The impact of mother-infant microbiota on neurodevelopment is an area of interest,but longitudinal studies are scarce.Using a cohort of 520 families from the Jiangsu birth cohort in China,we reveal that the maternal g...The impact of mother-infant microbiota on neurodevelopment is an area of interest,but longitudinal studies are scarce.Using a cohort of 520 families from the Jiangsu birth cohort in China,we reveal that the maternal gut microbiota during early pregnancy play a substantial role,accounting for 3.34%of the variance in offspring neurodevelopmental scores.This contribution is notably higher than the 1.24%attributed to the infants’own microbiota at 1 year of age,underscoring the significant influence of maternal gut health on early child development.Remarkably,an elevation in maternal Bifidobacterium pseudocatenulatum is linked to decreased cognitive scores,whereas an enrichment of Bifidobacterium longum at 1 year of age is associated with higher cognitive scores.Furthermore,we find that maternal B.pseudocatenulatum is linked to the heterolactic fermentation metabolic pathway,while infant B.longum is associated with the Bifidobacterium shunt pathway.In summary,our analysis implies that maternal and infant gut microbiota play a distinct role in neurodevelopment,suggesting potential strategies for improving neurodevelopmental outcomes during early pregnancy or infant development by targeting gut microbiota composition.展开更多
Background:The life-course management of children with tetralogy of Fallot(TOF)has focused on demonstrating brain structural alterations,developmental trajectories,and cognition-related changes that unfold over time.M...Background:The life-course management of children with tetralogy of Fallot(TOF)has focused on demonstrating brain structural alterations,developmental trajectories,and cognition-related changes that unfold over time.Methods:We introduce an magnetic resonance imaging(MRI)dataset comprising TOF children who underwent brain MRI scanning and cross-sectional neurocognitive follow-up.The dataset includes brain three-dimensional T1-weighted imaging(3D-T1WI),three-dimensional T2-weighted imaging(3D-T2WI),and neurodevelopmental evaluations using the Wechsler Preschool and Primary Scale of Intelligence–Fourth Edition(WPPSI-IV).Results:Thirty-one children with TOF(age range:4–33 months;18 males)were recruited and completed corrective surgery at the Children’s Hospital of Nanjing Medical University,Nanjing,China.Aiming to promote the neurodevelopmental outcomes in children with TOF,we have meticulously curated a comprehensive dataset designed to dissect the complex interplay among risk factors,neuroimaging findings,and adverse neurodevelopmental outcomes.Conclusion:This article aims to introduce our open-source dataset on neurodevelopment in children with TOF,which covers the data types,data acquisition and processing methods,the procedure for accessing the data,and related publications.展开更多
AIM:To investigate the long-term outcomes in acute primary angle closure(APAC)patients treated with lens extraction(LE)surgery and to identify risk factors for glaucomatous optic neuropathy(GON).METHODS:In this longit...AIM:To investigate the long-term outcomes in acute primary angle closure(APAC)patients treated with lens extraction(LE)surgery and to identify risk factors for glaucomatous optic neuropathy(GON).METHODS:In this longitudinal observational study,detailed medical histories of APAC patients and comprehensive ophthalmic examinations at final followup were collected.Logistic regression analysis was performed to identify predictors of blindness.Univariate and multivariate linear regression analyses were conducted to determine risk factors associated with visual outcomes.RESULTS:This study included 39 affected eyes of 31 subjects(26 females)with an average age of 74.1±8.0y.At 6.7±4.2y after APAC attack,2(5.7%)eyes had bestcorrected visual acuity(VA)worse than 3/60.Advanced glaucomatous visual field loss was observed in 15(39.5%)affected eyes and 5(25.0%)fellow eyes.Nine affected eyes(23.7%)had GON,and 11(28.9%)were blind.Six(15.4%)affected eyes and 2(9.1%)fellow eyes had suspicious progression.A significantly higher blindness rate in factory workers compared to office workers.Logistic regression identified that worse VA at attack(OR 10.568,95%CI 1.288-86.695;P=0.028)and worse early postoperative VA(OR 13.214,95%CI 1.157-150.881;P=0.038)were risk factors for blindness.Multivariate regression showed that longer duration of elevated intraocular pressure(P=0.004)and worse early postoperative VA(P=0.009)were associated with worse visual outcomes.CONCLUSION:Despite LE surgery,some APAC patients experience continued visual function deterioration.Lifelong monitoring is necessary.Target pressure and progression rates should be re-evaluated during follow-up.展开更多
Maternal drinking during pregnancy can result in a wide spectrum of cognitive and behavioral abnormalities termed fetal alcohol spectrum disorders (FASD). The heterogeneity observed in FASD-related phenotypes can be a...Maternal drinking during pregnancy can result in a wide spectrum of cognitive and behavioral abnormalities termed fetal alcohol spectrum disorders (FASD). The heterogeneity observed in FASD-related phenotypes can be attributed to a number of environmental and genetic factors;however, ethanol dose and timing of exposure may have significant influences. Here, we report the behavioral effects of acute, binge-like ethanol exposure at three neurodevelopmental times corresponding to the first, second, and third trimester of human development in C57BL/6J mice. Results show that developmental ethanol exposure consistently delays the development of basic motor skill reflexes and coordination as well as impairs spatial learning and memory. Observed changes in activity and anxiety-related behaviors, however, appear to be dependent on timing of alcohol exposure. The variability in behaviors between different treatment models suggests that these may be useful in evaluating the mechanisms disrupted by ethanol at specific neurodevelopmental times. The results provide further evidence that, regardless of developmental stage, the developing brain is acutely sensitive to alcohol exposure.展开更多
Microtubules play a central role in cytoskeletal changes during neuronal development and maintenance.Microtubule dynamics is essential to polarity and shape transitions underlying neural cell division,differentiation,...Microtubules play a central role in cytoskeletal changes during neuronal development and maintenance.Microtubule dynamics is essential to polarity and shape transitions underlying neural cell division,differentiation,motility,and maturation.Kinesin superfamily protein 2A is a member of human kinesin 13 gene family of proteins that depolymerize and destabilize microtubules.In dividing cells,kinesin superfamily protein 2A is involved in mitotic progression,spindle assembly,and chromosome segregation.In postmitotic neurons,it is required for axon/dendrite specification and extension,neuronal migration,connectivity,and survival.Humans with kinesin superfamily protein 2A mutations suffer from a variety of malformations of cortical development,epilepsy,autism spectrum disorder,and neurodegeneration.In this review,we discuss how kinesin superfamily protein 2A regulates neuronal development and function,and how its deregulation causes neurodevelopmental and neurological disorders.展开更多
Ion channels modulate cellular excitability by regulating ionic fluxes across biological membranes.Pathogenic mutations in ion channel genes give rise to epileptic disorders that are among the most frequent neurologic...Ion channels modulate cellular excitability by regulating ionic fluxes across biological membranes.Pathogenic mutations in ion channel genes give rise to epileptic disorders that are among the most frequent neurological diseases affecting millions of individuals worldwide.Epilepsies are trigge red by an imbalance between excitatory and inhibitory conductances.However,pathogenic mutations in the same allele can give rise to loss-of-function and/or gain-of-function va riants,all able to trigger epilepsy.Furthermore,certain alleles are associated with brain malformations even in the absence of a clear electrical phenotype.This body of evidence argues that the underlying epileptogenic mechanisms of ion channels are more diverse than originally thought.Studies focusing on ion channels in prenatal cortical development have shed light on this apparent paradox.The picture that emerges is that ion channels play crucial roles in landmark neurodevelopmental processes,including neuronal migration,neurite outgrowth,and synapse formation.Thus,pathogenic channel mutants can not only cause epileptic disorders by alte ring excitability,but further,by inducing morphological and synaptic abnormalities that are initiated during neocortex formation and may persist into the adult brain.展开更多
