Neuroscience Research,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Dec. 1, 2024
Despite
the
crucial
role
of
synaptic
connections
and
neural
activity
in
development
organization
cortical
circuits,
mechanisms
underlying
formation
functional
developing
human
cerebral
cortex
remain
unclear.
We
investigated
α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic
acid
receptor
(AMPAR)-mediated
transmission
using
organoids
(hCOs)
derived
from
induced
pluripotent
stem
cells.
Two-photon
Ca
The
skeleton
is
highly
innervated
by
numerous
nerve
fibers.
These
fibers,
in
addition
to
transmitting
information
within
the
bone
and
mediating
sensations,
play
a
crucial
role
regulating
tissue
formation
regeneration.
Traditional
engineering
(BTE)
often
fails
achieve
satisfactory
outcomes
when
dealing
with
large-scale
defects,
which
frequently
related
lack
of
effective
reconstruction
neurovascular
network.
In
recent
years,
increasing
research
has
revealed
critical
nerves
metabolism.
Nerve
fibers
regulate
cells
through
neurotransmitters,
neuropeptides,
peripheral
glial
cells.
Furthermore,
also
coordinate
vascular
immune
systems
jointly
construct
microenvironment
favorable
for
As
signaling
driver
formation,
neuroregulation
spans
entire
process
physiological
activities
from
embryonic
postmaturity
remodeling
repair.
However,
there
currently
comprehensive
summaries
these
regulatory
mechanisms.
Therefore,
this
review
sketches
out
function
during
Then,
we
elaborate
on
mechanisms
coupling
neuromodulation
immunity.
Finally,
discuss
several
novel
strategies
neuro-bone
(NBTE)
based
bone,
focusing
coordinated
regeneration
tissue.
Neurobiology of Learning and Memory,
Journal Year:
2025,
Volume and Issue:
unknown, P. 108037 - 108037
Published: March 1, 2025
Memory
retrieval
involves
coordinated
activity
across
multiple
brain
regions.
Yet
how
the
organization
of
memory
networks
evolves
throughout
development
remains
poorly
understood.
In
this
study,
we
compared
whole-brain
functional
that
are
active
during
contextual
fear
recall
in
infant,
juvenile,
and
adult
mice.
Our
analyses
revealed
long-term
change
significantly
postnatal
development.
Infant
dense
heterogeneous,
whereas
sparse
have
a
small-world
topology.
While
hippocampal
subregions
were
highly
connected
nodes
at
all
ages,
cortex
gained
many
connections
Different
matured
different
rates,
but
their
developmental
timing
fell
into
three
major
categories:
stepwise
between
two
linear
or
inverted-U,
with
elevated
connectivity
juveniles.
work
highlights
subset
regions
likely
maintain
important
roles
encoding,
undergoes
significant
reorganization
Together,
these
results
provide
blueprint
for
studying
correlated
cellular
key
areas
distinctly
regulates
storage
Developmental Cognitive Neuroscience,
Journal Year:
2025,
Volume and Issue:
unknown, P. 101556 - 101556
Published: April 1, 2025
Metastability,
a
concept
from
dynamical
systems
theory,
provides
framework
for
understanding
how
the
brain
shifts
between
various
functional
states
and
underpins
essential
cognitive,
behavioural,
social
function.
While
studied
in
adults,
metastability
early
development
has
only
received
recent
attention.
As
undergoes
dramatic
structural
changes
over
third
gestational
trimester,
here
we
review
these
are
reflected
metastable
dynamics
preterm,
preterm
at
term-equivalent
full-term
neonates.
We
synthesize
findings
EEG,
fMRI,
fUS,
computational
models,
focusing
on
spatial
distribution
temporal
of
states,
which
include
integration
segregation,
signal
predictability
complexity.
Despite
fragmented
evidence,
studies
suggest
that
neonatal
develops
equivalent
with
increasing
ability
integration-segregation,
broader
range
faster
state
transitions
greater
Preterms
age
exhibit
immature
features
compared
to
full-terms.
explain
interpret
terms
maturation
free
energy
landscape
establishment
cognitive
functions.
