AP1 Chapter 7 part 1
how thick is articular cartilage
2-3mm thick
how many bones in human adults
206
bones with spongy bone in the middle do what (spongy bone sandwich)
absorb shock (like skull)
hyoid bone part of what skeleton
axial skeleton
sacrum part of which skeleton
axial skeleton! but hip bones that join to that sacrum are appendicular
why do we have variations in number of bones in skeletons
bc sesamoid bones form in response to a tension and can have extra bones in skull: wormian/sutural bones
main organ of skeletal system
bone
lever system
bones multiply a force that is generated during the contraction of that muscle to move our skeleton through space
skeletal system consists of
bones, cartilage, ligaments
bone is a depot for
calcium
bones are warehouses of what
calcium and phosphate ions
most numerous fiber in bone
collagen fibers
two textures of osseous tissue
compact bone and spongy bone
types of tissues in bone organ
compact bone, hyaline cartilage (articular), adipose tissue, nerves, dense irregular connective tissue, reticular tissue (specialized form yellow and red), blood (simple squamous line bvs), smooth muscle (walls of bv)
what is the function of sesamoid bones
decrease friction when tendon crosses a joint, reduces wear and tear in the tendon in which it is embedded
ligaments
dense regular connective tissue that joins two bones across a joint
shaft of long bone; expanded end of long bone
diaphysis, epiphysis
spongy bone middle layer in flat bones aka
diploë
two layers of periosteum
fibrous outer layer (dense irregular connective tissue) and osteogenic inner layer
short bone shape allows them to what
glide across a surface of the adjacent bone - so plane joints/gliding joints
ground substance in bone
glycosaminoglycans, proteoglycans, and glycoprotiens - both soft (unmineralized) or hard (mineralized, crystalized)
irregular bones good for what
good to attach structures to
tissue in red marrow
hemopoietic - capable of producing blood cells
blood cell formation where
in red bone marrow
keystone bones
irregular bones
across two bones
joint
articulations
joints
function of spongy bone
lighter because not as densely organized, framework allows spongy bone to absorb impact/force coming from many different directions
trabeculae
like flat plates (little beams)
hollow chamber in the diaphysis
marrow cavity/medullary cavity
what are calcium and phosphate ions important in
muscle contraction and transmission of a signal in the nervous system and blood clotting process
red marrow aka
myeloid tissue
how do nutrients pass the shaft to get to the inner part of the bone
nutrient foramen
perforating fiber
penetrate and adhere to the tissue of the bone organ and is a good place where tendon or ligament can attach to the bone
function of flat bones
protect soft organs and provide space for attachment of muscles and other structures
functions of skeletal system
protection, support, movement, mineral storage, acid-base balance, blood cell formation, yellow bone marrow
endosteum
relatively thin reticular tissue that lines and covers every one surface on the interior of the bone - lines marrow cavity, all surfaces of spongy bone, and central canals of osteons
function of compact bone
resists stress that is placed upon it - very strong and resists a lot of stress and force that's placed upon it
specialized short bone
sesamoid bone
perforating fiber aka
sharpey's fibers
bones of the axial skeleton
skull, auditory ossicles, hyoid bone, vertebral column, thoracic cage
where is red bone marrow in adults
skull, vertebrae, ribs, sternum, part of pelvic girdle, and proximal heads of humerus and femur
spicules
small needle like structures
ex of irregular bone
sphenoid
yellow bone marrow
storage of triglycerides. compact source of energy
job of appendicular skeleton
take the frame/core of the axial skeleton and move it around in space - all about motion
where are gliding/plane joints found
the bones of the wrist and the bones of the ankles
nutrient foramen
tunnel that penetrates diaphysis and provides extensive vasculature for bone organ
appendicular skeleton bones
upper and lower limbs, scapula, clavicle, hip bones (pectoral girdle, pelvic girdle)
where do sesamoid bones form
within tendons
sutural bones aka
wormian bones
bone is highly metabolically active, what provides that energy?
yellow bone marrow- triglycerides in adipose tissue
are marrow spaces in spongy flat bones lined with endosteum?
yes! like long bones
can skeletal system play a role in us getting back in pH homeostasis?
yes!!
