Nanomaterials,
Journal Year:
2023,
Volume and Issue:
13(17), P. 2476 - 2476
Published: Sept. 1, 2023
Breast
cancer
represents
the
most
common
type
and
one
of
major
leading
causes
death
in
female
worldwide
population.
Overexpression
HER2,
a
transmembrane
glycoprotein
related
to
epidermal
growth
factor
receptor,
results
biologically
clinically
aggressive
breast
subtype.
It
is
also
primary
driver
for
tumor
detection
progression
and,
addition
being
an
important
prognostic
women
diagnosed
with
cancer,
HER2
widely
known
therapeutic
target
drug
development.
The
aim
this
review
provide
updated
overview
main
approaches
diagnosis
treatment
HER2-positive
proposed
literature
over
past
decade.
We
focused
on
different
targeting
strategies
involving
antibodies
peptides
that
have
been
explored
their
relative
outcomes
current
limitations
need
be
improved.
encompasses
discussion
targeted
acting
as
probes
molecular
imaging.
By
using
types
HER2-targeting
strategies,
nanotechnology
promises
overcome
some
clinical
challenges
by
developing
novel
HER2-guided
nanosystems
suitable
powerful
tools
imaging,
targeting,
therapy.
Next Nanotechnology,
Journal Year:
2023,
Volume and Issue:
2, P. 100013 - 100013
Published: June 1, 2023
Polymers
show
a
vast
possibility
of
chemical
modification
novel
properties
and
nanomedicine
generation
in
biomedical
fields.
Polymeric
nanoparticle
(PNPs)
is
commonly
used
as
drug
carrier,
they
have
good
biodegradability,
biocompatibility,
high
drug-loading
capacity.
PNPs
are
the
broadly
nanocarrier
including
polymeric
micelles,
liposomes,
dendrimers,
sponges,
colloidal
carriers.
These
NPs
also
low
toxicity,
increased
therapeutic
effectiveness,
improved
penetration,
controlled
release
enhanced
physical
stability.
widely
delivery
system
subsequently
able
to
load
natural
synthetic
agents
including,
protein,
peptides,
growth
factors,
DNAs,
mRNA,
drugs.
can
be
applied
via
several
routes
administration
nasal,
oral,
intravenous,
topical
ocular.
potentially
target
specific
cells/tissues,
promising
way
increase
local
concentration,
decrease
toxicity
side
effects,
prevent
nonspecific
interaction.
The
present
review
focuses
on
biodegradable
polymers,
classifications,
types,
method
preparation
PNPs,
applications
targeted
their
limitations.
This
presents
for
respiratory,
cancers,
liver
cirrhosis,
ocular,
diabetic
wounds,
Alzheimer's
disease.
AAPS PharmSciTech,
Journal Year:
2023,
Volume and Issue:
24(8)
Published: Nov. 14, 2023
Abstract
This
review
explores
recent
advancements
and
applications
of
3D
printing
in
healthcare,
with
a
focus
on
personalized
medicine,
tissue
engineering,
medical
device
production.
It
also
assesses
economic,
environmental,
ethical
considerations.
In
our
the
literature,
we
employed
comprehensive
search
strategy,
utilizing
well-known
databases
like
PubMed
Google
Scholar.
Our
chosen
keywords
encompassed
essential
topics,
including
printing,
nanotechnology,
related
areas.
We
first
screened
article
titles
abstracts
then
conducted
detailed
examination
selected
articles
without
imposing
any
date
limitations.
The
for
inclusion,
comprising
research
studies,
clinical
investigations,
expert
opinions,
underwent
meticulous
quality
assessment.
methodology
ensured
incorporation
high-quality
sources,
contributing
to
robust
exploration
role
realm
healthcare.
highlights
printing's
potential
customized
drug
delivery
systems,
patient-specific
implants,
prosthetics,
biofabrication
organs.
These
innovations
have
significantly
improved
patient
outcomes.
Integration
nanotechnology
has
enhanced
precision
biocompatibility.
demonstrates
cost-effectiveness
sustainability
through
optimized
material
usage
recycling.
healthcare
sector
witnessed
remarkable
progress
promoting
patient-centric
approach.
From
implants
radiation
shielding
offers
tailored
solutions.
Its
transformative
applications,
coupled
economic
viability
sustainability,
revolutionize
Addressing
biocompatibility,
standardization,
concerns
is
responsible
adoption.
Graphical
Journal of Molecular Liquids,
Journal Year:
2023,
Volume and Issue:
395, P. 123888 - 123888
Published: Dec. 27, 2023
Efficient
drug
delivery
systems
(DDSs)
play
a
pivotal
role
in
ensuring
pharmaceuticals'
targeted
and
effective
administration.
However,
the
intricate
interplay
between
formulations
poses
challenges
their
design
optimization.
Simulations
have
emerged
as
indispensable
tools
for
comprehending
these
interactions
enhancing
DDS
performance
to
address
this
complexity.
This
comprehensive
review
explores
latest
advancements
simulation
techniques
provides
detailed
analysis.
The
encompasses
various
methodologies,
including
molecular
dynamics
(MD),
Monte
Carlo
(MC),
finite
element
analysis
(FEA),
computational
fluid
(CFD),
density
functional
theory
(DFT),
machine
learning
(ML),
dissipative
particle
(DPD).
These
are
critically
examined
context
of
research.
article
presents
illustrative
case
studies
involving
liposomal,
polymer-based,
nano-particulate,
implantable
DDSs,
demonstrating
influential
simulations
optimizing
systems.
