International Journal of Nanomedicine,
Journal Year:
2024,
Volume and Issue:
Volume 19, P. 14143 - 14169
Published: Dec. 1, 2024
Breast
cancer
surgery
plays
a
pivotal
role
in
the
multidisciplinary
approaches.
Surgical
techniques
and
objectives
are
gradually
shifting
from
tumor
complete
resection
towards
prolonging
survival,
improving
cosmetic
outcomes,
restoring
social
psychological
well-being
of
patients.
However,
surgical
treatment
still
faces
challenges
such
as
inadequate
sensitivity
sentinel
lymph
node
localization,
need
to
improve
intraoperative
boundary
localization
imaging,
postoperative
scar
healing,
risk
recurrence,
necessitating
other
adjunct
measures
for
improvement.
To
address
these
challenges,
specificity-optimized
nanomedicines
have
been
introduced
into
therapeutic
landscape
breast
cancer.
In
particular,
this
review
involves
starting
with
an
overview
structure
composition
microenvironment
then
introducing
guiding
principle
foundation
design
nanomedicine.
Moreover,
we
will
take
order
process
diagnosis
point,
adaptively
propose
roles
advantages
nanomedicine
addressing
corresponding
issues.
Furthermore,
also
involved
prospects
utilizing
advanced
technological
Overall,
seeks
uncover
sophisticated
strategies
clinical
standpoint,
faced
treatment,
provide
insights
subject
matter.
Nature Communications,
Journal Year:
2025,
Volume and Issue:
16(1)
Published: Feb. 7, 2025
Uncontrolled
haemorrhage
is
a
leading
cause
of
trauma-related
fatalities,
highlighting
the
critical
need
for
rapid
and
effective
haemostasis.
Current
haemostatic
materials
encounter
limitations
such
as
slow
clotting
weak
mechanical
strength,
while
most
bioadhesives
compromise
their
adhesion
performance
to
wet
tissues
biocompatibility
degradability.
In
this
study,
molecular
self-assembly
strategy
proposed,
developing
biocompatible
biodegradable
protein-based
patch
with
excellent
performance.
This
utilizes
fibrinogen
modified
hydrophobic
groups
induce
into
hydrogel,
which
converted
dry
patch.
The
protein
enhances
on
tissue
through
cross-linking
method
robust
intra/inter-molecular
interactions.
demonstrates
efficacy
in
both
porcine
oozing
wound
severe
acute
haemorrhage.
It
maintains
biological
functionality,
ensures
sustained
sealing
gradually
degrading
vivo,
making
it
promising
candidate
clinical
applications.
Advanced Functional Materials,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Aug. 17, 2024
Abstract
Gastric
ulcers
accompanied
by
acute
or
chronic
bleeding
represent
a
significant
risk
of
fatality.
However,
the
development
effective
strategies
for
achieving
rapid
hemostasis
and
wound
healing
in
gastric
ulcer
represents
formidable
challenge.
To
address
this
challenge,
thrombin‐derived
C‐terminal
peptide
(TCP‐25)
is
employed
as
targeted
agent,
it
incorporated
into
two
novel
injectable
biocompatible
carboxymethyl
chitosan
(CMCs)
hydrogels
via
Schiff's
base
reaction.
The
TCP‐25
display
optimal
adaptability
within
distinctive
gastrointestinal
microenvironment,
demonstrating
balance
acid
resistance
degradation,
along
with
controlled
release
bioactivity,
good
bio‐adhesive
properties.
Both
vitro
vivo
reveal
that
hydrogel
achieves
hemostasis.
In
an
ethanol‐induced
model
rats,
demonstrates
effectively
inhibits
92%
24‐h,
exhibiting
efficacy
surpasses
omeprazole
medicine,
commonly
used
clinical
treatment.
This
enhanced
performance
attributed
to
synergistic
effects
CMCs
hemostasis,
inhibiting
bacterial
growth,
promoting
ulcers.
Consequently,
present
work
offers
promising
applications
International Journal of Nanomedicine,
Journal Year:
2025,
Volume and Issue:
Volume 20, P. 1401 - 1423
Published: Feb. 1, 2025
Abstract:
Kidney
stones
constitute
a
common
condition
impacting
the
urinary
system.
In
clinical
diagnosis
and
management,
traditional
surgical
interventions
pharmacological
treatments
are
primarily
utilized;
however,
these
methods
possess
inherent
limitations.
Presently,
field
of
nanomedicine
is
undergoing
significant
advancements.
The
application
nanomaterials
in
biosensors
enables
accurate
assessment
ion
composition.
Furthermore,
contrast
agents
developed
from
materials
can
improve
signal-to-noise
ratio
enhance
image
clarity.
By
mitigating
oxidative
stress-induced
cellular
damage,
inhibit
formation
kidney
efficacy
drug
delivery
as
effective
carriers.