Brain and Development,
Journal Year:
2025,
Volume and Issue:
47(3), P. 104358 - 104358
Published: April 14, 2025
Neurodevelopmental
disorders
(NDDs)
are
often
referred
to
as
"synaptopathies"
because
many
of
their
behavioral
symptoms
arise
from
impaired
synaptic
development
and
function.
However,
the
mechanisms
that
connect
dysfunction
neurological
remain
unclear,
mainly
due
wide
variety
genetic
environmental
factors
involved
in
these
disorders.
Fragile
X
syndrome
Rett
syndrome,
two
extensively
studied
monogenic
NDDs,
provide
a
unique
opportunity
explore
at
molecular,
cellular,
levels.
This
review
summarizes
current
understanding
how
alterations
contribute
observed
fragile
syndromes.
A
comparison
findings
mouse
models
indicates
an
imbalance
local
distal
connectivity
may
serve
common
feature
both
bioRxiv (Cold Spring Harbor Laboratory),
Journal Year:
2024,
Volume and Issue:
unknown
Published: Aug. 22, 2024
Neural
population
dynamics
are
shaped
by
many
cellular,
synaptic,
and
network
properties.
Not
only
is
it
important
to
understand
how
coordinated
changes
in
circuit
parameters
alter
neural
activity,
but
also
when
unaffected
by—or
invariant
to—such
changes.
Computational
modeling
has
revealed
invariances
single
neurons
small
circuits
that
thought
reflect
their
robustness
against
variability
perturbations.
However,
generalizing
these
insights
larger
cortex
other
brain
areas
remains
challenging.
A
key
bottleneck
lies
inverse
of
with
spiking
models,
i.e.,
identifying
parameter
configurations
quantitatively
match
observed
recordings.
Here,
we
present
Automated
Model
Inference
from
Dynamics
(AutoMIND)
for
efficient
discovery
model
configurations.
AutoMIND
leverages
a
mechanistic
adaptive
clustered
connectivity,
which
displays
rich
variety
spatiotemporal
dynamics.
Probabilistic
deep
generative
models—trained
on
simulations
only—then
returns
consistent
given
target
observation
activity.
Applied
several
datasets,
discovers
models
synchronous
bursting
human
organoids
across
early
development,
as
well
capturing
complex
frequency
profiles
Neuropixels
recordings
mouse
hippocampus
cortex.
In
each
case,
obtain
hundreds
compose
(nonlinear)
subspace
remain
unchanged.
Surprisingly,
global
local
geometries
the
not
fixed,
differ
different
Together,
our
results
shed
light
dynamic-dependent
underlying
diverse
dynamics,
while
demonstrating
flexibility
circuits.
bioRxiv (Cold Spring Harbor Laboratory),
Journal Year:
2024,
Volume and Issue:
unknown
Published: Sept. 3, 2024
ABSTRACT
Brains
face
selective
pressure
to
optimize
computation,
broadly
defined.
This
optimization
is
achieved
by
myriad
mechanisms
and
processes
that
influence
the
brain’s
computational
state.
These
include
development,
plasticity,
homeostasis,
more.
Despite
enormous
variability
over
time
between
individuals,
do
these
diverse
converge
on
same
set-point?
Is
there
a
universal
optimum
around
which
healthy
brain
tunes
itself?
The
criticality
hypothesis
posits
such
unified
set-point.
Criticality
special
dynamical
state,
defined
internally-generated
multi-scale,
marginally-stable
dynamics
maximize
many
features
of
information
processing.
first
experimental
support
for
this
emerged
two
decades
ago,
evidence
has
accumulated
at
an
accelerating
pace,
despite
contentious
history.
Here,
we
lay
out
logic
as
general
end-point
systematically
review
hypothesis.
We
perform
meta-analysis
143
datasets
from
manuscripts
published
2003
2024.
To
our
surprise,
find
long-standing
controversy
in
field
product
simple
methodological
choice
no
bearing
underlying
dynamics.
Our
results
suggest
new
generation
research
can
leverage
concept
criticality—as
unifying
principle
function–to
accelerate
understanding
behavior,
cognition,
disease.
