Environment & Health,
Journal Year:
2024,
Volume and Issue:
2(7), P. 499 - 513
Published: May 9, 2024
As
a
key
step
in
next-generation
risk
assessment
(NGRA),
vitro
to
vivo
extrapolation
(IVIVE)
aims
mobilize
mechanism-based
understanding
of
toxicology
translate
bioactive
chemical
concentrations
obtained
from
assays
corresponding
exposures
likely
induce
bioactivity
vivo.
This
conversion
can
be
achieved
via
physiologically-based
toxicokinetic
(PBTK)
models
and
machine
learning
(ML)
algorithms.
The
last
5
years
have
witnessed
period
rapid
development
IVIVE,
with
the
number
IVIVE-related
publications
increasing
annually.
Review
(1)
provide
comprehensive
overview
origin
IVIVE
initiatives
undertaken
by
multiple
national
agencies
promote
its
development;
(2)
compile
sort
out
perform
clustering
analysis
their
high-frequency
keywords
capture
research
hotspots;
(3)
comprehensively
review
PBTK
ML
model-based
studies
published
understand
directions
methodology
developments;
(4)
propose
future
perspectives
for
two
aspects:
expanding
scope
application
integrating
new
technologies.
former
includes
focusing
on
metabolite
toxicity,
conducting
susceptible
populations,
advancing
ML-based
quantitative
models,
extending
ecological
effects.
latter
combining
systems
biology,
multiomics,
adverse
outcome
networks
aiming
at
more
microscopic,
mechanistic,
toxicity
prediction.
highlights
important
value
NGRA,
goal
providing
confidence
routine
use
prioritization,
hazard
assessment,
regulatory
decision
making.
Analytical Chemistry,
Journal Year:
2024,
Volume and Issue:
96(11), P. 4736 - 4744
Published: March 11, 2024
As
a
natural
green
catalyst,
laccase
has
extensive
application
in
the
fields
of
environmental
monitoring
and
pollutant
degradation.
However,
susceptibility
to
influences
poor
reusability
seriously
hinder
its
application.
To
address
these
concerns,
for
first
time,
manganese
ion
replaced
copper
as
active
center
coordinate
with
guanosine
monophosphate
(GMP)
synthesizing
mimic
high
catalytic
activity.
Compared
laccase,
laccase-like
nanozyme
(Mn–GMPNS)
demonstrated
superior
thermal
stability,
acid–base
resistance,
salt
tolerance,
reusability,
substrate
universality.
Benefiting
from
activity
Mn–GMPNS,
epinephrine,
significant
neurotransmitter
hormone
associated
numerous
diseases,
was
visually
detected
within
10
min
portable
assay
by
smartphone.
More
encouragingly,
Mn–GMPNS
can
efficiently
degrade
dye
pollutants,
achieving
decolorization
rate
over
70%
30
min.
Thus,
coordination
between
nucleotide
potential
rational
design
nanozymes
activity,
low
cost,
good
biocompatibility.
Environmental Science & Technology,
Journal Year:
2024,
Volume and Issue:
58(29), P. 12784 - 12822
Published: July 10, 2024
In
the
modern
"omics"
era,
measurement
of
human
exposome
is
a
critical
missing
link
between
genetic
drivers
and
disease
outcomes.
High-resolution
mass
spectrometry
(HRMS),
routinely
used
in
proteomics
metabolomics,
has
emerged
as
leading
technology
to
broadly
profile
chemical
exposure
agents
related
biomolecules
for
accurate
measurement,
high
sensitivity,
rapid
data
acquisition,
increased
resolution
space.
Non-targeted
approaches
are
increasingly
accessible,
supporting
shift
from
conventional
hypothesis-driven,
quantitation-centric
targeted
analyses
toward
data-driven,
hypothesis-generating
exposome-wide
profiling.
However,
HRMS-based
exposomics
encounters
unique
challenges.
New
analytical
computational
infrastructures
needed
expand
analysis
coverage
through
streamlined,
scalable,
harmonized
workflows
pipelines
that
permit
longitudinal
tracking,
retrospective
validation,
multi-omics
integration
meaningful
health-oriented
inferences.
this
article,
we
survey
literature
on
state-of-the-art
technologies,
review
current
informatic
pipelines,
provide
an
up-to-date
reference
exposomic
chemists,
toxicologists,
epidemiologists,
care
providers,
stakeholders
health
sciences
medicine.
