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neusklem

Neusklem is a hypothetical neural mechanism proposed to explain rapid, cross-network integration of information across distributed cortical areas. In speculative accounts, neusklem describes a transient, high-contrast synchronization of neuronal ensembles that binds contents from different modalities into a coherent percept, plan, or action. The process is envisioned as brief, typically lasting tens to hundreds of milliseconds, and is thought to be facilitated by phasic neuromodulatory input and dynamic reconfiguration of functional connectivity, including thalamocortical loops and long-range cortico-cortical pathways. The term combines neuro- with a coined suffix intended to evoke linking or clamping across networks.

Origin and theoretical role have varied in the literature. Neusklem was introduced in discussions of rapid

Evidence and status are debated. Some EEG and MEG studies report brief increases in phase synchronization between

If substantiated, neusklem could illuminate how the brain achieves rapid, flexible integration without durable structural changes,

cognitive
integration
in
the
early
2020s
as
a
conceptual
solution
to
the
binding
problem,
rather
than
as
an
established
physiological
fact.
It
is
often
described
as
a
coordinating
mechanism
that
allows
disparate
neural
representations
to
be
momentarily
united
under
a
common
attentional
or
task-related
state.
distant
regions
during
attention-demanding
or
multitasking
conditions,
interpreted
as
possible
supporting
data
for
neusklem.
Animal
work
has
shown
transient
cross-regional
coherence
in
certain
tasks,
yet
replication
and
interpretation
remain
contested.
Critics
argue
that
observed
synchrony
may
arise
from
common
input,
volume
conduction,
or
methodological
artifacts,
rather
than
true
binding.
with
implications
for
models
of
cognitive
control,
working
memory,
and
perceptual
binding,
and
for
understanding
disorders
characterized
by
disrupted
cross-network
communication.
See
also:
neural
binding,
gamma
oscillations,
neural
synchrony,
thalamocortical
rhythms,
global
workspace
theory.