Your search keyword '"Wei, Yichen"' showing total 217 results

201. Synergistically Tuning Graphene Layer and Active Sites for Flexible Zn–Air Batteries.

Author

Yu, Mengmeng, Guo, Feifei, Xu, Li, Zhang, Yan, Ni, Wenhui, Wang, Jun, Wei, Yichen, Chen, Xifan, Yang, Jia, Li, Hongbao, Wang, Junying, and Wang, Junzhong

Subjects

*SOLID state batteries, *GRAPHENE, *GIBBS' free energy, *OXYGEN evolution reactions, *GRAPHENE oxide, *GRAPHENE synthesis

Abstract

Fewer layer graphene principally has a higher surface area to support more catalytic sites for energy conversion, but it is still challenging to synthesize monolayer graphene without oxidation from graphite at a low cost. Here, a method for synergistically thinning graphene layers and constructing catalytic sites to create a superior bifunctional oxygen catalyst through vapor intercalation of multi‐layer graphene or its derivatives is described. The synthesized small sheet sizes of 1–2 layer graphene‐supported FeN4 and FeCo active sites exhibit superior reversible activity of oxygen reduction and evolution reactions with a low overall overpotential of 0.648 V. The sheet‐shaped catalyst is further used to fabricate flexible soft‐packed and wearable cable‐type quasi‐solid‐state zinc–air batteries, achieving high performances (>188 mW cm−2, >450 cycles) and enabling smartphone charging. DFT calculations reveal that fewer layer graphene coupled with atomic FeN4 and alloy FeCo sites enables lower Gibbs free energy for favorable OOH* intermediate adsorption/desorption benefiting superior oxygen redox process. This study introduces a strategy for scalable synthesis of 1–2 layer graphene from cheap microcrystalline graphite minerals for wearable and durable energy devices. [ABSTRACT FROM AUTHOR]

Published

2024

202. Towards multi-views cloud retrieval accounting for the 3-D structure collected by directional polarization camera.

Author

Yu, Haixiao, Sun, Xiaobing, Tu, Bihai, Ti, Rufang, Ma, Jinji, Hong, Jin, Chen, Cheng, Liu, Xiao, Huang, Honglian, Wang, Zeling, Ahmad, Safura, Wang, Yi, Fan, Yizhe, Li, Yiqi, Wei, Yichen, Wang, Yuxuan, and Wang, Yuyao

Subjects

*ICE clouds, *OPTICAL measurements, *COMPUTER graphics, *CAMERAS, *PARALLAX, *PIXELS, *PASSIVE optical networks, *RADIATION

Abstract

The structure of a cloud is three-dimensional (3-D). Nevertheless, cloud research is predominantly developed in one-dimensional (1-D) hypothesis from passive optical satellite measurements. Cloud retrieval algorithms typically do not consider the parallax displacement of clouds in multi-view images. Inversion of cloud properties based on two-dimensional (2-D) coordinates cannot solve multi-view radiation changes which are caused by macro-structure of a cloud in 3-D space. In this study, we included the 3-D structure of clouds by repositioning cloud pixels within a 3-D coordinate system utilizing the directional polarization camera (DPC) data before conducting cloud property retrieval. It is followed by identification of location of cloud in each observational view's image plane. Observational paths of clouds are rebuilt at each observational view. Furthermore, computer graphics methods are employed to establish spatial relationship among different cloud observational paths. The radiational and geometrical information are relocated in unified 3-D sub-pixel space. Finally, 3-D cloud radiation information could be applied to retrieve cloud properties. The case results demonstrate that our method can effectively reduce mixed pixels of clouds and clear sky by 5.79% while decrease indistinguishable pixels in cloud phase classification by 2.11%. It leads to an enhancement in the classification accuracy of water clouds and ice clouds by 3.30% and 4.03%, respectively. Therefore, it is concluded that considering the impact of cloud structure before retrieval would significantly improve accuracy. [ABSTRACT FROM AUTHOR]

Published

2024

203. Fine-grained recognition of bitter gourd maturity based on Improved YOLOv5-seg model.

Author

Jiang, Sheng, Ao, Jiangbo, Yang, Hualin, Xie, Fangnan, Liu, Ziyi, Yang, Shanglin, Wei, Yichen, and Deng, Xijin

