Technology in Cancer Research & Treatment,
Journal Year:
2022,
Volume and Issue:
21
Published: Jan. 1, 2022
Osteosarcoma,
one
of
the
common
malignant
tumors
in
skeletal
system,
originates
mesenchymal
tissue,
and
most
susceptible
area
occurrence
is
metaphysis
with
its
abundant
blood
supply.
Tumors
are
characterized
by
highly
spindle
stromal
cells
that
can
produce
bone-like
tissue.
Most
osteosarcoma
primary,
a
few
secondary.
Osteosarcoma
occurs
primarily
children
adolescents
undergoing
vigorous
bone
growth
development.
cases
involve
rapid
tumor
development
early
metastasis.
In
recent
years,
research
has
grown
areas
molecular
biology,
imaging
medicine,
biological
materials,
applied
anatomy,
surgical
techniques,
biomechanics,
comprehensive
treatment
tumors.
With
developments
biology
tissue
bioengineering,
methods
have
also
made
great
progress,
especially
limb
salvage
treatment,
which
significantly
enhances
quality
life
after
surgery
improves
5-year
survival
rate
patients
This
article
provides
review
salvage,
immunotherapy,
gene
therapy,
targeted
therapy
from
traditional
amputation
to
neoadjuvant
chemotherapy,
providing
reference
for
current
clinical
treatments
osteosarcoma.
Chemical Society Reviews,
Journal Year:
2022,
Volume and Issue:
51(14), P. 6126 - 6176
Published: Jan. 1, 2022
Against
the
backdrop
of
increased
public
health
awareness,
inorganic
nanomaterials
have
been
widely
explored
as
promising
nanoagents
for
various
kinds
biomedical
applications.
Layered
double
hydroxides
(LDHs),
with
versatile
physicochemical
advantages
including
excellent
biocompatibility,
pH-sensitive
biodegradability,
highly
tunable
chemical
composition
and
structure,
ease
composite
formation
other
materials,
shown
great
promise
in
In
this
review,
we
comprehensively
summarize
recent
advances
LDH-based
Firstly,
material
categories
are
discussed.
The
preparation
surface
modification
nanomaterials,
pristine
LDHs,
nanocomposites
LDH-derived
then
described.
Thereafter,
systematically
describe
potential
LDHs
applications
drug/gene
delivery,
bioimaging
diagnosis,
cancer
therapy,
biosensing,
tissue
engineering,
anti-bacteria.
Finally,
on
basis
current
state
art,
conclude
insights
remaining
challenges
future
prospects
rapidly
emerging
field.
Advanced Functional Materials,
Journal Year:
2022,
Volume and Issue:
32(47)
Published: Sept. 17, 2022
Abstract
Flexible
epidermic
sensors
made
from
conductive
hydrogels
are
holding
bright
potential
in
personalized
healthcare,
multifunctional
electronic
skins,
and
human‐machine
interfaces.
However,
it
is
still
a
great
challenge
to
simultaneously
realize
hydrogel‐based
with
reliable
self‐healing
ability
remarkable
sensing
performances
high‐performance
healthcare
(especially
electrophysiological
signals)
for
wearable
interaction,
as
well
accelerated
wound
healing
subsequent
medical
treatment
together.
Herein,
flexible
healable
sensor
assembled
the
facilely
prepared
antibacterial
MXene
hydrogel
efficiently
sensitively
interaction.
The
as‐prepared
possesses
enhanced
mechanical
performance,
outstanding
capability,
injectability,
facile
degradability,
excellent
biocompatibility,
robust
ability,
which
capable
of
being
into
monitor
human
movements
rehabilitation
training,
detect
tiny
signals
diagnosis
cardiovascular‐
muscle‐related
diseases,
be
employed
In
addition,
can
utilized
treat
infection
effectively
accelerate
healing.
Thus,
sheds
light
on
preparing
integration
personal
health
smart
interaction
next‐generation
artificial
skins.
Nature Communications,
Journal Year:
2023,
Volume and Issue:
14(1)
Published: March 11, 2023
Abstract
The
frequent
outbreak
of
global
infectious
diseases
has
prompted
the
development
rapid
and
effective
diagnostic
tools
for
early
screening
potential
patients
in
point-of-care
testing
scenarios.
With
advances
mobile
computing
power
microfluidic
technology,
smartphone-based
health
platform
drawn
significant
attention
from
researchers
developing
devices
that
integrate
optical
detection
with
artificial
intelligence
analysis.
