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chondrocyter

Chondrocyter, or chondrocytes, are the sole resident cells in cartilage. They originate from mesenchymal stem cells and reside in lacunae within a specialized extracellular matrix. In adults, most chondrocytes are quiescent and rely on diffusion for nutrient supply due to the avascular nature of cartilage.

Cartilage consists of three main types—hyaline, fibrocartilage, and elastic cartilage—each with distinct matrix composition. Chondrocytes synthesize

Development and growth: In endochondral ossification, chondrocytes progress from resting to proliferating to hypertrophic zones in

Function and regulation: Chondrocyte metabolism is influenced by mechanical load, oxygen tension, and soluble factors such

Clinical relevance: Cartilage has limited regenerative capacity. Injury and diseases like osteoarthritis involve chondrocyte dysfunction and

and
maintain
the
extracellular
matrix,
primarily
type
II
collagen
and
aggrecan
in
hyaline
cartilage.
They
can
form
isogenous
groups
when
they
divide
during
development
or
repair.
growth
plates,
where
their
maturation
guides
bone
formation.
In
mature
cartilage,
chondrocytes
maintain
matrix
and
coordinate
remodeling,
though
activity
is
limited.
as
TGF-β,
BMPs,
and
IGF-1.
They
produce
matrix-degrading
enzymes
under
certain
conditions,
balancing
synthesis
and
breakdown.
matrix
degradation
by
enzymes
such
as
MMPs
and
ADAMTS.
Therapeutic
approaches
include
cell-based
therapies
like
autologous
chondrocyte
implantation
and
tissue
engineering
strategies.