Biological and Pharmaceutical Bulletin,
Journal Year:
2024,
Volume and Issue:
47(6), P. 1066 - 1071
Published: May 31, 2024
Both
nuclear
and
optical
imaging
are
used
for
in
vivo
molecular
imaging.
Nuclear
displays
superior
quantitativity,
it
permits
deep
tissues.
Thus,
this
method
is
widely
clinically.
Conversely,
because
of
the
low
permeability
visible
to
near-IR
light
living
animals,
difficult
visualize
tissues
via
However,
at
these
wavelengths
has
no
ionizing
effect,
can
be
without
any
restrictions
terms
location.
Furthermore,
signals
controlled
accomplish
target-specific
medicine
phototherapy
have
also
evolved
permit
targeted-specific
In
targeted
therapy,
beta
emitters
conventionally
used,
but
alpha
received
significant
attention
recently.
Concerning
phototherapy,
photoimmunotherapy
with
was
approved
Japan
2020.
article,
therapy
utilizing
technologies
discussed.
Nanotheranostics,
Journal Year:
2024,
Volume and Issue:
8(3), P. 344 - 379
Published: Jan. 1, 2024
Modern
medicine
relies
on
a
small
number
of
key
biologics,
which
can
be
found
in
nature
but
require
further
characterization
and
purification
before
they
used.Since
the
herbal
remedy
is
given
through
dated
ineffective
method
drug
administration,
its
effectiveness
diminished.The
novel
form
delivery
has
potential
to
increase
substances
while
decreasing
their
side
effects.This
main
idea
behind
utilising
different
ways
treatments.Several
benefits
arise
from
formulations
compounds
as
compared
conventional
counterparts.These
include
enhanced
penetrating
ability
into
tissues,
constant
effective
doses,
resistance
physical
chemical
degradation.Controlled
targeted
that
components
allow
for
more
traditional
dosing
simultaneously
increasing
efficacy.Enhancing
biodistribution
target
site
accumulation
systemically
administered
medicines
goal
nanomedicine
formulations.The
field
nanotheranostics
made
significant
advancements
development
by
combining
diagnostic
therapeutic
functions
single
nanoscale
platform.It
critically
important
create
theranostic
nanoplatform
derived
plants
intrinsically
"all-in-one"
molecules.In
addition
examining
mechanistic
approach
nanoparticle
synthesis,
this
review
highlights
effects
phytochemical
systems.Furthermore,
we
have
evaluated
scope
future
field,
discussed
several
nanoparticles
been
developed
recently
imaging,
provided
experimental
evidence
supports
usage.
Nanotheranostics,
Journal Year:
2024,
Volume and Issue:
8(2), P. 127 - 149
Published: Jan. 1, 2024
Cardiovascular
disease
is
one
of
the
chief
factors
that
cause
ischemic
stroke,
myocardial
infarction,
and
venous
thromboembolism.The
elements
speed
up
thrombosis
include
nutritional
consumption,
physical
activity,
oxidative
stress.Even
though
precise
etiology
pathophysiology
remain
difficult
topics
primarily
rely
on
traditional
medicine.The
diagnosis
management
are
being
developed
using
discrete
non-invasive
non-surgical
approaches.One
emerging
promising
approach
ultrasound
photoacoustic
imaging.The
advancement
nanomedicines
offers
concentrated
therapy
diagnosis,
imparting
efficacy
fewer
side
effects
which
more
significant
than
conventional
medicine.This
study
addresses
potential
as
theranostic
agents
for
treatment
thrombosis.In
this
article,
we
describe
lead
to
its
consequences,
well
summarize
findings
studies
thrombus
formation
in
preclinical
clinical
models
also
provide
insights
nanoparticles
imaging
therapy.
Nanotheranostics,
Journal Year:
2024,
Volume and Issue:
8(3), P. 401 - 426
Published: Jan. 1, 2024
The
integration
of
preclinical
magnetic
resonance
imaging
(MRI)
and
computed
tomography
(CT)
methods
has
significantly
enhanced
the
area
therapy
targeted
nanomedicine.Nanotheranostics,
which
make
use
nanoparticles,
are
a
significant
advancement
in
MRI
CT
imaging.In
addition
to
giving
high-resolution
anatomical
features
functional
information
simultaneously,
these
multifunctional
agents
improve
contrast
when
used.In
enabling
early
disease
detection,
precise
localization,
personalised
monitoring,
they
also
enable
detection.Fusion
enables
vivo
tracking
drug-loaded
nanoparticles.MRI,
provides
real-time
monitoring
nanoparticle
distribution,
accumulation,
release
at
cellular
tissue
levels,
can
be
used
assess
efficacy
drug
delivery
systems.The
localization
nanoparticles
within
body
is
achievable
through
imaging.This
technique
enhances
capabilities
by
providing
information.CT
allows
for
quantitative
measurements
concentration,
essential
evaluating
pharmacokinetics
biodistribution
nanomedicine.In
this
article,
we
emphasize
into
molecular
advanced
diseases.
Nanotheranostics,
Journal Year:
2024,
Volume and Issue:
8(4), P. 473 - 496
Published: Jan. 1, 2024
Cardiotoxicity,
the
often-overlooked
second
leading
cause
of
death
in
cancer
patients,
has
been
associated
with
certain
anticancer
drugs.
These
drugs
can
induce
cardiac
damage
through
various
pathways,
and
their
adverse
effects
on
heart
are
not
fully
understood.
