Author
Xiangyang Cui
Other affiliations: Dalian University of Technology, National University of Singapore, Hebei University of Technology ...read more
Bio: Xiangyang Cui is an academic researcher from Hunan University. The author has contributed to research in topics: Finite element method & Smoothed finite element method. The author has an hindex of 37, co-authored 153 publications receiving 4381 citations. Previous affiliations of Xiangyang Cui include Dalian University of Technology & National University of Singapore.
Papers published on a yearly basis
Papers
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TL;DR: F3/contactin specifically initiates a Notch/Deltex1 signaling pathway that promotes oligodendrocyte maturation and myelination that upregulates the myelin-related protein MAG in OLN-93 cells.
363 citations
TL;DR: It is concluded that vitamin D is a plausible biological risk factor for neuropsychiatric disorders and that vitaminD acts as a neurosteroid with direct effects on brain development.
230 citations
TL;DR: It is established that NB-3, a member of the F3/contactin family, acts as a novel Notch ligand to participate in oligodendrocyte generation and may prove to be a molecular handle to treat demyelinating diseases.
146 citations
TL;DR: The nuclear expression of VDR in TH-positive neurons during critical periods of brain development suggests that alterations in early life vitamin D status may influence the orderly development of dopaminergic neurons.
143 citations
TL;DR: The purpose of this review is to summarise the in vitro and in-vivo work that has been conducted to characterise the genomic and non-genomic actions of vitamin D in the brain and link these processes to functional neurochemical and behavioural outcomes.
143 citations
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TL;DR: It is suggested that if assessment of overdoses were left to house doctors there would be an increase in admissions to psychiatric units, outpatients, and referrals to social services, but for house doctors to assess overdoses would provide no economy for the psychiatric or social services.
Abstract: admission. This proportion could already be greater in some parts of the country and may increase if referrals of cases of self-poisoning increase faster than the facilities for their assessment and management. The provision of social work and psychiatric expertise in casualty departments may be one means of preventing unnecessary medical admissions without risk to the patients. Dr Blake's and Dr Bramble's figures do not demonstrate, however, that any advantage would attach to medical teams taking over assessment from psychiatrists except that, by implication, assessments would be completed sooner by staff working on the ward full time. What the figures actually suggest is that if assessment of overdoses were left to house doctors there would be an increase in admissions to psychiatric units (by 19°U), outpatients (by 5O°'), and referrals to social services (by 140o). So for house doctors to assess overdoses would provide no economy for the psychiatric or social services. The study does not tell us what the consequences would have been for the six patients who the psychiatrists would have admitted but to whom the house doctors would have offered outpatient appointments. E J SALTER
4,497 citations
TL;DR: This Review highlights recent studies in Notch signaling that reveal new molecular details about the regulation of ligand-mediated receptor activation, receptor proteolysis, and target selection.
3,120 citations
01 Jan 2010
TL;DR: In this paper, the authors describe a scenario where a group of people are attempting to find a solution to the problem of "finding the needle in a haystack" in the environment.
Abstract: 中枢神経系疾患の治療は正常細胞(ニューロン)の機能維持を目的とするが,脳血管障害のように機能障害の原因が細胞の死滅に基づくことは多い.一方,脳腫瘍の治療においては薬物療法や放射線療法といった腫瘍細胞の死滅を目標とするものが大きな位置を占める.いずれの場合にも,細胞死の機序を理解することは各種病態や治療法の理解のうえで重要である.現在のところ最も研究の進んでいる細胞死の型はアポトーシスである.そのなかで重要な位置を占めるミトコンドリアにおける反応および抗アポトーシス因子について概要を紹介する.
2,716 citations
TL;DR: The mechanisms of remyelination provide critical clues for regeneration biologists that help them to determine why remYelination fails in MS and in other demyelinating diseases and how it might be enhanced therapeutically.
Abstract: Remyelination involves reinvesting demyelinated axons with new myelin sheaths. In stark contrast to the situation that follows loss of neurons or axonal damage, remyelination in the CNS can be a highly effective regenerative process. It is mediated by a population of precursor cells called oligodendrocyte precursor cells (OPCs), which are widely distributed throughout the adult CNS. However, despite its efficiency in experimental models and in some clinical diseases, remyelination is often inadequate in demyelinating diseases such as multiple sclerosis (MS), the most common demyelinating disease and a cause of neurological disability in young adults. The failure of remyelination has profound consequences for the health of axons, the progressive and irreversible loss of which accounts for the progressive nature of these diseases. The mechanisms of remyelination therefore provide critical clues for regeneration biologists that help them to determine why remyelination fails in MS and in other demyelinating diseases and how it might be enhanced therapeutically.
1,325 citations