Neuroplasticity – Exercise-Induced Response of Peripheral Brain-Derived Neurotrophic Factor

Knaepen, Kristel; Goekint, Maaike; Heyman, Elsa; Meeusen, Romain

doi:10.2165/11534530-000000000-00000

Cited by 728 publications

(645 citation statements)

References 122 publications

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“…68 There remains some controversy as to whether lower or higher levels of BDNF levels in the periphery are protective. It has been suggested that lower levels of BDNF in people with higher fitness levels may reflect more effective BDNF clearance in the periphery of these individuals (see review by Knaepen and colleagues 69 ), furthermore the form of BDNF being investigated (i.e. pro-BDNF vs total BDNF) may also be a determining factor in terms of the effect of BDNF on AD risk.…”

Section: Exercise May Increase Levels Of Growth Factors and Neurotranmentioning

confidence: 99%

Multiple effects of physical activity on molecular and cognitive signs of brain aging: can exercise slow neurodegeneration and delay Alzheimer’s disease?

2012

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Western countries are experiencing aging populations and increased longevity; thus the incidence of dementia and Alzheimer's disease (AD) in these countries is projected to soar.In the absence of a therapeutic drug, non-pharmacological preventative approaches are being investigated. One of these approaches is regular participation in physical activity or exercise.This paper reviews studies that have explored the relationship between physical activity and cognitive function, cognitive decline, AD/dementia risk and AD-associated biomarkers and processes. There is now strong evidence that links regular physical activity or exercise to higher cognitive function, decreased cognitive decline and reduced risk of AD or dementia.Nevertheless, these associations require further investigation, more specifically with interventional studies that include long follow-up periods. In particular, relatively little is known about the underlying mechanism(s) of the associations between physical activity and AD neuropathology; clearly this is an area in need of further research, particularly in human populations. While benefits of physical activity or exercise are clearly recognised, there is a need to clarify how much physical activity provides the greatest benefit and also whether people of different genotypes require tailored exercise regimes.3

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Section: Exercise May Increase Levels Of Growth Factors and Neurotranmentioning

confidence: 99%

Multiple effects of physical activity on molecular and cognitive signs of brain aging: can exercise slow neurodegeneration and delay Alzheimer’s disease?

2012

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“…It is well accepted that motor recovery after stroke is achieved through cortical reorganization, in which the brain and central nervous system (CNS) adapt in response to environmental and behavioral change to acquire novel information by modifying neural connectivity and function (Knaepen, Goekint, Heyman, & Meeusen, 2010;Mang, Campbell, Ross, & Boyd, 2013). Although the exact mechanism for cortical reorganization is not known, neurotrophins are thought to play a major role by enabling neuronal survival, potentiation, and differentiation; promoting dendritic growth and remodeling; and promoting synaptic plasticity (Lin & Kuo, 2013;Voss, Nagamatsu, Liu-Ambrose, & Kramer, 2011).…”

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confidence: 99%

Forced Aerobic Exercise Enhances Motor Recovery After Stroke: A Case Report

Linder

Rosenfeldt

Rasanow

et al. 2015

The American Journal of Occupational Therapy

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OBJECTIVE. Previously, we demonstrated that forced aerobic exercise (FE) increases the pattern of neural activation in Parkinson's disease. We sought to evaluate whether FE, when coupled with repetitive task practice, could promote motor recovery poststroke. METHOD.A 46-yr-old man with ischemic stroke exhibited chronic residual upper-extremity deficits, scoring 35/66 on the Fugl-Meyer Assessment (FMA) at baseline. He completed 24 training sessions comprising 45 min of FE on a motorized stationary bicycle followed by 45 min of upper-extremity repetitive task practice. RESULTS.From baseline to end of treatment, the FMA score improved by 20 points, perceived level of recovery on the Stroke Impact Scale increased by 20 percentage points, and cardiovascular function measured by peak oxygen uptake improved 30%. These improvements persisted 4 wk after the intervention ceased.

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“…[21][22][23][24][25][26][27]. Other factors such as electrical stimulation (transcranial direct current stimulation), habitual exercise, pharmacological agents, psycho-/behavioral therapy, stress as well as environmental factors also affect neurometaplasticity [28][29][30][31][32][33][34][35]. These factors affect neurometaplasticity by indirect influence on neurotransmitters, receptors, transporters, genome and epigenome of brain cells [29,30].…”

Section: Mechanisms Of Neurometaplasticitymentioning

confidence: 99%

“…Other factors such as electrical stimulation (transcranial direct current stimulation), habitual exercise, pharmacological agents, psycho-/behavioral therapy, stress as well as environmental factors also affect neurometaplasticity [28][29][30][31][32][33][34][35]. These factors affect neurometaplasticity by indirect influence on neurotransmitters, receptors, transporters, genome and epigenome of brain cells [29,30]. The receptors implicated in LTP and LTD include N-methyl-D-aspartate receptor (NMDAR), metabotropic glutamate receptors (mGluRs), endocannabinoid receptors, ion channel receptors (e.g.…”

Section: Mechanisms Of Neurometaplasticitymentioning

confidence: 99%

Neurometaplasticity: Glucoallostasis control of plasticity of the neural networks of error commission, detection, and correction modulates neuroplasticity to influence task precision

Welcome

Dane

Mastorakis

et al. 2017

AIP Conference Proceedings

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Abstract. The term "metaplasticity" is a recent one, which means plasticity of synaptic plasticity. Correspondingly, neurometaplasticity simply means plasticity of neuroplasticity, indicating that a previous plastic event determines the current plasticity of neurons. Emerging studies suggest that neurometaplasticity underlie many neural activities and neurobehavioral disorders. In our previous work, we indicated that glucoallostasis is essential for the control of plasticity of the neural network that control error commission, detection and correction. Here we review recent works, which suggest that task precision depends on the modulatory effects of neuroplasticity on the neural networks of error commission, detection, and correction. Furthermore, we discuss neurometaplasticity and its role in error commission, detection, and correction.

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Neuroplasticity – Exercise-Induced Response of Peripheral Brain-Derived Neurotrophic Factor

Cited by 728 publications

References 122 publications

Multiple effects of physical activity on molecular and cognitive signs of brain aging: can exercise slow neurodegeneration and delay Alzheimer’s disease?

Multiple effects of physical activity on molecular and cognitive signs of brain aging: can exercise slow neurodegeneration and delay Alzheimer’s disease?

Forced Aerobic Exercise Enhances Motor Recovery After Stroke: A Case Report

Neurometaplasticity: Glucoallostasis control of plasticity of the neural networks of error commission, detection, and correction modulates neuroplasticity to influence task precision

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