In modern terminology,“organoids”refer to cells that grow in a specific three-dimensional(3D)environment in vitro,sharing similar structures with their source organs or tissues.Observing themorphology or growth char...In modern terminology,“organoids”refer to cells that grow in a specific three-dimensional(3D)environment in vitro,sharing similar structures with their source organs or tissues.Observing themorphology or growth characteristics of organoids through a microscope is a commonly used method of organoid analysis.However,it is difficult,time-consuming,and inaccurate to screen and analyze organoids only manually,a problem which cannot be easily solved with traditional technology.Artificial intelligence(AI)technology has proven to be effective in many biological and medical research fields,especially in the analysis of single-cell or hematoxylin/eosin stained tissue slices.When used to analyze organoids,AI should also provide more efficient,quantitative,accurate,and fast solutions.In this review,we will first briefly outline the application areas of organoids and then discuss the shortcomings of traditional organoid measurement and analysis methods.Secondly,we will summarize the development from machine learning to deep learning and the advantages of the latter,and then describe how to utilize a convolutional neural network to solve the challenges in organoid observation and analysis.Finally,we will discuss the limitations of current AI used in organoid research,as well as opportunities and future research directions.展开更多
Rhenium diselenide(ReSe_(2))has gathered much attention due to its low symmetry of lattice structure,which makes it possess in-plane anisotropic optical,electrical as well as excitonic properties and further enables R...Rhenium diselenide(ReSe_(2))has gathered much attention due to its low symmetry of lattice structure,which makes it possess in-plane anisotropic optical,electrical as well as excitonic properties and further enables ReSe_(2)have an important application in optoelectronic devices.Here,we report the thickness-dependent exciton relaxation dynamics of mechanically exfoliated few-layer ReSe_(2)flakes by using time-resolved pump–probe transient transmission spectroscopies.The results reveal two thickness-dependent relaxation processes of the excitons.The fast one correlates with the exciton formation(i.e.,the conversion of hot carriers to excitons),while the slow one is attributed to the exciton recombination dominated by defect-assisted exciton trapping besides photon emission channel.The decrease of scattering probability caused by defects leads to the increase of fast lifetime with thickness,and the increase of slow lifetime with thickness is related to the trap-mediated exciton depopulation induced by surface defects.Polarization-dependent transient spectroscopy indicates the isotropic exciton dynamics in the two-dimensional(2D)plane.These results are insightful for better understanding of excitonic dynamics of ReSe_(2)materials and its application in future optoelectronic and electronic devices.展开更多
Reactive oxygen species(ROS)have certain effect in cancer treatment,thus many studies have been focused on developing functional systems to generate ROS in tumor.Here,inspired by the multi-enzyme biocatalysis in organ...Reactive oxygen species(ROS)have certain effect in cancer treatment,thus many studies have been focused on developing functional systems to generate ROS in tumor.Here,inspired by the multi-enzyme biocatalysis in organisms,novel ultrasound-triggered temporospatial catalytic cascades systems are presented based on barium titanate(BTO)and platinum(Pt)co-loaded multi-component micropar-ticles(Pt/BTO@MCMPs)to successively achieve oxygen and ROS production for tumor sonodynamic therapy.By using a customized capillary microfluidic device,the Pt/BTO@MCMPs are fabricated with Pt nanoparticles located in their core part and BTO nanocubes located in their peripheral part,alternating with blank porous hydrogel components for increasing interaction areas between the encap-sulated nanomaterials and the ambient substrates.In the microparticles,the Pt can catalyze hydrogen peroxide from the tumor microenvironment to generate O2 and H2O serving as substrates for piezoelectric catalytic reactions,contributing to additional generation of ROS under US activation.Based on the system,it is demon-strated that the Pt/BTO@MCMPs are featured with excellent biocompatibility under normal biological conditions and show desired tumor eradication properties under ultrasound irradiation in mice carrying pancreatic tumors.These results indicate that the proposed ultrasound-triggered temporospatial catalytic cascades systems are promising for clinic anti-tumor applications.展开更多
The respiratory system's complex cellular heterogeneity presents unique challenges to researchers in this field.Although bulk RNA sequencing and single-cell RNA sequencing(scRNA-seq)have provided insights into cel...The respiratory system's complex cellular heterogeneity presents unique challenges to researchers in this field.Although bulk RNA sequencing and single-cell RNA sequencing(scRNA-seq)have provided insights into cell types and heterogeneity in the respiratory system,the relevant specific spatial localization and cellular interactions have not been clearly elucidated.Spatial transcriptomics(ST)has filled this gap and has been widely used in respiratory studies.This review focuses on the latest iterative technology of ST in recent years,summarizing how ST can be applied to the physiological and pathological processes of the respiratory system,with emphasis on the lungs.Finally,the current challenges and potential development directions are proposed,including high-throughput full-length transcriptome,integration of multi-omics,temporal and spatial omics,bioinformatics analysis,etc.These viewpoints are expected to advance the study of systematic mechanisms,including respiratory studies.展开更多
Cell typing is an important step in the single-cell RNA sequencing(scRNA-seq)analysis.Although some cell marker databases and cell typing tools have been proposed,limited roles are in prostate cell typing.Through lite...Cell typing is an important step in the single-cell RNA sequencing(scRNA-seq)analysis.Although some cell marker databases and cell typing tools have been proposed,limited roles are in prostate cell typing.Through literature review,we found prostate cell typing relied much on researchers'knowledge and experience,thus different markers were used to label the same cell type,leading to the divergences between studies,emphasizing the importance of a sound epistemological foundation for prostate cell typing in single-cell data.展开更多
