Ellis是发文量处于前3位的研究者;被引频次处于前3位的期刊为Neurology、Alzheimers&Dementia、Journal of Alzheimer’s Disease。关键词聚类分析显示关注热点涉及“抑郁”“功能连接”“认知储备”“认知功能”“身体活动”、“痴呆症预防”“行为障碍”“初级保健”和“早期诊断”等;关键词的突现词包括“身体活动”“临床前阿尔茨海默病”“框架”“未来痴呆症”和“老年抑郁症”。结论老年人SCD的研究逐年增长,成为研究者关注的热点,其研究范围和主题也逐渐扩大,重点关注早期筛查和预防、负性情绪及症状管理,可为后期护理研究者开展相关研究提供借鉴和参考。展开更多
Chimeric antigen receptor T (CAR-T) cell therapy is a novel cellular immunotherapy that is widely used to treat hematological malignancies, including acute leukemia, lymphoma, and multiple myeloma. Despite its remarka...Chimeric antigen receptor T (CAR-T) cell therapy is a novel cellular immunotherapy that is widely used to treat hematological malignancies, including acute leukemia, lymphoma, and multiple myeloma. Despite its remarkable clinical effects, this therapy has side effects that cannot be underestimated. Cytokine release syndrome (CRS) is one of the most clinically important and potentially life-threatening toxicities. This syndrome is a systemic immune storm that involves the mass cytokines releasing by activated immune cells. This phenomenon causes multisystem damages and sometimes even death. In this study, we reported the management of a patient with recurrent and refractory multiple myeloma and three patients with acute lymphocytic leukemia who suffered CRS during CAR-T treatment. The early application of tocilizumab, an anti-IL-6 receptor antibody, according to toxicity grading and clinical manifestation is recommended especially for patients who suffer continuous hyperpyrexia, hypotensive shock, acute respiratory failure, and whose CRS toxicities deteriorated rapidly. Moreover, low doses of dexamethasone (5-10 mg/day) were used for refractory CRS not responding to tocilizumab. The effective management of the toxicities associated with CRS will bring additional survival opportunities and improve the quality of life for patients with cancer.展开更多
In this wo rk,the phase-transitioned BSA(PTB)film using the mild and fast fabrication process adhered to the capillary inner wall uniformly,and the fabricated PTB film-coated capillary column was applied to realize op...In this wo rk,the phase-transitioned BSA(PTB)film using the mild and fast fabrication process adhered to the capillary inner wall uniformly,and the fabricated PTB film-coated capillary column was applied to realize open tubular capillary electrochromatography(OT-CEC)enantioseparation.The enantioseparation ability of PTB film-coated capillary was evaluated with eight pairs of chiral analytes including drugs and neurotransmitters,all achieving good resolution and symmetrical peak shape.For three consecutive runs,the relative standard deviations(RSD)of migration time for intra-day,inter-day,and column-tocolumn repeatability were in the range of 0.3%-3.5%,0.2%-4.9%and 2.1%-7.7%,respectively.Moreover,the PTB film-coated capillary column ran continuously over 300 times with high separation efficiency.Therefore,the coating method based on BSA self-assembly supramolecular film can be extended to the preparation of other proteinaceous capillary columns.展开更多
The residues of organophosphorus pesticide(OPs)on fruits and vegetables pose a threat to human health,so it is very meaningful to explore simple and fast detect methods for OPs residual.In this work,nickel ferrite/nic...The residues of organophosphorus pesticide(OPs)on fruits and vegetables pose a threat to human health,so it is very meaningful to explore simple and fast detect methods for OPs residual.In this work,nickel ferrite/nickel oxide nanoparticles co-loaded three-dimensional reduced graphene oxide(3DRGONiFe2O4/NiO NPs),as a new low cost nanocomposite,was prepared.Based on its high performance mimetic peroxidase activity,a colorimetric method for the detection of OPs has been developed.Dichlorvos was chosen as model compounds to evaluate the detection performance.The detection linear range for dichlorvos is from 50μg/mL to 2.5×10^4μg/mL with a detection limit of 10μg/mL.Furthermore,a test paper can be developed based on the 3 DRGO-NiFe2O4/NiO NPs for visual detection of dichlorvos,and the image information of the paper sensor can be converted into digital signal and quantitative detection by a smartphone.Notably,this method can also be used to detect dichlorvos in real samples,including vegetables and fruits.Thus,the developed naked assay holds great potential in simple,inexpensive and rapid detection of OPs in fruit and vegetable samples.展开更多