Abstract

Bitter gourd, being perishable, requires timely harvesting. Delayed harvesting can result in a substantial reduction in fruit quality. while premature harvesting leads to underdeveloped fruit and decreased yields, the continuous flowering pattern in bitter gourd underscores the significance of accurately assessing fruit growth and ensuring timely harvesting for subsequent fruit setting and development. The current reliance on the experience of production personnel represents a substantial inefficiency. We present an improved real-time instance segmentation model based on YOLOv5-seg. The utilization of dynamic snake convolution enables the extraction of morphological features from the curved and elongated structure of bitter gourd. Diverse branch blocks enhance feature space diversity without inflating model size and inference time, contributing to improved recognition of expansion stages during bitter gourd growth. Additionally, the introduction of Focal-EIOU loss accurately locates the boundary box and mask, addressing sample imbalances in the L2 stage. Experimental results showcase remarkable accuracy rates of 99.3%, 93.8%, and 98.3% for L1, L2, and L3 stages using mAP@0.5. In comparison, our model outperforms other case segmentation models, excelling in both detection accuracy and inference speed. The improved YOLOv5-seg model demonstrates strong performance in fine-grained recognition of bitter gourd during the expansion stage. It efficiently segments bitter gourd in real-time under varying lighting and occlusion conditions, providing crucial maturity information. This model offers reliable insights for agricultural workers, facilitating precise harvesting decisions. [ABSTRACT FROM AUTHOR]

Published

2024

204. Tribotronic Vertical Field‐Effect Transistor Based on van der Waals Heterostructures.

Author

Wang, Yifei, Lin, Xiangde, Gao, Guoyun, Yu, Jinran, Wei, Yichen, Gong, Jie, Sun, Jia, Wang, Zhong Lin, and Sun, Qijun

Subjects

*FIELD-effect transistors, *HETEROSTRUCTURES, *SCHOTTKY barrier, *VERTICAL integration, *TRANSISTORS

Abstract

Graphene has attracted considerable interest for next‐generation electronics. However, the absence of natural bandgap has limited the current on/off ratio of graphene‐based transistors. Vertical integration of 2D heterostructures offers a promising approach to address this challenge, enabling high‐current‐density vertical field‐effect transistor (VFET) with large on/off ratio. Here, a triboelectric potential‐powered VFET with a vertical stacked graphene/MoS2 heterostructure and a sliding‐mode triboelectric nanogenerator (TENG) coupled with gate dielectrics are proposed. The tribotronic VFET has an ultrashort channel length in vertical direction, exhibiting excellent current driving capability with an ultrahigh on‐state current density of 950 A cm−2 and a good current on/off ratio of 630. It also demonstrates reconfigurable diode behavior with a rectification ratio over 102. Temperature‐dependent studies are applied to tribotronic devices for the first time, indicating an effective modulation on the Schottky barrier height of 150 meV by the triboelectric potential. A green LED pixel is driven by the tribotronic VFET as a demonstration to work as a tactile interactive light‐emitting device. The demonstrated tribotronic vertical device offers a promising strategy for integrating various 2D layered materials with TENG in vertical direction, enabling 3D integration of low‐power and interactive devices for next‐generation electronics. [ABSTRACT FROM AUTHOR]

Published

2024

205. Recurrent and concurrent patterns of regional BOLD dynamics and functional connectivity dynamics in cognitive decline.

Author

Liang, Lingyan, Yuan, Yueming, Wei, Yichen, Yu, Bihan, Mai, Wei, Duan, Gaoxiong, Nong, Xiucheng, Li, Chong, Su, Jiahui, Zhao, Lihua, Zhang, Zhiguo, and Deng, Demao

Subjects

*FUNCTIONAL connectivity, *MILD cognitive impairment, *FUNCTIONAL magnetic resonance imaging, *MINI-Mental State Examination