Dear Editor, Nanosized particulate systems combining better cancer diagnosis with therapeutic effect are being designed based on the merging of nanotechnology with cellular and molecular techniques. The surface of the...Dear Editor, Nanosized particulate systems combining better cancer diagnosis with therapeutic effect are being designed based on the merging of nanotechnology with cellular and molecular techniques. The surface of these nanoscale carriers is often functionalized with biological molecules for stabilization and targeted delivery. The combinations of nano-core and associated functional molecules can cross the cell membrane [1], and the surface of nanomaterials (including coating and associated functional molecules) plays a critical role in determining the outcome of their interactions with cells [2, 3]. Studying the potential effects of nanomaterials in biological systems often requires the administration of nanoparticles into a cell culture system or into living organisms in vivo. It should be noted, however, that under such conditions nanopaticles are known to adsorb proteins from the biological system,展开更多
Peroxidase-like catalytic properties of Fe3O4 nanoparficles (NPs) with three different sizes, synthesized by chemical coprecipitation and sol-gel methods, were investigated by UV-vis spectrum analysis. By comparing ...Peroxidase-like catalytic properties of Fe3O4 nanoparficles (NPs) with three different sizes, synthesized by chemical coprecipitation and sol-gel methods, were investigated by UV-vis spectrum analysis. By comparing Fe3O4 NPs with average diameters of 11, 20, and 150 nm, we found that the catalytic activity increases with the reduced nanoparticle size. The electrochemical method to characterize the catalytic activity of Fe3O4 NPs using the response currents of the reaction product and substrate was also developed.展开更多
Cancer immunotherapy is an artificial stimulation of the immune system to recognize cancer cells and activate specific immune cells to target and attack cancer cells.In clinical trials, immunotherapy has recently show...Cancer immunotherapy is an artificial stimulation of the immune system to recognize cancer cells and activate specific immune cells to target and attack cancer cells.In clinical trials, immunotherapy has recently shown impressive results in the treatment of multiple cancers.Thus, cancer immunotherapy has gained a lot of attention for its unique advantages and promising future.With extensive research on cancer immunotherapy, its safety and effectiveness has gradually been revealed.However, it is still a huge challenge to expand and drive this therapy while maintaining low toxicity, high specificity, and long-lasting efficacy.As a unique technology, nanotechnology has been applied in many fields, the advantages of which will promote the development of cancer immunotherapies.Researchers have tried to apply nanomaterials to cancer immunotherapy due to their advantageous properties,such as large specific surface areas, effective drug delivery, and controlled surface chemistry, to improve treatment efficacy.Here,we briefly introduce the current applications of nanomaterials in cancer immunotherapy, including adoptive cell therapy(ACT),therapeutic cancer vaccines, and monoclonal antibodies, and throw light on future directions of nanotechnology-based cancer immunotherapy.展开更多
A rapid and simple preconcentration step applying packed-fiber solid-phase extraction columns has been investigated to vitamin B12. The extraction performance of the new method was investigated preliminarily on vitami...A rapid and simple preconcentration step applying packed-fiber solid-phase extraction columns has been investigated to vitamin B12. The extraction performance of the new method was investigated preliminarily on vitamin functional drink. The analysis used a reversed-phase C18 column, with a photo-diode array detector at 220 nm. The samples were preconcentrated with packed-fiber solid-phase extraction columns. Good linearity was observed in vitamin functional drink. The repeatability of extraction performance, expressed as relative standard deviations, was from 3.5% to 4.3%. The limit of detection (LOD) is 5 ng mL^-1 (S/N = 3). Finally, the method had been applied for the determination of vitamin B12 in vitamin functional drink.展开更多
Magnetic brain stimulation has greatly contributed to the advancement of neuroscience.However,challenges remain in the power of penetration and precision of magnetic stimulation,especially in small animals.Here,a nove...Magnetic brain stimulation has greatly contributed to the advancement of neuroscience.However,challenges remain in the power of penetration and precision of magnetic stimulation,especially in small animals.Here,a novel combined magnetic stimulation system(c-MSS)was established for brain stimulation in mice.The c-MSS uses a mild magnetic pulse sequence and injection of superparamagnetic iron oxide(SPIO)nanodrugs to elevate local cortical susceptibility.After imaging of the SPIO nanoparticles in the left prelimbic(Pr L)cortex in mice,we determined their safety and physical characteristics.Depressive-like behavior was established in mice using a chronic unpredictable mild stress(CUMS)model.SPIO nanodrugs were then delivered precisely to the left Pr L cortex using in situ injection.A 0.1 T magnetic field(adjustable frequency)was used for magnetic stimulation(5 min/session,two sessions daily).Biomarkers representing therapeutic effects were measured before and after c-MSS intervention.Results showed that c-MSS rapidly improved depressive-like symptoms in CUMS mice after stimulation with a 10 Hz field for 5 d,combined with increased brainderived neurotrophic factor(BDNF)and inactivation of hypothalamic-pituitary-adrenal(HPA)axis function,which enhanced neuronal activity due to SPIO nanoparticle-mediated effects.The c-MSS was safe and effective,representing a novel approach in the selective stimulation of arbitrary cortical targets in small animals,playing a bioelectric role in neural circuit regulation,including antidepressant effects in CUMS mice.This expands the potential applications of magnetic stimulation and progresses brain research towards clinical application.展开更多
