Home

biopersistence

Biopersistence is the capacity of a foreign substance to remain in an organism after exposure, resisting dissolution, metabolism, and clearance. In toxicology and pharmacology, biopersistence describes how long a chemical, particle, or fiber persists in tissues and fluids, influencing potential for chronic effects.

Biopersistence is especially relevant for inhaled or ingested materials. Substances that are highly biopersistent tend to

Factors shaping biopersistence include chemical composition, solubility in biological fluids, surface properties, size and shape, aggregation

Assessment methods combine in vitro dissolution tests, animal and human pharmacokinetic studies, and measurements of tissue

Examples illustrate the concept: asbestos fibers are highly biopersistent in lung tissue, contributing to chronic disease,

accumulate
in
the
lungs,
lymph
nodes,
liver,
and
spleen,
sustaining
inflammation
or
toxic
responses
over
time,
while
those
that
are
rapidly
dissolved
or
excreted
have
shorter
residence
times.
state,
and
the
formation
of
a
protein
corona.
Dissolution
rate,
biodegradation,
and
resistance
to
enzymatic
metabolism
determine
residence
time;
clearance
often
proceeds
via
macrophage
phagocytosis,
lymphatic
drainage,
hepatic
processing,
and
renal
elimination.
burden
and
half-life.
Regulatory
assessments
may
use
biopersistence
as
an
indicator
of
potential
for
long-term
hazard,
complementing
solubility,
reactivity,
and
exposure
level
data.
whereas
soluble
salts
show
low
biopersistence
due
to
rapid
dissolution
and
clearance.
Nanomaterials
exhibit
variable
biopersistence
dependent
on
composition,
size,
and
surface
treatment.