Abstract

Background: The brain's dynamic spontaneous neural activity and dynamic functional connectivity (dFC) are both important in supporting cognition, but how these two types of brain dynamics evolve and co-evolve in subjective cognitive decline (SCD) and mild cognitive impairment (MCI) remain unclear. The aim of the present study was to investigate recurrent and concurrent patterns of two types of dynamic brain states correlated with cognitive decline. Methods: The present study analyzed resting-state functional magnetic resonance imaging data from 62 SCD patients, 75 MCI patients, and 70 healthy controls (HCs). We used the sliding-window and clustering method to identify two types of recurrent brain states from both dFC and dynamic regional spontaneous activity, as measured by dynamic fractional amplitude of low-frequency fluctuations (dfALFF). Then, the occurrence frequency of a dFC or dfALFF state and the co-occurrence frequency of a pair of dFC and dfALFF states among all time points are extracted for each participant to describe their dynamics brain patterns. Results: We identified a few recurrent states of dfALFF and dFC and further ascertained the co-occurrent patterns of these two types of dynamic brain states (i.e., dfALFF and dFC states). Importantly, the occurrence frequency of a default-mode network (DMN)-dominated dFC state was significantly different between HCs and SCD patients, and the co-occurrence frequencies of a DMN-dominated dFC state and a DMN-dominated dfALFF state were also significantly different between SCD and MCI patients. These two dynamic features were both significantly positively correlated with Mini-Mental State Examination scores. Conclusion: Our findings revealed novel fMRI-based neural signatures of cognitive decline from recurrent and concurrent patterns of dfALFF and dFC, providing strong evidence supporting SCD as the transition phase between normal aging and MCI. This finding holds potential to differentiate SCD patients from HCs via both dFC and dfALFF as objective neuroimaging biomarkers, which may aid in the early diagnosis and intervention of Alzheimer's disease. [ABSTRACT FROM AUTHOR]

Published

2021

206. Alteration of white matter microstructure in patients with sleep disorders after COVID-19 infection.

Author

Qin, Haixia, Duan, Gaoxiong, Zhou, Kaixuan, Qin, Lixia, Lai, Yinqi, Liu, Ying, Lu, Yian, Peng, Bei, Zhang, Yan, Zhou, Xiaoyan, Huang, Jiazhu, Huang, Jinli, Liang, Lingyan, Wei, Yichen, Zhang, Qingping, Li, Xiaocheng, OuYang, Yinfei, Bin, Bolin, Zhao, Mingming, and Yang, Jianrong

Subjects

*COVID-19, *WHITE matter (Nerve tissue), *CORONAVIRUS diseases, *SLEEP disorders, *DIFFUSION tensor imaging, *SLEEP duration

Abstract

The pathophysiology of coronasomnia remains unclear. This study aimed to investigate changes in white matter (WM) microstructure and inflammatory factors in patients with sleep disorders (SD) characterized by poor sleep quantity, quality, or timing following coronavirus disease 2019 (COVID-19) infection in the acute phase (within one month) and whether these changes could be recovered at 3-month follow-up. 29 acute COVID-19 patients with SD (COVID_SD) and 27 acute COVID-19 patients without SD (COVID_NonSD) underwent diffusion tensor imaging (DTI), tested peripheral blood inflammatory cytokines level, and measured Pittsburgh Sleep Quality Index (PSQI), and matched 30 uninfected healthy controls. Analyzed WM abnormalities between groups in acute phase and explored its changes in COVID_SD at 3-month follow-up by using tract-based spatial statistics (TBSS). Correlations between DTI and clinical data were examined using Spearman partial correlation analysis. Both COVID_SD and COVID_NonSD exhibited widespread WM microstructure abnormalities. The COVID_SD group showed specific WM microstructure changes in right inferior fronto-occipital fasciculus (IFOF) (lower fractional anisotropy [FA]/axial diffusivity [AD] and higher radial diffusivity [RD]) and left corticospinal tract (CST) (higher FA and lower RD) and higher interleukin-1β (IL-1β) compared with COVID_NonSD group. These WM abnormalities and IL-1β levels were correlated PSQI score. After 3 months, the IFOF integrity and IL-1β levels tended to return to normal accompanied by symptom improvement in the COVID_SD relative to baseline. Abnormalities in right IFOF and left CST and elevated IL-1β levels were important neurophenotypes correlated with COVID_SD, which might provide new insights into the pathogenesis of neuroinflammation in SD patients induced by COVID-19. • TBSS identified the specific WM changes in right IFOF and left CST at acute phase COVID-19 patients with SD. • Higher IL-1β level was identified in the acute COVID-19 patients with SD. • The right IFOF and IL-1β level tended to return to normal accompanied by sleep symptoms improvement after 3 months in the acute COVID-19 patients with SD. [ABSTRACT FROM AUTHOR]

Published

2024

207. Boolean Logic Computing Based on Neuromorphic Transistor.

Author

Wang, Yifei, Sun, Qijun, Yu, Jinran, Xu, Nuo, Wei, Yichen, Cho, Jeong Ho, and Wang, Zhong Lin

