Background:Myocardial infarction(MI)is associated with higher morbidity and mortality in the world,especially in cold weather.YBX1 is an RNA-binding protein that is required for pathological growth of cardiomyocyte by...Background:Myocardial infarction(MI)is associated with higher morbidity and mortality in the world,especially in cold weather.YBX1 is an RNA-binding protein that is required for pathological growth of cardiomyocyte by regulating cell growth and protein synthesis.But YBX1,as an individual RNA-binding protein,regulates cardiomyocytes through signaling cascades during myocardial infarction remain largely unexplored.Methods:In vivo,the mouse MI model was induced by ligating the left anterior descending coronary artery(LAD),and randomly divided into sham operation group,MI group,MI+YBX1 knockdown/overexpression group and MI+negative control(NC)group.The protective effect of YBX1 was verified by echocardiography and triphenyltetrazolium chloride staining.In vitro,mitochondrial-dependent apoptosis was investigated by using CCK8,TUNEL staining,reactive oxygen species(ROS)staining and JC-1 staining in hypoxic neonatal mouse cardiomyocytes(NMCMs).Results:YBX1 expression of cardiomyocytes was downregulated in a mouse model and a cellular model on the ischemic condition.Compared to mice induced by MI,YBX1 overexpression mediated by adeno-associated virus serotype 9(AAV9)vector reduced the infarcted size and improved cardiac function.Knockdown of endogenous YBX1 by shRNA partially aggravated ischemia-induced cardiac dysfunction.In hypoxic cardiomyocytes,YBX1 overexpression decreased lactic dehydrogenase(LDH)release,increased cell viability,and inhibited apoptosis by affecting the expression of apoptosis related proteins,while knockdown of endogenous YBX1 by siRNA had the opposite effect.Overexpression of YBX1 restored mitochondrial dysfunction in hypoxic NMCMs by increasing mitochondrial membrane potential and ATP content and decreasing ROS.In hypoxic NMCMs,YBX1 overexpression increased the expression of phosphorylated phosphatidylinositol 3 kinase(PI3K)/AKT,and the anti-apoptosis effect of YBX1 was eliminated t by LY294002,PI3K/AKT inhibitor.Conclusion:YBX1 protected the heart from ischemic damage by inhibiting the mitochondrial-dependent apoptosis through PI3K/AKT pathway.It is anticipated that YBX1 may serve as a novel therapeutic target for MI.展开更多
AIM:To explore changes in the optic disc and peripapillary atrophy(PPA)in school-age children with ametropia using color fundus photography combined with artificial intelligence(AI)technology.METHODS:Based on the retr...AIM:To explore changes in the optic disc and peripapillary atrophy(PPA)in school-age children with ametropia using color fundus photography combined with artificial intelligence(AI)technology.METHODS:Based on the retrospective case-controlled study,226 eyes of 113 children aged aged 6–12y were enrolled from October 2021 to May 2022.According to the results of spherical equivalent(SE),the children were divided into four groups:low myopia group(66 eyes),moderate myopia group(60 eyes),high myopia group(50 eyes)and emmetropia control group(50 eyes).All subjects underwent un-aided visual acuity,dilated pupil optometry,best-corrected visual acuity(BCVA),intraocular pressure,ocular axis measurement and color fundus photography.RESULTS:The width of PPA,horizontal diameter ratio of PPA to the optic disc and area ratio of PPA to the optic disc were significantly different among the four groups(P<0.05).The width of the nasal and temporal neuroretinal rim,the roundness of the optic disc,the height of PPA,the vertical diameter ratio of PPA to the optic disc,and the average density of PPA in the high myopia group were significantly different compared with the other three groups(P<0.05).There were strong negative correlations between SE and area ratio of PPA to the optic disc(r=-0.812,P<0.001)and strong positive correlation between axial length(AL)and area ratio of PPA to the optic disc(r=0.736,P<0.001).CONCLUSION:In school-age children with high myopia,the nasal and temporal neuroretinal rims are narrowed and even lost,which have high sensitivity.The area ratio of the PPA to the optic disc could be used as an early predictor of myopia progression,which is of great significance for the development prevention and management of myopia.展开更多
