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neurophysiology

Neurophysiology is the branch of physiology that studies the functions of the nervous system. It seeks to understand how nerve cells, networks, and circuits produce perception, movement, emotion, and cognition by converting electrical and chemical signals into coordinated activity. The field spans multiple levels of organization, from the properties of individual neurons to the activity of large-scale brain networks that underlie behavior.

Core concepts include resting membrane potential, action potentials, synaptic transmission, and plasticity. Neurons communicate through electrical

Common experimental approaches encompass electrophysiology, such as intracellular and patch-clamp recordings to measure membrane currents, and

Applications include understanding sensory processing, motor control, autonomic regulation, sleep, and cognition, as well as diagnosing

impulses
and
chemical
synapses,
with
ion
gradients
and
voltage-gated
channels
shaping
signals.
Glial
cells
also
contribute
to
neural
function
by
supporting
metabolism,
signaling,
and
homeostasis.
The
study
of
neurophysiology
covers
how
sensory
inputs
are
transformed
into
neural
representations,
how
motor
commands
are
generated,
and
how
higher
cognitive
processes
emerge
from
distributed
networks.
extracellular
recordings
of
action
potentials.
Techniques
like
electroencephalography
and
magnetoencephalography
record
aggregate
neuronal
activity,
while
functional
imaging
methods
such
as
fMRI
and
PET
infer
neural
activity
from
metabolic
and
hemodynamic
signals.
Neurochemistry
investigates
neurotransmitters
and
receptors,
and
modern
methods
like
optogenetics
and
chemogenetics
enable
causal
manipulation
of
specific
neural
populations.
Computational
models
are
used
to
simulate
neural
dynamics
and
information
processing.
and
treating
neurological
disorders.
Neurophysiology
intersects
with
neuroscience,
psychology,
biomedical
engineering,
and
medicine
to
explain
how
the
nervous
system
supports
behavior
and
experience.