Owing to its photonic band gap(PBG)and slow light effects,aniline black(AB)-poly(vinylidene fluoride)(PVDF)inverse opal(IO)photonic crystal(PC)was constructed to promote the utility of light and realize photothermal s...Owing to its photonic band gap(PBG)and slow light effects,aniline black(AB)-poly(vinylidene fluoride)(PVDF)inverse opal(IO)photonic crystal(PC)was constructed to promote the utility of light and realize photothermal synergetic catalysis.As a highly efficient reaction platform with the capability of restricting heat,a microreactor was introduced to further amplify the photothermal effects of near infrared(NIR)radiation.The photocatalytic efficiency of ZnO/0.5AB-PVDF IO(Z0.5A)increases 1.63-fold compared to that of pure ZnO film under a full solar spectrum,indicating the effectiveness of synergetic promotion by slow light and photothermal effects.Moreover,a 5.85-fold increase is achieved by combining Z0.5A with a microreactor compared to the film in a beaker.The photon localization effect of PVDF IO was further exemplified by finite-difference time-domain(FDTD)calculations.In conclusion,photonic crystal-microreactor enhanced photothermal catalysis has immense potential for alleviating the deteriorating water environment.展开更多
Nonpolar(1120)plane In_(x)Ga_(1-x)N epilayers comprising the entire In content(x)range were successfully grown on nanoscale Ga N islands by metal-organic chemical vapor deposition.The structural and optical properties...Nonpolar(1120)plane In_(x)Ga_(1-x)N epilayers comprising the entire In content(x)range were successfully grown on nanoscale Ga N islands by metal-organic chemical vapor deposition.The structural and optical properties were studied intensively.It was found that the surface morphology was gradually smoothed when x increased from 0.06 to 0.33,even though the crystalline quality was gradually declined,which was accompanied by the appearance of phase separation in the In_(x)Ga_(1-x)N layer.Photoluminescence wavelengths of 478 and 674 nm for blue and red light were achieved for x varied from 0.06 to 0.33.Furthermore,the corresponding average lifetime(τ_(1/e))of carriers for the nonpolar In Ga N film was decreased from 406 ps to 267 ps,indicating that a high-speed modulation bandwidth can be expected for nonpolar In Ga N-based light-emitting diodes.Moreover,the bowing coefficient(b)of the(1120)plane In Ga N was determined to be 1.91 e V for the bandgap energy as a function of x.展开更多
Functional electrical stimulation is an effective way to rebuild hindlimb motor function after spinal cord injury.However,no site map exists to serve as a reference for implanting stimulator electrodes.In this study,r...Functional electrical stimulation is an effective way to rebuild hindlimb motor function after spinal cord injury.However,no site map exists to serve as a reference for implanting stimulator electrodes.In this study,rat models of thoracic spinal nerve 9 contusion were established by a heavy-impact method and rat models of T6/8/9 spinal cord injury were established by a transection method.Intraspinal microstimulation was performed to record motion types,site coordinates,and threshold currents induced by stimulation.After transection(complete injury),the core region of hip flexion migrated from the T13 to T12 vertebral segment,and the core region of hip extension migrated from the L1 to T13 vertebral segment.Migration was affected by post-transection time,but not transection segment.Moreover,the longer the post-transection time,the longer the distance of migration.This study provides a reference for spinal electrode implantation after spinal cord injury.This study was approved by the Institutional Animal Care and Use Committee of Nantong University,China(approval No.20190225-008)on February 26,2019.展开更多
AIM: To evaluate the efficacy and safety of a hybrid bioartificial liver (HBAL) system in the treatment of acute liver failure. METHODS: Canine models with acute liver failure were introduced with intravenous administ...AIM: To evaluate the efficacy and safety of a hybrid bioartificial liver (HBAL) system in the treatment of acute liver failure. METHODS: Canine models with acute liver failure were introduced with intravenous administration of D-galactosamine. The animals were divided into: the HBAL treatment group (n = 8), in which the canines received a 3-h treatment of HBAL; the bioartificial liver (BAL) treatment group (n = 8), in which the canines received a 3-h treatment of BAL; the non-bioartificial liver (NBAL) treatment group (n = 8), in which the canines received a 3-h treatment of NBAL; the control group (n = 8), in which the canines received no additional treatment. Biochemical parameters and survival time were determined. Levels of xenoantibodies, RNA of porcine endogenous retrovirus (PERV) and reverse transcriptase (RT) activity in the plasma were detected. RESULTS: Biochemical parameters were significantly decreased in all treatment groups. The TBIL level in the HBAL group was lower than that in other groups (2.19 ± 0.55 mmol/L vs 24.2 ± 6.45 mmol/L, 12.47 ± 3.62 mmol/L, 3.77 ± 1.83 mmol/L, P < 0.05). The prothrombin time (PT) in the BAL and HBAL groups was significantly shorter than the NBAL and control groups (18.47 ± 4.41 s, 15.5 ± 1.56 s vs 28.67 ± 5.71 s, 21.71 ± 3.4 s, P < 0.05), and the PT in the HBAL group was shortest of all the groups. The albumin in the BAL and HBAL groups significantly increased and a significantly higher level was observed in the HBAL group compared with the BAL group (27.7 ± 1.7 g/L vs 25.24 ± 1.93 g/L). In the HBAL group, the ammonia levels significantly decreased from 54.37 ± 6.86 to 37.75 ± 6.09 after treatment (P < 0.05); there were significant difference in ammonia levels between other the groups (P < 0.05). The levels of antibodies were similar before and after treatment. The PERV RNA and the RT activity in the canine plasma were all negative. CONCLUSION: The HBAL showed great efficiency and safety in the treatment of acute liver failure.展开更多
A sensitive approach for the qualitative detection of DNA-binding protein on the microarray was developed. DNA complexes in which a partial duplex region is formed from a biotin-primer and a circle single strand DNA ...A sensitive approach for the qualitative detection of DNA-binding protein on the microarray was developed. DNA complexes in which a partial duplex region is formed from a biotin-primer and a circle single strand DNA (ssDNA) were spotted on a microarray. The endonuclease recognition site (ERS) and the DNA-binding sites (DBS) were arranged side by side within the duplex region. The working principle of the detection system is described as follows: when the DNA-binding protein capture the DBS, the endonuclease could not attach to the ERS, and the immobilized primer in the DNA complex could be extended along the circle ssDNA by rolling circle amplification (RCA). When no protein protects the DBS, the ERS could be attacked by the endonuclease and subsequently no rolling circle amplification occurs. Thereby we can detect the sequence specific DNA-binding activity with high-sensitivity due to the signal amplification of RCA.展开更多