The Psychiatric Genomics Consortium(PGC)has recently identified 10 potential functional coding variants for schizophrenia.However,how these coding variants confer schizophrenia risk remains largely unknown.Here,we inv...The Psychiatric Genomics Consortium(PGC)has recently identified 10 potential functional coding variants for schizophrenia.However,how these coding variants confer schizophrenia risk remains largely unknown.Here,we investigate the associations between eight potential functional coding variants identified by PGC and schizophrenia in a large Han Chinese sample(n=4022 cases and 9270 controls).Among the eight tested single nucelotide polymorphisms(SNPs),rs3617(a missense variant,p.K315 Q in the ITIH3 gene)showed genome-wide significant association with schizophrenia in the Han Chinese population(P=8.36×10-16),with the same risk allele as in PGC.Interestingly,rs3617 is located in a genomic region that is highly evolutionarily conserved,and its schizophrenia risk allele(C allele)was associated with lower ITIH3 mRNA and protein expression.Intriguingly,mouse neural stem cells stably overexpressing ITIH3 with different alleles of rs3617 exhibited significant differences in proliferation,migration,and differentiation,suggesting the impact of rs3617 on neurodevelopment.Subsequent transcriptome analysis found that the differentially expressed genes in neural stem cells stably overexpressing different alleles of rs3617 were significantly enriched in schizophrenia-related pathways,including cell adhesion,synapse assembly,MAPK and PI3 K-AKT pathways.Our study provides convergent lines of evidence suggesting that rs3617 in ITIH3 likely affects protein function and neurodevelopment and thereby confers risk of schizophrenia.展开更多
To review the reported neurodevelopmental outcome of congenital diaphragmatic hernia(CDH) survivors, identify important predictors of developmental disabilities, and describe the pathophysiological mechanisms contribu...To review the reported neurodevelopmental outcome of congenital diaphragmatic hernia(CDH) survivors, identify important predictors of developmental disabilities, and describe the pathophysiological mechanisms contributing to adverse outcome. A Medline search was performed for English-language articles cross-referencing CDH with pertinent search terms. Retrospective, prospective, and longitudinal follow-up studies were examined. The reference lists of identified articles were also searched. Neurodevelopmental dysfunction has been recognized as one of most common and potentially most disabling outcome of CDH. Intelligence appears to be in the low normal to mildly delayed range. Neuromotor dysfunction is common during early childhood. Behavioral problems, hearing impairment, and quality of life related issues are frequently encountered in older children and adolescence. Disease severity correlates with the degree of neurological dysfunction. Neurodevelopmental follow-up in CDH children should become standard of care to identify those who would benefit from early intervention services and improve neurological outcomes.展开更多
Women usually suffer from chronic pain due to pregnancy or have an increased level of chronic pain.In view of the definite curative effect of opioids on chronic pain and opioid use disorders,opioids have attracted muc...Women usually suffer from chronic pain due to pregnancy or have an increased level of chronic pain.In view of the definite curative effect of opioids on chronic pain and opioid use disorders,opioids have attracted much attention in the treatment of bone,joint,neuropathic and other chronic pain and opioid use disorders in pregnant women.Considering that the unreasonable use of opioids by pregnant women will lead to risks such as drug accumulation and increased neural sensitivity in the fetus,the correct and reasonable use of opioids is the key to the treatment.In recent years,it has been found that opioids can cross the blood fetal barrier into the fetal circulation,and damage fetal nerve development to varying degrees.However,the studies on the typical diseases such as neonatal neural tube defects and neonatal abstinence syndrome are not comprehensive.Therefore,this article has clarified the unreasonable use of opioids during pregnancy and its effect on fetal nerve development,and put forward relevant measures in order to provide reference for clinicians/pharmacists in obstetrics and gynecology.展开更多
There is increasing evidence for the cytokine hypothesis, which states that exposure to elevated cytokines in utero due to maternal immune activation is a major risk factor for the development of schizophrenia later i...There is increasing evidence for the cytokine hypothesis, which states that exposure to elevated cytokines in utero due to maternal immune activation is a major risk factor for the development of schizophrenia later in life. This is supported by numerous epidemicologic studies that connect multiple infections with schizophrenia emergence. Furthermore, cytokines are critically involved in early neurodevelopment and deviations from the norm can result in abnormal neuroanatomy and brain chemistry. Animal models of schizophrenia also support the critical role of developmental neuroinflammation in predisposing the brain to anatomical and behavioral abnormalities. Although there is strong evidence for the critical role of cytokines, they most likely work with other contributing risk factors such as genetic predisposition. New evidence indicates that cytokine exposure in utero may prime the brain and that a second stressor during adolescence, referred to as a second hit, may activate existing developmental vulnerabilities resulting in the emergence of clinical schizophrenia. Further knowledge of these pathogenic processes and risk factors could be very instrumental in reducing risk and slowing emergence of schizophrenia.展开更多
This review article aims to gather differences and similarities between planet Mars and planet Earth to determine the necessities for the proper growth and development of the neonatal brain. Factors such as Environmen...This review article aims to gather differences and similarities between planet Mars and planet Earth to determine the necessities for the proper growth and development of the neonatal brain. Factors such as Environmental, Nutritional, Social, Stress, and Education are juxtaposed to understand the difference between pediatric neurodevelopment on both planets. The variation between each factor was analyzed to determine how significant the impact is on neurodevelopment for children. The factors to be discussed were generated based on extensive research on what is most important for proper early neurodevelopment. The five factors are the main categories branched out into subcategories to delve into more detail regarding neurodevelopment. Factors may vary based on the location on each planet, but the best average was cultivated to create a fair evaluation of the differences. Although each factor influences a different part of the brain, each factor (Environmental, Nutritional, Social, Stress, and Education) is equally vital for development anatomy and physiology of the brain.展开更多