Subjects

*COMPLEMENTARY metal oxide semiconductors, *TRANSISTORS, *LOGIC circuits, *LOGIC

Abstract

General‐purpose computers usually use logic gate computing units based on complementary metal oxide semiconductors (CMOS). Due to the separate memory and computing units in Von Neumann architecture, data transmission requires great energy and time consumption. Developing novel neuromorphic devices and comprehensively investigating their logical computing mode are crucial to achieve high‐performance and low‐power neuromorphic computation. Here, a systematic summary of Boolean logic computing based on emerging neuromorphic transistors is presented. This summary encompasses logical operation modes, materials, device structures, and working mechanisms. The input mode of Boolean logic operation is classified into electrical input, optical input, and synergistic optical/electrical input. Besides, additional modulation strategies to construct programmable logic functions by electrical, optical, and thermal signals are also summarized. These strategies hold great significance as they enable dynamic reconfiguration of logic operations and provide neuromorphic devices with decision‐making capabilities. Finally, the application prospects and current challenges to Boolean logic computing based on dendritic integration are discussed from the aspects of device integration, synergistic input/modulation modes, auxiliary peripheral circuit, software/hardware system, etc. It is believed that comprehensive investigations on neuromorphic Boolean logic operations are crucial to push forward the development of future neuromorphic computing toward high efficiency and high integration density. [ABSTRACT FROM AUTHOR]

Published

2023

208. A neurosymbolic cognitive architecture framework for handling novelties in open worlds.

Author

Goel, Shivam, Lymperopoulos, Panagiotis, Thielstrom, Ravenna, Krause, Evan, Feeney, Patrick, Lorang, Pierrick, Schneider, Sarah, Wei, Yichen, Kildebeck, Eric, Goss, Stephen, Hughes, Michael C., Liu, Liping, Sinapov, Jivko, and Scheutz, Matthias

Subjects

*COMPUTER vision, *MACHINE learning, *ARTIFICIAL intelligence, *COUNTERFACTUALS (Logic), *REINFORCEMENT learning, *PROBLEM solving

Abstract

"Open world" environments are those in which novel objects, agents, events, and more can appear and contradict previous understandings of the environment. This runs counter to the "closed world" assumption used in most AI research, where the environment is assumed to be fully understood and unchanging. The types of environments AI agents can be deployed in are limited by the inability to handle the novelties that occur in open world environments. This paper presents a novel cognitive architecture framework to handle open-world novelties. This framework combines symbolic planning, counterfactual reasoning, reinforcement learning, and deep computer vision to detect and accommodate novelties. We introduce general algorithms for exploring open worlds using inference and machine learning methodologies to facilitate novelty accommodation. The ability to detect and accommodate novelties allows agents built on this framework to successfully complete tasks despite a variety of novel changes to the world. Both the framework components and the entire system are evaluated in Minecraft-like simulated environments. Our results indicate that agents are able to efficiently complete tasks while accommodating "concealed novelties" not shared with the architecture development team. [ABSTRACT FROM AUTHOR]

Published

2024

209. Potential use of nano calcium carbonate in polypropylene fiber reinforced recycled aggregate concrete: Microstructures and properties evaluation.

Author

Chen, Xuyong, Ai, Yangzheng, Wu, Qiaoyun, Cheng, Shukai, Wei, Yichen, Xu, Xiong, and Fan, Tao

Subjects

*RECYCLED concrete aggregates, *POLYPROPYLENE fibers, *MORTAR, *CALCIUM carbonate, *MICROSTRUCTURE, *HEAT of hydration

Abstract

• Polypropylene fiber (PPF) and nano-CaCO 3 (NC) are considered to enhance the engineering properties of RAC. • Mechanical properties of RAC can be improved as NC and PPF are used. • Microscopic structure of PPF-RAC can be significantly improved with the incorporation of NC. Fiber materials and nanomaterials are often added to recycled aggregate concrete (RAC) to compensate for the adverse effects caused by recycled concrete aggregate (RCA). Polypropylene fiber (PPF) and nano-CaCO 3 (NC) are considered having great potentials to improve the engineering properties of RAC due to their high yield, large reserve, and low price. Based on this, the current study recommended adding NC as an extra material to PPF-reinforced recycled aggregate concrete to compensate for its performance inadequacies. To fully expose the joint reinforcing effect, the microstructures and attributes were evaluated, including compressive strength, tensile strength, flexural strength, resistance to chloride ion permeability, drying shrinkage, scanning electron microscope (SEM), X-ray diffraction (XRD), thermogravimetry (TG), and hydration heat. The results showed that 1 wt.% NC contributes to overall improve the mechanical properties and durability performance of RAC incorporated with 0.133 vol.% 12 mm-length PPF. NC promotes the hydration degree of RAC-based cementitious materials and enhance the microstructural density and interfacial bonding capacity between PPF and RAC mortar. In addition, NC can improve the hydration rate and hydration heat of cement-based materials in the early stage, and participates in the chemical reaction of hydration in the later stage, promoting more occurrences of hydration reactions to the more productions of hydrates. Therefore, the comprehensive adoption of NC and PPF is capable of improving the performance enhancement of RAC for durable buildings. [ABSTRACT FROM AUTHOR]

