ACS symposium series,
Journal Year:
2024,
Volume and Issue:
unknown, P. 315 - 338
Published: March 5, 2024
Gene
therapies
have
sparked
considerable
interest
among
biotechnology
researchers
due
to
their
immense
potential.
This
area
of
research
has
a
lot
potential
for
expanding
the
scope
medicine
in
terms
patient
care.
The
right
carrier
is
essential
increasing
effectiveness
nucleic
acid
delivery.
Despite
advancements
nanomedicine
gene
delivery,
challenges
such
as
low
cellular
uptake,
inadequate
endolysosomal
escape,
limited
systemic
circulation,
insufficient
loading
capacity,
and
uncontrolled
release
still
need
be
addressed
achieve
more
effective
are
an
exciting
that
captured
many
researchers.
They
offer
promising
prospects
advancing
medical
treatments.
To
enhance
delivering
genetic
material,
it
crucial
find
carrier.
However,
there
achieving
efficient
These
obstacles
include
cell
difficulty
escaping
pathway,
circulation
throughout
body,
capacity
loading,
better
control
over
its
release.
development
various
nanomedicines,
these
issues
persist.
Metal-organic
frameworks
(MOFs)
increasingly
popular
biological
applications
Approximately
ten
years
ago
result
extensive
surface
precise
tunability,
high
capacities.
MOFs
highly
delivery
methods.
In
this
book
chapter,
you
will
detailed
review
highlighting
substantial
impact
research.
It
discusses
preparation
procedures,
characteristics,
advantages
MOFs.
Additionally,
covers
noteworthy
use
International Journal of Nanomedicine,
Journal Year:
2023,
Volume and Issue:
Volume 18, P. 7605 - 7635
Published: Dec. 1, 2023
Small
interfering
RNA
(siRNA)
delivery
by
nanocarriers
has
been
identified
as
a
promising
strategy
in
the
study
and
treatment
of
cancer.
Short
nucleotide
sequences
are
synthesized
exogenously
to
create
siRNA,
which
triggers
interference
(RNAi)
cells
silences
target
gene
expression
sequence-specific
way.
As
nucleic
acid-based
medicine
that
gained
popularity
recently,
siRNA
exhibits
novel
potential
for
However,
there
still
many
obstacles
overcome
before
clinical
devices
can
be
developed.
In
this
review,
we
discuss
prospective
targets
drug
design,
explain
properties
benefits,
give
an
overview
current
therapeutics
Additionally,
introduce
chemical
modifications
systems
clinically
sophisticated
classify
bioresponsive
materials
release
methodical
manner.
This
review
will
serve
reference
researchers
developing
more
precise
efficient
targeted
systems,
promoting
ongoing
advances
applications.
Materials Today,
Journal Year:
2023,
Volume and Issue:
67, P. 495 - 517
Published: July 1, 2023
Human
health
is
considered
the
most
important
goal
of
all.
The
use
different
materials
in
biomedical
applications,
such
as
pharmacy
(drug
delivery
systems),
regenerative
medicine
(implantable
biomaterials,
wound
dressings),
and
or
tissue
engineering
(cell
scaffolds),
utmost
importance
right
now.
Therefore,
development
new
organic–inorganic
biomaterials
currently
hot
topic.
Zeolites
zeolite
imidazolate
frameworks
(ZIFs)
belong
to
chemical
groups
but
their
structural
similarity
superior
properties
place
them
among
interesting
that
could
be
used
for
various
applications.
Despite
properties,
application
these
aforementioned
fields
study
quite
requires
further
research
systematisation.
following
work
reviews
recent
applications
zeolites
ZIFs
field
with
strongest
emphasis
on
polymer/zeolite
polymer/ZIFs
composites
hybrid
biomaterials.
In
addition,
systems
drug
carriers
medicine,
especially
treatment
osteoporosis,
described
summarized.
Moreover,
discussion
antimicrobial
anticancer
mechanisms
zeolite/ZIF-based
was
included.
presented
literature
review
clearly
shows
zeolites/ZIFs
loaded
are
becoming
a
good
alternative
already
existing
therapeutic
routes
advanced
healthcare
materials.
