With
the
global
expansion
of
several
cancerous
variants
nowadays
new
drugs
and
treatments
are
desperately
needed.
The
Internet
Things
(IoT)
has
played
a
significant
role
in
recent
advancements
healthcare
technologies.
research
objectives
field
nano-biotechnologies
for
drug
delivery
encompass
key
goals.
These
include
enhancing
precision
efficiency
targeting
delivery,
minimizing
toxicity
levels
while
retaining
therapeutic
efficacy,
ensuring
optimal
safety
biocompatibility,
accelerating
development
process
secure
medications.
undergone
progressive
change
due
to
ubiquitous
computing.
By
deploying
such
IoT-based
devices,
health
professionals
can
better
serve
society.
study
will
introduce
model
"Smart
Portable
Intensive
Care
Unit"
based
on
remote
distribution
real-time
patient
monitoring.
suggested
paradigm
allows
medical
staff
patient's
family
remotely
monitor
physiological
data.
Journal of Cellular and Molecular Medicine,
Journal Year:
2023,
Volume and Issue:
27(6), P. 737 - 762
Published: Feb. 24, 2023
Abstract
In
recent
years,
drug
manufacturers
and
researchers
have
begun
to
consider
the
nanobiotechnology
approach
improve
delivery
system
for
tumour
cancer
diseases.
this
article,
we
review
current
strategies
delivery,
which
mainly
focuses
on
sustaining
biocompatibility,
biodistribution,
active
targeting.
The
conventional
therapy
using
cornerstone
drugs
such
as
fludarabine,
cisplatin
etoposide,
paclitaxel
has
its
own
challenges
especially
not
being
able
discriminate
between
versus
normal
cells
eventually
led
toxicity
side
effects
in
patients.
contrast
approach,
nanoparticle‐based
provides
target‐specific
controlled
release
of
drug,
a
better
therapeutic
window
treatment
options
by
focusing
eradication
diseased
via
targeting
sparing
passive
Additionally,
tumours
associated
with
brain
is
hampered
impermeability
blood–brain
barriers
drugs,
poor
survival
Nanoparticle‐based
offers
superior
target
breaching
barriers.
Herein,
provide
an
overview
properties
nanoparticles
that
are
crucial
nanotechnology
applications.
We
address
potential
future
applications
specific
or
desired
areas.
particular,
use
nanomaterials,
biostructures,
methods
targeted
explored.
Genes,
Journal Year:
2023,
Volume and Issue:
14(7), P. 1370 - 1370
Published: June 28, 2023
Lung
cancer
is
managed
using
conventional
therapies,
including
chemotherapy,
radiation
therapy,
or
a
combination
of
both.
Each
these
therapies
has
its
own
limitations,
such
as
the
indiscriminate
killing
normal
well
cells,
solubility
chemotherapeutic
drugs,
rapid
clearance
drugs
from
circulation
before
reaching
tumor
site,
resistance
cells
to
radiation,
and
over-sensitization
radiation.
Other
treatment
modalities
include
gene
immunological
checkpoint
inhibitors,
drug
repurposing,
in
situ
cryo-immune
engineering
(ICIE)
strategy.
Nanotechnology
come
rescue
overcome
many
shortfalls
therapies.
Some
nano-formulated
nanoparticles
nanostructures
with
surface
modifications,
have
been
used
for
effective
cell
radio
sensitization,
respectively.
Nano-enabled
delivery
systems
act
cargo
deliver
sensitizer
molecules
specifically
thereby
enabling
therapy
be
more
effective.
In
this
review,
we
discussed
different
chemotherapies
inhibiting
lung
cancer.
We
also
improvement
chemotherapy
sensitization
nanoparticles.
Science Progress,
Journal Year:
2024,
Volume and Issue:
107(1)
Published: Jan. 1, 2024
X-ray
computed
tomography
(CT)
and
magnetic
resonance
(MR)
imaging
are
essential
tools
in
modern
medical
diagnosis
treatment.
However,
traditional
contrast
agents
inadequate
the
of
various
health
conditions.
Consequently,
development
targeted
nano-contrast
has
become
a
crucial
area
focus
image-enhancing
agents.
To
fully
understand
current
agents,
this
review
provides
an
overview
preparation
methods
research
advancements
CT
MR
CT/MR
multimodal
described
previous
publications.
Due
to
physicochemical
properties
nanomaterials,
such
as
self-assembly
surface
modifiability,
these
specific
can
greatly
improve
targeting
lesions
through
clearly
highlight
distinction
between
normal
tissues
both
MR.
As
result,
they
have
potential
be
used
early
stages
disease
diagnostic
capacity
level
imaging.
Sustainable Chemistry,
Journal Year:
2024,
Volume and Issue:
5(2), P. 40 - 59
Published: March 25, 2024
The
current
economic
development
paradigm,
which
is
based
on
steadily
rising
resource
consumption
and
pollution
emissions,
no
longer
viable
in
a
world
with
limited
resources
ecological
capacity.
“green
economy”
idea
has
presented
this
context
chance
to
alter
how
society
handles
the
interplay
between
environmental
spheres.
related
concept
of
nanotechnology”
aims
use
nano-innovations
within
fields
materials
science
engineering
generate
products
processes
that
are
economically
ecologically
sustainable,
enabling
establish
preserve
green
economy.
Many
different
sectors
anticipated
be
impacted
by
these
applications,
including
those
corrosion
inhibitor
nanofertilizers,
nanoremediation,
biodegradation,
heavy
metal
detection,
biofuel,
insecticides
pesticides,
catalytic
CO2
reduction.