AIM: To investigate the influence of chitosan nanofiber scaffold on the production and infectivity of porcine endogenous retrovirus (PERV) expressed by porcine hepatocytes. METHODS: Freshly isolated porcine hepatocyte...AIM: To investigate the influence of chitosan nanofiber scaffold on the production and infectivity of porcine endogenous retrovirus (PERV) expressed by porcine hepatocytes. METHODS: Freshly isolated porcine hepatocytes were cultured with or without chitosan nanofiber scaffold (defined as Nano group and Hep group) for 7 d. The daily collection of culture medium was used to detect reverse transcriptase (RT) activity with RT activity assaykits and PERV RNA by reverse transcription-polymerase chain reaction (PCR) and real time PCR with the PERV specific primers. And Western blotting was performed with the lysates of daily retrieved cells to determine the PERV protein gag p30. Besides, the in-vitro infectivity of the supernatant was tested by incubating the human embryo kidney 293 (HEK293) cells. RESULTS: The similar changing trends between two groups were observed in real time PCR, RT activity assay and Western blotting. Two peaks of PERV expression at 10H and Day 2 were found and followed by a regular decline. No significant difference was found between two groups except the significantly high level of PERV RNA at Day 6 and PERV protein at Day 5 in Nano group than that in Hep group. And in the in-vitro infection experiment, no HEK293 cell was infected by the supernatant. CONCLUSION: Chitosan nanofiber scaffold might prolong the PERV secreting time in pig hepatocytes but would not obviously influence its productive amount and infectivity, so it could be applied in the bioartificial liver without the increased risk of the virus transmission.展开更多
With unique physical properties, chemical properties, and biological effects, magnetic nanomaterials are important functional materials in many fields. In the past decades, iron based magnetic nanomaterials have attra...With unique physical properties, chemical properties, and biological effects, magnetic nanomaterials are important functional materials in many fields. In the past decades, iron based magnetic nanomaterials have attracted much attention in the biomedicine field due to their superior magnetic properties and great potential in biomedical applications. In particular, magnetic iron oxide nanoparticles(MIONPs) have been playing a crucial role in the biomedicine field because of their diagnostic and therapeutic functions. Meanwhile, MIONPs are benign, low toxic, biocompatible, and biodegradable, so they are the only inorganic magnetic nanomaterials approved by the U.S. Food and Drug Administration(FDA) for clinical use at present. In this review, we mainly introduce the progress in the preparation of iron based magnetic nanomaterials for biomedical applications, including pure iron nanoparticles, iron-based alloy nanoparticles, and MIONPs, with a focus on MIONPs. Also, we summarize the preparation methods of MIONPs and point out the importance of their developments.展开更多
In this work,we describe a novel facile method to prepare long one-dimensional hybrid nanofibers by using hydrated bacterial cellulose nanofibers(BCF)as a template.Silver(Ag)nanoparticles with an average diameter of 1...In this work,we describe a novel facile method to prepare long one-dimensional hybrid nanofibers by using hydrated bacterial cellulose nanofibers(BCF)as a template.Silver(Ag)nanoparticles with an average diameter of 1.5 nm were well dispersed on BCF via a simple in situ chemical-reduction between AgNO3and NaBH4at a relatively low temperature.A growth mechanism is proposed that Ag nanoparticles are uniformly anchored onto BCF by coordination with BC-containing hydroxyl groups.The bare BCF and as-prepared Ag/BCF hybrid nanofibers were characterized by several techniques including transmission electron microscopy,X-ray diffraction,thermogravimetric analyses,and ultraviolet-visible(UV-Vis)absorption spectra.The antibacterial properties of Ag/BCF hybrid nanofibers against Escherichia coli(E.coli,Gram-negative)and Staphylococcu saureus(S.saureus,Gram-positive)bacteria were evaluated by using modified Kirby Bauer method and colony forming count method.The results show that Ag nanoparticles are well dispersed on BCF surface via in situ chemical-reduction.The Ag/BCF hybrid nanofiber presents strong antibacterial property and thus offers its candidature for use as functional antimicrobial agents.展开更多
Optical absorption spectra of dielectric shell coated gold nanorods are simulated using the discrete dipole ap- proximation method. The influence of the aspect ratio, shell thickness, dielectric constant of the shell,...Optical absorption spectra of dielectric shell coated gold nanorods are simulated using the discrete dipole ap- proximation method. The influence of the aspect ratio, shell thickness, dielectric constant of the shell, and surrounding medium on the longitudinal resonance mode is investigated. It is found that the coated dielectric shell does not affect the trend in the dependence of resonance position on the aspect ratio, while it broadens the resonant line width and reduces the sensitivity of plasmon resonance in response to changes of the surrounding medium. F^arthermore, the difference of dielectric constants between the shell and surrounding medium plays an important role in determining the resonance position. The screening effect of the dielectric shell tends to be less apparent for a thicker shell thickness.Optical absorption spectra of dielectric shell coated gold nanorods are simulated using the discrete dipole ap- proximation method. The influence of the aspect ratio, shell thickness, dielectric constant of the shell, and surrounding medium on the longitudinal resonance mode is investigated. It is found that the coated dielectric shell does not affect the trend in the dependence of resonance position on the aspect ratio, while it broadens the resonant line width and reduces the sensitivity of plasmon resonance in response to changes of the surrounding medium. F^urthermore, the difference of dielectric constants between the shell and surrounding medium plays an important role in determining the resonance position. The screening effect of the dielectric shell tends to be less apparent for a thicker shell thickness.展开更多
基金the National Key R&D Program of China(No.2017YFA0700500)the National Natural Science Foundation of China(No.62172202)+1 种基金the Experiment Project of ChinaManned Space Program(No.HYZHXM01019)the Fundamental Research Funds for the Central Universities from Southeast University(No.3207032101C3).
