A&P Unit 5 pt. 2
Anatomy of a long bone
- Periosteum - Perforating (Sharpey's) Fibers - Arteries - Articular Cartilage - Epiphyseal Plate - Epiphyseal Line - Marrow (Medullary) Cavity
osteoprogenitor (osteogenic) cells
Mesenchymal stem cells that divide to produce osteoblasts Located in: Endosteum - lines the medullary cavity and passageway for blood vessels found in the matrix of compact bone The inner cellular layer of periosteum Important in fracture repair
axial vs appendicular skeleton
axial: on the midline; vertebrae, ribs, skull appendicular: all the bones of the limbs
vitamins involved in bone health
Vitamins A, D, K, and C
stages in the healing of a bone fracture
1. Hematoma forms 2. Fibrocartilaginous callus forms 3. Bony callus formation 4. Bone remodeling
Osteoporosis
A condition in which the body's bones become weak and break easily.
Periosteum
A dense fibrous connective tissue covering the surface of bones (except at their extremities) and serving as an attachment for tendons and muscles.
ground substance of bone
A small volume of liquid surrounding insoluble crystals of calcium salts
perforating canals
Perpendicular to the central canal Carry blood vessels into bone and marrow
bone marrow
Red bone marrow forms some blood cells. Yellow bone marrow stores fat.
hyaline cartilage
The most abundant cartilage type in the body; provides firm support with some flexibility; it is found on the ends of long bones, ribs, and nose
flat bones
These bones are thin, flat, and curved. They form the ribs, breastbone, and skull.
Fibrocartilage
cartilage that contains fibrous bundles of collagen, such as that of the intervertebral disks in the spinal cord.
elastic cartilage
cartilage with abundant elastic fibers; more flexible than hyaline cartilage
epiphyseal plate
cartilaginous area at the ends of long bones where lengthwise growth takes place in the immature skeleton
interstitial vs appositional growth
from inside the cartiladge mitosis of chondrocytes outside edge of the cartiladge mitosis of stem cells
osteon
i. Central canal: at center of osteon; carries blood vessels and nerves ii. Concentric lamellae: rings of bone around the central canal iii. Osteocytes: Housed in lacunae between concentric lamellae iv. Canaliculi: Tiny, interconnecting channels within bone that extend between lacunae; allows osteocytes to connect & communicate
Osteoclasts are
i. Fixed macrophages ii. Dissolve bone matrix (Osteolysis)
Osteocytes
i. Mature bone cells ii. In lacunae, Connected by canaliculi iii. Low metabolic rate; monitor bone stress
short bones
i. Roughly cube-shaped ii. Carpals and tarsals
irregular bones
i. Various shapes, do not fit into other categories ii. Prominent surfaces iii. Ex. Vertebrae
zone of epiphyseal plate
i. Zone of resting cartilage: Farthest from medullary cavity and nearest epiphysis; small chondrocytes in hyaline cartilage ii. Zone of proliferating cartilage: Larger chondrocytes undergoing rapid mitotic cell division; aligned like stacks of coins iii. Zone of hypertrophic cartilage: Chondrocytes cease dividing and become enlarged iv. . Zone of calcified cartilage: Deposited minerals kill the chondrocytes and make matrix opaque v. Zone of ossification: Walls between lacunae break down, forming channels that become invaded with capillaries and osteoprogenitor cells
long bones
i. longer than wide - a shaft plus ends ii. Have a marrow cavity iii. Ex: femur, humerus
ligaments vs tendons
ligaments connect bone to bone and tendons connect muscle to bone
circumferential lamellae
located deep to periosteum and superficial to endosteum and extend around entire circumference of the diaphysis and resist twisting of long bone
Ossification (osteogenesis)
process of bone tissue formation
interstitial lamellae
remains of old osteons that broke down as bone grew and remodeled itself
Osteoblasts
specialized bone cells that build new bone tissue
Calcification
the secretion of extracellular matrix stops, and the cells, now called osteocytes, lie in lacunae and extend their narrow cytoplasmic processes into canaliculi that radiate in all directions; within a few days, calcium and other mineral salts are deposited and the extracellular matrix hardens or calcifies
ground substance
unstructured material that fills the space between the cells and contains the fibers
Why does bone need blood supply and nerves?
· Bone is highly vascularized · Four major sets of blood vessels: i. Nutrient artery and vein: Supply the diaphysis of a long bone; usually just one nutrient artery and vein per bone ii. Metaphyseal arteries and veins: Supply the diaphyseal side of the epiphyseal plate iii. Epiphyseal arteries and veins: Supply the epiphyses iv. Periosteal arteries and veins: Supply blood to the external circumferential lamellae and superficial osteons · Nerves accompany blood vessels through the nutrient foramen
compact vs spongy bone
· Compact bone - dense, solid outer layer of bone · External surfaces of long and flat bones · Spongy (cancellous) bone - internal network of boneàhoneycomb of trabeculae · Internal surface of bones
I. What are the components and functions of the skeletal system?
· Components : i. Bones of the skeleton ii. Cartilages iii. Ligaments iv. Other connective tissues that stabilize and connect · Functions : i. Support - provides hard framework ii. Movement - skeletal muscles use bones as levers iii. Protection of underlying organs iv. Mineral storage - reservoir for important minerals v. Blood-cell formation - bone contains red marrow vi. Triglyceride (energy) storage in bone cavities
development of bone
· Endochondral ossification i. Begins with hyaline cartilage model ii. Produces majority of bones in the body · Steps i. The fetal hyaline cartilage model develops ii. Cartilage calcifies, and a periosteal bone collar forms iii. The primary ossification center forms in the diaphysis iv. Secondary ossification centers form in the epiphyses v. Bone replaces cartilage, except the articular cartilage and epiphyseal plates vi. Epiphyseal plates ossify and form epiphyseal lines
Endosteum vs. Periosteum
· Endosteum i. Covers most internal surfaces of bones ii. Contains osteoprogenitor cells, osteoblasts, and osteocalsts · Periosteum i. Dense irregular connective tissue ii. Covers external surfaces of bones (except articular cartilage) iii. Anchored by perforating fibers embedded in the bone matrix iv. Acts as anchor for blood vessels and nerves v. Contains osteoprogenitor cells and osteoblasts
Hormones and Bone Growth
· Hormones alter the rates of osteoblast and osteoclast activity · Hormones also regulate calcium levels in the blood i. Bones are a strorage reservoir for calcium phosphate
exercise and bone tissue
· Mechanical stress stimulates increase in bone density by increased osteoblast activity · Bones of athletes become thicker and stronger as the result of repetitive and stressful exercise · Bones lose mass with age, but this can be slowed or reversed with weight bearing exercise
function of cartilage
· Supporting soft tissues · i.e. the airways in respiratory system & auricle of ear · Gliding surface at articulations · Smooth surfaces where bones meet · Precursor model for bone growth