hbio301 ch6 bones and skeletal tissue
osteocytes are _, act as _, communicate w_
"- mature, long lived, terminally differentiated, multifunctional cells w long cytoplasmic processes ('dendrites') found in lucuno-canalicular network - act as mechanoreceptoinrs via canaliciular tethering elements such as integrin and glycocalyx coat to the ECM and/or fluid shear that transmits forces to open hemichannels in processes ('dendrits') - w osteoblasts and clasts to regulate bone remodeling + large # of toher cellular processes such as glucose homeostasis, cognition, male fertility"
endochondral ossification
"- ossifiies bones that originate as hyaline cartilage(caleld ""cartilage replacement bones"") - all bones other than those in intramembranous - begin forming late in 2nd month of embryonic development and continues forming until early adulthood - 5 steps"
4 steps of fracture repair
"1. hematoma formation - blood clot forms fibrous network and bone cells nearly die 2. fibrocartilaginous callus formation- within few days new blood vessels form and rapidly dividing fibroblasts and chondroblasts in nearby periosteum & endostem invade clot to form soft callus; continiue to secrete additional fibers to form fiborcartilage&hyaline- fibrocartilaginous callus 3. bone callus formation- within a week osteoblasts replace central cartilage w spongy ""woven"" bone via endochondrial ossification. trabeuclae span callus to reunite bone 4. bone remodeling- osteoblasts and clasts continue to remodel bone for ccouple months, laying down both spongy & compact bone (so briefly stronger bc end is trabeculae)"
osteoblasts are bone cells that actively secrete _, mechanisms:
- bone matrix- osteoid (collagen + glucopolysaccharides), osteocalcin (signalling), osteopontin (extracellular glycoprotein but also involved in inflammation, mechanical stress, angoigenesis, and accelerated bone resoprtion) and alkaline phosphatase (ALP) involved in mineralization - groups of interconnected osteoblasts cause calcum salts and phosphorus to precipitate from blood and bond w newly formed osteoidi andn ALP catalyzes calcium phosphatee preciptiation (found in extracellular matrix vesicles)
basic structuree of cartilages
- cells = chondroblasts, chondrocytes (located within in lacunae) - matrix contains: fibers, gel-like ground substance
as adolescence comes to end what happens
- chondroblasts divid less often - epiphyseal plates become thinner (cartilage sopts growing and is replaced by bone tissue) - bones stop lengthening when diaphysis and epiphyses fuse (17-25 yo)
perforating fibers connect w _, functions:
- collagen fibers in bone and joint capsules - isolation of bone from surrounding tissue, entryway for cardiovascular & nerves, participates in growth and repair of bone
anatomy of bone
- compact bone (80% of skeleton)- denser outer layer of bone - spongy, cancellous/trabecular bone (20%)- internal network of bone - trabeculae in spongy bone- little beams of bone lighten load - open spaces between trabeculae filled w marrow and hemopoietic cells
structure of short, irregular, and flat bones
- contain bone marrow but no marrow cavity - diploep internal spongy bone of flat bonesn
intramembranous ossification (dermal ossification)
- develops directly from mesenchymal membrane - produces membrane or dermal bones (includes most of the bones of the skull, face, lower jaw, lateral portion of clavicle - 4 steps
bones most effected by aging _ resulting in _
- epiphyses, veretbrae, jaws - fragile limbs, reduction in height, tooth loss
women vs men lose bone mass do to what (women lose more % per decade)
- esp after menopause when there is precipitous decline in estrogen - primiarly to loss of estrogen (as testosterone levels decline, less estreogen is made from aromatase
estrogen/hormones and bone loss
- estrogen affects osteoprotegerin (OPH)/receptor activity of NF-kB ligand (RANKL) system important in balancing activity of osteoclasts - estrogen and androgen help maintain bone mass by inhibiting osteoclast activity
osteoclasts (clatos greek for broken)
- giant multinucleated cells derived from hemocytoblast cell line of WBC that also produces macrophages - responsible for resoprtion of bone - secrete hyrogen ions, collagenase, cathepsin K , hydrolytic enzymes, gelatinases (the hydrochloric acid dissolves the mineral salts and the enzymes digest the organic materials)
spongy bone
- less complex than compact bone, lacks osteons - trabeculae contain layers of lamellae and osteocytes but lack blood vessels (endosteum has capillaries) (compact doesnt have trabeculae, and has less osteocytes bc not as much space) - red (or in some bones yellow fat) bone marrow fills space between trabeculae - red bone marrow has blood vessels that supply osteocytes and has blood cell progenitors
osteons structure, function, components
- long cylindrical - support - have lamellae, central canal, perforating canals, canaliculi
long bones, found in
- longer than wide, a shaft plus ends - arms legs hands feet fingers toes
osteogenic (osteoprogenitor) cells
- mesenchymal stem cells that differentiate into ostoeblasts and chondroblasts - located in both endosteeum & periosteum to assist in repair