To improve the mechanical properties of Ti6Al4V alloy prepared by selective laser melting(SLM)process,the precision forging was conducted at950°C and different strains and strain rates.The microstructure evolutio...To improve the mechanical properties of Ti6Al4V alloy prepared by selective laser melting(SLM)process,the precision forging was conducted at950°C and different strains and strain rates.The microstructure evolution of as-built samples and forged samples in both horizontal and vertical sections was visualized and analyzed by optical microscope and X-ray diffraction.The microstructure was improved by the precision forging and subsequent water quenching.The porosity in each section was accounted.It can be seen that high strain rate and large deformation result in low porosity,consequently contributing to a better fatigue performance.The micro-hardness was lowered after precision forging and water quenching,while the difference of microhardness between the horizontal and vertical sections became smaller,which illustrated that this process can improve the anisotropy of structural components fabricated by SLM.展开更多
Over the last few decades,ultrafast laser processing has become a widely used tool for manufacturing microstructures and nanostructures.The real-time monitoring of laser material processing provides opportunities to i...Over the last few decades,ultrafast laser processing has become a widely used tool for manufacturing microstructures and nanostructures.The real-time monitoring of laser material processing provides opportunities to inspect processes and provide feedback.To date,in-situ and real-time monitoring of laser material processing has rarely been performed.To this end,we propose dual-path snapshot compressive microscopy(DP-SCM)for high-speed,large field-of-view,and high-resolution imaging for in-situ and real-time ultrafast laser processing.In the evaluation of DP-SCM,the field of view,lateral resolution,and imaging speed were measured to be 2 mm,775 nm,and 500 fps,respectively.In ultrafast laser processing,the laser scanning process is observed using a DP-SCM system when translating the sample stage and scanning the focused femtosecond laser.Finally,we monitored the development of a self-organized nanograting structure to validate the potential of our system for unveiling new material mechanisms.The proposed method serves as an add-up(plug-and-play)module for any imaging setup and has vast potential for opening new avenues for high-throughput imaging in laser material processing.展开更多
The prevalence of artificial lights not only improves the lighting conditions for modern society,but also poses kinds of health threats to human health.Although there are regulations and standards concerning light pol...The prevalence of artificial lights not only improves the lighting conditions for modern society,but also poses kinds of health threats to human health.Although there are regulations and standards concerning light pollution,few of them are based on the potential contribution of improper lighting to diseases.Therefore,a better understanding of the health threats induced by light pollution may promote risk assessment and better regulation of artificial lights,thereby a healthy lighting environment.This review is based on a careful collection of the latest papers from 2018 to 2022 about the health threats of light pollution,both epidemiologically and experimentally.In addition to summing up the novel associations of light pollution with obesity,mental disorders,cancer,etc.,we highlight the toxicological mechanism of light pollution via circadian disruption,since light pollution directly interferes with the natural light-dark cycles,and damages the circadian photoentrainment of organisms.And by reviewing the alternations of clock genes and disturbance of melatonin homeostasis induced by artificial lights,we aim to excavate the profound impacts of light pollution based on accumulating studies,thus providing perspectives for future research and guiding relevant regulations and standards.展开更多
