Journal Article10.1177/1073858407302725
Brain Plasticity Mechanisms and Memory: A Party of Four
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TL;DR: While they have long been considered as alternative mechanisms of plasticity underlying the storage of long-term memories, recent evidence suggests that they are functionally linked, suggesting the mechanisms underlying plasticity in the brain required for the formation and retention of memories are multifaceted.
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Abstract: A defining characteristic of the brain is its remarkable capacity to undergo activity-dependent functional and morphological remodeling via mechanisms of plasticity that form the basis of our capacity to encode and retain memories. Today, it is generally accepted that the neurobiological substrate of memories resides in activity-driven modifications of synaptic strength and structural remodeling of neural networks activated during learning. Since the discovery of long-term potentiation, the role of synaptic strengthening in learning and memory has been the subject of considerable investigation, and numerous studies have provided new insights into how this form of plasticity can subserve memory function. At the same time, other studies have explored the contribution of synaptic elimination or weakening; synaptogenesis, the growth of new synaptic connections and synapse remodeling; and more recently, neurogenesis, the birth and growth of new neurons in the adult brain. In this review, based on work in the h...
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Evidence for a cytokine model of cognitive function
TL;DR: The identified central role of cytokines in various brain activities during health provides greater insight into normal brain functions, especially synaptic plasticity, memory and cognition, and facilitates the understanding of specific biological mechanisms involved in neuropsychiatric diseases, such as dementia and depression.
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Learning in the Fast Lane: New Insights into Neuroplasticity
Yaniv Sagi,Ido Tavor,Shir Hofstetter,Shimrit Tzur-Moryosef,Tamar Blumenfeld-Katzir,Yaniv Assaf +5 more
TL;DR: It is concluded that cellular rearrangement of neural tissue can be detected by DTI, and that this modality may allow neuroplasticity to be localized over short timescales.
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Shorter term aerobic exercise improves brain, cognition, and cardiovascular fitness in aging.
Sandra B. Chapman,Sina Aslan,Jeffrey S. Spence,Laura F. DeFina,Molly Keebler,Nyaz Didehbani,Hanzhang Lu +6 more
TL;DR: Cognitive gains were manifested in the exercise group's improved immediate and delayed memory performance from T1 to T3 which also showed a significant positive association with increases in both left and right hippocampal CBF identified earlier in the time course at T2.
Neural Mechanisms of Brain Plasticity with Complex Cognitive Training in Healthy Seniors
Sandra B. Chapman,Sina Aslan,Jeffrey S. Spence,John Hart,Elizabeth K. Bartz,Nyaz Didehbani,Molly Keebler,Claire M. Gardner,Jeremy F. Strain,Laura F. DeFina,Hanzhang Lu +10 more
TL;DR: It is proposed that cognitive training enhances resting-state neural activity and connectivity, increasing the blood supply to these regions via neurovascular coupling, and preliminary evidence that neural plasticity can be harnessed to mitigate brain losses with cognitive training in seniors is provided.
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Peripheral Nerve Injury Leads to Working Memory Deficits and Dysfunction of the Hippocampus by Upregulation of TNF-α in Rodents
Wenjie Ren,Yong Liu,Li-Jun Zhou,Wei Li,Yi Zhong,Rui-Ping Pang,Wen-Jun Xin,Xu-Hong Wei,Jun Wang,He-Quan Zhu,Chang-You Wu,Zhihai Qin,Guosong Liu,Xian-Guo Liu +13 more
TL;DR: This study found that SNI impaired working memory and short-term memory in rats and mice and suggested that the over-production of TNF-α following peripheral nerve injury might lead to neuropathic pain and memory deficits, simultaneously.
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