Results 311 to 320 of about 215,731 (353)

Neural ECM in regeneration and rehabilitation

2014
Neural extracellular matrix (ECM) is different from the normal ECM in other organs in that it has low fibrous protein content and high carbohydrate content. One of the key carbohydrate components in the brain ECM is chondroitin sulfate proteoglycans (CSPGs).
Sujeong Yang, Jessica C.F. Kwok, James W. Fawcett   +2 more
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Neural regeneration in gastropod molluscs

Progress in Neurobiology, 1995
Snails recover function following a variety of neural injuries. They grow new tentacles with associated tentacle ganglia, selectively reinnervate peripheral targets, repair central connections and may even replace lost neurons and ganglia. The plasticity revealed in their responses to neural injury is an extreme expression of the adaptability observed ...
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Neural regeneration in the chick retina

Progress in Retinal and Eye Research, 2005
In warm-blooded vertebrates, possibilities for retinal regeneration have recently become reality with the discovery of neural stem cells in the mature eye. A number of different cellular sources of neural stem cells have been identified. These sources include stem cells at the retinal margin, pigmented cells in the ciliary body and iris, non-pigmented ...
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A regenerating spiking neural network

Neural Networks, 2005
Due to their distributed architecture, artificial neural networks often show a graceful performance degradation to the loss of few units or connections. Living systems also display an additional source of fault-tolerance obtained through distributed processes of self-healing: defective components are actively regenerated.
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Neural Modulation of Regenerating Adrenal Transplants

Endocrine Research, 2000
In addition to control of adrenal cortical steroidogenesis by adrenocorticotropic hormone (ACTH) and angiotensin 11, the intact rat adrenal gland is extensively innervated by a variety of nerve fibers that have been implicated in modulating adrenal cortical function (reviewed in 1).
Y M, Ulrich-Lai, W C, Engeland
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Advances in neural regeneration.

Annals of the Royal Australasian College of Dental Surgeons, 1991
The familiar concept of the inability of injured neurones in the mammalian central nervous system to regenerate has been deep-rooted in the minds of neurologists since the time of Ramon y Cajal. However, modern research techniques and novel experimental manipulations have begun to reveal the existence of a robust potential for axonal regrowth even in ...
So, KF, Cho, EY
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Neural recognition molecules in disease and regeneration

Current Opinion in Neurobiology, 1994
The genetic analysis of inherited human diseases of the nervous system and the characterization of transgenic mice deficient in neural recognition molecules is opening up a new dimension in understanding the cellular and molecular mechanisms underlying neuro-developmental and -degenerative diseases, as well as in delineating the functions of ...
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Neural Regeneration

2023
Shima Tavakol, Masoumeh Zahmatkeshan, Mostafa Rahvar   +2 more
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The Phenomenon of Neural Regeneration

1996
Following neural injury, the complex sequence of events leading to neural regeneration will not be undertaken unless survival in the short term is assured. For most species to survive injury to the central nervous system (CNS), neural control of homeostatic functions must remain intact, although some very simple animals, such as flatworms, ribbon worms,
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A Nanoformulation‐Mediated Multifunctional Stem Cell Therapy with Improved Beta‐Amyloid Clearance and Neural Regeneration for Alzheimer's Disease

Advanced Materials, 2021
Yuheng Cao, Yongyang Liu, Chunyan Li
exaly