hyaline (latin glassy) cartilage vs. elastic vs. fiibrocartilage
- most abundant - chondrocytes appear spherical - collagen unit fibril is only type of fiber in matrtix - ground substance holds a large amount of water - provides support throguh flexibility vs. - many elastic fibers - able to tolerate repeated bending - locations -epiglottis, pinnae, auditory tube vs. - resisstt strong compression and strong tension - intermediate between hyaline and elastic cartilage
bones are considered to bbe organs bc they contain several types of tissues
- mostly supportive bone CT, contain nervous & other CT, contain articulating and other cartilages in joints, epithelial tissue line blood vessel
3 broad categories of bone markings (ways to deal w stress)
- projections for muscle attachment, surfaces that form joints, depressions and openings
short bones, found in
- roughly cube-shaped, small thiick - ankles wrists
sutural bones, found in
- small irregular bones - found between flat bonese of skull
sesamoid bones, found in
- small, flat - develop inside tendons near joints of knees, hands, feet
perichondrium
- surrrounds elastic and some hyaline cartilages (not fibrocartilage or hyaline articular cartilages) - resists outward pressure - functions in growth ahd repair of cartilage (as contains chondroblasts) - consists primarily of water - is a resilient tissue, springs back to original shape
flat bones, found in
- thin flattened, parallel surfaces, usually curved - skull sternum ribs scapula
location of cartilages
- throughout adult body: elastic cartilage in external ear, epiglottis, auditory tube; hylaine cartilage in joints, nose, costal cartialge, & resp system (larynx, trachea, bronchioles); fibrocartilage in intervertebral discs, knee menisci & pubic symphysis
irregular bones, found in
- various shapes - spinal vertebrae, pelvic bones
tx for osteoporosis beyond vitD (4)
1. antiresoptive drugs - bisphosphonates (PPi-inorganic pyrophosphates resistant to hydroxyapatite degradation), SERMs (selective estrogen receptor molecules) 2. anabolic agents- calcitonin 3. estrogen replacement therapy (ERT) or hormone replacement thereapt (HRT- estrogen + progestin/progesterone) - generally not first choice bc potential negative side effeccts include icnreased risk breast cancer?, blood clots, endometrial cancer) 4. drugs that block steoclast formation/function - denosumab
steps of endochondreal ossification
1. bone collar forms around diaphysis of hyaline cartilage model 2. cartilage in center of diaphysis calcifies then develops cavities 3. periosteal bud invades internal cavities, spongy bone begins to form 4. diaphysis elongates & medullary cavity forms as ossification contiues, secondary ossificiatioin centers appear in epiphyses (vascularized via epiphyseal blood vessel) 5. epiphyses ossify. when completed, hyaline cartilage remains only in epiiphyseal plates and articular cartilages
epiphyseal growth zones from resting zone
1. chondroblasts at top (proliferationi zone) divide quickly (Mitosis) 2. lengths entire long bone via osteogenesis (in hypertrophic zone older cartilage cells enlarge) 3. calciification zone: older chondrocytes signal surrounding matrix to calcify then cells die then matrix deteriorates (leaves long trabeculae/spicules of calcified cartilage on diaphysis side, trabeculae partly eroded by osteoclasts) 3. ossifiicatioin zone: new bone is forming (osteoblasts cover trabeculae w bone tissue, trabecculae eaten away from tips by osteoclasts)
steps of intramembranous ossification
1. ossification centers appear in fibrous CT membrane - center formed by selected centrally located mesenchymal cells cluster and differentiate into osteoblasts 2. bone matrix (osteoid) secreted within fibrous membrane and calcifies - osteoblasts secrete osteoid(collagen+glucopolysaccharides) that is calcified in a few days (calcium salts&phosphorus precipitate from blood to interstitial fluid), trapped osteobalsts become osteocytes (secretes alkaline phosphate required for extracting inorganic phosphate from precipiitated phosphorus to form hydroxyapatite which forms bone) 3. woven bone and periostetum form - accumulating osteiod laidi down between embryonic blood vessels in random way ->network of trabeculae- woven bone (rather than lamella); vscularized mesenchyme condenses on external face of woven bone and becomes periosteum 4. lamellar bone repaces woven bone, just deep to periosteum. red marrow appears - trabeculae deep to periosteum thicken and later replaced w mature lamellar bone forming compact bone plates, spongy bone (diploe) consisting of distinct tarbeculae persists internally and vascular tissue becomes red marrow (ie diploe cavities contain red marrow)
bone is made up of
1/3 extracellular matrix protein fibers (primarily type 1 collage), 2/3 crystalized hydroxyapatite
skeleton grows until age of
17-25yrs
we cycle mineral reserves, recycle and reuse bone matrix: in adults, cancellous (spongy bone containing red bone marrow is replaced every _ yrs, while compact bone is replaced every _yrs
3/4, 10
most common load experienced by bone
bending
