International Journal of Newgen Research in Pharmacy & Healthcare,
Journal Year:
2024,
Volume and Issue:
unknown, P. 176 - 186
Published: June 30, 2024
The
application
of
transition
metal
complexes
as
biochemical,
medicinal,
analytical,
pharmacological,
agronomic,
antibacterial,
and
anticancer
agents
is
gaining
attention.There
are
numerous
medicinal
uses
for
sulfonamides
metal-sulfonamide
complexes.
pharmacokinetic
profile
describes
the
process
by
which
a
compound
absorbed,
distributed,
metabolized,
eliminated
from
body.
effectiveness
drug
influenced
its
potency,
toxicity,
pharmacokinetics.
Molecular
docking
allows
development
medications
based
on
their
structures
predicting
preferred
binding
orientation
molecules
in
stable
In
order
to
optimize
drug-like
qualities,
must
strike
balance
between
pharmacokinetics,
effectiveness,
safety.
enhanced
activities
zinc
ligand
generally
explained
agar
diffusion
method.
Researchers
used
method
conduct
vitro
antibacterial
activity
studies
results
these
revealed
that
exhibited
higher
levels
than
precursor
ligand.
particular,
Zn(II)
complex
had
percent
index
(62,
90%)
both
Cu(II)
(54,
82%)
Ni(II)
(41,
68%)
when
tested
against
A.
niger
C.
albicans,
respectively.
novel
medicine
be
presented
clinic,
it
essential
reaches
therapeutic
target
adequate
quantities
safely
provide
desired
physiological
impact.
While
pharmaceutical's
perfect
qualities
significant,
they
alone
not
sufficient.
Small,
Journal Year:
2024,
Volume and Issue:
20(35)
Published: April 26, 2024
Abstract
In
the
progression
of
X‐ray‐based
radiotherapy
for
treatment
cancer,
incorporation
nanoparticles
(NPs)
has
a
transformative
impact.
This
study
investigates
potential
NPs,
particularly
those
comprised
high
atomic
number
elements,
as
radiosensitizers.
aims
to
optimize
localized
radiation
doses
within
tumors,
thereby
maximizing
therapeutic
efficacy
while
preserving
surrounding
tissues.
The
multifaceted
applications
NPs
in
encompass
collaborative
interactions
with
chemotherapeutic,
immunotherapeutic,
and
targeted
pharmaceuticals,
along
contributions
photodynamic/photothermal
therapy,
imaging
enhancement,
integration
artificial
intelligence
technology.
Despite
promising
preclinical
outcomes,
paper
acknowledges
challenges
clinical
translation
these
findings.
conclusion
maintains
an
optimistic
stance,
emphasizing
ongoing
trials
technological
advancements
that
bolster
personalized
approaches.
advocates
continuous
research
validation,
envisioning
revolutionary
paradigm
cancer
ultimately
enhancing
patient
outcomes.
Nanoscale,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 1, 2025
Esophageal
squamous
cell
carcinoma
(ESCC)
is
an
aggressive
malignancy
characterized
by
limited
treatment
options
and
poor
prognosis.
Nanoparticle-based
drug
delivery
systems
have
emerged
as
a
promising
strategy
to
enhance
cancer
therapy
efficacy
improving
targeting,
reducing
toxicity,
enabling
multifunctional
applications.
This
review
highlights
some
key
types
of
nanoparticles,
including
liposomes,
polymeric
metallic
dendrimers,
quantum
dots,
which
could
effectively
improve
the
various
drugs
used
in
chemotherapy,
radiotherapy,
immunotherapy,
offering
more
precise
effective
options.
With
ability
stability
overcome
biological
barriers,
nanoparticle-based
represent
transformative
for
ESCC
treatment.
Despite
challenges,
such
biocompatibility
scalability,
future
holds
great
promise,
particularly
development
personalized
nanomedicine
novel
therapeutic
approaches
targeting
tumor
microenvironment.
ongoing
advancements,
hold
immense
potential
revolutionize
patient
outcomes.
Applied Surface Science,
Journal Year:
2024,
Volume and Issue:
662, P. 160101 - 160101
Published: April 14, 2024
Atmospheric
pressure
plasma
jets
(APPJs)
are
advancing
as
a
versatile
dry
technology
for
creating
biofunctional
structures.
Recently,
reagent-free,
single-step
covalent
immobilization
of
bioactive
molecules
onto
surfaces
was
demonstrated.
