Deleted Journal,
Journal Year:
2024,
Volume and Issue:
246(1)
Published: Dec. 11, 2024
Cellulose
nanocrystals
(CNCs)
were
synthesized
from
jute
fiber
by
acid
hydrolysis
method.
Our
research
aims
to
fabricate
cellulose
reinforced
methyl
(MC)
and
chitosan
(CH)
bio-nanocomposites
(BNCs)
loaded
with
ketorolac
tromethamine
(KT)
drug.
The
BNC
films
fabricated
solvent
evaporation
technique.
We
have
investigated
the
chemical
structure,
morphology
mechanical
properties
of
formulations
using
Fourier
transform
infrared
(FTIR)
spectroscopy,
X-ray
diffraction
(XRD),
Universal
testing
machine
(UTM),
dynamic
light
scattering
(DLS),
contact
angle
(CA)
scanning
electron
microscopy
(SEM).
CNCs
BNCs
showed
excellent
material
property
which
may
a
broad
vista
in
realistic
biomedical
application.
Pharmaceutics,
Journal Year:
2024,
Volume and Issue:
16(10), P. 1344 - 1344
Published: Oct. 21, 2024
Drug
delivery
systems
(DDS)
have
improved
therapeutic
agent
administration
by
enhancing
efficacy
and
patient
compliance
while
minimizing
side
effects.
They
enable
targeted
delivery,
controlled
release,
bioavailability.
Transdermal
drug
(TDDS)
offer
non-invasive
medication
evolved
to
include
methods
such
as
chemical
enhancers,
iontophoresis,
microneedles
(MN),
nanocarriers.
MN
technology
provides
innovative
solutions
for
chronic
metabolic
diseases
like
diabetes
obesity
using
various
types.
For
management,
MNs
continuous
glucose
monitoring,
diabetic
wound
healing,
painless
insulin
delivery.
treatment,
provide
sustained
transdermal
of
anti-obesity
drugs
or
nanoparticles
(NPs).
Hybrid
integrating
wearable
sensors
smart
materials
enhance
treatment
effectiveness
management.
Nanotechnology
has
advanced
nano-scaled
liposomes
polymeric
NPs
with
MNs.
In
glucose-responsive
facilitate
At
the
same
time,
lipid
nanocarriers
in
dissolving
extended
release
stability
absorption
disorder
therapies.
DDS
are
advancing
toward
personalized
treatments
enhanced
nanomaterials.
These
approaches
can
outcomes
through
precise
real-time
monitoring.
However,
widespread
implementation
faces
challenges
ensuring
biocompatibility,
improving
technologies,
scaling
production,
obtaining
regulatory
approval.
This
review
will
present
recent
advances
developing
applying
nanomaterial-enhanced
management
also
discussing
challenges,
limitations,
future
perspectives
these
DDS.
Journal of Dispersion Science and Technology,
Journal Year:
2024,
Volume and Issue:
unknown, P. 1 - 26
Published: June 20, 2024
Nanoemulsions
are
nano-sized
particles,
typically
ranging
from
tens
to
hundreds
of
nanometers.
These
nanoemulsions
possess
various
appealing
properties,
making
them
highly
promising
for
applications
in
pharmaceutics,
foods,
and
cosmetics.
properties
include
their
small
size,
which
allows
a
high
surface
area
per
unit
volume,
ability
disperse
hydrophobic
components
enhance
absorption
effectively.
In
the
pharmaceutical
industry,
have
been
developed
delivery
active
ingredients.
Macromolecular
surfactants
offer
enhanced
emulsion
stability
compared
conventional
low-molecular
surfactants.
Enhanced
is
due
slower
desorption
kinetics
at
droplet
interface,
reduces
risk
toxicity
skin
irritation
associated
with
latter.
This
article
presents
comprehensive
investigation
into
role
drug
delivery.
It
commences
by
delineating
types
subsequently
explores
techniques
nanoemulsion
preparation.
Surfactants
serve
as
pivotal
both
production
stabilization
nanoemulsions.
The
review
provides
an
encompassing
overview
diverse
surfactant
types,
molecule
variants,
particle
surfactants,
phospholipids,
peptides,
protein-based
tailored
Additionally,
it
addresses
instability,
elucidating
strategies
mitigate
instability
challenges,
highlights
utilization
nanomedicine
effective
aims
insights
researchers
engaged
nanoemulsion-related
studies
interdisciplinary
fields.
Journal of Thermoplastic Composite Materials,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Aug. 9, 2024
Biomimetic
nanoparticles
(BioM
NPs)
are
an
innovative
strategy
for
nanomedicine
(NanoMed)
that
combines
the
advantages
of
artificial
materials
with
biological
functioning
natural
systems.
