Advances in healthcare information systems and administration book series,
Год журнала:
2024,
Номер
unknown, С. 255 - 284
Опубликована: Сен. 20, 2024
Tactile,
sensors
and
nanosensors
technologies
have
emerged
as
a
burgeoning
area
of
study
in
both
academic
industrial
realms.
Recent
progress
has
showcased
the
practical
application
tactile
biomedical
engineering,
unlocking
possibilities
for
development
versatile
electronic
skin
(e-skin)
that
mimics
human
sense
touch
medical
purposes.
The
current
smart
sensing
technology
offers
notable
advantages
including
high
performance,
cost-effectiveness,
time
efficiency
ease
fabrication.
capacity
to
detect
analyze
physical
impulses
through
is
known
sensing,
recent
developments
sensor
opened
up
new
avenues
creative
uses
industry.
This
chapter
provides
an
in-depth
exploration
its
transformative
role
applications.
Journal of Applied Polymer Science,
Год журнала:
2024,
Номер
141(20)
Опубликована: Март 5, 2024
Abstract
Adding
graphite
nanoplatelets
(GNP)
into
silicone
rubber
(SR)
composites
have
shown
significant
potential
for
wearable
electronics,
where
electrical,
mechanical,
and
tribological
properties
play
a
crucial
role.
This
study
investigates
the
effects
of
incorporating
SR
their
impact
on
these
key
properties.
Solution
mixing
GNP
was
performed
to
confirm
good
dispersion
within
matrix.
The
results
showed
improved
tensile
strength
modulus
while
stabilizing
flexibility
stretchability
required
electronics.
For
example,
0.86
MPa
(control)
increased
1.18
(5
part
per
hundred
[phr]
GNP),
1.55
(15
phr
GNP).
Similarly,
177
%
190
184
Moreover,
electro‐mechanical
tests
were
studied
output
voltage
samples
0.28
milli‐volt
(mV)
0.31
mV
generation
through
human
motions.
obtained
from
biomechanical
motions
such
as
thumb
pressing
0.7
2.7
finds
GNP‐SR
multifunctional
materials
Overall,
this
research
guides
development
advanced
devices,
soft
robotics,
bio‐inspired
electronics
with
performance
durability.
Advanced Sensor Research,
Год журнала:
2024,
Номер
unknown
Опубликована: Дек. 18, 2024
Abstract
Histamine,
a
biogenic
amine
(BA),
plays
significant
role
in
various
pathophysiological
processes
and
is
present
food
supplies,
serving
as
an
indicator
of
freshness
microbial
degradation.
It
major
cause
poisoning
outbreaks,
triggering
allergic
inflammatory
responses.
Detecting
histamine
crucial
because
its
toxic
threshold
does
not
affect
the
food's
taste,
making
contaminated
items
appear
normal.
To
address
this
challenge,
label‐free
bioactive‐free
electrochemical
sensors
utilizing
molecularly
imprinted
polymers
(MIPs)
offer
desired
selectivity,
scalability,
efficiency.
MIPs
are
synthetic
materials
designed
to
mimic
biological
receptors.
This
paper
reviews
decade
research
on
MIP‐assisted
for
detection,
focusing
their
robustness,
speed,
selectivity.
The
review
critically
analyzes
performance
these
detecting
food,
beverages,
human
serum,
body
diagnostics.
Additionally,
current
understanding
physiological
effects
endogenous
ingested
reviewed,
highlighting
both
established
emerging
methods
quantification
health
management.
potential
transforming
healthcare
delivery
through
personalized
Point‐of‐Care
(POC)
systems,
integrated
with
Artificial
Intelligence
(AI)
Internet‐of‐Medical
Things
(IoMT)
technologies,
also
discussed.
Science China Materials,
Год журнала:
2024,
Номер
67(3), С. 887 - 897
Опубликована: Фев. 4, 2024
Various
techniques
based
on
electronic
or
optical
signals
have
been
developed
to
perceive
body
movements,
which
is
essential
in
several
fields
such
as
healthcare,
rehabilitation,
and
human-computer
interaction.
However,
these
are
obtained
externally,
not
from
within
the
body.
In
this
study,
we
introduce
an
skin
(e-skin)
motion
sensor
prepared
using
organic
polymers
metal
fabric
detect
through
body's
electro-induction
(EI)
via
contact
with
ground
shoes
intrinsic
electrification
of
skin.