We
propose
efforts
benchmark
fit-for-purpose
platforms
expanding
space,
including
gas/liquid
chromatography-HRMS
(GC-HRMS
LC-HRMS),
discuss
opportunities,
challenges,
strategies
advance
burgeoning
field
exposome.
World Journal of Advanced Research and Reviews,
Journal Year:
2024,
Volume and Issue:
21(1), P. 1453 - 1466
Published: Jan. 20, 2024
Environmental
factors
play
a
pivotal
role
in
shaping
public
health
outcomes
on
global
scale.
This
paper
provides
succinct
overview
of
the
review
exploring
intricate
relationship
between
environmental
elements
and
health,
highlighting
challenges
faced
worldwide
proposing
solutions
for
healthier
future.
The
begins
by
dissecting
diverse
range
that
significantly
impact
health.
From
air
water
pollution
to
climate
change,
scope
encompasses
both
traditional
pollutants
emerging
threats.
interconnectedness
ecosystems
human
is
underscored,
emphasizing
need
comprehensive
understanding
determinants.
Amidst
challenges,
navigates
through
innovative
strategies
mitigate
adverse
effects
factors.
Initiatives
addressing
reduction,
sustainable
urban
planning,
ecosystem
preservation
emerge
as
key
components.
exploration
extends
incorporation
advanced
technologies,
data-driven
interventions,
international
collaborations
tackle
issues
at
level.
Furthermore,
delves
into
importance
awareness
education
fostering
practices.
Empowering
communities
understand
reciprocal
their
environment
identified
crucial
aspect
long-term
solutions.
policymakers
advocacy
promoting
policies
prioritize
also
emphasized.
encapsulates
web
posed
envisions
future
where
proactive
measures
collaborative
efforts
lead
harmonious
coexistence
populations
surroundings.
proposed
aim
inspire
paradigm
shift
towards
practices,
ensuring
resilient
community.
Advanced Materials,
Journal Year:
2024,
Volume and Issue:
36(15)
Published: Jan. 8, 2024
Multiyolk-shell
(mYS)
nanostructures
have
garnered
significant
interest
in
various
photocatalysis
applications
such
as
water
splitting
and
waste
treatment.
Nonetheless,
the
complexity
rigorous
conditions
for
synthesis
hindered
their
widespread
implementation.
This
study
presents
a
one-step
electrochemical
strategy
synthesizing
multiyolk-shell
nanocoils
(mYSNC),
wherein
multiple
cores
of
noble
metal
nanoparticles,
Au,
are
embedded
within
hollow
coil-shaped
FePO
Environmental Science & Technology,
Journal Year:
2024,
Volume and Issue:
58(13), P. 5921 - 5931
Published: March 21, 2024
Identifying
transformed
emerging
contaminants
in
complex
environmental
compartments
is
a
challenging
but
meaningful
task.
Substituted
para-phenylenediamine
quinones
(PPD-quinones)
are
originating
from
rubber
antioxidants
and
have
been
proven
to
be
toxic
the
aquatic
species,
especially
salmonids.
The
emergence
of
multiple
PPD-quinones
various
matrices
evidence
their
specific
hazards
underscore
need
understand
occurrences.
Here,
we
introduce
fragmentation
pattern-based
nontargeted
screening
strategy
combining
full
MS/All
ion
fragmentation/neutral
loss-ddMS2
scans
identify
potential
unknown
different
matrices.
Using
diagnostic
fragments
m/z
170.0600,
139.0502,
characteristic
neutral
losses
199.0633,
138.0429
Da,
six
known
three
novel
were
recognized
air
particulates,
surface
soil,
tire
tissue.
Their
structures
confirmed,
concentration
composition
profiles
clarified
with
self-synthesized
standards.
N-(1-methylheptyl)-N′-phenyl-1,4-benzenediamine
quinone
(8PPD-Q)
N,N′-di(1,3-dimethylbutyl)-p-phenylenediamine
(66PD-Q)
identified
quantified
for
first
time,
median
concentrations
found
0.02–0.21
μg·g–1
tissue,
0.40–2.76
pg·m–3
particles,
0.23–1.02
ng·g–1
soil.
This
work
provides
new
presence
environment,
showcasing
environment.