Background: Pregnant women and newborns are highly susceptible to Covid-19, manifesting as multisystem inflammatory syndrome-New-born (MISC-N) in many babies born to Covid positive mothers. The relationship between Co...Background: Pregnant women and newborns are highly susceptible to Covid-19, manifesting as multisystem inflammatory syndrome-New-born (MISC-N) in many babies born to Covid positive mothers. The relationship between Covid-19 infection during pregnancy and neonatal neurodevelopmental outcome, if any, is unclear necessitating a follow-up study in this aspect. Methods: 16 babies with MIS-N, born to symptomatic Covid antibody positive mothers were enrolled. Demographic profile, treatment details and biochemical parameters were analyzed with neurodevelopmental follow-up. Results: 25% mothers received 2 doses of Covid vaccine;50% had oligohydramnios and 75% received antenatal steroids. 87.5% were preterm of which 62.5% required surfactant with ventilator support and 75% required ionotropic support. Significant association was found between the antibody level and D-dimer levels with the ferritin and LDH levels of the baby (p 0.05);gestational age with LDH and D-dimer levels (p 0.05) and Covid antibody level of the baby vs the duration of ventilator requirement (P-value-0.0009). D-dimer values of babies were positively associated with both maternal antibody and D-dimer levels. Neurodevelopmental follow-up done at 6 months of corrected gestational age showed 37.5% were normal, 37.5% hypertonic and 25% hypotonic. HINE score was below 60 in 62.5%. Development assessment using Bayley-III showed a delay in the motor domain (62.5%), cognitive domain (56.25%) and language domain (62.5%). Conclusion: Neurodevelopmental problems occur in babies born to Covid positive mothers and should be stratified as “high risk”. Anticipatory guidance to prospective mothers for preterm care should be given. Covid antibody titre and D-dimer levels may help to predict the NICU stay, ventilator requirement and the adverse neurodevelopmental outcomes in these babies.展开更多
Tributyltin(TBT),a common organotin environmental pollutant,may pose a threat to human development during critical early-life periods.We aimed to assess the neurodevelopmental intergenerational toxicity of early-life ...Tributyltin(TBT),a common organotin environmental pollutant,may pose a threat to human development during critical early-life periods.We aimed to assess the neurodevelopmental intergenerational toxicity of early-life exposure to TBT and the protective effect of DNA methyl donor folic acid(FA).Specifically,after early-life exposure(1–21 days postfertilization,dpf)to TBT(0,1,10 and 100 ng/L),zebrafish(Danio rerio)were cultured in clean medium until sexual maturity.The exposed females were mated with unexposed males to produce embryos(F1).The F1 generation were cultured(4–120 hours post-fertilization,hpf)with and without 1 mmol/L FA.The neurotoxic effects of early-life TBT exposure for zebrafish and their offspring(F1)were significantly enhanced anxiety and reduced aggression,decreased gene expression of DNA methyltransferase in the brain and increased serotonin levels in the body.Moreover,the intergenerational neurodevelopmental toxicity,as manifested in the F1 generation,was attenuated by FA supplementation.In summary,early-life TBT exposure led to intergenerational neurodevelopmental deficits in zebrafish,and DNA methyl donors had a protective effect on F1 neurodevelopment,which can inform the prevention and treatment of intergenerational neurotoxicity due to organotin pollutants.展开更多
Inconsistent findings have been reported regarding the associations between hypertensive disorders in pregnancy (HDP) and infant neurodevelopment. Leveraging data from the Jiangsu Birth Cohort, in the present study, w...Inconsistent findings have been reported regarding the associations between hypertensive disorders in pregnancy (HDP) and infant neurodevelopment. Leveraging data from the Jiangsu Birth Cohort, in the present study, we re-visited such associations in one-year-old infants from 2 576 singleton pregnancies and 261 twin pregnancies. We first assessed infant neurodevelopment by the Bayley Scales of Infant and Toddler Development Screening Test (the Third Edition), and then estimated its association with maternal HDP using general linear regression models and Poisson regression models. In singleton pregnancies, compared with mothers unexposed to HDP, infants born to mothers with chronic hypertension exhibited a lower score (β, −0.67;95% confidence interval [CI], −1.19-−0.15) and a higher risk of "non-optimal" gross motor development (risk ratio [RR], 2.21;95% CI, 1.02-4.79);in twin pregnancies, infants born to mothers with HDP exhibited lower scores in cognition (β, −0.49;95% CI, −0.96-−0.01), receptive communication (β, −0.55;95% CI, −1.03-−0.06), and gross motor (β, −0.44;95% CI, −0.86-−0.03), and at a higher risk of "non-optimal" gross motor development (RR, 2.12;95% CI, 1.16-3.88). These findings indicate that infants born to mothers with HDP may have inferior neurodevelopment outcomes at the age of one year.展开更多
Objective: To observe the effect of super-early comprehensive rehabilitation intervention on neurodevelopmental prognosis of premature high-risk infants;Methods: Premature high-risk infantsmet the inclusion criteria w...Objective: To observe the effect of super-early comprehensive rehabilitation intervention on neurodevelopmental prognosis of premature high-risk infants;Methods: Premature high-risk infantsmet the inclusion criteria were divided into control group (n=30) and treatment group (n=30) according to parental willingness. The control group was given routine treatment, while the treatment group was treated with comprehensive rehabilitationon the basis of the control group. The course of treatment for both groups was 10 d. The changes of body weight, milk consumption, NBNA score, GMFM score and Gesell score were observed. Results:After treatment, the body weight and milk consumption of the treatment group increased significantly compared with those before treatment (P<0.01), which was significantly better than that of the control group (P<0.01);the NBNA score of the treatment group was higher than that of the control group at 40 weeks of gestational age (P<0.05), and the abnormal rate of NBNA was lower than that of the control group (P<0.01). The GMFM scores of A-energy and B-energy areas and the five dimensions of social adaptation, big exercise, fine exercise, language and personal social interaction in the treatment group increased significantly in 1 month, 2 months and 3 months after birth,which were significantly better than those in the control group (P<0.05 or P<0.01). Conclusion: Super-early comprehensive rehabilitation can improve the physical quality of high-risk infants and promote the development of the nervous system, with remarkable effect.展开更多
Background:Perceptual profiles,or the performance on visual-perceptual tasks that reflect early visual information processing,have been used to suggest condition-specific visuo-perceptual abilities across neurodevelop...Background:Perceptual profiles,or the performance on visual-perceptual tasks that reflect early visual information processing,have been used to suggest condition-specific visuo-perceptual abilities across neurodevelopmental conditions(NDCs).The complexity-specific hypothesis(Bertone et al.,2010)was based on perceptual profiles defined by a selective decrease in sensitivity to more complex,texture-defined information in adults with autism and fragile-x syndrome,suggesting the atypical development of neural networks underlying early perception in NDCs.The aim of this study was to evaluate whether the complexity-specific hypothesis is applicable to children and adolescents with different NDCs by defining and comparing their perceptual profiles.Methods:A single interval,two alternative forced-choice identification paradigm was used to measure the perceptual profiles of 64 participants with a NDC(MIQ=78)and 43 typically developing(TD)participants(MIQ=103),aged 5 to 17 years.Participants with a NDC were diagnosed with either:autism spectrum disorder(ASD,n=32),attention deficit/hyperactivity disorder(ADHD,n=9),or intellectual disability(ID,n=12).Perceptual profiles were defined by measuring participants’sensitivity to static(orientation identification task)and dynamic(direction identification task)gratings(1 cpd)defined by either luminance(simple)or texture(complex)information.The Weschler Abbreviated Scale of Intelligence 2(WASI-2)was used as a measure of cognitive ability.Results:When performance was averaged across NDC and TD participants,no between-group difference in sensitivity was found for any of the conditions assessed.However,when assessed as a function of diagnosis,we found that the ID group was less sensitive to both the luminance(P=0.04)and texture-defined(P=0.01)dynamic information when compared to the TD group.Notably,although the perceptual profile of the ASD group was similar of that of the TD group,a significant positive relationship between mental age and sensitivity to both texture-defined static(r=−0.5)and dynamic(r=−0.4)information was found.Conclusions:The findings demonstrate that different conditions-specific perceptual profiles exist across children and adolescents with different types of NDCs,exemplified by differences found in this study for the ID group.In addition,the positive relationship between perceptual performance and mental age within the ASD group suggests that these perceptual abilities may still be undergoing maturation during the age-range assessed,and provides support for the complexity-specific hypothesis specific to the ASD profile during development.These results exemplify the importance of defining perceptual profiles at different periods of development across NDCs,since the tenets of most perceptually-relevant cognitive theories are based primarily on adult data.展开更多
