The dorsal and ventral visual streams have been considered to play distinct roles in visual processing for action:the dorsal stream is assumed to support real-time actions,while the ventral stream facilitates memory-g...The dorsal and ventral visual streams have been considered to play distinct roles in visual processing for action:the dorsal stream is assumed to support real-time actions,while the ventral stream facilitates memory-guided actions.However,recent evidence suggests a more integrated function of these streams.We investigated the neural dynamics and functional connectivity between them during memory-guided actions using intracranial EEG.We tracked neural activity in the inferior parietal lobule in the dorsal stream,and the ventral temporal cortex in the ventral stream as well as the hippocampus during a delayed action task involving object identity and location memory.We found increased alpha power in both streams during the delay,indicating their role in maintaining spatial visual information.In addition,we recorded increased alpha power in the hippocampus during the delay,but only when both object identity and location needed to be remembered.We also recorded an increase in theta band phase synchronization between the inferior parietal lobule and ventral temporal cortex and between the inferior parietal lobule and hippocampus during the encoding and delay.Granger causality analysis indicated dynamic and frequency-specific directional interactions among the inferior parietal lobule,ventral temporal cortex,and hippocampus that varied across task phases.Our study provides unique electrophysiological evidence for close interactions between dorsal and ventral streams,supporting an integrated processing model in which both streams contribute to memory-guided actions.展开更多
BACKGROUND Sepsis is a life-threatening condition defined by organ dysfunction,triggered by a dysregulated host response to infection.there is limited published literature combining cognitive impairment with topologic...BACKGROUND Sepsis is a life-threatening condition defined by organ dysfunction,triggered by a dysregulated host response to infection.there is limited published literature combining cognitive impairment with topological property alterations in brain networks in sepsis survivors.Therefore,we employed graph theory and Granger causality analysis(GCA)methods to analyze resting-state functional magnetic resonance imaging(rs-fMRI)data,aiming to explore the topological alterations in the brain networks of intensive care unit(ICU)sepsis survivors.Using correlation analysis,the interplay between topological property alterations and cognitive impairment was also investigated.AIM To explore the topological alterations of the brain networks of sepsis survivors and their correlation with cognitive impairment.METHODS Sixteen sepsis survivors and nineteen healthy controls from the community were recruited.Within one month after discharge,neurocognitive tests were administered to assess cognitive performance.Rs-fMRI was acquired and the topological properties of brain networks were measured based on graph theory approaches.GCA was conducted to quantify effective connectivity(EC)between brain regions showing positive topological alterations and other regions in the brain.The correlations between topological properties and cognitive were analyzed.RESULTS Sepsis survivors exhibited significant cognitive impairment.At the global level,sepsis survivors showed lower normalized clustering coefficient(γ)and small-worldness(σ)than healthy controls.At the local level,degree centrality(DC)and nodal efficiency(NE)decreased in the right orbital part of inferior frontal gyrus(ORBinf.R),NE decreased in the left temporal pole of superior temporal gyrus(TPOsup.L)whereas DC and NE increased in the right cerebellum Crus 2(CRBLCrus2.R).Regarding directional connection alterations,EC from left cerebellum 6(CRBL6.L)to ORBinf.R and EC from TPOsup.L to right cerebellum 1(CRBLCrus1.R)decreased,whereas EC from right lingual gyrus(LING.R)to TPOsup.L increased.The implementation of correlation analysis revealed a negative correlation between DC in CRBLCrus2.R and both Mini-mental state examination(r=-0.572,P=0.041)and Montreal cognitive assessment(MoCA)scores(r=-0.629,P=0.021)at the local level.In the CRBLCrus2.R cohort,a negative correlation was identified between NE and MoCA scores,with a statistically significant result of r=-0.633 and P=0.020.CONCLUSION Frontal,temporal and cerebellar topological property alterations are possibly associated with cognitive impairment of ICU sepsis survivors and may serve as biomarkers for early diagnosis.展开更多