文摘In modern terminology,“organoids”refer to cells that grow in a specific three-dimensional(3D)environment in vitro,sharing similar structures with their source organs or tissues.Observing themorphology or growth characteristics of organoids through a microscope is a commonly used method of organoid analysis.However,it is difficult,time-consuming,and inaccurate to screen and analyze organoids only manually,a problem which cannot be easily solved with traditional technology.Artificial intelligence(AI)technology has proven to be effective in many biological and medical research fields,especially in the analysis of single-cell or hematoxylin/eosin stained tissue slices.When used to analyze organoids,AI should also provide more efficient,quantitative,accurate,and fast solutions.In this review,we will first briefly outline the application areas of organoids and then discuss the shortcomings of traditional organoid measurement and analysis methods.Secondly,we will summarize the development from machine learning to deep learning and the advantages of the latter,and then describe how to utilize a convolutional neural network to solve the challenges in organoid observation and analysis.Finally,we will discuss the limitations of current AI used in organoid research,as well as opportunities and future research directions.
基金Project supported by the National Natural Science Foundation of China(Grant Nos.12074202,12174207,and 11974190)the Natural Science Foundation of Tianjin City(Grant Nos.20JCQNJC00020 and 22JCYBJC00390)。
文摘Rhenium diselenide(ReSe_(2))has gathered much attention due to its low symmetry of lattice structure,which makes it possess in-plane anisotropic optical,electrical as well as excitonic properties and further enables ReSe_(2)have an important application in optoelectronic devices.Here,we report the thickness-dependent exciton relaxation dynamics of mechanically exfoliated few-layer ReSe_(2)flakes by using time-resolved pump–probe transient transmission spectroscopies.The results reveal two thickness-dependent relaxation processes of the excitons.The fast one correlates with the exciton formation(i.e.,the conversion of hot carriers to excitons),while the slow one is attributed to the exciton recombination dominated by defect-assisted exciton trapping besides photon emission channel.The decrease of scattering probability caused by defects leads to the increase of fast lifetime with thickness,and the increase of slow lifetime with thickness is related to the trap-mediated exciton depopulation induced by surface defects.Polarization-dependent transient spectroscopy indicates the isotropic exciton dynamics in the two-dimensional(2D)plane.These results are insightful for better understanding of excitonic dynamics of ReSe_(2)materials and its application in future optoelectronic and electronic devices.
基金National Key Research and Development Program of China,Grant/Award Number:2020YFA0908200National Natural Science Foundation of China,Grant/Award Numbers:52073060,81720108022+1 种基金Nanjing Medical Science and Technique Development Foundation,Grant/Award Number:ZKX21019Clinical Trials from Nanjing Drum Tower Hospital,Grant/Award Number:2022-LCYJ-ZD-01。
文摘Reactive oxygen species(ROS)have certain effect in cancer treatment,thus many studies have been focused on developing functional systems to generate ROS in tumor.Here,inspired by the multi-enzyme biocatalysis in organisms,novel ultrasound-triggered temporospatial catalytic cascades systems are presented based on barium titanate(BTO)and platinum(Pt)co-loaded multi-component micropar-ticles(Pt/BTO@MCMPs)to successively achieve oxygen and ROS production for tumor sonodynamic therapy.By using a customized capillary microfluidic device,the Pt/BTO@MCMPs are fabricated with Pt nanoparticles located in their core part and BTO nanocubes located in their peripheral part,alternating with blank porous hydrogel components for increasing interaction areas between the encap-sulated nanomaterials and the ambient substrates.In the microparticles,the Pt can catalyze hydrogen peroxide from the tumor microenvironment to generate O2 and H2O serving as substrates for piezoelectric catalytic reactions,contributing to additional generation of ROS under US activation.Based on the system,it is demon-strated that the Pt/BTO@MCMPs are featured with excellent biocompatibility under normal biological conditions and show desired tumor eradication properties under ultrasound irradiation in mice carrying pancreatic tumors.These results indicate that the proposed ultrasound-triggered temporospatial catalytic cascades systems are promising for clinic anti-tumor applications.
基金supported by the National Natural Science Foundation of China(82271629)the Central Funds Guiding the Local Science and Technology Development of Shenzhen(2021Szvup024)+1 种基金the Jiangsu Provincial Key Research and Development Program(BE2021664)the Postgraduate Research&Practice Innovation Program of Jiangsu Province(KYCX23_0312)。
文摘The respiratory system's complex cellular heterogeneity presents unique challenges to researchers in this field.Although bulk RNA sequencing and single-cell RNA sequencing(scRNA-seq)have provided insights into cell types and heterogeneity in the respiratory system,the relevant specific spatial localization and cellular interactions have not been clearly elucidated.Spatial transcriptomics(ST)has filled this gap and has been widely used in respiratory studies.This review focuses on the latest iterative technology of ST in recent years,summarizing how ST can be applied to the physiological and pathological processes of the respiratory system,with emphasis on the lungs.Finally,the current challenges and potential development directions are proposed,including high-throughput full-length transcriptome,integration of multi-omics,temporal and spatial omics,bioinformatics analysis,etc.These viewpoints are expected to advance the study of systematic mechanisms,including respiratory studies.
基金supported by the National Natural Science Foundation of China,China (No.62101319,82170788)the Medical Discipline Construction Project of the Health System of Pudong New Area (China) (No.PYWgf2021-06).
文摘Cell typing is an important step in the single-cell RNA sequencing(scRNA-seq)analysis.Although some cell marker databases and cell typing tools have been proposed,limited roles are in prostate cell typing.Through literature review,we found prostate cell typing relied much on researchers'knowledge and experience,thus different markers were used to label the same cell type,leading to the divergences between studies,emphasizing the importance of a sound epistemological foundation for prostate cell typing in single-cell data.
