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biokinetic

Biokinetic is the study of how living organisms process substances, focusing on the rates and pathways of absorption, distribution, metabolism, and elimination. The term covers a broad range of chemicals and compounds, including nutrients, pharmaceuticals, pesticides, environmental contaminants, and radionuclides. Biokinetic analysis seeks to describe the fate of a substance in a biological system and to explain how biological factors influence its concentration in different tissues over time.

A core goal of biokinetics is to quantify ADME processes through mathematical models. Common approaches range

Applications span drug development, clinical dosing, toxicology, environmental health, and radiological protection. In medicine, biokinetic modeling

Challenges in biokinetics include variability between individuals and species, differences in exposure routes, and limitations of

from
simple
compartment
models,
which
treat
the
body
as
interconnected
pools,
to
physiologically
based
pharmacokinetic
(PBPK)
models
that
incorporate
organ
sizes,
blood
flow,
enzyme
activities,
and
transport
mechanisms.
These
models
help
predict
tissue
concentrations,
exposure
risks,
and
dose
metrics
under
various
scenarios.
While
pharmacokinetics
is
a
key
subfield
focused
on
drugs,
biokinetics
has
a
broader
remit
that
includes
non-therapeutic
chemicals
and
radionuclides,
as
well
as
complex
mixture
exposures.
informs
dose
selection,
efficacy,
and
safety
assessments.
In
environmental
health
and
risk
assessment,
it
supports
predictions
of
body
burdens
from
inhalation,
ingestion,
or
dermal
contact.
In
radiation
protection,
biokinetic
models
describe
the
retention,
distribution,
and
clearance
of
radionuclides
to
estimate
organ
doses.
experimental
data
to
validate
models.
Continuous
refinement
of
models
and
parameters
is
essential
for
accurate
risk
assessment
and
decision-making.