Ongoing
research
attempts
to
enhance
their
design,
and
stability,
solve
problems
broader
applications
in
medicine
biotechnology.
NanoMed
ideas
intensively
researched
preclinical
because
they
provide
unique
disease
management.
It
has
developed
novel
therapeutic
strategies
combating
viral
infections
increasing
treatment
success
rates.
The
creation
nanocarriers
drug
delivery
systems
is
critical
evolution
NanoMed,
but
there
still
much
learn
about
this
quickly
evolving
field.
To
contribute
existing
knowledge
cover
gaps,
our
present
review
article
will
discuss
state-of-the-art
BioM
NPs
three
sections.
First,
methods
NP
production
synergistic
interactions
human
cells,
tissues,
organs,
organ
be
discussed.
Followed
by
a
discussion
several
NanoMeds
(wound
healing,
targeted
delivery,
theranostics,
cancer
therapy,
bone
formation
and/or
regeneration),
concluding
application
NPs,
challenges
associated
these
applications,
prospects.
Royal Society of Chemistry eBooks,
Journal Year:
2024,
Volume and Issue:
unknown, P. 214 - 250
Published: Nov. 15, 2024
The
development
of
biocompatible
nanofibres
through
electrospinning
is
a
promising
method
for
engineers
in
the
biomedical
field.
existing
coating
technologies
medical
field
have
various
limitations,
and
more
investigations
are
needed
to
improve
their
biocompatibility,
controlled
release
properties,
mechanical
strength.
Designing
new
materials
that
can
interact
efficiently
with
biological
systems
offer
numerous
functional
advantages
major
challenge
device
manufacturing
tissue
engineering.
This
chapter
reviews
approaches
used
create
nanofibres,
including
design,
fabrication
functionalization.
applications
these
coatings
also
reviewed.
Furthermore,
we
discuss
methods,
used,
key
parameters
impact
fibre
morphology
physiochemical
properties.
Moreover,
incorporation
bioactive
elements
drugs
into
therapeutic
explored.
biologically
friendly
be
an
effective
approach
improving
coatings.
Such
enhance
properties
such
as
drug
delivery,
regeneration,
implant
integration,
offering
enormous
potential
patient
welfare.
Future
research
areas
include
investigating
use
advanced
procedures
enhanced
control
over
nanofibre
composition
design
fabrication.
Bioengineering,
Journal Year:
2024,
Volume and Issue:
11(12), P. 1222 - 1222
Published: Dec. 3, 2024
Nanoparticle
(NP)-based
drug
delivery
systems
have
received
widespread
attention
due
to
the
excellent
physicochemical
properties
of
nanomaterials.
Different
types
NPs
such
as
lipid
NPs,
poly(lactic-co-glycolic)
acid
(PLGA)
inorganic
(e.g.,
iron
oxide
and
Au),
carbon
(graphene
nanodots),
2D
nanomaterials,
biomimetic
found
favor
vehicles.
In
this
review,
we
discuss
different
customized
for
intravascular
delivery,
nanoparticle
behaviors
(margination,
adhesion,
endothelium
uptake)
in
blood
vessels,
nanomaterial
compatibility
successful
delivery.
Additionally,
cell
surface
protein
targets
play
an
important
role
targeted
various
vascular
studies
using
nanoparticles
conjugated
these
proteins
are
reviewed.
Finally,
limitations,
challenges,
potential
solutions
translational
research
regarding
NP-based
discussed.
Deleted Journal,
Journal Year:
2024,
Volume and Issue:
246(1)
Published: Dec. 11, 2024
Cellulose
nanocrystals
(CNCs)
were
synthesized
from
jute
fiber
by
acid
hydrolysis
method.
Our
research
aims
to
fabricate
cellulose
reinforced
methyl
(MC)
and
chitosan
(CH)
bio-nanocomposites
(BNCs)
loaded
with
ketorolac
tromethamine
(KT)
drug.
The
BNC
films
fabricated
solvent
evaporation
technique.
We
have
investigated
the
chemical
structure,
morphology
mechanical
properties
of
formulations
using
Fourier
transform
infrared
(FTIR)
spectroscopy,
X-ray
diffraction
(XRD),
Universal
testing
machine
(UTM),
dynamic
light
scattering
(DLS),
contact
angle
(CA)
scanning
electron
microscopy
(SEM).
CNCs
BNCs
showed
excellent
material
property
which
may
a
broad
vista
in
realistic
biomedical
application.