文摘Dear Editor, Nanosized particulate systems combining better cancer diagnosis with therapeutic effect are being designed based on the merging of nanotechnology with cellular and molecular techniques. The surface of these nanoscale carriers is often functionalized with biological molecules for stabilization and targeted delivery. The combinations of nano-core and associated functional molecules can cross the cell membrane [1], and the surface of nanomaterials (including coating and associated functional molecules) plays a critical role in determining the outcome of their interactions with cells [2, 3]. Studying the potential effects of nanomaterials in biological systems often requires the administration of nanoparticles into a cell culture system or into living organisms in vivo. It should be noted, however, that under such conditions nanopaticles are known to adsorb proteins from the biological system,
基金This work was supported by the National Natural Science Foundation of China (Nos. 90406023 and 60571031);National Important Science Research Program of China (Nos. 2006CB933206 and 2006CB705606).
文摘Peroxidase-like catalytic properties of Fe3O4 nanoparficles (NPs) with three different sizes, synthesized by chemical coprecipitation and sol-gel methods, were investigated by UV-vis spectrum analysis. By comparing Fe3O4 NPs with average diameters of 11, 20, and 150 nm, we found that the catalytic activity increases with the reduced nanoparticle size. The electrochemical method to characterize the catalytic activity of Fe3O4 NPs using the response currents of the reaction product and substrate was also developed.
基金supported by the State Key Program of National Natural Science Foundation of China (Grant No.51832001)the National Natural Science Foundation of China for Key Project of International Cooperation (Grant No.61420106012)
文摘Cancer immunotherapy is an artificial stimulation of the immune system to recognize cancer cells and activate specific immune cells to target and attack cancer cells.In clinical trials, immunotherapy has recently shown impressive results in the treatment of multiple cancers.Thus, cancer immunotherapy has gained a lot of attention for its unique advantages and promising future.With extensive research on cancer immunotherapy, its safety and effectiveness has gradually been revealed.However, it is still a huge challenge to expand and drive this therapy while maintaining low toxicity, high specificity, and long-lasting efficacy.As a unique technology, nanotechnology has been applied in many fields, the advantages of which will promote the development of cancer immunotherapies.Researchers have tried to apply nanomaterials to cancer immunotherapy due to their advantageous properties,such as large specific surface areas, effective drug delivery, and controlled surface chemistry, to improve treatment efficacy.Here,we briefly introduce the current applications of nanomaterials in cancer immunotherapy, including adoptive cell therapy(ACT),therapeutic cancer vaccines, and monoclonal antibodies, and throw light on future directions of nanotechnology-based cancer immunotherapy.
基金supported by Jiangsu Science and Technology Department(No.BG2007044)Jiangsu Preventive Medicine Foundation(No.Y2006025).
文摘A rapid and simple preconcentration step applying packed-fiber solid-phase extraction columns has been investigated to vitamin B12. The extraction performance of the new method was investigated preliminarily on vitamin functional drink. The analysis used a reversed-phase C18 column, with a photo-diode array detector at 220 nm. The samples were preconcentrated with packed-fiber solid-phase extraction columns. Good linearity was observed in vitamin functional drink. The repeatability of extraction performance, expressed as relative standard deviations, was from 3.5% to 4.3%. The limit of detection (LOD) is 5 ng mL^-1 (S/N = 3). Finally, the method had been applied for the determination of vitamin B12 in vitamin functional drink.
基金This work was supported by grants from National Natural Science Foundation of China(81830040 to Z.J.Z.)National Key Projects for Research and Development Program of China(2016YFC1306700 to Z.J.Z.,2017YFA0104302 to N.G.,and 2017YFA0104301 to J.F.S.)Program of Excellent Talents in Medical Science of Jiangsu Province(JCRCA2016006 to Z.J.Z.)。
文摘Magnetic brain stimulation has greatly contributed to the advancement of neuroscience.However,challenges remain in the power of penetration and precision of magnetic stimulation,especially in small animals.Here,a novel combined magnetic stimulation system(c-MSS)was established for brain stimulation in mice.The c-MSS uses a mild magnetic pulse sequence and injection of superparamagnetic iron oxide(SPIO)nanodrugs to elevate local cortical susceptibility.After imaging of the SPIO nanoparticles in the left prelimbic(Pr L)cortex in mice,we determined their safety and physical characteristics.Depressive-like behavior was established in mice using a chronic unpredictable mild stress(CUMS)model.SPIO nanodrugs were then delivered precisely to the left Pr L cortex using in situ injection.A 0.1 T magnetic field(adjustable frequency)was used for magnetic stimulation(5 min/session,two sessions daily).Biomarkers representing therapeutic effects were measured before and after c-MSS intervention.Results showed that c-MSS rapidly improved depressive-like symptoms in CUMS mice after stimulation with a 10 Hz field for 5 d,combined with increased brainderived neurotrophic factor(BDNF)and inactivation of hypothalamic-pituitary-adrenal(HPA)axis function,which enhanced neuronal activity due to SPIO nanoparticle-mediated effects.The c-MSS was safe and effective,representing a novel approach in the selective stimulation of arbitrary cortical targets in small animals,playing a bioelectric role in neural circuit regulation,including antidepressant effects in CUMS mice.This expands the potential applications of magnetic stimulation and progresses brain research towards clinical application.
文摘Owing to its photonic band gap(PBG)and slow light effects,aniline black(AB)-poly(vinylidene fluoride)(PVDF)inverse opal(IO)photonic crystal(PC)was constructed to promote the utility of light and realize photothermal synergetic catalysis.As a highly efficient reaction platform with the capability of restricting heat,a microreactor was introduced to further amplify the photothermal effects of near infrared(NIR)radiation.The photocatalytic efficiency of ZnO/0.5AB-PVDF IO(Z0.5A)increases 1.63-fold compared to that of pure ZnO film under a full solar spectrum,indicating the effectiveness of synergetic promotion by slow light and photothermal effects.Moreover,a 5.85-fold increase is achieved by combining Z0.5A with a microreactor compared to the film in a beaker.The photon localization effect of PVDF IO was further exemplified by finite-difference time-domain(FDTD)calculations.In conclusion,photonic crystal-microreactor enhanced photothermal catalysis has immense potential for alleviating the deteriorating water environment.