Genomic deoxyribonucleic acid(DNA)is selected as the ideal carrier for preserving and transmitting the genetic information over the course of evolution.However,the genomic DNA is constantly exposed to various endogeno...Genomic deoxyribonucleic acid(DNA)is selected as the ideal carrier for preserving and transmitting the genetic information over the course of evolution.However,the genomic DNA is constantly exposed to various endogenous and environmental threats,causing a diversity of damaged bases,lesions,mismatches and base-pair modifications in the genome,eventually leading to genomic instability and cancers.Base excision repair(BER)is the most important repair mechanism,repairing a variety of DNA damages arising from oxidation,alkylation,methylation,deamination,and hydrolysis reactions.DNA glycosylases are responsible for initiating the first step of the BER pathway through cleaving the N-glycosidic bond between the damaged base and the DNA backbone.However,abnormal DNA glycosylases are associated with a variety of diseases such as cancer,cardiovascular disease,neurological disease and inflammation,suggesting the important role of DNA glycosylases in cancer diagnosis and treatment.Therefore,it is highly desirable to monitor the activity of DNA glycosylases,gaining a deep understanding of the restoration process of damaged DNA and clinical diagnosis.Recently,a series of novel DNA glycosylases detection methods with excellent performance have been developed.In this minireview,we summarize the recent advances in DNA glycosylase assays including amplification-free assay and amplification-assisted assay.Firstly,a brief introduction of amplification-free assay for DNA glycosylase is given.Then,amplification-assisted assays for DNA glycosylases are discussed in detail.Ultimately,the conclusion and prospects of the directions of DNA glycosylase assays are provided.展开更多
Phototheranostics is an emerging field in synergistic antitumor therapy in which irradiation and sensitizers are combined to produce reactive oxygen species(ROS),bio-images,and high temperatures.All of these are arriv...Phototheranostics is an emerging field in synergistic antitumor therapy in which irradiation and sensitizers are combined to produce reactive oxygen species(ROS),bio-images,and high temperatures.All of these are arrived from the energy of sensitizers,which located in excited single state(S_(1)).Undeniably,the decentralization of the S_(1)population indirectly decreases the effect of each individual treatment.In this study,a strategy was proposed for enhancing the S_(1)population,and a sensitizer with mitochondrial targeting property,1,4-indolyl iodinated pyrrolo[3,2-b]pyrrole derivative(2I-TPIS),was assembled into adenosine triphosphate(ATP)-responsive nanoparticles(DPA-2I NPs)to achieve dual responses to irradiation and ultrasonication(US)for application to photo-sonodynamic therapy(PSDT).Compared with monotherapies,2I-TPIS generated more ROS in PSDT,inducing mitochondrial autophagy and apoptosis,which in turn triggered immunogenic cell death(ICD).Subsequently,DPA-2I NPs were constructed and self-assembled with the chemotherapeutic agents DPA-Cd and 2I-TPIS to achieve a triple synergistic strategy involving chemotherapy(CT)and PSDT.DPA-2I NPs exhibited absolute sensitization,intra-tumoral overexpression of ATP,and disassembly.Importantly,the biosafety and potent antitumor efficiency of the DPA-2I NP-based“PSDT+CT”therapy were revealed using a 4T1 tumor model.The study results provide insights into the design of sensitizers possessing a sufficient S_(1)population and a highly efficient tumor ablation capacity derived from molecular structural modulation,further enabling triple synergistic antitumor therapies,and expanding the clinical application of sensitizers.展开更多
基金supported by the National Natural Science Foundations of China(grant nos.81802717 and 81372892).
