IEEE Reviews in Biomedical Engineering,
Journal Year:
2021,
Volume and Issue:
16, P. 371 - 385
Published: Aug. 24, 2021
Background:
Neuroimage
analysis
has
made
it
possible
to
perform
various
anatomical
analyses
of
the
brain
regions
and
helps
detect
different
conditions/
disorders.
Recently,
neuroimaging-driven
estimation
age
is
introduced
as
a
robust
biomarker
for
detecting
diseases
health
conditions.
xmlns:xlink="http://www.w3.org/1999/xlink">Objective:
To
present
comprehensive
review
frameworks
concerning:
i)
designing
view:
an
overview
based
on
image
modality
methods
used,
ii)
clinical
aspect:
application
detection
neurological
disorders
or
xmlns:xlink="http://www.w3.org/1999/xlink">Methods:
PubMed
explored
collect
136
articles
from
January
2010
June
2021
using
"Brain
Age
Estimation"
Imaging,"
along
with
combinations
other
radiological
terms.
xmlns:xlink="http://www.w3.org/1999/xlink">Results
&
Conclusion:
The
studies
presented
in
this
are
evidence
diseases/conditions.
survey
also
highlights
tools
addresses
some
future
research
directions.
International Journal of Cognitive Computing in Engineering,
Journal Year:
2021,
Volume and Issue:
2, P. 57 - 64
Published: Feb. 23, 2021
As
one
of
the
most
important
directions
in
field
computer
vision,
facial
emotion
recognition
plays
an
role
people's
daily
work
and
life.
Human
based
on
expressions
is
great
significance
application
intelligent
human-computer
interaction.
However,
current
research
recognition,
there
are
some
problems
such
as
poor
generalization
ability
network
model
low
robustness
system.
In
this
content,
we
propose
a
method
feature
extraction
using
deep
residual
ResNet-50,
which
combines
convolutional
neural
for
recognition.
Through
experimental
simulation
specified
data
set,
it
can
be
proved
that
superior
to
mainstream
models
performance
detection.
Advanced Materials,
Journal Year:
2022,
Volume and Issue:
34(24)
Published: April 16, 2022
Multimode-fused
sensing
in
the
somatosensory
system
helps
people
obtain
comprehensive
object
properties
and
make
accurate
judgments.
However,
building
such
multisensory
systems
with
conventional
metal-oxide-semiconductor
technology
presents
serious
device
integration
circuit
complexity
challenges.
Here,
a
multimode-fused
spiking
neuron
(MFSN)
compact
structure
to
achieve
human-like
perception
is
reported.
The
MFSN
heterogeneously
integrates
pressure
sensor
process
NbOx
-based
memristor
sense
temperature.
Using
this
MFSN,
analog
information
can
be
fused
into
one
spike
train,
showing
excellent
data
compression
conversion
capabilities.
Moreover,
both
temperature
are
distinguished
from
spikes
by
decoupling
output
frequencies
amplitudes,
supporting
multimodal
tactile
perception.
Then,
3
×
array
fabricated,
frequency
patterns
fed
neural
network
for
enhanced
pattern
recognition.
Finally,
larger
simulated
classifying
objects
different
shapes,
temperatures,
weights,
validating
feasibility
of
MFSNs
practical
applications.
proof-of-concept
enable
sensory
contribute
development
highly
intelligent
robotics.
Genomics Proteomics & Bioinformatics,
Journal Year:
2022,
Volume and Issue:
20(5), P. 850 - 866
Published: Oct. 1, 2022
The
recent
development
of
imaging
and
sequencing
technologies
enables
systematic
advances
in
the
clinical
study
lung
cancer.
Meanwhile,
human
mind
is
limited
effectively
handling
fully
utilizing
accumulation
such
enormous
amounts
data.
Machine
learning-based
approaches
play
a
critical
role
integrating
analyzing
these
large
complex
datasets,
which
have
extensively
characterized
cancer
through
use
different
perspectives
from
accrued
In
this
article,
we
provide
an
overview
machine
that
strengthen
varying
aspects
diagnosis
therapy,
including
early
detection,
auxiliary
diagnosis,
prognosis
prediction,
immunotherapy
practice.
