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osteoid

Osteoid is the organic, unmineralized portion of the bone matrix that is laid down by osteoblasts during bone formation. It serves as a collagen-rich scaffold onto which mineral crystals are deposited, ultimately forming mature mineralized bone.

In composition, osteoid is predominantly organic, with type I collagen making up the major fibrous component.

Mineralization of osteoid involves deposition of hydroxyapatite crystals within the collagen matrix. This process is facilitated

Histologically, osteoid can be detected as an unmineralized seam or layer adjacent to newly formed bone. The

Clinically, impaired mineralization of osteoid leads to conditions such as osteomalacia in adults and rickets in

It
also
contains
non-collagenous
proteins
such
as
osteocalcin,
osteopontin,
bone
sialoprotein,
and
various
proteoglycans.
These
components
provide
binding
sites
for
minerals
and
regulate
the
mineralization
process.
The
osteoid
is
secreted
into
the
extracellular
space
and,
as
mineralization
proceeds,
becomes
embedded
with
calcium
phosphate
crystals.
by
enzymes
such
as
alkaline
phosphatase,
which
lowers
local
levels
of
mineralization
inhibitors
like
pyrophosphate.
Matrix
vesicles
released
by
osteoblasts
also
contribute
to
nucleation
of
mineral.
When
mineralization
is
complete,
the
once
unmineralized
osteoid
becomes
mature,
calcified
bone
matrix,
and
osteoblasts
may
differentiate
into
lining
cells
or
become
embedded
as
osteocytes
within
the
mineralized
matrix.
thickness
of
the
osteoid
seam
and
the
surface
area
of
osteoid
relative
to
bone
are
used
as
indicators
of
bone
formation
activity
in
both
research
and
clinical
pathology.
children,
where
excess
osteoid
remains
unmineralized
due
to
vitamin
D
deficiency,
phosphate
disorders,
or
other
metabolic
abnormalities.