文摘Oral squamous cell carcinoma(OSCC)has a high incidence of metastasis.Tumour immunotherapy targeting PD-L1 or PD-1 has been revolutionary;however,only a few patients with OSCC respond to this treatment.Therefore,it is essential to gain insights into the molecular mechanisms underlying the growth and metastasis of OSCC.In this study,we analysed the expression levels of protein kinase D3(PKD3)and PD-L1 and their correlation with the expression of mesenchymal and epithelial markers.We found that the expression of PKD3 and PD-L1 in OSCC cells and tissues was significantly increased,which correlated positively with that of mesenchymal markers but negatively with that of epithelial markers.Silencing PKD3 significantly inhibited the growth,metastasis and invasion of OSCC cells,while its overexpression promoted these processes.Our further analyses revealed that there was positive feedback regulation between PKD3 and PD-L1,which could drive EMT of OSCC cells via the ERK/STAT1/3 pathway,thereby promoting tumour growth and metastasis.Furthermore,silencing PKD3 significantly inhibited the expression of PD-L1,and lymph node metastasis of OSCC was investigated with a mouse footpad xenograft model.Thus,our findings provide a theoretical basis for targeting PKD3 as an alternative method to block EMT for regulating PD-L1 expression and inhibiting OSCC growth and metastasis.
基金supported by the National Natural Science Foundation of China(22078100,22008073,and 52102098)。
文摘Lithium metal batteries are among the strong contenders to satisfy the ever-increasing needs of energy storage systems,which however suffer from poor composition of the solid electrolyte interphase(SEI)layer and uncontrolled Li dendrites formation.In this regard,we report on the design of an ionreleased MgI_(2)-doped polyacrylonitrile(PAN)based nanofiber(MPANF)separator,which can lead to conducive SEI layer and dendrite-free Li anode.The combination of the lithophilic MgI_(2)nanoparticles with polarized PAN matrix comprehensively functions as a high-compatible interpenetrating network to homogenize ionic transportation and confront dendrite growth.The released I ions introduce the highion-conductivity LiI into SEI layer,which could induce the formation of favorable and protective interface layer in the early stage,as embodied in the enrichment of advantageous components such as LiN_(x)O_(y),Li_(2)O,LiF,and Li_(3)N.Profited from the high-affinity MPANF separator,the Li||Li symmetric cell achieves an ultralow voltage hysteresis of 46 mV with an extended lifespan of 580 h.And a prolonged lifetime of 590cycles with an enhanced specific capacity of 140.1 m Ah g^(-1)and the Coulombic efficiency of 96.2%at 1C can be obtained in full cells.This work may offer a facile and high-affinity alternative to traditional polymeric separators for high-performance and dendrite-free Li metal batteries.
文摘To build the top class of higher education by focusing on the goal of the“Double First-Class”,it needs to analyze the defect and deficiency and identify the demand for the training of the talent under the background of“Double First-Class”.Considering of those issues,it is suggested that building the curriculum system scientifically and rationally in following aspects:deepening the training objectives,professionalizing the structure and contents of the curriculum system,optimizing the content,enhancing the construction of practical education system and internationalizing the curriculum system.Also,with those aspects,a reference is provided for the cultivation of talents with innovative consciousness and ability to solve complex engineering problems under the background of the“Double First-Class”construction.
文摘Innovative practice courses are the basis for the implementation of innovation credit and play an important role in cultivating college students'innovative ability.Innovative practice courses should be based on guiding innovation.The construction of courses needs to be carried out comprehensively in the aspects of course content,class organization,and course evaluation methods.Based on the construction of innovative practice courses"Mobile Development Technology Practice",the attempt in the construction of innovative practice courses is introduced.There are still some problems in the development of innovative practice courses in the course selection,evaluation,time setting,and the improvement of innovation,which is needed to be resolved in many ways.In response to the problems,some thoughts and suggestions is given in the paper.