There are many defects in researches on the relationship of the regional financial development (FD) and economic growth of China, such as simply assuming the causality direction, not highlighting financial institution...There are many defects in researches on the relationship of the regional financial development (FD) and economic growth of China, such as simply assuming the causality direction, not highlighting financial institution, using incomplete financial indicator, etc. This article, taking Suzhou City of Jiangsu Province, China as a case, builds a simple model to study the level of FD from three aspects of financial scale, structure and institution. Three original indicators of PRIVY (private investment/aggregate investment), DEPTH (aggregate loan/GDP) and FDIVG (FDI/GDP) are used to construct the FD economic indicator through Principal Component Analysis approach. Then we use Granger method to analyze the relationship between the FD and the economic growth of Suzhou. Empirical test results show that the FD of Suzhou is the Granger reason of economic growth, while economic growth is not the reason for FD, because the relationship between the FD and the economic growth of Suzhou is just in the ″supply-leading″ period. In terms of Suzhou experiences, the local government should strengthen the protection of private investment, improve the institutional environment, and establish the reasonable financial structure. So we can concluded that FD could play a great role in promoting economic growth at the economy takeoff stage.展开更多
At present, the neuropathological mechanisms and the plastic changes of brain cognitive function in patents with front lobe tumor remain unclear, most studies just focused on global measures of brain functional connec...At present, the neuropathological mechanisms and the plastic changes of brain cognitive function in patents with front lobe tumor remain unclear, most studies just focused on global measures of brain functional connectivity without considering the time correlation in the different regions of the brain. This study aims to investigate brain cognitive alterations and functional plasticity in patients with front lobe tumor at resting-state by conducting functional connectivity density(FCD) mapping and granger causality analysis(GCA). Firstly, FCD mapping was used to extract abnormal functional connectivity(FC) of patients with frontal lobe tumor, and analyzed altered brain FC in both short-and long-range FCD. Then, the voxel-wise GCA method was used to analyze the causal relationship between altered FC regions and other regions in order to detect the time correlation between regions of interest(ROI) and reveal the direction of information flow between brain ROIs. It was found that patients had increased short-range FCD in motor and space attention function areas, had increased short-and long-range FCDs both in Temporal and Insula, and the causal coefficients were changed obviously in Temporal and Frontal. The results show that there is a functional plasticity in space attention function areas. Temporal and Insula are affected by tumor in frontal lobe, and functional reorganization appears inside Temporal.展开更多
基金supported by European Union–Next Generation EU(LX22NPO5107(MEYS))the Czech Science Foundation(20-21339S)+2 种基金the Grant Agency of Charles University(GAUK 248122 and 272221)ERDF-Project Brain Dynamics(CZ.02.01.01/00/22_008/0004643)the Ministry of Health of the Czech Republic Project NU21J-08-00081.
文摘The dorsal and ventral visual streams have been considered to play distinct roles in visual processing for action:the dorsal stream is assumed to support real-time actions,while the ventral stream facilitates memory-guided actions.However,recent evidence suggests a more integrated function of these streams.We investigated the neural dynamics and functional connectivity between them during memory-guided actions using intracranial EEG.We tracked neural activity in the inferior parietal lobule in the dorsal stream,and the ventral temporal cortex in the ventral stream as well as the hippocampus during a delayed action task involving object identity and location memory.We found increased alpha power in both streams during the delay,indicating their role in maintaining spatial visual information.In addition,we recorded increased alpha power in the hippocampus during the delay,but only when both object identity and location needed to be remembered.We also recorded an increase in theta band phase synchronization between the inferior parietal lobule and ventral temporal cortex and between the inferior parietal lobule and hippocampus during the encoding and delay.Granger causality analysis indicated dynamic and frequency-specific directional interactions among the inferior parietal lobule,ventral temporal cortex,and hippocampus that varied across task phases.Our study provides unique electrophysiological evidence for close interactions between dorsal and ventral streams,supporting an integrated processing model in which both streams contribute to memory-guided actions.
基金Supported by National Natural Science Foundation of China,No.82372182,No.82172131,and No.U23A20421Training Project of the Leading Expert Team:"Jiyang Medical Elites",No.RC2023-004.