Despite
this,
the
mechanisms
governing
attachment
process
remain
obscure.
Here,
we
studied
morphological
changes,
concentrations
radicals,
and
formation
reactive
species
on
APPJ-treated
polymers
to
shed
light
underlying
attachment.
The
polyethylene
surfaces,
prepared
either
in
air
or
with
controlled
ambient
gas
composition,
were
analyzed
using
Fourier
transform
infrared,
X-ray
photoelectron,
electron
spin
resonance,
fluorescence
spectroscopies,
well
atomic
force
microscopy.
It
demonstrated
that
only
non-radical
oxygen
(ROS)
could
explain
This
also
silicone
(PDMS),
broadening
range
possible
applications.
Finally,
identify
reaction
pathways,
fluorinated
carbon
brushes
used,
each
presenting
specific
functional
group.
Attachment
data
indicated
amine
thiol
groups
can
be
covalently
bound
treated
surfaces.
As
result,
reactions
involving
ROS,
hydroxyl,
carbonyl,
carboxyl,
peroxides
potential
pathways.
These
findings
provide
means
optimizing
treatment
features
such
binding
site
density
future
studies
applications,
thereby
expanding
capabilities
APPJ
within
3D
bioprinters.
Archiv der Pharmazie,
Journal Year:
2024,
Volume and Issue:
357(10)
Published: June 20, 2024
Abstract
Tetrandrine
(TET)
is
a
natural
bis‐benzylisoquinoline
alkaloid
isolated
from
Stephania
species
with
wide
range
of
biological
and
pharmacologic
activities;
it
mainly
serves
as
an
anti‐inflammatory
agent
or
antitumor
adjuvant
in
clinical
applications.
However,
limitations
such
prominent
hydrophobicity,
severe
off‐target
toxicity,
low
absorption
result
suboptimal
therapeutic
outcomes
preventing
its
widespread
adoption.
Nanoparticles
have
proven
to
be
efficient
devices
for
targeted
drug
delivery
since
drug‐carrying
nanoparticles
can
passively
transported
the
tumor
site
by
enhanced
permeability
retention
(EPR)
effects,
thus
securing
niche
cancer
therapies.
Great
progress
has
been
made
nanocarrier
construction
TET
due
their
outstanding
advantages
increased
water‐solubility,
improved
biodistribution
blood
circulation,
reduced
irritation,
combinational
therapy.
Herein,
we
systematically
reviewed
latest
advancements
TET‐loaded
respective
features
expectation
providing
perspective
guidelines
future
research
potential
applications
TET.
RSC Advances,
Journal Year:
2024,
Volume and Issue:
14(52), P. 38668 - 38688
Published: Jan. 1, 2024
Head
and
neck
squamous
cell
carcinoma
(HNSCC),
one
of
the
most
common
types
cancers
occurring
in
head
region,
is
often
associated
with
high
mortality
rates
due
to
its
invasiveness
morbidity.
The
mainstream
treatment
methods
clinical
settings,
including
surgery,
chemotherapy,
radiotherapy,
may
cause
poor
overall
survival
rate
prognosis,
issues
such
as
drug
resistance,
damage
adjacent
healthy
tissues,
potential
recurrences.
Other
approaches
immunotherapy,
photodynamic
therapy
(PDT),
photothermal
(PPT)
also
suffer
from
inefficient
tumor
targeting
suboptimal
therapeutic
outcomes.
Early
detection
vital
for
HNSCC
patients,
but
it
always
limited
by
insensitivity
confusing
manifestations.
Hence,
highly
desirable
develop
optimized
diagnostic
strategies.
With
boom
nanomaterials,
nanotechnology-conducted
has
attracted
widespread
attention.
Nanoparticles
(NPs)
are
distinguished
their
unique
morphology
superior
physicochemical
property,
some
can
exhibit
direct
antitumor
activity,
while
others
serve
promising
candidates
delivery.
In
addition,
NPs
offer
structural
modification
delivery
targeting,
enabling
specific
cells
through
conjugation
biomarker
ligands
improving
cargo
biocompatibility.
This
work
reviews
current
therapies
diagnosis
HNSCC,
highlights
characteristics
major
NPs,
surveys
uses
advantages
discusses
obstacles
prospects
applications,
aiming
enlighten
future
research
directions
nanotechnology-based
HNSCC.