文摘The success or failure of practical teaching in data structures and algorithms coxirse determines the success or failure of the course group.The reform of practical teaching in this course takes the course group as the background and aims to meet the needs of students at different levels.It proposes a hierarchical practical teaching mode involving three levels in terms of foundation,design,and synthesis driven by cases throughout the whole course group and a fine process control mechanism based on multi-stage process assessment.
基金sponsored by the National Natural Science Foundation of China(Nos.51973136 and 32071352)the Open Project Program of the Third Affiliated Hospital of Xinxiang Medical University(No.KFKTZD202102).
文摘Locoregional recurrence and distant metastasis of breast cancer still pose a significant risk for patients’survival.To address the clinical challenge,functional absorbable sponges(HA-SH/PP-Dox/Lap/COL I(HCNPs))were constructed by biomimetic extracellular matrix of collagen I/hyaluronic acid complex conjugated with doxorubicin/lapatinib(Dox/Lap)-loaded nanoparticles.The HCNPs sponge exhibited excellent clotting ability and blood absorption rate.Worthily,Dox/Lap-loaded nanoparticles were synchronously endowed with a large number of oligo hyaluronic acid segments after degradation,which thus enhanced the ability of targeting into CD44-overexpressed tumor cells.The implantable HCNPs sponge in resected cavity of postoperative 4T1 models inhibited the spread of scattered tumor cells by absorbing the inevitable bleeding.More importantly,CD44 targeted nanoparticle with suitable Dox/Lap proportion continuously released from sponge to kill tumor cells of surrounding HCNPs and those remaining at surgical margin,thus prevented local recurrence as well as distant metastasis.Therefore,the functional HCNPs sponge might provide a safer and more effective strategy for postoperative treatment of cancer.
基金the National Natural Science Foundation of China(Nos.21874060,22074057 and 21775059).
文摘Fluorescent silicon quantum dots(Si QDs)were hydrothermally synthesized from a mixture of 3(2-aminoethylamino)propyl(dimethoxymethylsilane)(AEAPDMMS)and poly(vinylpyrrolidine)(PVP).The resulting Si QDs exhibited good water solubility and high stability.Under the optimized conditions,the probe revealed an excellent linear fluorescence quenching effect on Co2+ranging from 1μmol/L to 120μmol/L with a limit of detection of 0.37μmol/L(based on 3 s/k).The quenching mechanism was studied,showing that static quenching(SQE)causes the main effect.Furthermore,the test paper based on Si QDs was prepared,which is cost-effective,high sensitivity,good selectivity,easy to use and show excellent anti-interference capability.This method was applied to analyze the content of Co2+in environmental water samples with satisfying results.
基金supported by Shanghai Frontiers Science Center for Biomacromolecules and Precision Medicine at Shanghai Tech University。
文摘Self-immolative linkers have been widely used to construct prodrugs to improve their efficacy and safety.In this study,we report the use of phenoxysilyl linker as a self-immolative unit to prepare antibody-drug conjugates(ADCs).Phenoxysily based ADC Ate-PPS-CA4 was prepared and its release was systematically investigated by mass spectrometry.Biological evaluation showed that Ate-PPS-CA4 displayed the ability to target delivery and self-immolative release the active payload CA4 on PD-L1 positive cells MDA-MB-231.As the same with its payload CA4,it could arrest the cell cycle to the G2/M phase and induced changes in cell morphology at the dose of its IC_(50).The development of this linker with novel drug release mechanisms will expand the methodology to construct ADCs,especially for non-internalizing ADCs by extracellular cleavage.