Polyurethane-fluorinated polysiloxane(PU-^(F)PDMS)with high-strength,high-bonding and low surface en-ergy is synthesized as the matrix,and the PU-^(F)PDMS/MCs/Ag marine anti-fouling coating on the sur-face of imitatio...Polyurethane-fluorinated polysiloxane(PU-^(F)PDMS)with high-strength,high-bonding and low surface en-ergy is synthesized as the matrix,and the PU-^(F)PDMS/MCs/Ag marine anti-fouling coating on the sur-face of imitation crab shells is constructed by assembling butenolide@1,1-stilbene-modified hydrolyzed polyglycidyl methacrylate/graphene oxide microcapsules(Bu@PGMAm/GO MCs)with compact multi-shell structure and Ag nanoparticles(AgNPs)step by step on the PU-^(F)PDMS matrix.The PU-^(F)PDMS/MCs/Ag bionic anti-fouling coatings achieve long-term and stable anti-fouling effect under the combination of robust low-surface-energy PU-^(F)PDMS matrix,steady-state sustained release of butenolide encapsulated by the compact multi-shell,bionic surface formed by the microcapsules and AgNPs,and the release of Ag^(+).The shear strength,tensile strength,and elongation at break of the PU-^(F)PDMS/MCs/Ag are 3.53 MPa,6.7 MPa,and 192.83%,respectively.Its static contact angle and sliding angle are 161.8°and 3.6°,respectively.The antibacterial rate of PU-^(F)PDMS/MCs/Ag against Escherichia coli,Staphylococcus aureus,and Candida albicans can reach 100%.Compared with glass blank,PU,PU-^(F)PDMS,PU-^(F)PDMS/Ag,and PU-^(F)PDMS/MCs,both the adhesion number and coverage percentage of chlorella adhere to PU-^(F)PDMS/MCs/Ag are the minimum values,which are 600 cell mm^(-2) and 1.53%,respectively.After 6 months of marine field test,the primer blank,PU,PU-^(F)PDMS all show different degrees of attachment by shellfish,spirorbis,al-gae and other biofouling,while the PU-^(F)PDMS/MCs/Ag coating is still not covered with biofouling,while the PU-^(F)PDMS/MCs/Ag coatings still exhibit little attachment of marine fouling.The PU-^(F)PDMS/MCs/Ag bionic anti-fouling coatings are expected to be widely used in the fields of anti-fouling,anti-icing,anti-fogging,drag reduction,self-cleaning,and antibacterial.展开更多
Superhydrophobic surface is a promising strategy for antibacterial and corrosion protection.However,the use of harmful fluorine-containing materials,poor mechano-chemical stability,the addition of fungicides and poor ...Superhydrophobic surface is a promising strategy for antibacterial and corrosion protection.However,the use of harmful fluorine-containing materials,poor mechano-chemical stability,the addition of fungicides and poor corrosion resistance often limit its practical application.In this paper,a high-robustness pho-tothermal self-healing superhydrophobic coating is prepared by simply spraying a mixture of hydropho-bically modified epoxy resin and two kinds of modified nanofillers(carbon nanotubes and SiO2)for long-term anticorrosion and antibacterial applications.Multi-scale network and lubrication structures formed by cross-linking of modified carbon nanotubes and repeatable roughness endow coating with high ro-bustness,so that the coating maintains superhydrophobicity even after 100 Taber abrasion cycles,20 m sandpaper abrasion and 100 tape peeling cycles.The synergistic effect of antibacterial adhesion and pho-tothermal bactericidal activity endows coating with excellent antibacterial efficiency,which against Es-cherichia coli(E.coli)and Staphylococcus aureus(S.aureus)separately reaches 99.6% and 99.8%.Moreover,the influence of modified epoxy resin,superhydrophobicity,organic coating and coating thicknesses on the anticorrosion of magnesium(Mg)alloy is systematically studied and analyzed.More importantly,the prepared coating still exhibits excellent self-cleaning,anticorrosion and antibacterial abilities after 20 m abrasion.Furthermore,the coating exhibits excellent adhesion(level 4B),chemical stability,UV radiation resistance,high-low temperature alternation resistance,stable heat production capacity and photother-mal self-healing ability.All these excellent performances can promote its application in a wider range of fields.展开更多
Objective:Triple-negative breast cancer(TNBC)is a highly aggressive subtype that lacks targeted therapies,leading to a poorer prognosis.However,some patients achieve long-term recurrence-free survival(RFS),offering va...Objective:Triple-negative breast cancer(TNBC)is a highly aggressive subtype that lacks targeted therapies,leading to a poorer prognosis.However,some patients achieve long-term recurrence-free survival(RFS),offering valuable insights into tumor biology and potential treatment strategies.Methods:We conducted a comprehensive multi-omics analysis of 132 patients with American Joint Committee on Cancer(AJCC)stage III TNBC,comprising 36 long-term survivors(RFS≥8 years),62 moderate-term survivors(RFS:3-8 years),and 34 short-term survivors(RFS<3 years).Analyses investigated clinicopathological factors,whole-exome sequencing,germline mutations,copy number alterations(CNAs),RNA sequences,and metabolomic profiles.Results:Long-term survivors exhibited fewer metastatic regional lymph nodes,along with tumors showing reduced stromal fibrosis and lower Ki67 index.Molecularly,these tumors exhibited multiple alterations in genes related to homologous recombination repair,with higher frequencies of germline mutations and somatic CNAs.Additionally,tumors from long-term survivors demonstrated significant downregulation of the RTK-RAS signaling pathway.Metabolomic profiling revealed decreased levels of lipids and carbohydrate,particularly those involved in glycerophospholipid,fructose,and mannose metabolism,in long-term survival group.Multivariate Cox analysis identified fibrosis[hazard ratio(HR):12.70,95%confidence interval(95%CI):2.19-73.54,P=0.005]and RAC1copy number loss/deletion(HR:0.22,95%CI:0.06-0.83,P=0.026)as independent predictors of RFS.Higher fructose/mannose metabolism was associated with worse overall survival(HR:1.30,95%CI:1.01-1.68,P=0.045).Our findings emphasize the association between biological determinants and prolonged survival in patients with TNBC.Conclusions:Our study systematically identified the key molecular and metabolic features associated with prolonged survival in AJCC stage III TNBC,suggesting potential therapeutic targets to improve patient outcomes.展开更多
Road traffic flow forecasting provides critical information for the operational management of road mobility challenges, and models are used to generate the forecast. This paper uses a random process to present a novel...Road traffic flow forecasting provides critical information for the operational management of road mobility challenges, and models are used to generate the forecast. This paper uses a random process to present a novel traffic modelling framework for aggregate traffic on urban roads. The main idea is that road traffic flow is random, even for the recurrent flow, such as rush hour traffic, which is predisposed to congestion. Therefore, the structure of the aggregate traffic flow model for urban roads should correlate well with the essential variables of the observed random dynamics of the traffic flow phenomena. The novelty of this paper is the developed framework, based on the Poisson process, the kinematics of urban road traffic flow, and the intermediate modelling approach, which were combined to formulate the model. Empirical data from an urban road in Ghana was used to explore the model’s fidelity. The results show that the distribution from the model correlates well with that of the empirical traffic, providing a strong validation of the new framework and instilling confidence in its potential for significantly improved forecasts and, hence, a more hopeful outlook for real-world traffic management.展开更多
基金supported by grants from the National Key Research and Development Program of China(2022YFA1303900 and 2021YFC2700705)the National Natural Science Foundation of China(82103919).