Published

2023

210. Altered brain structure in women with premenstrual syndrome.

Author

Liu, Peng, Wei, Ying, Fan, Yingying, Li, Ru, Liu, Yanfei, Wang, Geliang, Wei, Yichen, Pang, Yong, Deng, Demao, and Qin, Wei

Subjects

*BRAIN abnormalities, *PREMENSTRUAL syndrome, *MENSTRUATION disorders, *GRAY matter (Nerve tissue), *VOXEL-based morphometry, *COMPARATIVE studies, *LIMBIC system, *MAGNETIC resonance imaging, *RESEARCH methodology, *MEDICAL cooperation, *RESEARCH, *EVALUATION research, *CASE-control method, *RECEIVER operating characteristic curves

Abstract

Background: Functional brain abnormalities have been noted in premenstrual syndrome (PMS). However, the brain structural alterations related to PMS remain unclear. This study aimed to identify possible abnormalities in gray matter (GM) volumes and structural covariance patterns among PMS patients.Methods: Structural magnetic resonance imaging data were obtained from 20 PMS patients and 20 healthy controls. Voxel-based morphometry (VBM) analysis was applied to examine GM volumes changes between the two groups. Receiver operating characteristic (ROC) curve was used to investigate the most reliable biomarker for distinguishing PMS patients from health controls based on the intergroup differences. Correlation analysis was then performed to assess relationships between the daily rating of severity of problems (DRSP) and abnormal brain regions. Finally, the regions identified from VBM analysis were served as seeds to characterize the whole-brain structural covariance patterns.Results: Compared with healthy controls, PMS patients showed increased GM volumes in the precuneus/posterior cingulate cortex (precuneus/PCC) and thalamus, and decreased GM volumes in the insula. The precuneus/PCC exhibited the highest classification power by ROC analysis and positively correlated with the DRSP. Moreover, different patterns of structural covariance in the two groups were mainly located in the dorsolateral prefrontal cortex, anterior cingulate cortex, angular gyrus and hippocampus.Limitations: This study is limited by a small sample and narrow age range of participants.Conclusions: Our findings may provide preliminary evidence for brain morphology alterations in PMS patients and contribute to a better understanding of the pathophysiology of PMS. [ABSTRACT FROM AUTHOR]

Published

2018

211. Persistent alterations in gray matter in COVID-19 patients experiencing sleep disturbances: a 3-month longitudinal study.

Author

Zhou K, Duan G, Liu Y, Peng B, Zhou X, Qin L, Liang L, Wei Y, Zhang Q, Li X, Qin H, Lai Y, Lu Y, Zhang Y, Huang J, Huang J, Ouyang Y, Bin B, Zhao M, Liu J, Yang J, and Deng D