文摘BACKGROUND Sepsis is a life-threatening condition defined by organ dysfunction,triggered by a dysregulated host response to infection.there is limited published literature combining cognitive impairment with topological property alterations in brain networks in sepsis survivors.Therefore,we employed graph theory and Granger causality analysis(GCA)methods to analyze resting-state functional magnetic resonance imaging(rs-fMRI)data,aiming to explore the topological alterations in the brain networks of intensive care unit(ICU)sepsis survivors.Using correlation analysis,the interplay between topological property alterations and cognitive impairment was also investigated.AIM To explore the topological alterations of the brain networks of sepsis survivors and their correlation with cognitive impairment.METHODS Sixteen sepsis survivors and nineteen healthy controls from the community were recruited.Within one month after discharge,neurocognitive tests were administered to assess cognitive performance.Rs-fMRI was acquired and the topological properties of brain networks were measured based on graph theory approaches.GCA was conducted to quantify effective connectivity(EC)between brain regions showing positive topological alterations and other regions in the brain.The correlations between topological properties and cognitive were analyzed.RESULTS Sepsis survivors exhibited significant cognitive impairment.At the global level,sepsis survivors showed lower normalized clustering coefficient(γ)and small-worldness(σ)than healthy controls.At the local level,degree centrality(DC)and nodal efficiency(NE)decreased in the right orbital part of inferior frontal gyrus(ORBinf.R),NE decreased in the left temporal pole of superior temporal gyrus(TPOsup.L)whereas DC and NE increased in the right cerebellum Crus 2(CRBLCrus2.R).Regarding directional connection alterations,EC from left cerebellum 6(CRBL6.L)to ORBinf.R and EC from TPOsup.L to right cerebellum 1(CRBLCrus1.R)decreased,whereas EC from right lingual gyrus(LING.R)to TPOsup.L increased.The implementation of correlation analysis revealed a negative correlation between DC in CRBLCrus2.R and both Mini-mental state examination(r=-0.572,P=0.041)and Montreal cognitive assessment(MoCA)scores(r=-0.629,P=0.021)at the local level.In the CRBLCrus2.R cohort,a negative correlation was identified between NE and MoCA scores,with a statistically significant result of r=-0.633 and P=0.020.CONCLUSION Frontal,temporal and cerebellar topological property alterations are possibly associated with cognitive impairment of ICU sepsis survivors and may serve as biomarkers for early diagnosis.
基金Under the auspices of China Postdoctoral Science Foundation (No. 20070420271, 20018801012)
文摘There are many defects in researches on the relationship of the regional financial development (FD) and economic growth of China, such as simply assuming the causality direction, not highlighting financial institution, using incomplete financial indicator, etc. This article, taking Suzhou City of Jiangsu Province, China as a case, builds a simple model to study the level of FD from three aspects of financial scale, structure and institution. Three original indicators of PRIVY (private investment/aggregate investment), DEPTH (aggregate loan/GDP) and FDIVG (FDI/GDP) are used to construct the FD economic indicator through Principal Component Analysis approach. Then we use Granger method to analyze the relationship between the FD and the economic growth of Suzhou. Empirical test results show that the FD of Suzhou is the Granger reason of economic growth, while economic growth is not the reason for FD, because the relationship between the FD and the economic growth of Suzhou is just in the ″supply-leading″ period. In terms of Suzhou experiences, the local government should strengthen the protection of private investment, improve the institutional environment, and establish the reasonable financial structure. So we can concluded that FD could play a great role in promoting economic growth at the economy takeoff stage.
基金Clinical Medical Science Special Foundation in Jiangsu Provincegrant number:SBL201230215
文摘At present, the neuropathological mechanisms and the plastic changes of brain cognitive function in patents with front lobe tumor remain unclear, most studies just focused on global measures of brain functional connectivity without considering the time correlation in the different regions of the brain. This study aims to investigate brain cognitive alterations and functional plasticity in patients with front lobe tumor at resting-state by conducting functional connectivity density(FCD) mapping and granger causality analysis(GCA). Firstly, FCD mapping was used to extract abnormal functional connectivity(FC) of patients with frontal lobe tumor, and analyzed altered brain FC in both short-and long-range FCD. Then, the voxel-wise GCA method was used to analyze the causal relationship between altered FC regions and other regions in order to detect the time correlation between regions of interest(ROI) and reveal the direction of information flow between brain ROIs. It was found that patients had increased short-range FCD in motor and space attention function areas, had increased short-and long-range FCDs both in Temporal and Insula, and the causal coefficients were changed obviously in Temporal and Frontal. The results show that there is a functional plasticity in space attention function areas. Temporal and Insula are affected by tumor in frontal lobe, and functional reorganization appears inside Temporal.