The
device
can
achieve
EI
signal
up
450
V
charge
data
40
2.45
when
it
detached
contacted
Moreover,
be
automatically
extracted
trained
state-of-the-art
deep
learning
techniques.
accurately
track
sleep
activity
accuracy
rate
96.55%.
This
wearable
seamlessly
combined
Internet
Things
technology
for
multifunctional
applications,
highlighting
its
potential
applications
human
recognition
artificial
intelligence.
The
emergence
of
Electronic
Tattoos
marks
a
significant
shift
in
non-invasive
health
monitoring
and
human–machine
interaction.
In
this
work,
we
present
the
development
Self-powered
Intelligent
e-Tattoo
capable
localizing
varying
thermal
stimuli,
serving
as
versatile
sensor
for
temperature
anomalies
touch,
using
concept
thermoelectric
phenomenon.
By
employing
planar
design
crossing
screen
printed
stripes
p-type
n-type
Bi2Te3,
fabricated
device
was
able
to
monitor
up
21
distinct
positions.
validated
via
numerical
simulations
with
COMSOL
Multiphysics,
leading
training
Multi-Label
Classifier
Neural
Network
that
achieved
99.5%
accuracy
predicting
heat
applied
combinations
nine
Herein,
prototypes
were
microfabricated
screen-printing
techniques
on
both
Kapton
(KS)
temporary
Tattoo
Paper
(TPS)
substrates.
These
prototypes,
which
combined
Bi2Te3
powder
H3PO4-doped
PVA,
demonstrated
remarkable
Power
Factors
(PF)
12.83
μW
K−2
m−1
(n-type)
1.45
(p-type),
particularly
KS
collected
data
served
pivotal
sets
Multi-Class
Deep
Networks
(DNN),
yielding
exceptional
F1-scores
94%
85%
TPS
devices,
respectively,
test
sets.
Furthermore,
comprehensive
study
involving
several
individuals
corroborated
e-Tattoo’s
effectiveness
an
efficient
touch
sensor.
utilizing
developed
DNN
models,
validation
impressive
F1-score
78%.
findings
underscore
growing
promise
e-Tattoos
revolutionizing
interactions,
indicating
toward
improved
personal
digital
engagement,
offering
autonomous
operation
without
need
external
power
sources.
Bioengineering,
Год журнала:
2024,
Номер
11(11), С. 1058 - 1058
Опубликована: Окт. 24, 2024
The
commercialization
of
a
growing
number
wearable
devices
has
been
enabled
within
recent
years
due
to
the
availability
miniaturized
sensor
modalities,
development
new
materials,
and
scalability
flexible
electronics.
With
increase
in
resource
shortages
healthcare,
there
is
demand
translate
from
commercial
consumer
stand-point
medical
field.
Clinical-grade
signal
quality,
wearability,
comfort
all
need
be
tailored
design.
Wear
for
user
compliance
durability
longer-term
use
are
commonly
overlooked.
In
this
study,
relationship
on-body
location
material
layer
composition
investigated.
Five
non-woven
tapes
noted
longer
wear
time
tested
over
7-day
timeframe.
impact
properties,
such
as
elasticity,
isotropy,
hysteresis,
well
moisture
vapor
transmission
rate
(MVTR)
adhesive
thickness,
evaluated
relation
skin
properties
on
lower
torso
30,
high-activity-level
volunteers.
User
perception
was
quantified
via
Likert-scale
questionnaires
images
were
obtained
material-skin
interaction.
results
indicate
that
critical
characteristics,
MVTR
positive
interaction
products,
may
not
improved
time.
Future
work
will
assess
design
options
manipulate
comfort.
Advances in healthcare information systems and administration book series,
Год журнала:
2024,
Номер
unknown, С. 33 - 79
Опубликована: Март 27, 2024
The
digital
healthcare
industry
offers
personalized
care,
expanded
access,
and
improved
efficiency.
Despite
its
potential,
adoption
rates
vary
across
sectors
due
to
different
motivations
barriers.
This
chapter
explores
these
factors,
providing
insights
from
empirical
research,
surveys,
case
studies.
Key
motivators
include
convenience,
cost-effectiveness,
the
potential
for
care.
Data
privacy,
technological
illiteracy,
regulatory
limitations
are
major
hurdles.
A
nuanced
discussion
how
barriers
interact,
particularly
concerning
broader
sectional
goals.
findings
suggest
that
although
holds
transformative
change
multiple
sectors,
targeted
strategies
essential
overcoming
prevent
full-scale
adoption.
Addressing
issues
is
vital
not
only
growth
of
but
also
enhancing
global
outcomes.
