L15- Disorders of Skeletal Development (background) Flashcards
list the functions of the skeletal system
- essential for mechanical support + protection of internal organs
- determines body size, shape
- mineral homeostasis (Ca, PO4, Na, Mg)
- houses hemopoietic tissue
list the clinical manifestations of bone disease
- disability and deformity
- pain
- pancytopenia
- neurological dysfunction
The organic matrix of bone is made out of (1) and gives bones their (2) function.
1- type I collagen (mainly) + proteoglycans
2- flexibility, tensile strength
______ makes up 60% of total bone mass
Calcium Hydroxyapatite, Ca(10) PO4-(6) OH(2)
-essential part of bone matrix –> more predominant than bone cells
Inorganic matrix:
- (1) describe its composition
- (2) describe its functions
1:
- mainly calcium hydroxyapatite, Ca(10) PO4-(6) OH(2)
- 99% Ca stores, 85% phosphate stores
- 65% Na, Mg stores
2:
- mineral homeostasis (and storage)
- bone strength
list cellular component of bone and where they come from
- osteoprogenitor cells (stem cells) –> osteoblasts
- osteoblasts –> (synthesizes matrix) –> osteocytes
- osteocytes (mature osteoblasts) –> mechanosensory
-(hematopoetic progenitor cells –> osteoclast precursors –>) osteoclasts –> resorbs matrix
Osteoblasts:
- (1) is the main function
- it will bind (2) in order to initiate (3) and or regulate (4)
1- synthesis of matrix proteins –> type I collagen
2- hormones (estrogen, PTH, T3/T4, vitD, glucocorticoids)
3- mineralization
4- osteoclast activity
Osteoclasts:
- derived from (1)
- found in (2) location in bone
- (3) is a key cellular feature
- osteoclasts will release (4) for (5) function, leading to appearance of (6) seen in histology
1- HSC (hematopoetic stem cells) 2- bone surface 3- multinucleated 4- proteolytic enzymes 5- bone resorption 6- Howship's lacunae
______ is the space found surrounding active osteoclasts
Howship’s lacunae
briefly describe the development of bony matrix
Osteoid = non-mineralized matrix
(12-15 days of mineralization)
Bone = mineralized matrix
list the different categorizations of bone types
Mineralization: non-mineralized (osteoid), mineralized
Structure: cortical (compact surface form), cancellous (inner trabecular / spongy)
Matrix Fiber arrangement: Woven (immature), Lamellar (mature)
Woven Bone:
- seen normally in (1) situations
- (2) collagen bundle arrangement
- resistance to force is (uni/multi)-directional
- its presence is pathological if seen in (4)
Immature Bone 1- first laid down in fetal skeleton (forms quickly) 2- random orientation 3- multi-directional 4- adults (fracture, tumor)
Lamellar Bone:
- seen normally in (1) situations
- (2) collagen bundle arrangement
- resistance to force is (uni/multi)-directional
Mature Bone, cortical and cancellous (trabecular)
1- normal mature bone
2- regular parallel bands of collagen in sheets
3- uni-directional – facilitates weight bearing
Most bones are formed through (1) process, where (2) is the main feature.
Other bones are formed through (3) process as seen in the development of (4) bones.
1- endochondral ossification (most bones in body, especially long bones)
2- bone replaces embryonic cartilaginous skeletal framework
3- intramembranous ossification - de novo bone synthesis (no frame work)
4- flat bones: skull, face, parts of clavicle and pelvis
describe the process of endochondral ossification
1) chondrocytes secretion –> mesenchymal condensations –> hyaline cartilage –> calcification –> cartliage anlagen
2) chondrocytes in anlagen –> apoptosis
3) BV invasion of dead cartilage
4) bone formation on the surface of residual calcified matrix