基金supported by the National Natural Science Foundation of China(Grant Nos.62074077,61921005,61974062,and 61904082)the China Postdoctoral Science Foundation(Grant No.2020M671441)+1 种基金the Natural Science Foundation of the Jiangsu Higher Education Institutions of China(Grant Nos.19KJB510006 and 19KJB510039)the Natural Science Foundation of Jiangsu Province(Grant No.BK20190765)。
文摘Nonpolar(1120)plane In_(x)Ga_(1-x)N epilayers comprising the entire In content(x)range were successfully grown on nanoscale Ga N islands by metal-organic chemical vapor deposition.The structural and optical properties were studied intensively.It was found that the surface morphology was gradually smoothed when x increased from 0.06 to 0.33,even though the crystalline quality was gradually declined,which was accompanied by the appearance of phase separation in the In_(x)Ga_(1-x)N layer.Photoluminescence wavelengths of 478 and 674 nm for blue and red light were achieved for x varied from 0.06 to 0.33.Furthermore,the corresponding average lifetime(τ_(1/e))of carriers for the nonpolar In Ga N film was decreased from 406 ps to 267 ps,indicating that a high-speed modulation bandwidth can be expected for nonpolar In Ga N-based light-emitting diodes.Moreover,the bowing coefficient(b)of the(1120)plane In Ga N was determined to be 1.91 e V for the bandgap energy as a function of x.
基金supported by the National Natural Science Foundation of China,No.61534003(to ZGW),81371663(to XYS)Opening Project of State Key Laboratory of Bioelectronics in Southeast University(to XYS)+2 种基金the“226 Engineering”Research Project of Nantong Government(to XYS)“Six Talent Peaks”Project,No.SWYY-116(to XYS)Postgraduate Research&Practice Innovation Program of Jiangsu Province,No.KYCX18_2424(to CLT)。
文摘Functional electrical stimulation is an effective way to rebuild hindlimb motor function after spinal cord injury.However,no site map exists to serve as a reference for implanting stimulator electrodes.In this study,rat models of thoracic spinal nerve 9 contusion were established by a heavy-impact method and rat models of T6/8/9 spinal cord injury were established by a transection method.Intraspinal microstimulation was performed to record motion types,site coordinates,and threshold currents induced by stimulation.After transection(complete injury),the core region of hip flexion migrated from the T13 to T12 vertebral segment,and the core region of hip extension migrated from the L1 to T13 vertebral segment.Migration was affected by post-transection time,but not transection segment.Moreover,the longer the post-transection time,the longer the distance of migration.This study provides a reference for spinal electrode implantation after spinal cord injury.This study was approved by the Institutional Animal Care and Use Committee of Nantong University,China(approval No.20190225-008)on February 26,2019.
基金Supported by A grant from the National Natural Science Foundation of China, No. 30772129
文摘AIM: To evaluate the efficacy and safety of a hybrid bioartificial liver (HBAL) system in the treatment of acute liver failure. METHODS: Canine models with acute liver failure were introduced with intravenous administration of D-galactosamine. The animals were divided into: the HBAL treatment group (n = 8), in which the canines received a 3-h treatment of HBAL; the bioartificial liver (BAL) treatment group (n = 8), in which the canines received a 3-h treatment of BAL; the non-bioartificial liver (NBAL) treatment group (n = 8), in which the canines received a 3-h treatment of NBAL; the control group (n = 8), in which the canines received no additional treatment. Biochemical parameters and survival time were determined. Levels of xenoantibodies, RNA of porcine endogenous retrovirus (PERV) and reverse transcriptase (RT) activity in the plasma were detected. RESULTS: Biochemical parameters were significantly decreased in all treatment groups. The TBIL level in the HBAL group was lower than that in other groups (2.19 ± 0.55 mmol/L vs 24.2 ± 6.45 mmol/L, 12.47 ± 3.62 mmol/L, 3.77 ± 1.83 mmol/L, P < 0.05). The prothrombin time (PT) in the BAL and HBAL groups was significantly shorter than the NBAL and control groups (18.47 ± 4.41 s, 15.5 ± 1.56 s vs 28.67 ± 5.71 s, 21.71 ± 3.4 s, P < 0.05), and the PT in the HBAL group was shortest of all the groups. The albumin in the BAL and HBAL groups significantly increased and a significantly higher level was observed in the HBAL group compared with the BAL group (27.7 ± 1.7 g/L vs 25.24 ± 1.93 g/L). In the HBAL group, the ammonia levels significantly decreased from 54.37 ± 6.86 to 37.75 ± 6.09 after treatment (P < 0.05); there were significant difference in ammonia levels between other the groups (P < 0.05). The levels of antibodies were similar before and after treatment. The PERV RNA and the RT activity in the canine plasma were all negative. CONCLUSION: The HBAL showed great efficiency and safety in the treatment of acute liver failure.
基金supported by the National Natural Science Foundation of China(Nos.60501010,60701008 and 60771024)
文摘A sensitive approach for the qualitative detection of DNA-binding protein on the microarray was developed. DNA complexes in which a partial duplex region is formed from a biotin-primer and a circle single strand DNA (ssDNA) were spotted on a microarray. The endonuclease recognition site (ERS) and the DNA-binding sites (DBS) were arranged side by side within the duplex region. The working principle of the detection system is described as follows: when the DNA-binding protein capture the DBS, the endonuclease could not attach to the ERS, and the immobilized primer in the DNA complex could be extended along the circle ssDNA by rolling circle amplification (RCA). When no protein protects the DBS, the ERS could be attacked by the endonuclease and subsequently no rolling circle amplification occurs. Thereby we can detect the sequence specific DNA-binding activity with high-sensitivity due to the signal amplification of RCA.
