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skeletonbones

Skeletonbones are the rigid elements that form the vertebrate skeleton. They provide a framework for the body, protect internal organs, enable movement through joints and muscles, store minerals such as calcium and phosphate, and house bone marrow for blood cell production.

Anatomically, skeletonbones consist of osseous tissue organized into cortical (compact) bone on the outer surfaces and

Bone strength derives from a mineralized collagen matrix, with hydroxyapatite crystals embedded in organic collagen and

Growth and development occur by endochondral ossification for most long bones and by intramembranous ossification for

Skeletonbones are classified by shape into long bones (e.g., femur, humerus), short bones (carpals, tarsals), flat

Bone remodeling continually adjusts bone architecture in response to use and metabolic needs, balancing formation by

Beyond anatomy, the study of skeletonbones intersects physiology, development, pathology, and archaeology, informing medicine, biomechanics, and

trabecular
(spongy)
bone
inside.
The
tissue
is
highly
vascular
and
contains
bone
marrow,
nerves,
and
blood
vessels.
Cellular
components
include
osteoblasts
(bone-forming),
osteocytes
(mature
cells),
and
osteoclasts
(bone-resorbing).
other
proteins.
This
composite
gives
bones
both
rigidity
and
some
flexibility.
flat
bones
such
as
many
skull
bones
and
the
clavicle.
bones
(cranial
bones,
sternum),
irregular
bones
(vertebrae),
and
sesamoid
bones
(patella).
osteoblasts
and
resorption
by
osteoclasts.
Aging
and
disease
can
alter
this
balance,
leading
to
conditions
such
as
osteoporosis
or
fracture.
evolutionary
biology.