文摘目的老年人群中主观认知下降(Subjective Cognitive Decline,SCD)的研究显著增加。本研究采用文献计量学的方法分析近20年老年人SCD研究的热点和趋势,旨在为研究者开展该领域的研究提供参考。方法本研究选择Web of Science核心合集中2003年至2023年发表的关于老年人SCD的研究,初步检索获得1502篇,最终纳入1436篇。采用CiteSpace软件对国家、机构、作者、期刊、关键词和突现词等进行分析。结果老年人SCD研究整体呈现上升趋势。美国在该研究领域占据主导地位,其次为中国和法国;加州大学系统、法国国家健康与医学研究院及UDICE法国研究型大学联盟是发文量处于前3位的研究机构;Frank Jessen、韩瑛和Kathryn Ellis是发文量处于前3位的研究者;被引频次处于前3位的期刊为Neurology、Alzheimers&Dementia、Journal of Alzheimer’s Disease。关键词聚类分析显示关注热点涉及“抑郁”“功能连接”“认知储备”“认知功能”“身体活动”、“痴呆症预防”“行为障碍”“初级保健”和“早期诊断”等;关键词的突现词包括“身体活动”“临床前阿尔茨海默病”“框架”“未来痴呆症”和“老年抑郁症”。结论老年人SCD的研究逐年增长,成为研究者关注的热点,其研究范围和主题也逐渐扩大,重点关注早期筛查和预防、负性情绪及症状管理,可为后期护理研究者开展相关研究提供借鉴和参考。
文摘Chimeric antigen receptor T (CAR-T) cell therapy is a novel cellular immunotherapy that is widely used to treat hematological malignancies, including acute leukemia, lymphoma, and multiple myeloma. Despite its remarkable clinical effects, this therapy has side effects that cannot be underestimated. Cytokine release syndrome (CRS) is one of the most clinically important and potentially life-threatening toxicities. This syndrome is a systemic immune storm that involves the mass cytokines releasing by activated immune cells. This phenomenon causes multisystem damages and sometimes even death. In this study, we reported the management of a patient with recurrent and refractory multiple myeloma and three patients with acute lymphocytic leukemia who suffered CRS during CAR-T treatment. The early application of tocilizumab, an anti-IL-6 receptor antibody, according to toxicity grading and clinical manifestation is recommended especially for patients who suffer continuous hyperpyrexia, hypotensive shock, acute respiratory failure, and whose CRS toxicities deteriorated rapidly. Moreover, low doses of dexamethasone (5-10 mg/day) were used for refractory CRS not responding to tocilizumab. The effective management of the toxicities associated with CRS will bring additional survival opportunities and improve the quality of life for patients with cancer.
基金the financial support from the National Natural Science Foundation of China(No.21874060)the Special Funding for Open and Shared Large-Scale Instruments and Equipments of Lanzhou University(No.LZU-GXJJ-2019C038)。
文摘In this wo rk,the phase-transitioned BSA(PTB)film using the mild and fast fabrication process adhered to the capillary inner wall uniformly,and the fabricated PTB film-coated capillary column was applied to realize open tubular capillary electrochromatography(OT-CEC)enantioseparation.The enantioseparation ability of PTB film-coated capillary was evaluated with eight pairs of chiral analytes including drugs and neurotransmitters,all achieving good resolution and symmetrical peak shape.For three consecutive runs,the relative standard deviations(RSD)of migration time for intra-day,inter-day,and column-tocolumn repeatability were in the range of 0.3%-3.5%,0.2%-4.9%and 2.1%-7.7%,respectively.Moreover,the PTB film-coated capillary column ran continuously over 300 times with high separation efficiency.Therefore,the coating method based on BSA self-assembly supramolecular film can be extended to the preparation of other proteinaceous capillary columns.
基金financially supported by the National Natural Science Foundation of China (Nos.21874061,21207057,21405159, 21505061)the Fundamental Research Funds for the Central Universities (Nos.lzujbky-2016-43,lzujbky-2018-80)
文摘The residues of organophosphorus pesticide(OPs)on fruits and vegetables pose a threat to human health,so it is very meaningful to explore simple and fast detect methods for OPs residual.In this work,nickel ferrite/nickel oxide nanoparticles co-loaded three-dimensional reduced graphene oxide(3DRGONiFe2O4/NiO NPs),as a new low cost nanocomposite,was prepared.Based on its high performance mimetic peroxidase activity,a colorimetric method for the detection of OPs has been developed.Dichlorvos was chosen as model compounds to evaluate the detection performance.The detection linear range for dichlorvos is from 50μg/mL to 2.5×10^4μg/mL with a detection limit of 10μg/mL.Furthermore,a test paper can be developed based on the 3 DRGO-NiFe2O4/NiO NPs for visual detection of dichlorvos,and the image information of the paper sensor can be converted into digital signal and quantitative detection by a smartphone.Notably,this method can also be used to detect dichlorvos in real samples,including vegetables and fruits.Thus,the developed naked assay holds great potential in simple,inexpensive and rapid detection of OPs in fruit and vegetable samples.