Abstract

Abstract: Sleep disturbances are among the most prevalent neuropsychiatric symptoms in individuals who have recovered from severe acute respiratory syndrome coronavirus 2 infections. Previous studies have demonstrated abnormal brain structures in patients with sleep disturbances who have recovered from coronavirus disease 2019 (COVID-19). However, neuroimaging studies on sleep disturbances caused by COVID-19 are scarce, and existing studies have primarily focused on the long-term effects of the virus, with minimal acute phase data. As a result, little is known about the pathophysiology of sleep disturbances in the acute phase of COVID-19. To address this issue, we designed a longitudinal study to investigate whether alterations in brain structure occur during the acute phase of infection, and verified the results using 3-month follow-up data. A total of 26 COVID-19 patients with sleep disturbances (aged 51.5 ± 13.57 years, 8 women and 18 men), 27 COVID-19 patients without sleep disturbances (aged 47.33 ± 15.98 years, 9 women and 18 men), and 31 age-and gender-matched healthy controls (aged 49.19 ± 17.51 years, 9 women and 22 men) were included in this study. Eleven COVID-19 patients with sleep disturbances were included in a longitudinal analysis. We found that COVID-19 patients with sleep disturbances exhibited brain structural changes in almost all brain lobes. The cortical thicknesses of the left pars opercularis and left precuneus were significantly negatively correlated with Pittsburgh Sleep Quality Index scores. Additionally, we observed changes in the volume of the hippocampus and its subfield regions in COVID-19 patients compared with the healthy controls. The 3-month follow-up data revealed indices of altered cerebral structure (cortical thickness, cortical grey matter volume, and cortical surface area) in the frontal-parietal cortex compared with the baseline in COVID-19 patients with sleep disturbances.Our findings indicate that the sleep disturbances patients had altered morphology in the cortical and hippocampal structures during the acute phase of infection and persistent changes in cortical regions at 3 months post-infection. These data improve our understanding of the pathophysiology of sleep disturbances caused by COVID-19., (Copyright © 2025 Copyright: © 2025 Neural Regeneration Research.)

Published

2024

212. Optimized strategies of cloud droplet distribution retrieval using satellite multi-directional polarimetric optical measurements: information content approach.

Author

Yu H, Sun X, Ti R, Tu B, Fan Y, Wang Y, Wang Z, Wei Y, Liu X, Huang H, Li Y, and Wang Y

Abstract

Multi-directional polarized optical sensors are increasingly vital in passive remote sensing, deepening our understanding of global cloud properties. Nevertheless, uncertainty lingers on how these observations can contribute to our knowledge of cloud diversity. The variability in cloud PSD (Particle Size Distribution) significantly influences a wide array of cloud characteristics, while unidentified factors in RT (Radiative Transfer) may introduce errors into the cloud PSD retrieval algorithm. Therefore, establishing unified evaluation criteria for both optical device configuration and inversion methods is crucial. Our study, based on Bayesian theory and RT, assesses the information content of both cloud effective radius and effective variance retrieval, along with the key factors affecting their retrieval in multi-directional polarized observations, using the calculation of DFS (Degree of Freedom for Signals).We consider the process of solar incidence, cloud scattering, and sensor reception, and discuss the impact of various sensor configurations, cloud characteristics, and other components on the retrieval of cloud PSD. Correspondingly, we observed a 48% improvement in the information content of cloud PSD with the incorporation of multi-directional polarized measurements in the rainbow region. Cloud droplet concentration significantly influences inversion, but its PSD does not cause monotonic linear interference on information content. The blending of particle mixtures with different PSD has a significant negative impact on DFS. In cases where the AOD (Aerosol Optical Depth) is less than 0.5 and the COT (Cloud Optical Thickness) exceeds 5, the influence of aerosol and surface contributions on inversion can be neglected. Our findings would serve as a foundation for future instrument design improvements and enhancements to retrieval algorithms.

Published

2024

213. Altered regional homogeneity following moxibustion in mild cognitive impairment.

Author

Zhang Q, Liang L, Lai Z, Wei Y, Duan G, Lai Y, Liu P, and Deng D

Subjects

Humans, Male, Female, Aged, Cognition physiology, Middle Aged, Brain Mapping methods, Default Mode Network physiopathology, Default Mode Network diagnostic imaging, Hippocampus physiopathology, Hippocampus diagnostic imaging, Mental Status and Dementia Tests, Neuropsychological Tests, Cognitive Dysfunction therapy, Cognitive Dysfunction physiopathology, Moxibustion methods, Magnetic Resonance Imaging methods, Brain physiopathology, Brain diagnostic imaging

Abstract

Moxibustion has a definite clinical effect in improving the cognitive condition in individuals with mild cognitive impairment (MCI), but its underlying neural mechanism remains elusive. This study aimed to investigate the alterations in spontaneous brain activity and cognitive function following moxibustion therapy in MCI patients. This study enrolled a cohort of 33 MCI subjects and 30 matched healthy controls (HCs). MCI subjects underwent a two-month regimen of moxibustion. Employing resting-state functional magnetic resonance imaging, we utilized regional homogeneity (ReHo) analysis to evaluate the changes in brain activity. Cognitive function was evaluated by using the Mini-Mental State Examination and Montreal Cognitive Assessment. There existed aberrant ReHo values in different brain areas mainly involved in the default mode network (DMN) in MCI subjects compared with HCs. After moxibustion treatment, MCI subjects showed an inverse in ReHo values from baseline in the hippocampus/parahippocampus and insula, as well as an increase in ReHo value in the middle frontal gyrus. Notably, the ReHo alterations in the left hippocampus/parahippocampus and middle frontal gyrus were associated with cognitive improvement in MCI patients. Abnormal neural activity occurred in MCI subjects mainly within the DMN. Moxibustion therapy may facilitate cognitive improvement in MCI subjects by modulating brain activity, particularly by reversing the neural activity within the DMN and salience network. These results underscore the therapeutic potential of moxibustion as an early intervention strategy for Alzheimer's disease., (© 2023. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2024