A complete rheo-forming process was carried out to investigate the rheoforging process of C3771 lead brass valve,starting from the semi-solid billet preparation to rheoforging experiments and material performance test...A complete rheo-forming process was carried out to investigate the rheoforging process of C3771 lead brass valve,starting from the semi-solid billet preparation to rheoforging experiments and material performance tests.The near-spherical micro-grains with mean equivalent diameter of 56.3μm,shape factor of 0.78 were obtained when the raw C3771 lead brass were rotary swaged to a radial strain of0.22 and then heated to 895℃for 5 min.The Forge 3 D software was used to analyze the temperature,strain and strain rate distribution of copper valve for obtain the reasonable process parameters during the subsequent rheoforging process.The experiment results showed that near-spherical micro-grains were stretched and refined to about 35.7-43.4μm in different positions due to the dynamic recrystallization during the rheoforging process.The cap thread and nut thread failure torque of the so-produced valve are also discovered to be higher than the traditionally forged copper valve with dendrite micro-grains,with an enhancement of the cap and thread failure torque of 42.2%and 28%,re s pectively.展开更多
Why Was the Cohort Set Up?Autism spectrum disorder(ASD)is a child neurodevelopmental disorder,the onset of which is generally within 3 years of age,and often leads to lifelong impaired social and cognitive functions,w...Why Was the Cohort Set Up?Autism spectrum disorder(ASD)is a child neurodevelopmental disorder,the onset of which is generally within 3 years of age,and often leads to lifelong impaired social and cognitive functions,which impose significant mental pressure and economic burdens on the family and society.展开更多
Chinese,as a logographic language,fundamentally differs from alphabetic languages like English.Previous neuroimaging studies have mainly focused on alphabetic languages,while the exploration of Chinese reading is stil...Chinese,as a logographic language,fundamentally differs from alphabetic languages like English.Previous neuroimaging studies have mainly focused on alphabetic languages,while the exploration of Chinese reading is still an emerging and fast-growing research field.Recently,a growing number of neuroimaging studies have explored the neural circuit of Chinese reading.Here,we summarize previous research on Chinese reading from a connectomic perspective.Converging evidence indicates that the left middle frontal gyrus is a specialized hub region that connects the ventral with dorsal pathways for Chinese reading.Notably,the orthography-to-phonology and orthography-to-semantics mapping,mainly processed in the ventral pathway,are more specific during Chinese reading.Besides,in addition to the left-lateralized language-related regions,reading pathways in the right hemisphere also play an important role in Chinese reading.Throughout,we comprehensively review prior findings and emphasize several challenging issues to be explored in future work.展开更多
Functional hubs with disproportionately extensive connectivities play a crucial role in global information integration in human brain networks.However,most resting-state functional magnetic resonance imaging(R-fMRI)st...Functional hubs with disproportionately extensive connectivities play a crucial role in global information integration in human brain networks.However,most resting-state functional magnetic resonance imaging(R-fMRI)studies have identified functional hubs by examining spontaneous fluctuations of the blood oxygen level-dependent signal within a typical low-frequency band(e.g.,0.01–0.08 Hz or 0.01–0.1 Hz).Little is known about how the spatial distributions of functional hubs depend on frequency bands of interest.Here,we used repeatedly measured R-fMRI data from 53 healthy young adults and a degree centrality analysis to identify voxelwise frequency-resolved functional hubs and further examined their test-retest reliability across two sessions.We showed that a wide-range frequency band(0.01–0.24 Hz)accessible with a typical sampling rate(fsample=0.5 Hz)could be classified into three frequency bands with distinct patterns,namely,low-frequency(LF,0.01–0.06 Hz),middle-frequency(MF,0.06–0.16 Hz),and high-frequency(HF,0.16–0.24 Hz)bands.The functional hubs were mainly located in the medial and lateral frontal and parietal cortices in the LF band,and in the medial prefrontal cortex,superior temporal gyrus,parahippocampal gyrus,amygdala,and several cerebellar regions in the MF and HF bands.These hub regions exhibited fair to good test-retest reliability,regardless of the frequency band.The presence of the three frequency bands was well replicated using an independent R-fMRI dataset from 45 healthy young adults.Our findings demonstrate reliable frequency-resolved functional connectivity hubs in three categories,thus providing insights into the frequency-specific connectome organization in healthy and disordered brains.展开更多