growing bones widen as they length via osteoblasts and osteoclasts by adding/removing bone tissue where
blasts add bone tissue to external surface of diaphysis, clasts remove bone from internal surface of diaphysis
compression fracture
bone crushed, common in porous bones (osteoporotic) subjected to extreme trauma like fall
comminuted fracture
bone fragments 3 or more pieces, common in aged whose bones are more brittle
simple fractures vs compound
bone only (no skin involvement) vs bone protrudes through skini
ossification (osteogenesis)
bone tissue formation
skeletal system is comprised of
bones of skeleton, cartilages, ligaments, other CT
where is osteocalcin involved in terms of bone to a part of the body
brain, muscle, testes
depressed fracture
broken bone portion pressed inward, typical skull fracture (Cyborg MMA)
bone generates what type of matrix
calcified
calcitriol/ vitamin D3 (kidney&skin) promotes _ and _ absorption in digestive tract
calcium, phosphate
appositional growth is also known as , where are chondroblasts
children, limited repair in adutls; in pereichondrium produce new cartilage
types of reductions (tx for fraccture by reallignment of broken ends)
closed- bones coaxed into position by physician open- bones joined surgically w pnis and wres
during bending load, bone experiences both
compression &tension
osteoclacin & rest of body
crosses blood-brain barrieir and acts in brainstem, midbrain, hippocampus to influence synthesis of several neurotransmitters that favor learning and memory formation
in bone remodelling, osteoblast _ and osteoclasts _ bone
deposite, reabsorb (osteoclasts are HCL and lysosomal enzyme secreting giant multinucleated ceells that are derived from hemopoietic cell line/self-fusing macrophages)
structure of typical long bone
diaphysis (shaft of bone), epiphyses (ends of bone) , metaphysis (between epi and dia), blood vessels (well vascularized), medullary cavity (hollow cavity filled w yellow and/or red marrow), membranes (outer periosteum, perforating collagen fiber bundles (sharpeys fibers), inner endosteum)
displaced fracture
displaced from normal
"colles' fractures"
distal portion of radius bone typically caused from when breaking your fall w your hand (profs) (transvrese)
interstitial growth is also known as ,
embryonic growth at epiphyseal plate (3D), chondroblasts within cartilage divide and secrete new matrix
mesoderm gives rise to
embryonic mesenchyme cells
durinig childhood and adolesccense bones length entirely by growth of the
epiphyseal plate (maintains constant thickness so whole bone lengthen, cartilage replaced w bone CT as quickly as it grows)
growth hormone (pituitary) stimulates
epiphyseal plates (used for dwarfism)
epiphyseael fracture
epiphysis separates from diaphysis along epiphyseal plate, tends to occur where cartilage cells are dying and calcification of matrix is occuring
in children and adolescents, bone formation _ rate of bone reabsorption in young adults.... in old age...
exceeds, balance, reabsoprtion predominates & mass declines
Fracturese shold take 6-8 weeks or longer to repair depending on
for weight-bearing bones (quicker ie 6-8) or longer (age)
compression &tension
greatest at external surfaces and zero in middle, whcih in long bones is hollow (medullary cavity)
_ synchronzies interstitial cartilage growth growth with osteogenesis as well as appositional bone wideniing so that load bearing is balanced w growth
growth plate
bone is a complex composite material consistinig of
high elastic modulus of stiff hydroxyapatite crystal for compressive strength, embedded in low elastic modulus of flexible organic collagen fibers provide tensile strength, permeated pores filled w osteocytes in lacuna
greenstick fracture
incomplete break (only one side of shaft breaks, other bends), common in children whose bones have more organicc matrix/are more flexible than adults
torus fracture
incomplete buckle fracture, often distal portion of radius, most common fracture in children (greenstick)
endosteum
incomplete cellular layer that - lines medullary (marrow) cavity - covers ttrtabeculae of spongy bone - lines central canals - contains osteoblasts,-genitor or -genic, -clasts - active in bone remodeling and repair
Leydig cells have osteocalcin receptors which _ testosterone
increases
fibroblast growth factor 23 (FGF23) & rest of body
increases phosphate reabsorption in kidneys and absorption in gut (bone to kidney)
appositional growth is growth of bone by addition of bone tissue to where
its surface (thickening)
periosteum covers all bones eceept parts enclosed in
joint capsules
compact bone have
lamellae (incomplete or circumferential, multiple in single osteon), osteons
exercise increases _, which promottes osteocyte health, facilitates glucose uptake by skeletal muscle, improves hepatic glucose and lipid metabolism
leptin
classification of bones
long, short, flat, irregular sutural, sesamoid
fragility fractures
low energy fractures of thoracolumblar vertebrae, pelvis, distal radius, proximal and distal femur, tibia and proximal humerus
osteopenia is a BMD (bone mineral density _ than normal when compared to a 30 yr old white women, measured by DEXA scan; osteoporosis score?