214. Disrupted morphological brain network organization in subjective cognitive decline and mild cognitive impairment.

Author

Chen Y, Liang L, Wei Y, Liu Y, Li X, Zhang Z, Li L, and Deng D

Subjects

Humans, Female, Male, Aged, Gray Matter diagnostic imaging, Gray Matter pathology, Middle Aged, Neuropsychological Tests, Cross-Sectional Studies, Neural Pathways diagnostic imaging, Neural Pathways pathology, Neural Pathways physiopathology, Cognitive Dysfunction diagnostic imaging, Cognitive Dysfunction physiopathology, Brain pathology, Brain diagnostic imaging, Magnetic Resonance Imaging methods, Connectome methods, Nerve Net diagnostic imaging, Nerve Net pathology

Abstract

We aim to investigate the alterations in gray matter for subjective cognitive decline (SCD) and mild cognitive impairment (MCI) from the perspective of the human connectome. High-resolution T1-weighted images were acquired from 54 patients with SCD, 95 patients with MCI, and 65 healthy controls (HC). Morphological brain networks (MBN) were constructed using similarities in the distribution of gray matter volumes between regions. The strength of morphological connections and topographic metrics derived from the graph-theoretical analysis were compared. Furthermore, we assessed the relationship between the observed morphological abnormalities and disease severity. According to the results, we found a significantly decreased morphological connection between the somatomotor network and ventral attention network in SCD compared to HC and MCI compared to SCD. The graph-theoretic analysis illustrated disruptions in the whole network organization, where the normalized shortest path increased and the global efficiency (Eg) decreased in MCI compared to SCD. In addition, Montreal Cognitive Assessment scores of SCD patients had a significantly negative correlation with Eg. The primary limitations of the present study include the cross-sectional design, no enrolled AD patients, no assessment of amyloidosis, and the need for more comprehensive neuropsychological tests. Our findings indicate the abnormalities of morphological networks at early stages in the AD continuum, which could be interpreted as compensatory changes to retain a normal level of cognitive function. The present study could provide new insight into the mechanism of AD., (© 2023. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2024

215. Altered cortical and subcortical morphometric features and asymmetries in the subjective cognitive decline and mild cognitive impairment.

Author

Yang J, Liang L, Wei Y, Liu Y, Li X, Huang J, Zhang Z, Li L, and Deng D

Abstract

Introduction: This study aimed to evaluate morphological changes in cortical and subcortical regions and their asymmetrical differences in individuals with subjective cognitive decline (SCD) and mild cognitive impairment (MCI). These morphological changes may provide valuable insights into the early diagnosis and treatment of Alzheimer's disease (AD)., Methods: We conducted structural MRI scans on a cohort comprising 62 SCD patients, 97 MCI patients, and 70 age-, sex-, and years of education-matched healthy controls (HC). Using Freesurfer, we quantified surface area, thickness, the local gyrification index (LGI) of cortical regions, and the volume of subcortical nuclei. Asymmetry measures were also calculated. Additionally, we explored the correlation between morphological changes and clinical variables related to cognitive decline., Results: Compared to HC, patients with MCI exhibited predominantly left-sided surface morphological changes in various brain regions, including the transverse temporal gyrus, superior temporal gyrus, insula, and pars opercularis. SCD patients showed relatively minor surface morphological changes, primarily in the insula and pars triangularis. Furthermore, MCI patients demonstrated reduced volumes in the anterior-superior region of the right hypothalamus, the fimbria of the bilateral hippocampus, and the anterior region of the left thalamus. These observed morphological changes were significantly associated with clinical ratings of cognitive decline., Conclusion: The findings of this study suggest that cortical and subcortical morphometric changes may contribute to cognitive impairment in MCI, while compensatory mechanisms may be at play in SCD to preserve cognitive function. These insights have the potential to aid in the early diagnosis and treatment of AD., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision., (Copyright © 2023 Yang, Liang, Wei, Liu, Li, Huang, Zhang, Li and Deng.)