Attention-deficit/hyperactivity disorder(ADHD)has been conceptualized as a brain dysconnectivity disorder.In the past decade,noninvasive diffusion magnetic resonance imaging(dMRI)studies have demonstrated that individ...Attention-deficit/hyperactivity disorder(ADHD)has been conceptualized as a brain dysconnectivity disorder.In the past decade,noninvasive diffusion magnetic resonance imaging(dMRI)studies have demonstrated that individuals with ADHD have alterations in the white matter structural connectome,and that these alterations are associated with core symptoms and cognitive deficits in patients.This review aims to summarize recent dMRI-based structural connectome studies in ADHD from voxel-,tractography-,and network-based perspectives.Voxel-and tractography-based studies have demonstrated disrupted microstructural properties predominantly located in the frontostriatal tracts,the corpus callosum,the corticospinal tracts,and the cingulum bundle in patients with ADHD.Network-based studies have suggested abnormal global and local efficiency as well as nodal properties in the prefrontal and parietal regions in the ADHD structural connectomes.The altered structural connectomes in those with ADHD provide significant signatures for prediction of symptoms and diagnostic classification.These studies suggest that abnormalities in the structural connectome may be one of the neural underpinnings of ADHD psychopathology and show potential for establishing imaging biomarkers in clinical evaluation.However,given that there are inconsistent findings across studies due to sample heterogeneity and analysis method variations,these ADHD-related white matter alterations are still far from informing clinical practice.Future studies with larger and more homogeneous samples are needed to validate the consistency of current results;advanced dMRI techniques can help to generatemuchmore precise estimation of whitematter pathways and assure specific fiber configurations;and finally,dimensional analysis frameworks can deepen our understanding of the neurobiology underlying ADHD.展开更多
基金This project was supported by Science and technology project of Xiamen Medical College(K2023-08)the National Natural Science Foundation of China(No.82170299 to Shan Hongli,No.82003757 to Lyu Lifang).
文摘Background:Myocardial infarction(MI)is associated with higher morbidity and mortality in the world,especially in cold weather.YBX1 is an RNA-binding protein that is required for pathological growth of cardiomyocyte by regulating cell growth and protein synthesis.But YBX1,as an individual RNA-binding protein,regulates cardiomyocytes through signaling cascades during myocardial infarction remain largely unexplored.Methods:In vivo,the mouse MI model was induced by ligating the left anterior descending coronary artery(LAD),and randomly divided into sham operation group,MI group,MI+YBX1 knockdown/overexpression group and MI+negative control(NC)group.The protective effect of YBX1 was verified by echocardiography and triphenyltetrazolium chloride staining.In vitro,mitochondrial-dependent apoptosis was investigated by using CCK8,TUNEL staining,reactive oxygen species(ROS)staining and JC-1 staining in hypoxic neonatal mouse cardiomyocytes(NMCMs).Results:YBX1 expression of cardiomyocytes was downregulated in a mouse model and a cellular model on the ischemic condition.Compared to mice induced by MI,YBX1 overexpression mediated by adeno-associated virus serotype 9(AAV9)vector reduced the infarcted size and improved cardiac function.Knockdown of endogenous YBX1 by shRNA partially aggravated ischemia-induced cardiac dysfunction.In hypoxic cardiomyocytes,YBX1 overexpression decreased lactic dehydrogenase(LDH)release,increased cell viability,and inhibited apoptosis by affecting the expression of apoptosis related proteins,while knockdown of endogenous YBX1 by siRNA had the opposite effect.Overexpression of YBX1 restored mitochondrial dysfunction in hypoxic NMCMs by increasing mitochondrial membrane potential and ATP content and decreasing ROS.In hypoxic NMCMs,YBX1 overexpression increased the expression of phosphorylated phosphatidylinositol 3 kinase(PI3K)/AKT,and the anti-apoptosis effect of YBX1 was eliminated t by LY294002,PI3K/AKT inhibitor.Conclusion:YBX1 protected the heart from ischemic damage by inhibiting the mitochondrial-dependent apoptosis through PI3K/AKT pathway.It is anticipated that YBX1 may serve as a novel therapeutic target for MI.