文摘The impact of mother-infant microbiota on neurodevelopment is an area of interest,but longitudinal studies are scarce.Using a cohort of 520 families from the Jiangsu birth cohort in China,we reveal that the maternal gut microbiota during early pregnancy play a substantial role,accounting for 3.34%of the variance in offspring neurodevelopmental scores.This contribution is notably higher than the 1.24%attributed to the infants’own microbiota at 1 year of age,underscoring the significant influence of maternal gut health on early child development.Remarkably,an elevation in maternal Bifidobacterium pseudocatenulatum is linked to decreased cognitive scores,whereas an enrichment of Bifidobacterium longum at 1 year of age is associated with higher cognitive scores.Furthermore,we find that maternal B.pseudocatenulatum is linked to the heterolactic fermentation metabolic pathway,while infant B.longum is associated with the Bifidobacterium shunt pathway.In summary,our analysis implies that maternal and infant gut microbiota play a distinct role in neurodevelopment,suggesting potential strategies for improving neurodevelopmental outcomes during early pregnancy or infant development by targeting gut microbiota composition.
基金supported by the National Natural Science Foundation of China(82270310)Noncommunicable Chronic Diseases-National Science and Technology Major Project(No.2024ZD0527000 and No.2024ZD0527005)+2 种基金Jiangsu Provincial key research and development program(BE2023662)General project of Nanjing Health Commission(YKK22166).
文摘Background:The life-course management of children with tetralogy of Fallot(TOF)has focused on demonstrating brain structural alterations,developmental trajectories,and cognition-related changes that unfold over time.Methods:We introduce an magnetic resonance imaging(MRI)dataset comprising TOF children who underwent brain MRI scanning and cross-sectional neurocognitive follow-up.The dataset includes brain three-dimensional T1-weighted imaging(3D-T1WI),three-dimensional T2-weighted imaging(3D-T2WI),and neurodevelopmental evaluations using the Wechsler Preschool and Primary Scale of Intelligence–Fourth Edition(WPPSI-IV).Results:Thirty-one children with TOF(age range:4–33 months;18 males)were recruited and completed corrective surgery at the Children’s Hospital of Nanjing Medical University,Nanjing,China.Aiming to promote the neurodevelopmental outcomes in children with TOF,we have meticulously curated a comprehensive dataset designed to dissect the complex interplay among risk factors,neuroimaging findings,and adverse neurodevelopmental outcomes.Conclusion:This article aims to introduce our open-source dataset on neurodevelopment in children with TOF,which covers the data types,data acquisition and processing methods,the procedure for accessing the data,and related publications.
文摘AIM:To investigate the long-term outcomes in acute primary angle closure(APAC)patients treated with lens extraction(LE)surgery and to identify risk factors for glaucomatous optic neuropathy(GON).METHODS:In this longitudinal observational study,detailed medical histories of APAC patients and comprehensive ophthalmic examinations at final followup were collected.Logistic regression analysis was performed to identify predictors of blindness.Univariate and multivariate linear regression analyses were conducted to determine risk factors associated with visual outcomes.RESULTS:This study included 39 affected eyes of 31 subjects(26 females)with an average age of 74.1±8.0y.At 6.7±4.2y after APAC attack,2(5.7%)eyes had bestcorrected visual acuity(VA)worse than 3/60.Advanced glaucomatous visual field loss was observed in 15(39.5%)affected eyes and 5(25.0%)fellow eyes.Nine affected eyes(23.7%)had GON,and 11(28.9%)were blind.Six(15.4%)affected eyes and 2(9.1%)fellow eyes had suspicious progression.A significantly higher blindness rate in factory workers compared to office workers.Logistic regression identified that worse VA at attack(OR 10.568,95%CI 1.288-86.695;P=0.028)and worse early postoperative VA(OR 13.214,95%CI 1.157-150.881;P=0.038)were risk factors for blindness.Multivariate regression showed that longer duration of elevated intraocular pressure(P=0.004)and worse early postoperative VA(P=0.009)were associated with worse visual outcomes.CONCLUSION:Despite LE surgery,some APAC patients experience continued visual function deterioration.Lifelong monitoring is necessary.Target pressure and progression rates should be re-evaluated during follow-up.
文摘Maternal drinking during pregnancy can result in a wide spectrum of cognitive and behavioral abnormalities termed fetal alcohol spectrum disorders (FASD). The heterogeneity observed in FASD-related phenotypes can be attributed to a number of environmental and genetic factors;however, ethanol dose and timing of exposure may have significant influences. Here, we report the behavioral effects of acute, binge-like ethanol exposure at three neurodevelopmental times corresponding to the first, second, and third trimester of human development in C57BL/6J mice. Results show that developmental ethanol exposure consistently delays the development of basic motor skill reflexes and coordination as well as impairs spatial learning and memory. Observed changes in activity and anxiety-related behaviors, however, appear to be dependent on timing of alcohol exposure. The variability in behaviors between different treatment models suggests that these may be useful in evaluating the mechanisms disrupted by ethanol at specific neurodevelopmental times. The results provide further evidence that, regardless of developmental stage, the developing brain is acutely sensitive to alcohol exposure.
基金Fund for Scientific Research(FNRS)PDR T0236.20FNRS-Exellence of Science 30913351FNRS CDR J.0175.23(to FT)。
文摘Microtubules play a central role in cytoskeletal changes during neuronal development and maintenance.Microtubule dynamics is essential to polarity and shape transitions underlying neural cell division,differentiation,motility,and maturation.Kinesin superfamily protein 2A is a member of human kinesin 13 gene family of proteins that depolymerize and destabilize microtubules.In dividing cells,kinesin superfamily protein 2A is involved in mitotic progression,spindle assembly,and chromosome segregation.In postmitotic neurons,it is required for axon/dendrite specification and extension,neuronal migration,connectivity,and survival.Humans with kinesin superfamily protein 2A mutations suffer from a variety of malformations of cortical development,epilepsy,autism spectrum disorder,and neurodegeneration.In this review,we discuss how kinesin superfamily protein 2A regulates neuronal development and function,and how its deregulation causes neurodevelopmental and neurological disorders.