lower (t-score between -1 and -2.5), t-score less than -2.5 SD
bone tissue osteocalcin signalling
mechanical loading (stress) sensed by osteocytes is conveyed to osteoblasts that secrete osteocalcin which results in increased neurons firing ^ testosterone production, decreased adiponectin secretion; increased: insulin sensitivity, adiponectin production; mitochondrial boigenesis, glucose uptake, fatty acid uptake, muscle mass; GLP-1 secretion, insulin production, B-cell proliferatoin; decreased: fat accumulation
mesenchyme produces
membranes, cartilage
gut microbiome to bone via liver/fat cells
microbes release short-chain fatty acids that cause liver/fat cells to make more insulin-like growth factor: 1IGF-1, which promotes bone growth
during exercise muscles make _, muscle & bone growth inhibitor. in addition, _ influences fat and insulin responses to the increased energy use and protects osteocytes from ROS
myostatin, beta-amnioisobutyric acid (BAIBA)
tx for osteopenia
no specific meds, but can prevent further bone loss
bone tissue componenst
organic (cells, fibers, ground substance), inorganic (mineral microcrystals that precipitate bony matrix
estrogen and testosterone stimulate _
osteoblast (estrogen later induses closure of epiphyseal plates)
ccacncerous tissues release _ that can produce severe osteoporosis
osteocclast-activating factor
parathyroid hormone indirectly stimulates
osteoclasts (via osteoblasts) to increased activity, increases blood calcium
calcitonin (c cells of thyroid) inhibit
osteoclasts, promotes calsium loss by kidneys (rather than bones)
cells of bone (4)
osteocytes (90-95%), osteoblasts, osteogenic or osteoprogenitor cells, osteoclasts
PGE2 & rest of body
osteocytes make prostaglandin E2 (PGE2) which promotes muscle growth
disorders of bone and description
osteomalacia- occurs in adults, bones inadequately mineralized; rickets- occurs in children analogous to osteomalacia(softening), due to inadequate vitamin D in diet or inadquate sun exposure (1930 US mandate all milk needs to be fortified vitamin D); osteosarcoma- form of bone cancer affecting 10-25 yr olds
2 disorders of severe bone loss
osteopenia, osteoporosis (severe)
periosteum includes
outer fibrous layer of dense irregular CT, inner cellular (cambium) layer that contains osteoblastes, -cytes, -clasts, -progenitors; perforating fibers (collage fibers of periosteum)
bone remodeling occurs at _ and _ surfaces
periosteal, endosteal
thyroid hormone ensures the skeleton retains
proper proportiions
spiral fracture
ragged break occurs when excessive twisting forces are applied to a bone, common sports fracture
transverse fracture
right angle to long plane
anatomy of a bone reflects
stress
bone markings on _ surface of bones reflect stress on them
superficial
functions of skeletal system
support(provide hard framework), movement (skeletal muscles use bones as levels), protection (of underlying organs), mineral reserve/storage (reservoir for important minerals), blood cell formation (bone contains red marrow), endocrine function (osteoblasts secrete osteocalcin, which is involved not only in bone and calcium homeostasis but also glucose homeostasis and exercise capacity, brain development, cognition, and male fertility)
leptin & rest of body
supresses appetite and bone growht which may save energy for day to day functions when food is scarce (fat cells to brain)
in epiphyseal plates of growing bones cartilage is organized for quick efficient growth, cells form:
tall stacks - pushes epiphysis away from diaphysis - occuurs from birth till early 20s, after puberty, epiphyseal lines can be seen on x-rays
"pott's fracture"
variety of bimalleolar ankle fractures, involving both lateral (fiibula) and medial malleolus (tibia), caused by combined abduction external rotation from eversion force (kinda displaced)
gut microbiome to bone via large intestine/liver/kidney
vitamin K (of which half our daily intake is from gut microbiome) is required for proper hydroxyapatite crystal formation
cartilage grows quickly in _, skeleton shows fewer chondrocytes in _ bc _
youth, elderly, membranes and cartilage ossify