文摘AIM:To explore changes in the optic disc and peripapillary atrophy(PPA)in school-age children with ametropia using color fundus photography combined with artificial intelligence(AI)technology.METHODS:Based on the retrospective case-controlled study,226 eyes of 113 children aged aged 6–12y were enrolled from October 2021 to May 2022.According to the results of spherical equivalent(SE),the children were divided into four groups:low myopia group(66 eyes),moderate myopia group(60 eyes),high myopia group(50 eyes)and emmetropia control group(50 eyes).All subjects underwent un-aided visual acuity,dilated pupil optometry,best-corrected visual acuity(BCVA),intraocular pressure,ocular axis measurement and color fundus photography.RESULTS:The width of PPA,horizontal diameter ratio of PPA to the optic disc and area ratio of PPA to the optic disc were significantly different among the four groups(P<0.05).The width of the nasal and temporal neuroretinal rim,the roundness of the optic disc,the height of PPA,the vertical diameter ratio of PPA to the optic disc,and the average density of PPA in the high myopia group were significantly different compared with the other three groups(P<0.05).There were strong negative correlations between SE and area ratio of PPA to the optic disc(r=-0.812,P<0.001)and strong positive correlation between axial length(AL)and area ratio of PPA to the optic disc(r=0.736,P<0.001).CONCLUSION:In school-age children with high myopia,the nasal and temporal neuroretinal rims are narrowed and even lost,which have high sensitivity.The area ratio of the PPA to the optic disc could be used as an early predictor of myopia progression,which is of great significance for the development prevention and management of myopia.
基金Project(50975222)supported by the National Natural Science Foundation of ChinaProject(2014ko8-34)supported by the Industrial Research Project of Shaanxi Province,China
文摘To improve the mechanical properties of Ti6Al4V alloy prepared by selective laser melting(SLM)process,the precision forging was conducted at950°C and different strains and strain rates.The microstructure evolution of as-built samples and forged samples in both horizontal and vertical sections was visualized and analyzed by optical microscope and X-ray diffraction.The microstructure was improved by the precision forging and subsequent water quenching.The porosity in each section was accounted.It can be seen that high strain rate and large deformation result in low porosity,consequently contributing to a better fatigue performance.The micro-hardness was lowered after precision forging and water quenching,while the difference of microhardness between the horizontal and vertical sections became smaller,which illustrated that this process can improve the anisotropy of structural components fabricated by SLM.
基金supported by the National Natural Science Foundation of China(62271414)Science Fund for Distinguished Young Scholars of Zhejiang Province(LR23F010001)Research Center for Industries of the Future(RCIF)at Westlake University.and Key Project of the Westlake Institute for Optoelectronics(Grant No.2023GD007).
文摘Over the last few decades,ultrafast laser processing has become a widely used tool for manufacturing microstructures and nanostructures.The real-time monitoring of laser material processing provides opportunities to inspect processes and provide feedback.To date,in-situ and real-time monitoring of laser material processing has rarely been performed.To this end,we propose dual-path snapshot compressive microscopy(DP-SCM)for high-speed,large field-of-view,and high-resolution imaging for in-situ and real-time ultrafast laser processing.In the evaluation of DP-SCM,the field of view,lateral resolution,and imaging speed were measured to be 2 mm,775 nm,and 500 fps,respectively.In ultrafast laser processing,the laser scanning process is observed using a DP-SCM system when translating the sample stage and scanning the focused femtosecond laser.Finally,we monitored the development of a self-organized nanograting structure to validate the potential of our system for unveiling new material mechanisms.The proposed method serves as an add-up(plug-and-play)module for any imaging setup and has vast potential for opening new avenues for high-throughput imaging in laser material processing.
基金supported by the National Natural Science Foundation of China(Nos.21876135,22036001,22076146 and 21876136).