基金NJ Governor’s Council for Medical Research and Treatment of Autism predoctoral fellowship (CAUT23AFP015) to ABNational Science Foundation grant (2030348) to FS。
文摘Ion channels modulate cellular excitability by regulating ionic fluxes across biological membranes.Pathogenic mutations in ion channel genes give rise to epileptic disorders that are among the most frequent neurological diseases affecting millions of individuals worldwide.Epilepsies are trigge red by an imbalance between excitatory and inhibitory conductances.However,pathogenic mutations in the same allele can give rise to loss-of-function and/or gain-of-function va riants,all able to trigger epilepsy.Furthermore,certain alleles are associated with brain malformations even in the absence of a clear electrical phenotype.This body of evidence argues that the underlying epileptogenic mechanisms of ion channels are more diverse than originally thought.Studies focusing on ion channels in prenatal cortical development have shed light on this apparent paradox.The picture that emerges is that ion channels play crucial roles in landmark neurodevelopmental processes,including neuronal migration,neurite outgrowth,and synapse formation.Thus,pathogenic channel mutants can not only cause epileptic disorders by alte ring excitability,but further,by inducing morphological and synaptic abnormalities that are initiated during neocortex formation and may persist into the adult brain.
基金equally supported by the National Natural Science Foundation of China of China(31970561 and 31722029 to X.J.L.)the National Key Research and Development Program of China(Stem Cell and Translational Research)(2016YFA0100900)+1 种基金the Innovative Research Team of Science and Technology department of Yunnan Province(2019HC004)the Key Research Project of Yunnan Province(2017FA008 to X.-J.L.)。
文摘The Psychiatric Genomics Consortium(PGC)has recently identified 10 potential functional coding variants for schizophrenia.However,how these coding variants confer schizophrenia risk remains largely unknown.Here,we investigate the associations between eight potential functional coding variants identified by PGC and schizophrenia in a large Han Chinese sample(n=4022 cases and 9270 controls).Among the eight tested single nucelotide polymorphisms(SNPs),rs3617(a missense variant,p.K315 Q in the ITIH3 gene)showed genome-wide significant association with schizophrenia in the Han Chinese population(P=8.36×10-16),with the same risk allele as in PGC.Interestingly,rs3617 is located in a genomic region that is highly evolutionarily conserved,and its schizophrenia risk allele(C allele)was associated with lower ITIH3 mRNA and protein expression.Intriguingly,mouse neural stem cells stably overexpressing ITIH3 with different alleles of rs3617 exhibited significant differences in proliferation,migration,and differentiation,suggesting the impact of rs3617 on neurodevelopment.Subsequent transcriptome analysis found that the differentially expressed genes in neural stem cells stably overexpressing different alleles of rs3617 were significantly enriched in schizophrenia-related pathways,including cell adhesion,synapse assembly,MAPK and PI3 K-AKT pathways.Our study provides convergent lines of evidence suggesting that rs3617 in ITIH3 likely affects protein function and neurodevelopment and thereby confers risk of schizophrenia.
文摘To review the reported neurodevelopmental outcome of congenital diaphragmatic hernia(CDH) survivors, identify important predictors of developmental disabilities, and describe the pathophysiological mechanisms contributing to adverse outcome. A Medline search was performed for English-language articles cross-referencing CDH with pertinent search terms. Retrospective, prospective, and longitudinal follow-up studies were examined. The reference lists of identified articles were also searched. Neurodevelopmental dysfunction has been recognized as one of most common and potentially most disabling outcome of CDH. Intelligence appears to be in the low normal to mildly delayed range. Neuromotor dysfunction is common during early childhood. Behavioral problems, hearing impairment, and quality of life related issues are frequently encountered in older children and adolescence. Disease severity correlates with the degree of neurological dysfunction. Neurodevelopmental follow-up in CDH children should become standard of care to identify those who would benefit from early intervention services and improve neurological outcomes.
基金Key Research Base of Philosophy and Social Sciences in Shaanxi Province,Shaanxi Health Culture Research Center Projects(Grand JKWH2019-Q19).
文摘Women usually suffer from chronic pain due to pregnancy or have an increased level of chronic pain.In view of the definite curative effect of opioids on chronic pain and opioid use disorders,opioids have attracted much attention in the treatment of bone,joint,neuropathic and other chronic pain and opioid use disorders in pregnant women.Considering that the unreasonable use of opioids by pregnant women will lead to risks such as drug accumulation and increased neural sensitivity in the fetus,the correct and reasonable use of opioids is the key to the treatment.In recent years,it has been found that opioids can cross the blood fetal barrier into the fetal circulation,and damage fetal nerve development to varying degrees.However,the studies on the typical diseases such as neonatal neural tube defects and neonatal abstinence syndrome are not comprehensive.Therefore,this article has clarified the unreasonable use of opioids during pregnancy and its effect on fetal nerve development,and put forward relevant measures in order to provide reference for clinicians/pharmacists in obstetrics and gynecology.
文摘There is increasing evidence for the cytokine hypothesis, which states that exposure to elevated cytokines in utero due to maternal immune activation is a major risk factor for the development of schizophrenia later in life. This is supported by numerous epidemicologic studies that connect multiple infections with schizophrenia emergence. Furthermore, cytokines are critically involved in early neurodevelopment and deviations from the norm can result in abnormal neuroanatomy and brain chemistry. Animal models of schizophrenia also support the critical role of developmental neuroinflammation in predisposing the brain to anatomical and behavioral abnormalities. Although there is strong evidence for the critical role of cytokines, they most likely work with other contributing risk factors such as genetic predisposition. New evidence indicates that cytokine exposure in utero may prime the brain and that a second stressor during adolescence, referred to as a second hit, may activate existing developmental vulnerabilities resulting in the emergence of clinical schizophrenia. Further knowledge of these pathogenic processes and risk factors could be very instrumental in reducing risk and slowing emergence of schizophrenia.
文摘This review article aims to gather differences and similarities between planet Mars and planet Earth to determine the necessities for the proper growth and development of the neonatal brain. Factors such as Environmental, Nutritional, Social, Stress, and Education are juxtaposed to understand the difference between pediatric neurodevelopment on both planets. The variation between each factor was analyzed to determine how significant the impact is on neurodevelopment for children. The factors to be discussed were generated based on extensive research on what is most important for proper early neurodevelopment. The five factors are the main categories branched out into subcategories to delve into more detail regarding neurodevelopment. Factors may vary based on the location on each planet, but the best average was cultivated to create a fair evaluation of the differences. Although each factor influences a different part of the brain, each factor (Environmental, Nutritional, Social, Stress, and Education) is equally vital for development anatomy and physiology of the brain.
文摘Background: Pregnant women and newborns are highly susceptible to Covid-19, manifesting as multisystem inflammatory syndrome-New-born (MISC-N) in many babies born to Covid positive mothers. The relationship between Covid-19 infection during pregnancy and neonatal neurodevelopmental outcome, if any, is unclear necessitating a follow-up study in this aspect. Methods: 16 babies with MIS-N, born to symptomatic Covid antibody positive mothers were enrolled. Demographic profile, treatment details and biochemical parameters were analyzed with neurodevelopmental follow-up. Results: 25% mothers received 2 doses of Covid vaccine;50% had oligohydramnios and 75% received antenatal steroids. 87.5% were preterm of which 62.5% required surfactant with ventilator support and 75% required ionotropic support. Significant association was found between the antibody level and D-dimer levels with the ferritin and LDH levels of the baby (p 0.05);gestational age with LDH and D-dimer levels (p 0.05) and Covid antibody level of the baby vs the duration of ventilator requirement (P-value-0.0009). D-dimer values of babies were positively associated with both maternal antibody and D-dimer levels. Neurodevelopmental follow-up done at 6 months of corrected gestational age showed 37.5% were normal, 37.5% hypertonic and 25% hypotonic. HINE score was below 60 in 62.5%. Development assessment using Bayley-III showed a delay in the motor domain (62.5%), cognitive domain (56.25%) and language domain (62.5%). Conclusion: Neurodevelopmental problems occur in babies born to Covid positive mothers and should be stratified as “high risk”. Anticipatory guidance to prospective mothers for preterm care should be given. Covid antibody titre and D-dimer levels may help to predict the NICU stay, ventilator requirement and the adverse neurodevelopmental outcomes in these babies.
