Regenerative Cosmetics: Skin Tissue Engineering for Anti-Aging, Repair, and Hair Restoration
Cosmetics,
Год журнала:
2024,
Номер
11(4), С. 121 - 121
Опубликована: Июль 15, 2024
The
quest
for
youthful,
healthy
skin
and
full,
vibrant
hair
has
long
been
a
driving
force
in
the
dermocosmetics
field.
However,
traditional
approaches
often
struggle
to
address
underlying
causes
of
aging,
damage,
loss.
Regenerative
cosmetics
powered
by
tissue
engineering
offer
transformative
alternative.
This
review
explores
emerging
field
using
engineered
tissues
cosmetic
purposes,
focusing
specifically
on
their
potential
anti-aging,
repair,
restoration
applications.
We
discuss
how
these
technologies
aim
rejuvenate
aging
promoting
collagen
production,
reducing
wrinkles,
improving
overall
function.
Additionally,
use
wound
healing
scar
reduction
is
examined,
highlighting
improve
appearance
functionality
damaged
skin.
Finally,
we
advance
exciting
prospects
utilizing
techniques
regenerate
follicles,
potentially
offering
solutions
loss
denser
growth.
Язык: Английский
Preventive effects of dietary fucoxanthin on ultraviolet A induced photoaging in hairless mice
Journal of the Science of Food and Agriculture,
Год журнала:
2024,
Номер
105(1), С. 453 - 464
Опубликована: Авг. 28, 2024
Abstract
BACKGROUND
Repeated
exposure
to
ultraviolet
A
(UVA)
irradiation,
which
can
penetrate
the
epidermis
and
reach
dermis,
is
one
of
major
causes
skin
photoaging.
Photoaged
characterized
clinically
by
generalized
wrinkling,
a
dry
loose
appearance,
seborrheic
keratoses,
along
with
barrier
dysfunction.
Fucoxanthin,
xanthophyll
carotenoid
specific
allenic
bond
5,6‐monoepoxide
in
its
structure,
has
been
found
serve
various
functions
as
food
supplement.
In
present
study,
protective
effects
orally
administered
fucoxanthin
at
relatively
low
concentrations
(0.001%
0.01%)
against
UVA
induced
photoaging
were
evaluated
vivo
using
hairless
mice.
RESULTS
Oral
supplementation
0.001%
was
sufficient
for
metabolites
accumulate
skin,
thereby
inhibiting
pathological
changes
including
impaired
function
accelerated
wrinkle
formation.
Analysis
gene
expression
revealed
that
dietary
exerted
antiphotoaging
effects,
possibly
modulating
natural
moisturizing
factor
(NMF)
synthesis,
desquamation,
ceramide
composition
epidermis,
degradation
collagen
fibers
inflammation
dermis.
CONCLUSION
Taken
together,
our
data
indicate
potential
application
novel
ingredient
nutricosmetics
care
©
2024
Society
Chemical
Industry.
Язык: Английский
Anti-Photoaging Effects of Antioxidant Peptide from Seahorse (Hippocampus abdominalis) in In Vivo and In Vitro Models
Marine Drugs,
Год журнала:
2024,
Номер
22(10), С. 471 - 471
Опубликована: Окт. 14, 2024
Overexposure
to
ultraviolet
(UV)
radiation
can
lead
photoaging,
which
contributes
skin
damage.
The
objective
of
this
study
was
evaluate
the
effects
an
antioxidant
peptide
(SHP2)
purified
from
seahorse
(
Язык: Английский
Regenerative Cosmetics: Skin Tissue Engineering for Anti-Aging, Repair, and Hair Restoration
Опубликована: Июнь 20, 2024
The
quest
for
youthful,
healthy
skin
and
full,
vibrant
hair
has
long
been
a
driving
force
in
the
dermocosmetics
field.
However,
traditional
approaches
often
struggle
to
address
underlying
causes
of
aging,
damage,
loss.
Regenerative
cosmetics,
powered
by
tissue
engineering,
offer
transformative
alternative.
This
review
explores
emerging
field
using
engineered
tissues
cosmetic
purposes,
focusing
specifically
on
their
potential
anti-aging,
repair,
restoration
applications.
We
discuss
how
these
technologies
aim
rejuvenate
aging
promoting
collagen
production,
reducing
wrinkles,
improving
overall
function.
Additionally,
use
wound
healing
scar
reduction
is
examined,
highlighting
improve
appearance
functionality
damaged
skin.
Finally,
we
advance
exciting
prospects
utilizing
engineering
techniques
regenerate
follicles,
potentially
offering
solutions
loss
denser
growth.
Язык: Английский
Chronic UVB exposure induces hepatic injury in mice: mechanistic insights from integrated multi-omics
Environmental Pollution,
Год журнала:
2024,
Номер
362, С. 124933 - 124933
Опубликована: Сен. 10, 2024
Язык: Английский
CHARACTERIZATION AND BIOSAFETY PROFILE OF EUGENOL INCORPORATED IN IRON OXIDE NANOPARTICLES
Опубликована: Сен. 15, 2024
Aim
of
the
study
Eugenol,
a
phenolic
compound
commonly
found
in
plants
like
clove
and
bay
leaves,
has
garnered
significant
attention
field
dentistry
due
to
its
diverse
pharmacological
properties.
In
dentistry,
eugenol
is
frequently
employed
various
forms,
such
as
polymerized
cement
with
zinc
oxide
for
restorative
purposes.
Its
applications
extend
endodontic
cements
oxide-eugenol
formulations,
which
are
used
dental
procedures.
So
far,
according
our
knowledge,
no
literature
approached
formulations
based
on
iron
nanoparticles
eugenol,
this
being
first.
Materials
methods
present
study,
it
was
developed
first
time
formulation
obtained
through
combustion
method,
embedded
surface
eugenol.
The
prepared
characterized
electron
microscopy
investigations,
followed
by
further
vitro
evaluation
concerned
their
biosafety
use
healthy
murine
epidermal
cell
line.
Results
results
showed
that
naked
biocompatible
safe
line,
while
exhibits
dose-dependent
cytotoxicity
reaching
until
value
~17%
at
highest
tested
dose
(100
μg/mL).
addition,
decreased
when
surface,
recording
11%
concentration
tested.
Conclusions
conclusion,
studies
type
medicine
highlight
multifaceted
well
emphasizing
potential
advancing
treatments
diagnostics.
Язык: Английский