Congenital Disorders of Bone and Cartilage Flashcards
(26 cards)
Functions of Bone
Mechanical Support Transmission of Force Protect the Viscera Mineral Homeostasis Acid-Base balance Niche for production of blood cells
Intramembranous Ossification
Bone laid down directly in embryonic connective tissue or mesnechyme….all bones of the head and the clavicle.
Endochondral Ossification
Bone tissues replaces preexisting hyaline cartilage(the template for future bone)
Woven Bone
Immature bone (or pathologic) seen after a fracture or in development. randomly oriented and more osteocytes per unit volume. flexible, weak, high turnover rate
Lamellar Bone
Remodeled and organized bone. Stronger but less flexible.
Steps in Endochondral Ossification
- Mesenchymal condensation 2. Type 2 Collagen synthesis and chondrocyte proliferation 3. Type 10 collagen synthesis and chondrocyte hypertrophy 4. Type 1 collagen formation and matrix mineralization. Nutrient artery brings pre-osteoblastic cells.
FGF Receptor 3 (FGFr3) function and associated dysfunction
Functions to shut off chondrocyte growth. Gain of function mutation causes short stature due to decreased chondrocyte differentiation and proliferation
Cortical Bone vs Trabecular Bone
Cortical- Long bone shafts. Concentric layers of mineralized hardened colagen. Resistant to bending and torsion. Trabecular- Sxial skeleton and ends of long bones. Rigid but Spongy. Large surface area due to trabecular meshwork
What is Osteopontin
It is unique to bone and serum measures indicate osteoblast activity
What type of collagen is found in osteoid?
Type 1 collagen
Osteoblast
Derived from mesenchymal progenitors Produces collagen and other matrix proteins
Osteoclast
Derived from hematopoietic progenitors Resorb Bone Multinucleated and mobile
Osteocytes and Lining cells
Mature osteoblasts Line bone surface or embed in matrix Homeostatic function
What two signals are required for Osteoclast Maturation
RANKL (Formation) M-CSF (Growth, Survival, Differentiation)
How do osteoclasts function?
Creates a sealing zone….then Cathespin K digests the proteinaceuos matrix
Cathepsin K
digests the bone. produced by osteoclasts
Dysostosis
Localized problem in the migration or condensation of mesenchyme. Absence of a bone or digit (Aplasia) Extra bone or Digit Abnormal bone fusion (syndactyly)
Dysplasia
Abnormal growth/disorganization of bone or cartilage
Camptomelic Dysplasia
Sox 9 (allows chondrocytes to differentiate) mutation that causes a short-limbed dwarf. neonatal death. bowed long bones.
Runx2 function and disorder
regulates commitment to osteoblast lineage. No runx2 = cartilage skeleton w/o bone Cleidocranial Dysplasia
GDF5
Promotes chondrogenesis. Lack of GDF5 causes shortening of the appendicular skeleton. Loss of some joints. (Bradydactyly or chondrodysplasia)
Achondroplasia
Most common type of short limb dwarfism Activating mutation in FGFr3 Paternal mutation related to paternal age. decreased endochondral ossification
Structure of Type 1 Collagen
Trimer of two pro-alpha 1 chains (chromosome 17) one pro-alpha 2 chain (chromosome 7)
Osteogenesis Imperfecta Type 2
Perinatal Lethal. Most sever form Skeletal deformity with numerous fractures