文摘The prevalence of artificial lights not only improves the lighting conditions for modern society,but also poses kinds of health threats to human health.Although there are regulations and standards concerning light pollution,few of them are based on the potential contribution of improper lighting to diseases.Therefore,a better understanding of the health threats induced by light pollution may promote risk assessment and better regulation of artificial lights,thereby a healthy lighting environment.This review is based on a careful collection of the latest papers from 2018 to 2022 about the health threats of light pollution,both epidemiologically and experimentally.In addition to summing up the novel associations of light pollution with obesity,mental disorders,cancer,etc.,we highlight the toxicological mechanism of light pollution via circadian disruption,since light pollution directly interferes with the natural light-dark cycles,and damages the circadian photoentrainment of organisms.And by reviewing the alternations of clock genes and disturbance of melatonin homeostasis induced by artificial lights,we aim to excavate the profound impacts of light pollution based on accumulating studies,thus providing perspectives for future research and guiding relevant regulations and standards.
基金This work was supported financially by the Fundamental Research Funds for Central Universitythe National Natural Science Foundation of China(Nos.51875441 and 51805415)+1 种基金by the Shaanxi province Natural Science Basic Research Program(Nos.2019JQ-598 and 2019JM-125)by State Key Laboratory of Materials Processing and Die&Mould Technology,Huazhong University of Science and Technology.
文摘A complete rheo-forming process was carried out to investigate the rheoforging process of C3771 lead brass valve,starting from the semi-solid billet preparation to rheoforging experiments and material performance tests.The near-spherical micro-grains with mean equivalent diameter of 56.3μm,shape factor of 0.78 were obtained when the raw C3771 lead brass were rotary swaged to a radial strain of0.22 and then heated to 895℃for 5 min.The Forge 3 D software was used to analyze the temperature,strain and strain rate distribution of copper valve for obtain the reasonable process parameters during the subsequent rheoforging process.The experiment results showed that near-spherical micro-grains were stretched and refined to about 35.7-43.4μm in different positions due to the dynamic recrystallization during the rheoforging process.The cap thread and nut thread failure torque of the so-produced valve are also discovered to be higher than the traditionally forged copper valve with dendrite micro-grains,with an enhancement of the cap and thread failure torque of 42.2%and 28%,re s pectively.
基金This insight article was supported by the National Natural Science Foundation of China(82125032,81901826,81930095,81761128035,81873909,and 82001771)the Shanghai Municipal Science and Technology Major Project(2018SHZDZX01)+6 种基金the Natural Science Foundation of Shanghai Municipality(19ZR1405600 and 20ZR1404900)the Science and Technology Commission of Shanghai Municipality(19410713500 and 2018SHZDZX01)the Shanghai Municipal Commission of Health and Family Planning(GWV-10.1-XK07,2020CXJQ01,and 2018YJRC03)the Shanghai Clinical Key Subject Construction Project(shslczdzk02902)the Guangdong Key Project(2018B030335001)the China Medical Board Open Competition Program(CMB#21-418)ZJLab,and Shanghai Center for Brain Science and Brain-inspired Technology.
文摘Why Was the Cohort Set Up?Autism spectrum disorder(ASD)is a child neurodevelopmental disorder,the onset of which is generally within 3 years of age,and often leads to lifelong impaired social and cognitive functions,which impose significant mental pressure and economic burdens on the family and society.
基金supported by the Natural Science Foundation of China(81901826 and 61932008)the Natural Science Foundation of Shanghai(19ZR1405600 and 20ZR1404900)the Shanghai Municipal Science and Technology Major Project(2018SHZDZX01)。
文摘Chinese,as a logographic language,fundamentally differs from alphabetic languages like English.Previous neuroimaging studies have mainly focused on alphabetic languages,while the exploration of Chinese reading is still an emerging and fast-growing research field.Recently,a growing number of neuroimaging studies have explored the neural circuit of Chinese reading.Here,we summarize previous research on Chinese reading from a connectomic perspective.Converging evidence indicates that the left middle frontal gyrus is a specialized hub region that connects the ventral with dorsal pathways for Chinese reading.Notably,the orthography-to-phonology and orthography-to-semantics mapping,mainly processed in the ventral pathway,are more specific during Chinese reading.Besides,in addition to the left-lateralized language-related regions,reading pathways in the right hemisphere also play an important role in Chinese reading.Throughout,we comprehensively review prior findings and emphasize several challenging issues to be explored in future work.