Additionally,
by
modifying
physical
chemical
properties
bacteria,
effectively
eliminate
bacterial
presence,
thereby
preventing
severe
complications.
This
review
explores
advancements
technology
related
to
early
detection
risk
factors,
diagnosis,
treatment
their
associated
Keywords:
nanomaterials,
stones,
stress,
biomaterial
Regenerative Biomaterials,
Journal Year:
2025,
Volume and Issue:
12
Published: Jan. 1, 2025
Abstract
Neurological
injuries
and
diseases
are
a
leading
cause
of
disability
worldwide,
underscoring
the
urgent
need
for
effective
therapies.
Neural
regaining
enhancement
therapies
seen
as
most
promising
strategies
restoring
neural
function,
offering
hope
individuals
affected
by
these
conditions.
Despite
their
promise,
path
from
animal
research
to
clinical
application
is
fraught
with
challenges.
Neuroengineering,
particularly
through
use
biomaterials,
has
emerged
key
field
that
paving
way
innovative
solutions
It
seeks
understand
treat
neurological
disorders,
unravel
nature
consciousness,
explore
mechanisms
memory
brain’s
relationship
behavior,
tissue
engineering,
interfaces
targeted
drug
delivery
systems.
These
including
both
natural
synthetic
types,
designed
replicate
cellular
environment
brain,
thereby
facilitating
repair.
This
review
aims
provide
comprehensive
overview
biomaterials
in
neuroengineering,
highlighting
functional
across
basic
practice.
covers
recent
developments
biomaterial-based
products,
2D
3D
bioprinted
scaffolds
cell
organoid
culture,
brain-on-a-chip
systems,
biomimetic
electrodes
brain–computer
interfaces.
also
explores
artificial
synapses
networks,
discussing
applications
modeling
microenvironments
repair
regeneration,
modulation
manipulation
integration
traditional
Chinese
medicine.
serves
guide
role
advancing
neuroengineering
solutions,
providing
insights
into
ongoing
efforts
bridge
gap
between
innovation
application.
Advanced Materials,
Journal Year:
2023,
Volume and Issue:
35(45)
Published: July 18, 2023
Anti-PD-L1
monoclonal
antibody
has
achieved
substantial
success
in
tumor
immunotherapy
by
T-cells
activation.
However,
the
excessive
accumulation
of
extracellular
matrix
components
induced
unsatisfactory
infiltration
and
poor
penetration
antibodies
make
it
challenging
to
realize
efficient
immunotherapy.
Herein,
a
peptide-based
bispecific
nanoblocker
(BNB)
strategy
is
reported
for
situ
construction
CXCR4/PD-L1
targeted
nanoclusters
on
surface
cells
that
are
capable
boosting
through
CXCR4
blockage
enhancing
activation
PD-L1
occupancy,
ultimately
realizing
high-performance
Briefly,
BNB
selectively
recognizes
bonds
with
deep
penetration,
which
rapidly
self-assembles
into
cells.
Compared
traditional
antibody,
exhibits
an
intriguing
metabolic
behavior,
is,
elimination
half-life
(t1/2
)
69.3
h
≈50
times
longer
than
plasma
(1.4
h).
The
higher
rapid
systemic
clearance
overcome
potential
side
effects.
Moreover,
solid
stress
generated
substantially
reduced
44%,
promotes
efficacy.
Finally,
these
findings
strengthen
extend
clinical
applications
PD-1/PD-L1
Advanced Materials,
Journal Year:
2024,
Volume and Issue:
unknown
Published: July 16, 2024
In
an
emergency,
nonvariceal
upper
gastrointestinal
bleeding
(NVUGIB),
endoscopic
hemostasis
is
considered
the
gold
standard
intervention.
However,
current
very
challenging
to
manage
in
large-diameter
or
deep
lesions
highly
prone
rebleeding
risk.
Herein,
a
novel
hemostatic
peptide
hydrogel
(HPH)
reported,
consisting
of
self-assembly
sequence
CFLIVIGSIIVPGDGVPGDG
(PFV)
and
gelatin
methacryloyl
(GelMA),
which
can
be
triggered
by
blue
laser
endoscopy
(BLE)
for
treatment
without
recurring
concerns.
Upon
contact
with
GelMA
solution,
PFV
immediately
fibrillates
into
β-sheet
nanofiber
solvent-induced
form
HPH
gel.
networks
induced
ultrafast
coagulation
enveloping
blood
cells
activating
platelets
factors
even
coagulopathy.
Besides
its
remarkable
performance
artery
liver
injury
models,
achieves
instant
management
porcine
NVUGIB
models
within
60
s
preventing
This
work
demonstrates
extraordinary
agent
intervention
BLE
first
time,
broadening
potential
application
scenarios,
including
patients
coagulopathy
promising
clinical
prospects.
