Dokumentdetails
ID

oai:HAL:hal-03983736v1

Thema
Alzheimer Engram Synapse Inhibition Microglia Reactive astrocyte [SDV.NEU.NB]Life Sciences [q-bio]/...
Autor
Jeanneteau, Freddy
Langue
en
Editor

HAL CCSD;Wiley

Kategorie

Wissenschaften: Lebenswissenschaften

Jahr

2023

Auflistungsdatum

07.12.2023

Schlüsselwörter
functional alzheimer connectivity
Metrisch

Zusammenfassung

International audience; The exact neuropathological mechanism by which dementia process unfolds is under intense scrutiny.

The disease affects about 38 million people worldwide, 70% of which are clinically diagnosed with Alzheimer's disease (AD).

If the destruction of synapses essential for learning, planning and decision-making is part of the problem, must the restoration of previously lost synapses be part of the solution?

It is plausible that neuronal capacity to restitute information corresponds with the adaptive capacity of its connectivity reserve.

A challenge will be to promote the functional connectivity that can compensate for the lost one.

This will require better clarification of the remodeling of functional connectivity during the progression of AD dementia and its reversal upon experimental treatment.

A major difficulty is to promote the neural pathways that are atrophied in AD dementia while suppressing others that are bolstered.

Therapeutic strategies shall aim at scaling functional connectivity to a just balance between the atrophic and hypertrophic systems.

However, the exact factors that can help reach this objective are still unclear.

Similarities between the effects of chronic stress and some neuropathological mechanisms underlying AD dementia support the idea that common components deserve prime attention as therapeutic targets.

Jeanneteau, Freddy, 2023, Stress and the risk of Alzheimer dementia: Can deconstructed engrams be rebuilt?, HAL CCSD;Wiley

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