Mitochondria and neuroplasticity

Common aspects of neuroplasticity, stress, mood disorders and mitochondrial functions

Neuroplasticity is a fundamental mechanism of neuronal adaptation to external and internal stimuli. There are evidences that chronic stress and mood disorders disrupt neuroplasticity, while antidepressant treatment can enhance neuroplasticity. Mitochondria strongly affect many intracellular processes coupled to plasticity and neuron survival. Mitochondrial dysfunctions are assuming an increasin...

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The production of neurons from neural progenitor cells, the growth of axons and dendrites and the formation and reorganization of synapses are examples of neuroplasticity. These processes are regulated by cell-autonomous and intercellular (paracrine and endocrine) programs that mediate responses of neural cells to environmental input. Mitochondria are highly mobile and move within and between s...

Neuroplasticity and neuromotor synergies in context of rehabilitation after stroke: a systematic review

Background: Alterations of neuroplasticity and cortical excitability are important pathophysiological factors in stroke. Modulation of the neuroplasticity has been proposed as an underlying mechanism of recovery in different neurological disorders. But it is not still clear how the CNS faces the complexity of muscle control. Neuroplastic processes may be used for the functional improvement of s...

Induction of Neuroplasticity by Transcranial Direct Current Stimulation

P 138: Improving Neuroplasticity Through Neuroinflammation Pathways as a Therapeutic Goal in the Treatment of Autism

Neuroplasticity is the brain's ability to reorganize itself by forming new neural connections throughout life. Neuroplasticity allows the neurons in the brain to compensate injury and disease and to adjust their activities in response to new situations or to changes in their environment. At the other side, it is now well established that neuronal function is strongly influenced by both central ...