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reconsolidation

Reconsolidation is the process by which a retrieved memory becomes destabilized and then restabilized through protein synthesis-dependent mechanisms, allowing modification before it is stored again. It is distinct from initial consolidation, which stabilizes a newly formed memory. Retrieval-induced lability means memories can be updated, strengthened, or weakened after retrieval.

Neural substrates include the hippocampus for contextual and relational aspects, the amygdala for emotional memories, and

Whether reconsolidation occurs depends on boundary conditions such as prediction error, memory age, and retrieval context.

Clinically, reconsolidation has been explored as a way to modify fear, trauma, and addictive memories. Interventions

the
prefrontal
cortex
for
control
and
evaluation.
Molecularly,
reconsolidation
requires
protein
synthesis,
NMDA
receptor
signaling,
and
intracellular
cascades
such
as
CaMKII
and
CREB.
Destabilization
followed
by
restabilization
involves
protein
turnover
and
synaptic
remodeling.
The
destabilization
window
after
retrieval
typically
lasts
a
few
hours.
Stronger
or
more
entrenched
memories
may
be
less
susceptible,
while
novelty
and
arousal
can
influence
updating.
include
pharmacological
disruption
during
retrieval,
such
as
beta-adrenergic
blockers
like
propranolol,
and
behavioral
approaches
like
retrieval-extinction.
The
evidence
is
mixed,
with
variability
across
memory
types
and
individuals,
and
further
research
is
needed
to
establish
safety,
efficacy,
and
practical
guidelines.