基金Supported by The Natural Science Foundation of Jiangsu Province, No. BK2006008foundation of Medical Center of Jiangsu Province, No.ZX200605
文摘AIM: To investigate the influence of chitosan nanofiber scaffold on the production and infectivity of porcine endogenous retrovirus (PERV) expressed by porcine hepatocytes. METHODS: Freshly isolated porcine hepatocytes were cultured with or without chitosan nanofiber scaffold (defined as Nano group and Hep group) for 7 d. The daily collection of culture medium was used to detect reverse transcriptase (RT) activity with RT activity assaykits and PERV RNA by reverse transcription-polymerase chain reaction (PCR) and real time PCR with the PERV specific primers. And Western blotting was performed with the lysates of daily retrieved cells to determine the PERV protein gag p30. Besides, the in-vitro infectivity of the supernatant was tested by incubating the human embryo kidney 293 (HEK293) cells. RESULTS: The similar changing trends between two groups were observed in real time PCR, RT activity assay and Western blotting. Two peaks of PERV expression at 10H and Day 2 were found and followed by a regular decline. No significant difference was found between two groups except the significantly high level of PERV RNA at Day 6 and PERV protein at Day 5 in Nano group than that in Hep group. And in the in-vitro infection experiment, no HEK293 cell was infected by the supernatant. CONCLUSION: Chitosan nanofiber scaffold might prolong the PERV secreting time in pig hepatocytes but would not obviously influence its productive amount and infectivity, so it could be applied in the bioartificial liver without the increased risk of the virus transmission.
基金Sponsored by the National Natural Science Foundation of China(Grant Nos.51832001 and 31800843)the National Key Research and Development Program of China(Grant No.2017YFA0104301)the Collaborative Innovation Center of Suzhou Nano Science and Technology(Grant No.SX21400213)
文摘With unique physical properties, chemical properties, and biological effects, magnetic nanomaterials are important functional materials in many fields. In the past decades, iron based magnetic nanomaterials have attracted much attention in the biomedicine field due to their superior magnetic properties and great potential in biomedical applications. In particular, magnetic iron oxide nanoparticles(MIONPs) have been playing a crucial role in the biomedicine field because of their diagnostic and therapeutic functions. Meanwhile, MIONPs are benign, low toxic, biocompatible, and biodegradable, so they are the only inorganic magnetic nanomaterials approved by the U.S. Food and Drug Administration(FDA) for clinical use at present. In this review, we mainly introduce the progress in the preparation of iron based magnetic nanomaterials for biomedical applications, including pure iron nanoparticles, iron-based alloy nanoparticles, and MIONPs, with a focus on MIONPs. Also, we summarize the preparation methods of MIONPs and point out the importance of their developments.
基金Supported by the National Natural Science Foundation of China(21206076) the Natural Science Foundation of Jiangsu Province(BK2012401 and BK2011715) National High Technology Research and Development Program of China(2011AA050701)
文摘In this work,we describe a novel facile method to prepare long one-dimensional hybrid nanofibers by using hydrated bacterial cellulose nanofibers(BCF)as a template.Silver(Ag)nanoparticles with an average diameter of 1.5 nm were well dispersed on BCF via a simple in situ chemical-reduction between AgNO3and NaBH4at a relatively low temperature.A growth mechanism is proposed that Ag nanoparticles are uniformly anchored onto BCF by coordination with BC-containing hydroxyl groups.The bare BCF and as-prepared Ag/BCF hybrid nanofibers were characterized by several techniques including transmission electron microscopy,X-ray diffraction,thermogravimetric analyses,and ultraviolet-visible(UV-Vis)absorption spectra.The antibacterial properties of Ag/BCF hybrid nanofibers against Escherichia coli(E.coli,Gram-negative)and Staphylococcu saureus(S.saureus,Gram-positive)bacteria were evaluated by using modified Kirby Bauer method and colony forming count method.The results show that Ag nanoparticles are well dispersed on BCF surface via in situ chemical-reduction.The Ag/BCF hybrid nanofiber presents strong antibacterial property and thus offers its candidature for use as functional antimicrobial agents.
基金Supported by the National Natural Science Foundation of China under Grant No 90406023, and the National Basic Research Programme of China under Grant No 2006CB933206.
文摘Optical absorption spectra of dielectric shell coated gold nanorods are simulated using the discrete dipole ap- proximation method. The influence of the aspect ratio, shell thickness, dielectric constant of the shell, and surrounding medium on the longitudinal resonance mode is investigated. It is found that the coated dielectric shell does not affect the trend in the dependence of resonance position on the aspect ratio, while it broadens the resonant line width and reduces the sensitivity of plasmon resonance in response to changes of the surrounding medium. F^arthermore, the difference of dielectric constants between the shell and surrounding medium plays an important role in determining the resonance position. The screening effect of the dielectric shell tends to be less apparent for a thicker shell thickness.Optical absorption spectra of dielectric shell coated gold nanorods are simulated using the discrete dipole ap- proximation method. The influence of the aspect ratio, shell thickness, dielectric constant of the shell, and surrounding medium on the longitudinal resonance mode is investigated. It is found that the coated dielectric shell does not affect the trend in the dependence of resonance position on the aspect ratio, while it broadens the resonant line width and reduces the sensitivity of plasmon resonance in response to changes of the surrounding medium. F^urthermore, the difference of dielectric constants between the shell and surrounding medium plays an important role in determining the resonance position. The screening effect of the dielectric shell tends to be less apparent for a thicker shell thickness.