Electronics,
Год журнала:
2023,
Номер
12(23), С. 4780 - 4780
Опубликована: Ноя. 25, 2023
This
article
aims
to
assess,
discuss
and
analyze
the
disturbances
caused
by
electromagnetic
field
(EMF)
noise
of
medical
devices
used
near
living
tissues,
as
well
corresponding
functional
control
via
compatibility
(EMC)
these
devices.
These
are
minimally
invasive
non-ionizing
allowing
various
healthcare
actions
involving
monitoring,
assistance,
diagnoses
image-guided
interventions.
Following
an
introduction
main
items
paper,
different
imaging
methodologies
conferred,
accounting
for
their
nature,
functioning,
employment
condition
patient
comfort
safety.
Then
magnetic
resonance
(MRI)
components
fields,
consequential
MRI-compatibility
concept
possible
image
artifacts
detailed
analyzed.
Next,
MRI-assisted
robotic
treatments,
external
matter
introductions
in
MRI
scaffold,
features
MRI-compatible
materials
conformity
such
analyzed
conferred.
Afterward,
embedded,
wearable
detachable
devices,
EMF
perturbation
necessary
protection
shielding
technologies
presented
Then,
EMC
procedure,
governing
equations
body
numerical
virtual
models
conferred
reviewed.
A
qualitative
methodology,
case
study
simple
example
illustrating
mentioned
methodology
presented.
The
last
section
paper
discusses
potential
details
expansions
notions
perspective
monitoring
due
working
tissues.
contribution
highlights
possibility
proper
functioning
instruments
close
patient’s
tissues
disturbances.
Thanks
commitments,
health
recommendations
have
been
taken
into
account.
concerns
piezoelectric
actuated
robotics,
assisted
with
use
conductive
this
imager
under
certain
conditions.
safe
onboard
EMF-insensitive
or
intelligently
shielded
short
exposure
intervals
is
also
concern.
Additionally,
need
monitor
temperature
prolonged
Discussion
section.
Moreover,
tissue
testing
achieve
more
realistic
evaluation
capabilities
The
aim
of
this
contribution
is
to
analyze
and
discuss
the
perturbations
body-onboard
medical
devices
caused
by
electromagnetic
field
radiations.
This
involves
their
control
via
compatibility
analysis
protection
against
such
perturbations.
wearable,
detachable,
embedded
are
first
presented
monitoring,
control,
forecasting,
stimulating
functions
detailed.
interaction
these
with
exposures
comprising
wireless
routines
then
analyzed.
onboard
investigated
through
mathematical
solution
governing
equations
appropriate
strategies
deliberated.
involved
investigations
analyses
in
supported
a
literature
review.
International Journal of Medical Informatics,
Год журнала:
2024,
Номер
189, С. 105532 - 105532
Опубликована: Июнь 25, 2024
Wearables
hold
potential
to
improve
chronic
disease
self-management
in
conditions
like
cystic
fibrosis
(CF)
through
remote
monitoring,
early
detection
of
illness
and
motivation.
Little
is
known
about
the
acceptability
sustainability
integrating
wearables
into
routine
care
from
perspectives
people
with
CF
(pwCF)
their
treating
clinicians.
JMIR Research Protocols,
Год журнала:
2023,
Номер
12, С. e47567 - e47567
Опубликована: Сен. 25, 2023
Ecological
momentary
assessments
(EMAs)
and
digital
wearables
(DW)
are
commonly
used
remote
monitoring
technologies
that
capture
real-time
data
in
people's
natural
environments.
Real-time
core
to
personalized
medical
care
intensively
adaptive
health
interventions.
The
utility
of
such
is
contingent
on
user
uptake
continued
use
EMA
DW.
Consequently,
it
critical
understand
preferences
may
increase
the
Electronics,
Год журнала:
2023,
Номер
12(23), С. 4780 - 4780
Опубликована: Ноя. 25, 2023
This
article
aims
to
assess,
discuss
and
analyze
the
disturbances
caused
by
electromagnetic
field
(EMF)
noise
of
medical
devices
used
near
living
tissues,
as
well
corresponding
functional
control
via
compatibility
(EMC)
these
devices.
These
are
minimally
invasive
non-ionizing
allowing
various
healthcare
actions
involving
monitoring,
assistance,
diagnoses
image-guided
interventions.
Following
an
introduction
main
items
paper,
different
imaging
methodologies
conferred,
accounting
for
their
nature,
functioning,
employment
condition
patient
comfort
safety.
Then
magnetic
resonance
(MRI)
components
fields,
consequential
MRI-compatibility
concept
possible
image
artifacts
detailed
analyzed.
Next,
MRI-assisted
robotic
treatments,
external
matter
introductions
in
MRI
scaffold,
features
MRI-compatible
materials
conformity
such
analyzed
conferred.
Afterward,
embedded,
wearable
detachable
devices,
EMF
perturbation
necessary
protection
shielding
technologies
presented
Then,
EMC
procedure,
governing
equations
body
numerical
virtual
models
conferred
reviewed.
A
qualitative
methodology,
case
study
simple
example
illustrating
mentioned
methodology
presented.
The
last
section
paper
discusses
potential
details
expansions
notions
perspective
monitoring
due
working
tissues.
contribution
highlights
possibility
proper
functioning
instruments
close
patient’s
tissues
disturbances.
Thanks
commitments,
health
recommendations
have
been
taken
into
account.
concerns
piezoelectric
actuated
robotics,
assisted
with
use
conductive
this
imager
under
certain
conditions.
safe
onboard
EMF-insensitive
or
intelligently
shielded
short
exposure
intervals
is
also
concern.
Additionally,
need
monitor
temperature
prolonged
Discussion
section.
Moreover,
tissue
testing
achieve
more
realistic
evaluation
capabilities