Some
remarks
challenges
future
prospects
terms
stability-instability,
stimuli-responsive
materials,
toxicity
also
presented.
this
tale
quest
find
ideal
biomaterial
question
is:
will
they
succeed?
Let
us
out.
Advanced Drug Delivery Reviews,
Journal Year:
2023,
Volume and Issue:
200, P. 115047 - 115047
Published: Aug. 2, 2023
RNA
therapeutics
offer
great
potential
to
transform
the
biomedical
landscape,
encompassing
treatment
of
hereditary
conditions
and
development
better
vaccines.
However,
delivery
RNAs
into
cell
is
hampered,
among
others,
by
poor
endosomal
escape.
This
major
hurdle
often
tackled
using
special
lipids,
polymers,
or
protein-based
vectors.
In
this
review,
we
will
focus
on
most
prominent
peptide-
escape
strategies
with
drugs.
We
discuss
penetrating
peptides,
which
are
still
incorporated
novel
transfection
systems
today
promote
direct
evidence
for
enhanced
action
such
peptides
missing
their
efficiency,
even
in
permissive
culture
conditions,
rather
low.
Endosomal
help
pore
forming
proteins
phospholipases,
other
hand,
allowed
generate
more
efficient
systems.
These
are,
however,
hampered
considerable
toxicity
immunogenicity.
conclude
that
perfect
enhancer
has
yet
be
devised.
To
increase
chances
success,
any
new
system
should
tested
under
relevant
guided
assays
allow
quantification
BMC Cancer,
Journal Year:
2024,
Volume and Issue:
24(1)
Published: Feb. 12, 2024
Abstract
Background
Osteosarcoma
(OS)
is
one
of
the
most
common
aggressive
bone
malignancy
tumors
in
adolescents.
With
application
new
chemotherapy
regimens,
finding
and
effective
anti-OS
drugs
to
coordinate
program
implementation
urgent
for
patients
OS.
Oridonin
had
been
proved
mediate
anti-tumor
effect
on
OS
cells,
but
its
mechanism
has
not
fully
elucidated.
Methods
The
effects
oridonin
viability,
clonal
formation
migration
143B
U2OS
cells
were
detected
by
CCK-8,
colony
assays
wound-healing
test.
Kyoto
Encyclopedia
Genes
Genomes
(KEGG)
enrichment
analysis
was
used
explore
Western
blot
(WB),
real-time
quantitative
PCR
(qRT-PCR)
detect
expression
levels
apoptosis
ferroptosis-relative
proteins
genes.
Annexin
V-FITC
detection
kit
flow
cytometry
examination
level
apoptosis.
Iron
assay
evaluate
relative
Fe
2+
content.
mitochondrial
membrane
potential
lipid
peroxidation
production
determined
ROS
kit.
Results
could
effectively
inhibit
survival,
metastasis
cells.
KEGG
results
indicated
that
associated
with
malignant
phenotypic
signaling
pathways
proliferation,
migration,
drug
resistance
capable
inhibiting
expressions
BAX,
cl-caspase3,
SLC7A11,
GPX4
FTH1
mRNA,
while
promoting
Bcl-2
ACSL4
Additionally,
we
found
promote
accumulation
reactive
oxygen
species
(ROS)
as
well
reduce
potential,
these
be
significantly
reversed
ferroptosis
inhibitor
ferrostatin-1
(Fer-1).
Conclusion
can
trigger
collaboratively
making
it
a
promising
agent
therapy.
Biomedicine & Pharmacotherapy,
Journal Year:
2023,
Volume and Issue:
164, P. 114955 - 114955
Published: June 1, 2023
Bioactive
natural
products
(BNPs)
are
the
marrow
of
medicinal
plants,
which
secondary
metabolites
organisms
and
have
been
most
famous
drug
discovery
database.
for
their
enormous
number
great
safety
in
medical
applications.
However,
BNPs
troubled
by
poor
druggability
compared
with
synthesis
drugs
challenged
as
medicine
(only
a
few
applied
clinical
settings).
In
order
to
find
reasonable
solution
improving
BNPs,
this
review
summarizes
bioactive
nature
based
on
pharmacological
research
tries
explain
reasons
BNPs.