Furthermore,
addresses
advantages
limitations
It
also
identifies
future
directions
research
development,
such
integrating
multiple
techniques,
refining
validating
models
greater
accuracy,
overcoming
limitations,
exploring
applications
personalized
medicine
innovative
DDSs.
employing
like
MD,
MC,
FEA,
CFD,
DFT,
ML,
DPD
offer
crucial
insights
into
behaviour,
aiding
Despite
advantages,
rapid
cost-effective
screening,
require
validation
addressing
limitations.
Future
should
focus
on
models,
enhance
outcomes.
paper
underscores
contribution
emphasizing
providing
valuable
facilitating
development
optimization
ultimately
patient
As
we
continue
explore
impact
advancing
discovery
improving
DDSs
is
expected
be
profound.
Nanomaterials,
Journal Year:
2024,
Volume and Issue:
14(17), P. 1425 - 1425
Published: Aug. 31, 2024
Silver
nanoparticles
(Ag
NPs)
have
accumulated
significant
interest
due
to
their
exceptional
physicochemical
properties
and
remarkable
applications
in
biomedicine,
electronics,
catalysis
sensing.
This
comprehensive
review
provides
an
in-depth
study
of
synthetic
approaches
such
as
biological
synthesis,
chemical
physical
synthesis
with
a
detailed
overview
sub-methodologies,
highlighting
advantages
disadvantages.
Additionally,
structural
affected
by
methods
are
discussed
detail
examining
the
dimensions
surface
morphology.
The
explores
distinctive
Ag
NPs,
including
optical,
electrical,
catalytic,
antimicrobial
properties,
which
render
them
beneficial
for
range
applications.
Furthermore,
this
describes
diverse
several
fields,
medicine,
environmental
science,
optoelectronics.
However,
numerous
applications,
kinds
issues
still
exist.
Future
attempts
need
address
difficulties
regarding
techniques,
friendliness,
affordability.
In
order
ensure
secure
utilization
it
is
necessary
establish
sustainability
techniques
eco-friendly
production
methods.
aims
give
analysis,
multifaceted
NPs.
Pharmaceutics,
Journal Year:
2024,
Volume and Issue:
16(10), P. 1332 - 1332
Published: Oct. 16, 2024
The
remarkable
versatility
of
gold
nanoparticles
(AuNPs)
makes
them
innovative
agents
across
various
fields,
including
drug
delivery,
biosensing,
catalysis,
bioimaging,
and
vaccine
development.
This
paper
provides
a
detailed
review
the
important
role
AuNPs
in
delivery
therapeutics.
We
begin
by
exploring
traditional
systems
(DDS),
highlighting
revolutionizing
techniques.
then
describe
unique
intriguing
properties
that
make
exceptional
for
delivery.
Their
shapes,
functionalization,
drug-loading
bonds,
targeting
mechanisms,
release
therapeutic
effects,
cellular
uptake
methods
are
discussed,
along
with
relevant
examples
from
literature.
Lastly,
we
present
applications
medical
domains,
cancer,
cardiovascular
diseases,
ocular
diabetes,
focus
on
vitro
vivo
cancer
research.
Natural Product Reports,
Journal Year:
2024,
Volume and Issue:
41(7), P. 990 - 1019
Published: Jan. 1, 2024
Covering:
up
to
2024Ribosomally
synthesised
and
post-translationally
modified
peptides
(RiPPs)
comprise
a
substantial
group
of
peptide
natural
products
exhibiting
noteworthy
bioactivities
ranging
from
antiinfective
anticancer
analgesic
effects.
Furthermore,
RiPP
biosynthetic
pathways
represent
promising
production
routes
for
complex
drugs,
the
technology
is
well-suited
engineering
produce
derivatives
with
specific
functions.
Thus,
possess
features
that
render
them
potentially
ideal
candidates
drug
discovery
development.
Nonetheless,
only
small
number
RiPP-derived
compounds
have
successfully
reached
market
thus
far.
This
review
initially
outlines
therapeutic
opportunities
RiPP-based
can
offer,
whilst
subsequently
discussing
limitations
require
resolution
in
order
fully
exploit
potential
RiPPs
towards
development
innovative
drugs.
Molecules,
Journal Year:
2025,
Volume and Issue:
30(5), P. 1181 - 1181
Published: March 6, 2025
Nano-drug
delivery
systems
provide
targeted
solutions
for
addressing
various
drug
challenges,
leveraging
nanotechnology
to
enhance
solubility
and
permeability.
Liposomes,
explored
several
decades,
face
hurdles,
especially
in
oral
delivery.
Bile-acid
stabilized
vesicles
(bilosomes)
are
flexible
lipid
vesicles,
composed
of
phospholipids
or
other
surfactants,
along
with
amphiphilic
bile
salts,
they
show
superior
stability
pharmacokinetic
behavior
comparison
conventional
vesicular
(liposomes
niosomes).
Bilosomes
skin
penetration,
fluidize
the
stratum
corneum,
improve
stability.
In
applications,
bilosomes
overcome
drawbacks,
offering
improved
bioavailability,
controlled
release,
reduced
side
effects.
Vaccines
using
demonstrate
efficacy,
intranasal,
inhalation,
ocular,
buccal
applications
delivery,
targeted,
efficient,
activities.
Formulations
vary
based
on
active
substances
optimization
techniques,
showcasing
versatility
potential
across
diverse
routes.
Therefore,
aim
this
comprehensive
review
was
critically
explore
state-of-the-art
therapeutic
applications.
