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endotyping

Endotyping is a framework for classifying a disease into subtypes, or endotypes, defined by distinct underlying biological mechanisms or etiologies rather than solely by observable traits. The goal is to link clinical features to specific pathophysiology to better predict disease course and response to therapy.

Endotypes are conceptually distinct from phenotypes. Phenotypes describe outward characteristics such as symptoms, onset age, or

Endotyping has particular relevance in heterogeneous, common diseases. In asthma, for example, endotypes include Type 2

Methods to identify endotypes combine biomarkers, omics data (genomics, transcriptomics, proteomics, metabolomics), and functional assays with

imaging
findings,
while
endotypes
seek
to
explain
why
those
features
arise
by
pointing
to
shared
mechanisms.
This
approach
is
used
to
illuminate
heterogeneity
within
conditions
and
to
support
precision
medicine.
(Th2-high)
and
non-Type
2
endotypes.
Type
2
endotypes
typically
show
eosinophilic
inflammation
and
responsiveness
to
corticosteroids
and
biologics
targeting
IL-4
or
IL-13
pathways;
non-Type
2
endotypes
involve
alternative
inflammatory
circuits
and
may
require
different
therapies.
In
COPD,
eosinophilic
endotypes
may
guide
corticosteroid
use.
In
sepsis
and
cancer,
transcriptomic
or
molecular
endotypes
disclose
hyperinflammatory,
immunosuppressive,
or
oncogenic
pathways
that
influence
treatment
choices
and
prognosis.
data-driven
clustering
and
longitudinal
analysis.
Challenges
include
temporal
instability
of
endotypes,
overlap
between
mechanisms,
variability
across
populations,
and
the
need
for
validated,
accessible
biomarkers
to
translate
endotyping
into
routine
care.