And
then
focused
boosting
loaded
delivery
systems,
further
concludes
advantages
systems
improvement
from
perspective
nature,
discusses
why
need
predicts
next
direction.
Materials Horizons,
Journal Year:
2023,
Volume and Issue:
11(2), P. 363 - 387
Published: Nov. 2, 2023
Wound
healing
is
a
complex
process
that
requires
effective
management
to
prevent
infections
and
promote
efficient
tissue
regeneration.
In
recent
years,
upconversion
nanoparticles
(UCNPs)
have
emerged
as
promising
materials
for
wound
dressing
applications
due
their
unique
optical
properties
potential
therapeutic
functionalities.
These
possess
enhanced
antibacterial
when
functionalized
with
agents,
helping
infections,
common
complication
in
healing.
They
can
serve
carriers
controlled
drug
delivery,
enabling
targeted
release
of
agents
the
site,
allowing
tailored
treatment
optimal
conditions.
ability
convert
near-infrared
(NIR)
light
into
visible
and/or
ultraviolet
(UV)
regions,
making
them
suitable
(photothermal
therapy
photodynamic
therapy)
diagnostic
applications.
context
healing,
these
be
combined
other
such
hydrogels,
fibers,
metal-organic
frameworks
(MOFs),
graphene
oxide,
Journal of Materials Chemistry B,
Journal Year:
2024,
Volume and Issue:
12(17), P. 4080 - 4096
Published: Jan. 1, 2024
An
illustrative
depiction
highlighting
the
targeted
drug
delivery
mechanism
by
bio-functionalized
camouflaged
MOF
nanocarriers
that
enhances
precision
targeting
diseased
cells
and
minimizing
side
effects.
Journal of Science Advanced Materials and Devices,
Journal Year:
2024,
Volume and Issue:
9(3), P. 100770 - 100770
Published: July 23, 2024
Due
to
the
non-specific
distribution
of
drugs
in
body
and
low
concentration
at
tumor
site
traditional
chemotherapy,
there
are
challenges
associated
with
significant
side
effects
resistance.
Therefore,
a
drug
delivery
system
(DDS)
urgently
needs
be
developed
that
can
precisely
target
tumors.
Metal-organic
frameworks
(MOFs)
possess
advantageous
characteristics
derived
from
organic
inorganic
materials,
including
small
particle
size,
large
specific
surface
area,
high
loading
capacity,
adjustable
structure
pore
as
well
ease
modification.
Consequently,
MOFs
offer
unique
advantages
for
designing
active
targeting,
passive
stimulus-responsive
targeting
strategies
have
become
hot
topic
current
research
on
tumor-targeted
systems.
This
review
will
elaborate
application
systems
perspective
different
strategies.
We
hope
this
paper
provide
assistance
therapy.
Advanced Functional Materials,
Journal Year:
2024,
Volume and Issue:
34(45)
Published: July 11, 2024
Abstract
The
field
of
drug
delivery
has
significantly
advanced
tumor
therapy,
yet
challenges
such
as
the
predictability
treatment
outcomes
and
real‐time
monitoring
progression,
recurrence
or
metastasis.
Luminescent
metal–organic
frameworks
(L‐MOFs)
are
a
promising
solution
to
overcome
these
issues.
This
review
offers
comprehensive
exploration
design
synthesis
L‐MOFs,
presenting
their
crucial
optical
properties.
highlights
pivotal
role
L‐MOFs
in
enabling
precision
medicine
for
driven
by
performance.
Through
strategically
harnessing
light‐manipulated
(MOFs),
therapeutic
precise
spatiotemporal
control
can
be
achieved.
Moreover,
this
meticulously
examines
influence
photomanipulating
MOFs
on
situ
synthesis,
introducing
catalytic
gas
therapy.
Additionally,
gene
therapy
vectors
that
utilize
light
trigger
expression
responses
is
also
comprehensively
explored
article,
aiming
highlight
through
concludes
proposing
an
artificial
intelligence
(AI)‐mediated
blueprint
with
pave
way
innovative
approaches
manipulation.