基金supported by the National Natural Science Foundation of China (Nos.32071301,31971234 and 42177411)the Natural Science Foundation of Fujian Province,China (No.2020J01027)。
文摘Tributyltin(TBT),a common organotin environmental pollutant,may pose a threat to human development during critical early-life periods.We aimed to assess the neurodevelopmental intergenerational toxicity of early-life exposure to TBT and the protective effect of DNA methyl donor folic acid(FA).Specifically,after early-life exposure(1–21 days postfertilization,dpf)to TBT(0,1,10 and 100 ng/L),zebrafish(Danio rerio)were cultured in clean medium until sexual maturity.The exposed females were mated with unexposed males to produce embryos(F1).The F1 generation were cultured(4–120 hours post-fertilization,hpf)with and without 1 mmol/L FA.The neurotoxic effects of early-life TBT exposure for zebrafish and their offspring(F1)were significantly enhanced anxiety and reduced aggression,decreased gene expression of DNA methyltransferase in the brain and increased serotonin levels in the body.Moreover,the intergenerational neurodevelopmental toxicity,as manifested in the F1 generation,was attenuated by FA supplementation.In summary,early-life TBT exposure led to intergenerational neurodevelopmental deficits in zebrafish,and DNA methyl donors had a protective effect on F1 neurodevelopment,which can inform the prevention and treatment of intergenerational neurotoxicity due to organotin pollutants.
基金The present study was supported by the National Natural Science Foundation of China(Grant No.82003415)the National Key Research&Development(R&D)Program of China(Grant No.2021YFC2700705).
文摘Inconsistent findings have been reported regarding the associations between hypertensive disorders in pregnancy (HDP) and infant neurodevelopment. Leveraging data from the Jiangsu Birth Cohort, in the present study, we re-visited such associations in one-year-old infants from 2 576 singleton pregnancies and 261 twin pregnancies. We first assessed infant neurodevelopment by the Bayley Scales of Infant and Toddler Development Screening Test (the Third Edition), and then estimated its association with maternal HDP using general linear regression models and Poisson regression models. In singleton pregnancies, compared with mothers unexposed to HDP, infants born to mothers with chronic hypertension exhibited a lower score (β, −0.67;95% confidence interval [CI], −1.19-−0.15) and a higher risk of "non-optimal" gross motor development (risk ratio [RR], 2.21;95% CI, 1.02-4.79);in twin pregnancies, infants born to mothers with HDP exhibited lower scores in cognition (β, −0.49;95% CI, −0.96-−0.01), receptive communication (β, −0.55;95% CI, −1.03-−0.06), and gross motor (β, −0.44;95% CI, −0.86-−0.03), and at a higher risk of "non-optimal" gross motor development (RR, 2.12;95% CI, 1.16-3.88). These findings indicate that infants born to mothers with HDP may have inferior neurodevelopment outcomes at the age of one year.
文摘Objective: To observe the effect of super-early comprehensive rehabilitation intervention on neurodevelopmental prognosis of premature high-risk infants;Methods: Premature high-risk infantsmet the inclusion criteria were divided into control group (n=30) and treatment group (n=30) according to parental willingness. The control group was given routine treatment, while the treatment group was treated with comprehensive rehabilitationon the basis of the control group. The course of treatment for both groups was 10 d. The changes of body weight, milk consumption, NBNA score, GMFM score and Gesell score were observed. Results:After treatment, the body weight and milk consumption of the treatment group increased significantly compared with those before treatment (P<0.01), which was significantly better than that of the control group (P<0.01);the NBNA score of the treatment group was higher than that of the control group at 40 weeks of gestational age (P<0.05), and the abnormal rate of NBNA was lower than that of the control group (P<0.01). The GMFM scores of A-energy and B-energy areas and the five dimensions of social adaptation, big exercise, fine exercise, language and personal social interaction in the treatment group increased significantly in 1 month, 2 months and 3 months after birth,which were significantly better than those in the control group (P<0.05 or P<0.01). Conclusion: Super-early comprehensive rehabilitation can improve the physical quality of high-risk infants and promote the development of the nervous system, with remarkable effect.
文摘Background:Perceptual profiles,or the performance on visual-perceptual tasks that reflect early visual information processing,have been used to suggest condition-specific visuo-perceptual abilities across neurodevelopmental conditions(NDCs).The complexity-specific hypothesis(Bertone et al.,2010)was based on perceptual profiles defined by a selective decrease in sensitivity to more complex,texture-defined information in adults with autism and fragile-x syndrome,suggesting the atypical development of neural networks underlying early perception in NDCs.The aim of this study was to evaluate whether the complexity-specific hypothesis is applicable to children and adolescents with different NDCs by defining and comparing their perceptual profiles.Methods:A single interval,two alternative forced-choice identification paradigm was used to measure the perceptual profiles of 64 participants with a NDC(MIQ=78)and 43 typically developing(TD)participants(MIQ=103),aged 5 to 17 years.Participants with a NDC were diagnosed with either:autism spectrum disorder(ASD,n=32),attention deficit/hyperactivity disorder(ADHD,n=9),or intellectual disability(ID,n=12).Perceptual profiles were defined by measuring participants’sensitivity to static(orientation identification task)and dynamic(direction identification task)gratings(1 cpd)defined by either luminance(simple)or texture(complex)information.The Weschler Abbreviated Scale of Intelligence 2(WASI-2)was used as a measure of cognitive ability.Results:When performance was averaged across NDC and TD participants,no between-group difference in sensitivity was found for any of the conditions assessed.However,when assessed as a function of diagnosis,we found that the ID group was less sensitive to both the luminance(P=0.04)and texture-defined(P=0.01)dynamic information when compared to the TD group.Notably,although the perceptual profile of the ASD group was similar of that of the TD group,a significant positive relationship between mental age and sensitivity to both texture-defined static(r=−0.5)and dynamic(r=−0.4)information was found.Conclusions:The findings demonstrate that different conditions-specific perceptual profiles exist across children and adolescents with different types of NDCs,exemplified by differences found in this study for the ID group.In addition,the positive relationship between perceptual performance and mental age within the ASD group suggests that these perceptual abilities may still be undergoing maturation during the age-range assessed,and provides support for the complexity-specific hypothesis specific to the ASD profile during development.These results exemplify the importance of defining perceptual profiles at different periods of development across NDCs,since the tenets of most perceptually-relevant cognitive theories are based primarily on adult data.