These
innovations
might
make
it
possible
non-traditional
water
sources
safely
create
construction
enabled
nanotechnology,
improving
living
conditions.
Therefore,
our
aim
highlight
nanotechnology
being
used
economy
present
promises
for
nano-applications
domain.
In
end,
emphasizes
critical
attain
truly
sustainable
advancement
nanotechnology.
Pharmaceuticals,
Journal Year:
2023,
Volume and Issue:
16(4), P. 581 - 581
Published: April 12, 2023
Tuberculosis
(TB),
one
of
the
deadliest
contagious
diseases,
is
a
major
concern
worldwide.
Long-term
treatment,
high
pill
burden,
limited
compliance,
and
strict
administration
schedules
are
all
variables
that
contribute
to
development
MDR
XDR
tuberculosis
patients.
The
rise
multidrug-resistant
strains
scarcity
anti-TB
medications
pose
threat
TB
control
in
future.
As
result,
strong
effective
system
required
overcome
technological
limitations
improve
efficacy
therapeutic
medications,
which
still
huge
problem
for
pharmacological
technology.
Nanotechnology
offers
an
interesting
opportunity
accurate
identification
mycobacterial
improved
medication
treatment
possibilities
tuberculosis.
Nano
medicine
emerging
research
field
provides
possibility
efficient
delivery
using
nanoparticles
decrease
drug
dosages
adverse
effects
boost
patient
compliance
with
therapy
recovery.
Due
their
fascinating
characteristics,
this
strategy
useful
overcoming
abnormalities
associated
traditional
leads
some
optimization
impact.
It
also
decreases
dosing
frequency
eliminates
low
compliance.
To
develop
modern
diagnosis
techniques,
upgraded
possible
prevention
tuberculosis,
nanoparticle-based
tests
have
demonstrated
considerable
advances.
literature
search
was
conducted
Scopus,
PubMed,
Google
Scholar,
Elsevier
databases
only.
This
article
examines
employing
nanotechnology
diagnosis,
nanotechnology-based
systems,
successful
elimination
illnesses.
RSC Advances,
Journal Year:
2024,
Volume and Issue:
14(36), P. 26183 - 26197
Published: Jan. 1, 2024
Recently,
the
design
of
polymer
nanofibers
using
electrospinning
process
has
attracted
much
interest.
Particularly
use
natural
polymers
promoted
many
advantages
in
their
biomedical
applications.
However,
combination
multiple
remains
a
great
challenge
terms
electrospun
production
and
applied
performance.
From
this
perspective,
current
investigation
highlights
study
preparation
nanomaterial
scaffolds
based
on
combined
for
improved
wound
healing
First,
we
have
synthesized
crosslinked
by
reacting
microcrystalline
cellulose
(MC)
chitosan
(CS)
biopolymer
Pharmaceutics,
Journal Year:
2023,
Volume and Issue:
15(6), P. 1726 - 1726
Published: June 14, 2023
The
objective
of
this
study
was
to
investigate
the
rhombohedral-structured,
flower-like
iron
oxide
(Fe2O3)
nanoparticles
that
were
produced
using
a
cost-effective
and
environmentally
friendly
coprecipitation
process.
structural
morphological
characteristics
synthesized
Fe2O3
analyzed
XRD,
UV-Vis,
FTIR,
SEM,
EDX,
TEM,
HR-TEM
techniques.
Furthermore,
cytotoxic
effects
on
MCF-7
HEK-293
cells
evaluated
in
vitro
cell
viability
assays,
while
antibacterial
activity
against
Gram-positive
Gram-negative
bacteria
(Staphylococcus
aureus,
Escherichia
coli,
Klebsiella
pneumoniae)
also
tested.
results
our
demonstrated
potential
toward
lines.
antioxidant
evidenced
by
1,1-diphenyl-2-picrylhydrazine
(DPPH)
nitric
(NO)
free
radical
scavenging
assays.
In
addition,
we
suggested
could
be
used
various
applications
prevent
spread
different
bacterial
strains.
Based
these
findings,
concluded
have
great
for
use
pharmaceutical
biological
applications.
effective
biocatalytic
recommends
its
as
one
best
drug
treatments
future
views
cancer
cells,
it
is,
therefore,
recommended
both
vivo
biomedical
field.
PubMed,
Journal Year:
2023,
Volume and Issue:
22, P. 880 - 903
Published: Jan. 1, 2023
Phytopharmaceuticals,
derived
from
plants,
are
increasingly
recognized
for
their
potential
therapeutic
benefits.
However,
effectiveness
is
often
hindered
by
challenges
such
as
poor
bioavailability,
stability,
and
targeted
delivery.
In
this
study,
we
aimed
to
address
these
limitations
developing
PCL
(phosphatidylcholine)
fortified
nano-phytopharmaceuticals
enhance
efficacy.
PCL,
a
biocompatible
biodegradable
polymer,
was
employed
encapsulate
the
phytopharmaceuticals,
thereby
improving
stability
bioavailability.
The
encapsulation
process
utilized
nanoprecipitation,
resulting
in
formation
of
nanoparticles
with
controlled
size
morphology.
Various
analytical
techniques
were
characterize
physicochemical
properties
nano-phytopharmaceuticals,
including
dynamic
light
scattering,
scanning
electron
microscopy,
Fourier-transform
infrared
spectroscopy.
Furthermore,
release
kinetics
encapsulated
phytopharmaceuticals
evaluated,
demonstrating
sustained
profiles,
essential
prolonged
effects.
Cytotoxicity
studies
conducted
on