Moreover,
highlight
challenges
opportunities
for
future
applications
learning
Scientific Reports,
Journal Year:
2022,
Volume and Issue:
12(1)
Published: Oct. 26, 2022
Healthcare
data
are
inherently
multimodal,
including
electronic
health
records
(EHR),
medical
images,
and
multi-omics
data.
Combining
these
multimodal
sources
contributes
to
a
better
understanding
of
human
provides
optimal
personalized
healthcare.
The
most
important
question
when
using
is
how
fuse
them-a
field
growing
interest
among
researchers.
Advances
in
artificial
intelligence
(AI)
technologies,
particularly
machine
learning
(ML),
enable
the
fusion
different
modalities
provide
insights.
To
this
end,
scoping
review,
we
focus
on
synthesizing
analyzing
literature
that
uses
AI
techniques
for
clinical
applications.
More
specifically,
studies
only
fused
EHR
with
imaging
develop
various
methods
We
present
comprehensive
analysis
strategies,
diseases
outcomes
which
was
used,
ML
algorithms
used
perform
each
application,
available
datasets.
followed
PRISMA-ScR
(Preferred
Reporting
Items
Systematic
Reviews
Meta-Analyses
Extension
Scoping
Reviews)
guidelines.
searched
Embase,
PubMed,
Scopus,
Google
Scholar
retrieve
relevant
studies.
After
pre-processing
screening,
extracted
from
34
fulfilled
inclusion
criteria.
found
fusing
increasing
doubling
2020
2021.
In
our
analysis,
typical
workflow
observed:
feeding
raw
data,
by
applying
conventional
(ML)
or
deep
(DL)
algorithms,
finally,
evaluating
through
outcome
predictions.
Specifically,
early
technique
applications
(22
out
studies).
multimodality
models
outperformed
traditional
single-modality
same
task.
Disease
diagnosis
prediction
were
common
(reported
20
10
studies,
respectively)
perspective.
Neurological
disorders
dominant
category
(16
From
an
perspective,
(19
studies),
DL
Multimodal
included
mostly
private
repositories
(21
Through
offer
new
insights
researchers
interested
knowing
current
state
knowledge
within
research
field.
Patterns,
Journal Year:
2022,
Volume and Issue:
3(11), P. 100602 - 100602
Published: Nov. 1, 2022
In
light
of
the
National
Institute
Mental
Health
(NIMH)'s
Research
Domain
Criteria
(RDoC),
advent
functional
neuroimaging,
novel
technologies
and
methods
provide
new
opportunities
to
develop
precise
personalized
prognosis
diagnosis
mental
disorders.
Machine
learning
(ML)
artificial
intelligence
(AI)
are
playing
an
increasingly
critical
role
in
era
precision
psychiatry.
Combining
ML/AI
with
neuromodulation
can
potentially
explainable
solutions
clinical
practice
effective
therapeutic
treatment.
Advanced
wearable
mobile
also
call
for
digital
phenotyping
health.
this
review,
we
a
comprehensive
review
ML
methodologies
applications
by
combining
neuromodulation,
advanced
psychiatry
practice.
We
further
molecular
cross-species
biomarker
identification
discuss
AI
(XAI)
closed
human-in-the-loop
manner
highlight
potential
multi-media
information
extraction
multi-modal
data
fusion.
Finally,
conceptual
practical
challenges
future
research.
Frontiers in Cardiovascular Medicine,
Journal Year:
2022,
Volume and Issue:
9
Published: April 27, 2022
Today's
digital
health
revolution
aims
to
improve
the
efficiency
of
healthcare
delivery
and
make
care
more
personalized
timely.
Sources
data
for
tools
include
multiple
modalities
such
as
electronic
medical
records
(EMR),
radiology
images,
genetic
repositories,
name
a
few.
While
historically,
these
were
utilized
in
silos,
new
machine
learning
(ML)
deep
(DL)
technologies
enable
integration
sources
produce
multi-modal
insights.
Data
fusion,
which
integrates
from
using
ML
DL
techniques,
has
been
growing
interest
its
application
medicine.
In
this
paper,
we
review
state-of-the-art
research
that
focuses
on
how
latest
techniques
fusion
are
providing
scientific
clinical
insights
specific
field
cardiovascular
With
capabilities,
clinicians
researchers
alike
will
advance
diagnosis
treatment
diseases
(CVD)
deliver
timely,
accurate,
precise
patient
care.
