Abstract
The
peripheral
nervous
system
(PNS)
is
a
fascinatingly
complex
and
crucial
component
of
the
human
body,
responsible
for
transmitting
vital
signals
throughout
body's
intricate
network
nerves.
Its
efficient
functioning
paramount
to
our
health,
with
any
dysfunction
often
resulting
in
serious
medical
conditions,
including
motor
disorders,
neurological
diseases,
psychiatric
disorders.
Recent
strides
science
technology
have
made
neuromodulation
PNS
promising
avenue
addressing
these
health
issues.
Neuromodulation
involves
modifying
nerve
activity
using
range
techniques,
such
as
electrical,
chemical,
optical,
mechanical
stimulation.
Bioelectronics
plays
critical
role
this
effort,
allowing
precise,
controlled,
sustained
stimulation
PNS.
This
paper
provides
an
overview
PNS,
discusses
current
state
devices,
presents
emerging
trends
field,
advances
wireless
power
transfer
materials,
that
are
shaping
future
neuromodulation.
Micromachines,
Год журнала:
2023,
Номер
14(10), С. 1915 - 1915
Опубликована: Окт. 9, 2023
Glaucoma,
marked
by
its
intricate
association
with
intraocular
pressure
(IOP),
stands
as
a
predominant
cause
of
non-reversible
vision
loss.
In
this
review,
the
physiological
relevance
IOP
is
detailed,
alongside
potential
pathological
consequences.
The
review
further
delves
into
innovative
engineering
solutions
for
monitoring,
highlighting
latest
advancements
in
wearable
and
implantable
sensors
their
enhancing
glaucoma
management.
These
technological
innovations
are
interwoven
clinical
practice,
underscoring
real-world
applications,
patient-centered
strategies,
prospects
future
development
control.
By
synthesizing
theoretical
concepts,
innovations,
practical
insights,
contributes
cohesive
comprehensive
perspective
on
biosensor’s
role
glaucoma,
serving
reference
ophthalmological
researchers,
clinicians,
professionals.
Advanced NanoBiomed Research,
Год журнала:
2022,
Номер
2(12)
Опубликована: Ноя. 20, 2022
Organoids
refer
to
3D
stem
cells
that
have
been
developed
model
neurological
disorders
in
vitro.
Typically,
brain
and
heart
organoids
gained
interest
for
their
potential
truly
mimic
the
functional
ability
of
real
organs.
Morphological
analysis
methods
using
immunostaining
slicing
are
explored
extensively
over
past
decade
evaluate
structures
functions
organoids.
However,
destructiveness
these
limits
real‐time
monitoring
dynamic
responses
Therefore,
electrophysiological
with
minimally
invasive
forms
can
be
a
key
solution
an
improved
understanding
nature
complex
Herein,
latest
advances
recording
platforms
reviewed
comprehensive
study
considerations
regarding
factors
is
provided.
Furthermore,
current
challenges
discussed
along
prospects
next‐generation
ACS Applied Electronic Materials,
Год журнала:
2023,
Номер
5(4), С. 1926 - 1946
Опубликована: Март 27, 2023
Rapid
advances
in
neurotechnology
enable
bidirectional
communication
between
the
nervous
system
and
engineered
devices.
The
precise
recording
stimulation
of
typical
target
neurons
by
neural
interfaces
with
adequate
materials
structures
can
provide
revolutionized
medical
applications,
including
diagnosis
treatment
neurological
disorders.
Thereby,
a
proper
understanding
electronic
device
its
interfacing
biological
surroundings
is
necessary.
Here,
this
review
highlights
basic
concepts
signaling,
recording,
to
help
understand
interfaces.
Then,
we
summarize
considerations
introduce
variety
that
satisfy
requirements.
Furthermore,
key
challenges
for
next-generation
are
considered,
future
directions
explored
based
on
recent
studies.
Abstract
The
peripheral
nervous
system
(PNS)
is
a
fascinatingly
complex
and
crucial
component
of
the
human
body,
responsible
for
transmitting
vital
signals
throughout
body's
intricate
network
nerves.
Its
efficient
functioning
paramount
to
our
health,
with
any
dysfunction
often
resulting
in
serious
medical
conditions,
including
motor
disorders,
neurological
diseases,
psychiatric
disorders.
Recent
strides
science
technology
have
made
neuromodulation
PNS
promising
avenue
addressing
these
health
issues.
Neuromodulation
involves
modifying
nerve
activity
using
range
techniques,
such
as
electrical,
chemical,
optical,
mechanical
stimulation.
Bioelectronics
plays
critical
role
this
effort,
allowing
precise,
controlled,
sustained
stimulation
PNS.
This
paper
provides
an
overview
PNS,
discusses
current
state
devices,
presents
emerging
trends
field,
advances
wireless
power
transfer
materials,
that
are
shaping
future
neuromodulation.
