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Neuroplasticity01:01

Neuroplasticity

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Neuroplasticity reflects the brain's remarkable capacity to adapt and evolve, responding dynamically to learning, experiences, or injury by reorganizing its neural circuitry. This reorganization involves creating new neural connections and refining old ones through a series of biological processes that contribute to the brain's lifelong development and adaptability.
1.6K
Neurogenesis and Regeneration of Nervous Tissue01:15

Neurogenesis and Regeneration of Nervous Tissue

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In the CNS, neurogenesis, the birth of new neurons from stem cells, is limited to the hippocampus in adults. In other regions of the brain and spinal cord, neurogenesis is almost non-existent due to inhibitory influences from neuroglia, especially oligodendrocytes, and the absence of growth-stimulating cues. The myelin produced by oligodendrocytes in the CNS inhibits neuronal regeneration. Furthermore, astrocytes proliferate rapidly after neuronal damage, forming scar tissue that physically...
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Plasticity00:58

Plasticity

3.0K
Plasticity is the property where an object loses its elasticity and undergoes irreversible deformation, even after the deformation forces are eliminated. If a material deforms irreversibly without increasing stress or load, then this is called ideal plasticity. For example, when a force is applied to an aluminum rod, it changes its shape, but it does not return to its original shape once the force is removed. Plastic deformation or ductility is thus a permanent deformation or change in the...
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Long-term Potentiation01:25

Long-term Potentiation

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Long-term potentiation, or LTP, is one of the ways by which synaptic plasticity—changes in the strength of chemical synapses—can occur in the brain. LTP is the process of synaptic strengthening that occurs over time between pre and postsynaptic neuronal connections. The synaptic strengthening of LTP works in opposition to the synaptic weakening of long-term depression (LTD) and together are the main mechanisms that underlie learning and memory.
Hebbian LTP
LTP can occur when...
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Neurulation01:30

Neurulation

45.4K
Neurulation is the embryological process which forms the precursors of the central nervous system and occurs after gastrulation has established the three primary cell layers of the embryo: ectoderm, mesoderm, and endoderm. In humans, the majority of this system is formed via primary neurulation, in which the central portion of the ectoderm—originally appearing as a flat sheet of cells—folds upwards and inwards, sealing off to form a hollow neural tube. As development proceeds, the...
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相关实验视频

Updated: Jan 17, 2026

Whole-cell Patch-clamp Recordings in Brain Slices
07:23

Whole-cell Patch-clamp Recordings in Brain Slices

Published on: June 15, 2016

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为什么教科书对大脑可塑性有错?

Harriet Dempsey-Jones1

  • 1School of Psychology, University of Queensland, Brisbane 4072, Australia.

Trends in cognitive sciences
|September 21, 2025
PubMed
概括

脑体图显示出令人惊的稳定性,与此前的看法相反. 缺失的肢体表现仍然存在,表明神经可塑性比以前理解的更复杂.

科学领域:

  • 神经科学是一个神经科学.
  • 神经可塑性 神经可塑性
  • 身体感官系统 身体感官系统

背景情况:

  • 教科书模型表明,在失去肢体后,大脑的戏剧性重组.
  • 以前对大脑可塑性的解释可能忽视了持续的神经表征.

研究的目的:

  • 为了研究肢体丧失后大脑身体图的稳定性.
  • 重新评估体感皮质神经可塑性的程度和性质.

主要方法:

  • 利用先进的神经成像技术来探测大脑活动.
  • 在缺失四肢表示的背景下检查神经反应.

主要成果:

  • 揭示了大脑对身体的表现中的意想不到的稳定性.
  • 证明了缺失肢体的表征仍然存在,挑战了完全重绘的理论.
  • 确定可塑性以前只被部分理解.

结论:

  • 大脑的身体图表表现出比通常认为的更大的稳定性.
  • 缺失四肢的持续的神经表征为神经可塑性提供了新的见解.
  • 需要进一步的研究才能充分理解这些持久表征变得活跃的条件.
关键词:
这是一个SI SI SI SI.皮质地图 - - 皮质地图.皮层重组的皮层重组.剥夺是一种剥夺.幻肢是一个幻肢.幻象疼痛是一种幻象疼痛.主要的体感皮层 (somatosensory cortex) 是一个主要的体感皮层.重新绘制地图是重新绘制地图.组织重组就是重组.

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