Supramolecular Materials,
Год журнала:
2024,
Номер
3, С. 100064 - 100064
Опубликована: Янв. 18, 2024
Bacterial
infections
arising
from
antibiotic-resistant
strains
represent
a
formidable
global
health
threat.
In
the
realm
of
antibacterial
therapies,
supramolecular
hydrogels
stand
out
with
unique
advantages
owing
to
their
adaptable
and
flexible
non-covalent
interactions
diverse
biomolecules.
Their
ability
encapsulate
variety
biologically
active
agents
through
co-assembly
further
amplifies
efficacy,
endowing
these
hybrid
spectrum
functionalities
within
unified
system.
Various
encompass
self-healing,
injectability,
tissue
adhesion,
facile
drug
loading,
controlled
release
mechanisms,
biocompatibility,
properties,
antioxidative
attributes.
This
review
article
delves
into
two
categories
hydrogels:
i)
those
intrinsic
attributes
ii)
co-assembled
formed
integration
an
assortment
agents,
including
various
nanomaterials,
antibiotics,
compounds
derived
natural
sources,
polymers.
The
anticipated
role
hydrogels,
coupled
contemporary
medical
technologies
devices,
is
paramount
in
development
highly
effective
secure
platforms
for
therapy.
Furthermore,
addresses
current
challenges
while
elucidating
prospective
future
advancements
this
field.
ACS Applied Bio Materials,
Год журнала:
2024,
Номер
7(3), С. 1362 - 1380
Опубликована: Фев. 19, 2024
Untimely
or
improper
treatment
of
traumatic
bleeding
may
cause
secondary
injuries
and
even
death.
The
traditional
hemostatic
modes
can
no
longer
meet
requirements
coping
with
complicated
emergencies.
With
scientific
technological
advancements,
a
variety
topical
materials
have
been
investigated
involving
inorganic,
biological,
polysaccharide,
carbon-based
materials.
These
their
respective
merits
defects.
In
this
work,
the
application
mechanism
major
materials,
especially
some
nanomaterials
excellent
adhesion,
good
biocompatibility,
low
toxicity,
high
adsorption
capacity,
are
summarized.
future,
it
is
prospect
to
develop
multifunctional
hemostasis
antibacterial
anti-inflammatory
properties
for
promoting
wound
healing.
Supramolecular Materials,
Год журнала:
2024,
Номер
3, С. 100064 - 100064
Опубликована: Янв. 18, 2024
Bacterial
infections
arising
from
antibiotic-resistant
strains
represent
a
formidable
global
health
threat.
In
the
realm
of
antibacterial
therapies,
supramolecular
hydrogels
stand
out
with
unique
advantages
owing
to
their
adaptable
and
flexible
non-covalent
interactions
diverse
biomolecules.
Their
ability
encapsulate
variety
biologically
active
agents
through
co-assembly
further
amplifies
efficacy,
endowing
these
hybrid
spectrum
functionalities
within
unified
system.
Various
encompass
self-healing,
injectability,
tissue
adhesion,
facile
drug
loading,
controlled
release
mechanisms,
biocompatibility,
properties,
antioxidative
attributes.
This
review
article
delves
into
two
categories
hydrogels:
i)
those
intrinsic
attributes
ii)
co-assembled
formed
integration
an
assortment
agents,
including
various
nanomaterials,
antibiotics,
compounds
derived
natural
sources,
polymers.
The
anticipated
role
hydrogels,
coupled
contemporary
medical
technologies
devices,
is
paramount
in
development
highly
effective
secure
platforms
for
therapy.
Furthermore,
addresses
current
challenges
while
elucidating
prospective
future
advancements
this
field.