基金the financial support from the National Natural Science Foundation of China(No.21874060)the Fundamental Research Funds for the Central Universities(No.lzujbky-2021-it15)。
文摘Genomic deoxyribonucleic acid(DNA)is selected as the ideal carrier for preserving and transmitting the genetic information over the course of evolution.However,the genomic DNA is constantly exposed to various endogenous and environmental threats,causing a diversity of damaged bases,lesions,mismatches and base-pair modifications in the genome,eventually leading to genomic instability and cancers.Base excision repair(BER)is the most important repair mechanism,repairing a variety of DNA damages arising from oxidation,alkylation,methylation,deamination,and hydrolysis reactions.DNA glycosylases are responsible for initiating the first step of the BER pathway through cleaving the N-glycosidic bond between the damaged base and the DNA backbone.However,abnormal DNA glycosylases are associated with a variety of diseases such as cancer,cardiovascular disease,neurological disease and inflammation,suggesting the important role of DNA glycosylases in cancer diagnosis and treatment.Therefore,it is highly desirable to monitor the activity of DNA glycosylases,gaining a deep understanding of the restoration process of damaged DNA and clinical diagnosis.Recently,a series of novel DNA glycosylases detection methods with excellent performance have been developed.In this minireview,we summarize the recent advances in DNA glycosylase assays including amplification-free assay and amplification-assisted assay.Firstly,a brief introduction of amplification-free assay for DNA glycosylase is given.Then,amplification-assisted assays for DNA glycosylases are discussed in detail.Ultimately,the conclusion and prospects of the directions of DNA glycosylase assays are provided.
基金the financial support from the National Natural Science Foundation of China(Nos.U23A2089,22205159,and 22103055)Natural Science Foundation of Tianjin(No.21JCQNJC01450)Science and Technology Plans of Tianjin(Nos.22ZYJDSS00070 and 21ZYJDJC00050).
文摘Phototheranostics is an emerging field in synergistic antitumor therapy in which irradiation and sensitizers are combined to produce reactive oxygen species(ROS),bio-images,and high temperatures.All of these are arrived from the energy of sensitizers,which located in excited single state(S_(1)).Undeniably,the decentralization of the S_(1)population indirectly decreases the effect of each individual treatment.In this study,a strategy was proposed for enhancing the S_(1)population,and a sensitizer with mitochondrial targeting property,1,4-indolyl iodinated pyrrolo[3,2-b]pyrrole derivative(2I-TPIS),was assembled into adenosine triphosphate(ATP)-responsive nanoparticles(DPA-2I NPs)to achieve dual responses to irradiation and ultrasonication(US)for application to photo-sonodynamic therapy(PSDT).Compared with monotherapies,2I-TPIS generated more ROS in PSDT,inducing mitochondrial autophagy and apoptosis,which in turn triggered immunogenic cell death(ICD).Subsequently,DPA-2I NPs were constructed and self-assembled with the chemotherapeutic agents DPA-Cd and 2I-TPIS to achieve a triple synergistic strategy involving chemotherapy(CT)and PSDT.DPA-2I NPs exhibited absolute sensitization,intra-tumoral overexpression of ATP,and disassembly.Importantly,the biosafety and potent antitumor efficiency of the DPA-2I NP-based“PSDT+CT”therapy were revealed using a 4T1 tumor model.The study results provide insights into the design of sensitizers possessing a sufficient S_(1)population and a highly efficient tumor ablation capacity derived from molecular structural modulation,further enabling triple synergistic antitumor therapies,and expanding the clinical application of sensitizers.