基金The study was supported by the National Key R&D Program of China(2018YFA0701402)the National Natural Science Foundation of China(82021004,81971690,81620108016,and 11835003)the Fundamental Research Funds for the Central Universities of China(2019NTST24).
文摘Functional hubs with disproportionately extensive connectivities play a crucial role in global information integration in human brain networks.However,most resting-state functional magnetic resonance imaging(R-fMRI)studies have identified functional hubs by examining spontaneous fluctuations of the blood oxygen level-dependent signal within a typical low-frequency band(e.g.,0.01–0.08 Hz or 0.01–0.1 Hz).Little is known about how the spatial distributions of functional hubs depend on frequency bands of interest.Here,we used repeatedly measured R-fMRI data from 53 healthy young adults and a degree centrality analysis to identify voxelwise frequency-resolved functional hubs and further examined their test-retest reliability across two sessions.We showed that a wide-range frequency band(0.01–0.24 Hz)accessible with a typical sampling rate(fsample=0.5 Hz)could be classified into three frequency bands with distinct patterns,namely,low-frequency(LF,0.01–0.06 Hz),middle-frequency(MF,0.06–0.16 Hz),and high-frequency(HF,0.16–0.24 Hz)bands.The functional hubs were mainly located in the medial and lateral frontal and parietal cortices in the LF band,and in the medial prefrontal cortex,superior temporal gyrus,parahippocampal gyrus,amygdala,and several cerebellar regions in the MF and HF bands.These hub regions exhibited fair to good test-retest reliability,regardless of the frequency band.The presence of the three frequency bands was well replicated using an independent R-fMRI dataset from 45 healthy young adults.Our findings demonstrate reliable frequency-resolved functional connectivity hubs in three categories,thus providing insights into the frequency-specific connectome organization in healthy and disordered brains.
基金supported by the National Natural Science Foundation of China(Nos.82021004,81620108016,31221003)Changjiang Scholar Professorship Award(No.T2015027).
文摘Attention-deficit/hyperactivity disorder(ADHD)has been conceptualized as a brain dysconnectivity disorder.In the past decade,noninvasive diffusion magnetic resonance imaging(dMRI)studies have demonstrated that individuals with ADHD have alterations in the white matter structural connectome,and that these alterations are associated with core symptoms and cognitive deficits in patients.This review aims to summarize recent dMRI-based structural connectome studies in ADHD from voxel-,tractography-,and network-based perspectives.Voxel-and tractography-based studies have demonstrated disrupted microstructural properties predominantly located in the frontostriatal tracts,the corpus callosum,the corticospinal tracts,and the cingulum bundle in patients with ADHD.Network-based studies have suggested abnormal global and local efficiency as well as nodal properties in the prefrontal and parietal regions in the ADHD structural connectomes.The altered structural connectomes in those with ADHD provide significant signatures for prediction of symptoms and diagnostic classification.These studies suggest that abnormalities in the structural connectome may be one of the neural underpinnings of ADHD psychopathology and show potential for establishing imaging biomarkers in clinical evaluation.However,given that there are inconsistent findings across studies due to sample heterogeneity and analysis method variations,these ADHD-related white matter alterations are still far from informing clinical practice.Future studies with larger and more homogeneous samples are needed to validate the consistency of current results;advanced dMRI techniques can help to generatemuchmore precise estimation of whitematter pathways and assure specific fiber configurations;and finally,dimensional analysis frameworks can deepen our understanding of the neurobiology underlying ADHD.