Published

2023

216. Effects of Moxa Cone Moxibustion Therapy on Cognitive Function and Brain Metabolic Changes in MCI Patients: A Pilot 1 H-MRS Study.

Author

Mai W, Zhang A, Liu Q, Tang L, Wei Y, Su J, Duan G, Teng J, Nong X, Yu B, Li C, Shao L, Deng D, Chen S, and Zhao L

Abstract

Objective: To explore the effect of moxa cone moxibustion on N -acetyl aspartate/total creatinine (NAA/tCr) and choline/total creatinine (Cho/tCr) in the bilateral hippocampus (HIP) and bilateral posterior cingulate gyrus (PCG) in patients with mild cognitive impairment (MCI) using hydrogen proton magnetic resonance spectroscopy ( 1 H-MRS) and to provide imaging basis for moxa cone moxibustion treatment for MCI., Methods: One hundred eight patients with MCI were served as the MCI group, and 67 age-matched subjects were enrolled as the normal control group. The MCI group was randomized and allocated into acupoint group, drug group, and sham acupoint group, with 36 cases in each group. Some patients in each group withdrew. Finally, 25 cases were included in the acupoint group, 24 cases in the drug group, and 20 cases in the sham acupoint group. The drug group was treated with oral donepezil hydrochloride. The acupoint group and sham acupoint group received moxa cone moxibustion treatment. Mini-mental state exam (MMSE) and Montreal cognitive assessment (MoCA) scores were recorded before intervention, at the end of the first and the second months of intervention, and in the 5th month of follow-up. The NAA/tCr and Cho/tCr ratios in the HIP and PCG were bilaterally measured by 1 H-MRS before and after intervention., Results: Before intervention, compared with the normal control group, the MMSE and MoCA scores, the Cho/tCr ratio in the right HIP, the NAA/tCr ratio in the bilateral HIP, and the NAA/tCr ratio in the left PCG in the three treatment groups decreased significantly (both p < 0.01), and the NAA/tCr ratio in the right PCG significantly reduced in the acupoint and drug groups ( p < 0.05). After two months of treatment, compared with the normal control group, there were no differences in the MoCA scores, the NAA/tCr, and Cho/tCr ratios in the bilateral PCG and bilateral HIP in the three treatment groups ( p > 0.05). However, the MMSE scores in the drug group decreased when compared with the acupoint group and normal control group ( p < 0.05, p < 0.01). The scores of MMSE and MoCA in the acupoint group and sham acupoint group at all time points were better than those in the drug group, which were similar to those in the normal control group., Conclusion: Our findings suggest that moxibustion could improve the cognitive function of patients with MCI. The mechanism may be related to the improvement of abnormal brain metabolism in HIP and PCG., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Mai, Zhang, Liu, Tang, Wei, Su, Duan, Teng, Nong, Yu, Li, Shao, Deng, Chen and Zhao.)

Published

2022

217. LncRNA UCHL1-AS1 prevents cell mobility of hepatocellular carcinoma: a study based on in vitro and bioinformatics.

Author

Zhang R, Wei Y, Zhu L, Huang L, Wei Y, Chen G, Dang Y, and Feng Z

Abstract

We set out to investigate biological functions and potential molecular mechanisms of long non-coding RNA (lncRNA) in hepatocellular carcinoma (HCC). HCC cell line Bel-7404 was cultured and transfected with antisense to the ubiquitin carboxyl-terminal hydrolase L1 (UCHL1-AS1). Viability and mobility were detected by MTT and wound healing assays. Additionally, enrichment analysis and functional networks of UCHL1-AS1 related genes in HCC were performed. Results showed that high level UCHL1-AS1 could effectively inhibit HCC cell migration. However, there was no significant correlation between overexpressed UCHL1-AS1 and HCC proliferation. Meanwhile, BMP4, CALM3, and HRAS were selected from 204 genes that related to UCHL1-AS1. All of these hub genes play critical roles in HCC occurrence and development. Thus, underlying molecular mechanisms among hub genes and UCHL1-AS1 in HCC might be valuable for prognosis and treatment., Competing Interests: None., (IJCEP Copyright © 2018.)

Published

2018