by Isabella R 3 years ago
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response to injury characterized by redness, warmth, swelling + pain
14 bones that form the toes
5 long bones that form the foot
7 ankle + heel bones
triangular bone that protects + stabilizes knee joint
kneecap
smaller lower bone
larger lower bone that is in contact w/ femur
rounded upper end of each fits into socket in coxal bone
longest + strongest bone in body
attach to sacral region of vertebral column + then curve forward to meet in front at the pubic symphysis where they are joined by cartilage
14 bones that form the fingers + thumb
5 bones that form the palm of the hand
Carpal Tunnel Syndrome
often due to repetitive typing on a computer keyboard
repetitive stress syndrome
held together by sheath of connective tissue
8 small bones that make up the wrist
forearm bones
long bone
upper arm
fits into a socket in the scapula
triangular bones in upper back
extend across top of our chest
wide range of movement
allows movement in one plane
knee + elbow
knee also includes 13 bursae sacs
to reduce friction, there are small disks on either side of knee joint called menisci
synovial membrane + surrounding hyaline cartilage create a joint capsule
articulating surfaces of two bones covered with tough smooth layer of hyaline cartilage
interior is lined with synovial membrane secretes synovial fluid to lubricate + cushion joint
soft spots on baby's heads that change shape
11-12 are floating ribs
have no attachment
8-10 are false ribs
attach via cartilage
1-7 are true ribs
attach directly to sternum
strong impacts can cause herniated disks
permit limited degree of movement
shock absorbers
composed of fibrocartilage
separate vertebrae
4 fused coccygeal
vestigial structure
5 fused sacral
5 lumbar
12 thoracic
7 cervical
where vertebral column connects to the skull + spinal cord enters skull to communicate w/ brain
large opening at base of skull
back + base of skull
mandible
attached to the temporal bone only
lower jaw + teeth
lacrimal bones
tiny opening where the tear ducts drain tears from the eye sockets into the nasal cavity
nasal bones
upper bridge of nose
zygomatic bones
cheekbones + outer portion of eye sockets
vomer bone
divides nose into left + right
part of the nasal septum
palatine bones
roof of the mouth
also formed by maxilla bones
maxilla
part of the eye sockets + anchor upper teeth
front of the skull
eye sockets + supports the nose
forms back of both eye sockets
b/w frontal + temporal bones
lower left + right sides of the skull
upper left + right sides of the skull
forehead + upper eye sockets
flat bones that enclose + protect the brain
bone dissolving cells
mature bone cells that maintain the structure of a bone
young bone forming cells that cause hard extracellular matrix of bone to develop
cartilage-forming cells that build a model of future bone
OSTEOPOROSIS
condition in which bones lose great deal of mass because of an imbalance over many years in the rates of osteoclasts + osteoblasts
lends structure to outer ear + epiglottis
highly flexible
mostly elastin
covers ends of mature bones in joints creating smooth low friction surface
forms embryonic structures that then become bone
controlled by hormones (growth hormone)
4. growth plates in long bones move farther apart + the bone lengthens + widens
3. osteoblasts secrete osteoid + enzymes, facilitating the deposition of hydroxyapatite crystals
conversion of cartilage to bone is concentrated INSIDE growth plate
2. cartilage starts to dissolve + periosteum begins to develop, new blood vessels transport osteoblasts into area to form periosteum
1. chondroblasts form hyaline cartilage, creating a rudimentary model of future bone
chondroblast activity is concentrated OUTSIDE growth plate
smooth glossy cartilage of thin collagen
intervertebral disks + menisci
withstands pressure + tension
collagen arranged in thick bundles
tough layer of connective tissue that contains specialized bone forming cells
stem cells in red bone marrow produce red + white blood cells + platelets
primarily fat that can be used for energy
osteocytes do not need to rely on central canals for nutrients + waste removal
slender trabecular structure of spongy bone gives each osteocyte access to nearby blood vessels in red bone marrow
as hard as compact bone, but is less dense + allows for bone to be light + strong
latticework of hard + strong trabeculae
made up of extracellular deposits of calcium phosphate surrounding + enclosing cells called osteocytes
as bone develops + becomes hard, osteocytes become trapped in lacunae
waste products are exchanged in in opposite direction + removed by blood vessels
remain in contact with each other via canaliculi
within it are extensions of the cell cytoplasm in adjacent osteocytes joined together by gap junctions
by exchanging nutrients across gap junctions, osteocytes can be supplied with nutrients even though most osteocytes are not located near a blood vessel
channels that permit movement of ions, water + other molecules b/w adjacent cells
ones near the center of an osteon receive nutrients by diffusion from blood vessels that pass through a central canal
arranged in rings in osteons
also called Haversian Systems
nearly a solid structure w/ central canals containing nerves + blood vessels
Mineral storage
Blood cell formation
Movement
Protection
Support
gives bones hard + rigid appearance