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organoïden

Organoïden are three-dimensional, self-organizing structures derived from stem cells that recapitulate key structural and functional aspects of actual organs. In vitro they are grown in a defined extracellular matrix and exposed to combinations of growth factors that steer development-like processes, enabling cells to differentiate into multiple lineages and to form organized, layer-like tissues.

Organoïden can be generated from pluripotent stem cells (embryonic or induced) or from resident adult progenitor

The standard workflow involves embedding cells in an extracellular matrix such as Matrigel, providing a defined

While organoïden offer valuable insights, they have limitations. They often lack a functional vasculature and immune

In outlook, organoïden are important research tools that complement animal models and traditional cell cultures. Progress

cells.
They
have
been
established
for
several
organ
types,
including
brain,
intestine,
liver,
kidney,
pancreas
and
lung,
among
others.
Patient-derived
organoids
can
reflect
the
genetic
makeup
and
disease
features
of
an
individual
and
are
used
to
study
disease
mechanisms,
test
drug
responses,
and
screen
therapeutic
compounds.
sequence
of
signaling
cues,
and
allowing
self-organization
to
occur
over
weeks.
Techniques
such
as
genetic
modification,
single-cell
profiling
and
imaging
are
used
to
characterize
organoid
structure
and
function.
Some
models
integrate
microfluidic
or
bioreactor
systems
to
improve
nutrient
supply
and
sensor
readouts;
organoids
may
also
be
used
to
model
host–microbe
interactions
by
exposing
luminal
surfaces
to
microbes.
components,
show
maturation
differences
from
adult
tissue,
and
exhibit
batch-to-batch
variability.
Ethical,
regulatory
and
quality-control
considerations
apply,
particularly
for
patient-derived
lines
and
potential
therapeutic
applications.
aims
to
improve
vascularization,
immune
integration,
and
standardization
to
broaden
their
translational
potential,
while
recognizing
that
they
are
not
yet
equivalents
of
whole
organs
for
transplantation.