In
this
article,
we
summarize
recent
progress
these
platforms,
including
aspects
chips,
imaging
modalities,
supporting
components,
software
algorithms.
We
document
application
platforms
terms
objects,
molecules,
viruses,
cells,
parasites.
Finally,
discuss
prospects
future
platforms.
Journal of the American Chemical Society,
Journal Year:
2023,
Volume and Issue:
145(22), P. 12193 - 12205
Published: May 19, 2023
Selenoprotein
plays
a
crucial
role
in
immune
cells
and
inflammatory
regulation.
However,
as
protein
drug
that
is
easily
denatured
or
degraded
the
acidic
environment
of
stomach,
efficient
oral
delivery
selenoprotein
great
challenge.
Herein,
we
innovated
an
hydrogel
microbeads-based
biochemical
strategy
can
situ
synthesize
selenoproteins,
therefore
bypassing
necessity
harsh
conditions
for
while
effectively
generating
selenoproteins
therapeutic
applications.
The
microbeads
were
synthesized
by
coating
hyaluronic
acid-modified
selenium
nanoparticles
with
protective
shell
calcium
alginate
(SA)
hydrogel.
We
tested
this
mice
bowel
disease
(IBD),
one
most
representative
diseases
related
to
intestinal
immunity
microbiota.
Our
results
revealed
microbeads-mediated
synthesis
could
prominently
reduce
proinflammatory
cytokines
secretion
mediate
(e.g.,
neutrophils
monocytes
increase
regulatory
T
cells)
relieve
colitis-associated
symptoms.
This
was
also
able
regulate
gut
microbiota
composition
(increase
probiotics
abundance
suppress
detrimental
communities)
maintain
homeostasis.
Considering
widely
associated
cancers,
infections,
inflammations,
etc.,
might
be
possibly
applied
broadly
tackle
various
diseases.
Nano-Micro Letters,
Journal Year:
2022,
Volume and Issue:
14(1)
Published: July 18, 2022
As
the
indispensable
second
cellular
messenger,
calcium
signaling
is
involved
in
regulation
of
almost
all
physiological
processes
by
activating
specific
target
proteins.
The
importance
ions
(Ca
Nano-Micro Letters,
Journal Year:
2023,
Volume and Issue:
15(1)
Published: Feb. 8, 2023
Gene
therapy
provides
a
promising
approach
in
treating
cancers
with
high
efficacy
and
selectivity
few
adverse
effects.
Currently,
the
development
of
functional
vectors
safety
effectiveness
is
intense
focus
for
improving
delivery
nucleic
acid
drugs
gene
therapy.
For
this
purpose,
stimuli-responsive
nanocarriers
displayed
strong
potential
overall
efficiencies
reducing
effects
via
effective
protection,
prolonged
blood
circulation,
specific
tumor
accumulation,
controlled
release
profile
drugs.
Besides,
synergistic
could
be
achieved
when
combined
other
therapeutic
regimens.
This
review
summarizes
recent
advances
various
delivery.
Particularly,
responding
to
endogenous
stimuli
including
pH,
reactive
oxygen
species,
glutathione,
enzyme,
etc.,
exogenous
light,
thermo,
ultrasound,
magnetic
field,
are
introduced.
Finally,
future
challenges
prospects
toward
clinical
translation
well
discussed.
The
major
objective
present
biomedical
cancer
provide
guidance
developing
novel
nanoplatforms
that
clinically
applicable.
Science Advances,
Journal Year:
2022,
Volume and Issue:
8(37)
Published: Sept. 16, 2022
Inflammatory
bowel
disease
(IBD)
affects
millions
of
people
each
year.
The
overproduction
reactive
oxygen
species
(ROS)
plays
a
critical
role
in
the
progress
IBD
and
will
be
potential
therapeutic
target.
Here,
we
synthesize
kind
oral
zero-valent-molybdenum
nanodots
(ZVMNs)
for
treatment
by
scavenging
ROS.
These
ultrasmall
ZVMNs
can
successfully
pass
through
gastric
acid
then
absorbed
intestine.
It
has
been
verified
that
down-regulate
quantity
ROS
reduce
colitis
mouse
model
without
distinct
side
effects.
In
addition,
RNA
sequencing
reveals
further
mechanism
protect
colon
tissues
from
oxidative
stress
inhibiting
nuclear
factor
κB
signaling
pathway
reducing
production
excessive
pro-inflammatory
factors.
Together,
offer
promising
alternative
option
patients
suffering
IBD.