基金supported by the National Natural Science Foundation of China(Nos.52003148 and 52261045)the State Key Laboratory of Marine Resource Utilization in South China Sea,Hainan University(No.MRUKF2021023)+3 种基金the Key Research and Development Project of Shaanxi Province(No.2023-YBGY-475)the Key Scientific Research Project of Education Department of Shaanxi Province(No.22JS003)the Industrialization Project of the State Key Laboratory of Biological Resources and Ecological Environment(Cultivation)of Qinba Region(No.SXC-2310)the key cultivation project funds of Shaanxi University of Technology(No.SLGKYXM2201).
文摘Polyurethane-fluorinated polysiloxane(PU-^(F)PDMS)with high-strength,high-bonding and low surface en-ergy is synthesized as the matrix,and the PU-^(F)PDMS/MCs/Ag marine anti-fouling coating on the sur-face of imitation crab shells is constructed by assembling butenolide@1,1-stilbene-modified hydrolyzed polyglycidyl methacrylate/graphene oxide microcapsules(Bu@PGMAm/GO MCs)with compact multi-shell structure and Ag nanoparticles(AgNPs)step by step on the PU-^(F)PDMS matrix.The PU-^(F)PDMS/MCs/Ag bionic anti-fouling coatings achieve long-term and stable anti-fouling effect under the combination of robust low-surface-energy PU-^(F)PDMS matrix,steady-state sustained release of butenolide encapsulated by the compact multi-shell,bionic surface formed by the microcapsules and AgNPs,and the release of Ag^(+).The shear strength,tensile strength,and elongation at break of the PU-^(F)PDMS/MCs/Ag are 3.53 MPa,6.7 MPa,and 192.83%,respectively.Its static contact angle and sliding angle are 161.8°and 3.6°,respectively.The antibacterial rate of PU-^(F)PDMS/MCs/Ag against Escherichia coli,Staphylococcus aureus,and Candida albicans can reach 100%.Compared with glass blank,PU,PU-^(F)PDMS,PU-^(F)PDMS/Ag,and PU-^(F)PDMS/MCs,both the adhesion number and coverage percentage of chlorella adhere to PU-^(F)PDMS/MCs/Ag are the minimum values,which are 600 cell mm^(-2) and 1.53%,respectively.After 6 months of marine field test,the primer blank,PU,PU-^(F)PDMS all show different degrees of attachment by shellfish,spirorbis,al-gae and other biofouling,while the PU-^(F)PDMS/MCs/Ag coating is still not covered with biofouling,while the PU-^(F)PDMS/MCs/Ag coatings still exhibit little attachment of marine fouling.The PU-^(F)PDMS/MCs/Ag bionic anti-fouling coatings are expected to be widely used in the fields of anti-fouling,anti-icing,anti-fogging,drag reduction,self-cleaning,and antibacterial.
基金the National Natural Science Foundation of China(Nos.U2106226,52105297)the Foundation for Innovative Research Groups of the National Natural Science Foundation of China(No.52021003)the Science and Technology Development Project of Jilin Province(Nos.20210203022SF,20210508029RQ).
文摘Superhydrophobic surface is a promising strategy for antibacterial and corrosion protection.However,the use of harmful fluorine-containing materials,poor mechano-chemical stability,the addition of fungicides and poor corrosion resistance often limit its practical application.In this paper,a high-robustness pho-tothermal self-healing superhydrophobic coating is prepared by simply spraying a mixture of hydropho-bically modified epoxy resin and two kinds of modified nanofillers(carbon nanotubes and SiO2)for long-term anticorrosion and antibacterial applications.Multi-scale network and lubrication structures formed by cross-linking of modified carbon nanotubes and repeatable roughness endow coating with high ro-bustness,so that the coating maintains superhydrophobicity even after 100 Taber abrasion cycles,20 m sandpaper abrasion and 100 tape peeling cycles.The synergistic effect of antibacterial adhesion and pho-tothermal bactericidal activity endows coating with excellent antibacterial efficiency,which against Es-cherichia coli(E.coli)and Staphylococcus aureus(S.aureus)separately reaches 99.6% and 99.8%.Moreover,the influence of modified epoxy resin,superhydrophobicity,organic coating and coating thicknesses on the anticorrosion of magnesium(Mg)alloy is systematically studied and analyzed.More importantly,the prepared coating still exhibits excellent self-cleaning,anticorrosion and antibacterial abilities after 20 m abrasion.Furthermore,the coating exhibits excellent adhesion(level 4B),chemical stability,UV radiation resistance,high-low temperature alternation resistance,stable heat production capacity and photother-mal self-healing ability.All these excellent performances can promote its application in a wider range of fields.
基金supported by grants from the Medical Engineering Jiont Fund of the Fudan University(No.IDH2310117)。
文摘Objective:Triple-negative breast cancer(TNBC)is a highly aggressive subtype that lacks targeted therapies,leading to a poorer prognosis.However,some patients achieve long-term recurrence-free survival(RFS),offering valuable insights into tumor biology and potential treatment strategies.Methods:We conducted a comprehensive multi-omics analysis of 132 patients with American Joint Committee on Cancer(AJCC)stage III TNBC,comprising 36 long-term survivors(RFS≥8 years),62 moderate-term survivors(RFS:3-8 years),and 34 short-term survivors(RFS<3 years).Analyses investigated clinicopathological factors,whole-exome sequencing,germline mutations,copy number alterations(CNAs),RNA sequences,and metabolomic profiles.Results:Long-term survivors exhibited fewer metastatic regional lymph nodes,along with tumors showing reduced stromal fibrosis and lower Ki67 index.Molecularly,these tumors exhibited multiple alterations in genes related to homologous recombination repair,with higher frequencies of germline mutations and somatic CNAs.Additionally,tumors from long-term survivors demonstrated significant downregulation of the RTK-RAS signaling pathway.Metabolomic profiling revealed decreased levels of lipids and carbohydrate,particularly those involved in glycerophospholipid,fructose,and mannose metabolism,in long-term survival group.Multivariate Cox analysis identified fibrosis[hazard ratio(HR):12.70,95%confidence interval(95%CI):2.19-73.54,P=0.005]and RAC1copy number loss/deletion(HR:0.22,95%CI:0.06-0.83,P=0.026)as independent predictors of RFS.Higher fructose/mannose metabolism was associated with worse overall survival(HR:1.30,95%CI:1.01-1.68,P=0.045).Our findings emphasize the association between biological determinants and prolonged survival in patients with TNBC.Conclusions:Our study systematically identified the key molecular and metabolic features associated with prolonged survival in AJCC stage III TNBC,suggesting potential therapeutic targets to improve patient outcomes.
文摘Road traffic flow forecasting provides critical information for the operational management of road mobility challenges, and models are used to generate the forecast. This paper uses a random process to present a novel traffic modelling framework for aggregate traffic on urban roads. The main idea is that road traffic flow is random, even for the recurrent flow, such as rush hour traffic, which is predisposed to congestion. Therefore, the structure of the aggregate traffic flow model for urban roads should correlate well with the essential variables of the observed random dynamics of the traffic flow phenomena. The novelty of this paper is the developed framework, based on the Poisson process, the kinematics of urban road traffic flow, and the intermediate modelling approach, which were combined to formulate the model. Empirical data from an urban road in Ghana was used to explore the model’s fidelity. The results show that the distribution from the model correlates well with that of the empirical traffic, providing a strong validation of the new framework and instilling confidence in its potential for significantly improved forecasts and, hence, a more hopeful outlook for real-world traffic management.