Cardiotoxicity
is
a
major
issue
treatment,
particularly
chemotherapeutics,
because
it
dysfunction
such
as
hypotension,
failure,
even
death.
Doxorubicin,
5-fluorouracil,
trastuzumab,
all
which
very
potent
drugs,
known
to
cardiotoxicity.
When
comes
lowering
cardiotoxicity
alleviating
harmful
chemotherapy
medications,
nanomedicine
potential
transport
therapeutic
molecules.
Nanotheranostics
offers
novel
options
for
identifying
treating
resulting
from
wide
range
substances,
including
medications.
Additionally,
theranostics
platforms
micellar
systems,
carbon-based
nanomedicine,
solid
lipid
nanoparticles,
polymeric
liposomes
chemotherapeutic
medications
while
minimising
The
present
level
understanding
molecular
cellular
processes
that
lead
reaction
both
traditional
targeted
drug
delivery
systems
summarised
this
article.
This
review
delves
into
nanotheranostics,
an
emphasis
reducing
medication-induced
toxicity.
provide
solutions
early
diagnosis
tailored
therapy
injury
by
combining
diagnostic
capabilities
nanomedicine.
Theranostics,
Journal Year:
2016,
Volume and Issue:
6(8), P. 1105 - 1118
Published: Jan. 1, 2016
Modern
medicine
relies
on
a
small
number
of
key
biologics,
which
can
be
found
in
nature
but
require
further
characterization
and
purification
before
they
used.Since
the
herbal
remedy
is
given
through
dated
ineffective
method
drug
administration,
its
effectiveness
diminished.The
novel
form
delivery
has
potential
to
increase
substances
while
decreasing
their
side
effects.This
main
idea
behind
utilising
different
ways
treatments.Several
benefits
arise
from
formulations
compounds
as
compared
conventional
counterparts.These
include
enhanced
penetrating
ability
into
tissues,
constant
effective
doses,
resistance
physical
chemical
degradation.Controlled
targeted
that
components
allow
for
more
traditional
dosing
simultaneously
increasing
efficacy.Enhancing
biodistribution
target
site
accumulation
systemically
administered
medicines
goal
nanomedicine
formulations.The
field
nanotheranostics
made
significant
advancements
development
by
combining
diagnostic
therapeutic
functions
single
nanoscale
platform.It
critically
important
create
theranostic
nanoplatform
derived
plants
intrinsically
"all-in-one"
molecules.In
addition
examining
mechanistic
approach
nanoparticle
synthesis,
this
review
highlights
effects
phytochemical
systems.Furthermore,
we
have
evaluated
scope
future
field,
discussed
several
nanoparticles
been
developed
recently
imaging,
provided
experimental
evidence
supports
usage.
Scientific Reports,
Journal Year:
2025,
Volume and Issue:
15(1)
Published: March 4, 2025
Burns
represents
a
serious
clinical
problem
because
the
diagnosis
and
assessment
are
very
complex.
This
paper
proposes
methodology
that
combines
use
of
advanced
medical
imaging
with
predictive
modeling
for
improvement
burn
injury
assessment.
The
proposed
framework
makes
Adaptive
Complex
Independent
Components
Analysis
(ACICA)
Reference
Region
(TBSA)
methods
in
conjunction
deep
learning
techniques
precise
estimation
depth
Total
Body
Surface
Area
analysis.
It
also
allows
burns
high
accuracy,
calculation
TBSA,
non-invasive
analysis
96.7%
accuracy
using
an
RNN
model.
Extensive
experimentation
on
DCE-LUV
samples
validates
enhanced
diagnostic
precision
detailed
texture
These
technologies
provide
nuanced
insights
into
severity,
improving
treatment
planning.
Our
results
demonstrate
potential
these
to
revolutionize
care
optimize
patient
outcomes.
Molecular Pharmaceutics,
Journal Year:
2024,
Volume and Issue:
21(10), P. 4804 - 4826
Published: Sept. 3, 2024
Atherosclerosis
is
a
vascular
intima
condition
in
which
any
part
of
the
circulatory
system
affected,
including
aorta
and
coronary
arteries.
Indocyanine
green
(ICG),
theranostic
compound
approved
by
FDA,
has
shown
promise
treatment
atherosclerosis
after
incorporation
into
nanoplatforms.
By
integration
ICG
with
targeting
agents
such
as
peptides
or
antibodies,
it
feasible
to
increase
its
concentration
damaged
arteries,
hence
increasing
detection.
Nanotheranostics
offers
cutting-edge
techniques
for
clinical
diagnosis
therapy
atherosclerotic
plaques.
Combining
optical
properties
those
nanocarriers
enables
improved
imaging
plaques
targeted
therapeutic
interventions.
Several
ICG-based
nanotheranostics
platforms
have
been
developed
polymeric
nanoparticles,
iron
oxide
biomimetic
systems,
liposomes,
peptide-based
etc.
Theranostics
use
magnetic
resonance
(MRI),
computed
tomography
(CT),
near-infrared
fluorescence
(NIRF)
imaging,
photoacoustic/ultrasound
positron
emission
(PET),
single
photon
(SPECT)
techniques.
In
addition
there
growing
interest
employing
treat
atherosclerosis.
this
review,
we
provide
conceptual
explanation
Moreover,
advancements
modalities
MRI,
CT,
PET,
SPECT,
ultrasound/photoacoustic
discussed.
Furthermore,
highlight
applications
