Skeletal System: Bones and Joints
Diarthrosis
freely movable joint e.g. knee, elbow and wrist articulations
synarthrosis, amphiarthrosis, diarthrosis
functional classification of joints
Bone growth
occurs by the deposition of new bone lamellae onto existing bone or other connective tissue. This process is called APPOSITIONAL GROWTH
Proteoglycans
-Are large molecules consisting of many polysaccharides attaching to encircling core proteins. Form large aggregates and attract water
Atlas
1st vertebra, holds the head
7 Cervical region 12 Thoracic Region 5 Lumbar region Sacral Region Coccygeal Region
26 individual bones in the vertebral column
Axis
2nd vertebra rotates head
Frontal Bone Parietal Occipital Temporal Sphenoid Ethmoid
8 Cranial Bones
Cervical region curves anterior Thoracic Region curves posterior Lumbar region curves anterior Sacral Region and Coccygeal Region curves posterior
Adult vertebral column has four major curvatures
Hyoid Bone
An unpaired, U shaped bone
Frontal bone
Anterior part of cranium
Ethmoid Bone(NASAL CONCHAE)
Anterior portion of cranium
short bones
Approximately as wide as they are long
Trabeculae
Are interconnecting rods, and spaces that contain marrow
Articulations
Are where two bones come together
Inferior Nasal Conchae
Attached to lateral walls of nasal cavity
•Removal of existing bone by osteoclasts •Deposition of new bine by osteoblast •Occurs in all bones •Responsible for changes in bone shape, bone repair, adjustment of bone to stress •Calcium ion regulation
Bone Remodeling
Foramen: Hole Fossa: Depression Process: Projection Condyle: Smooth, rounded end Meatus: Canal-like passageway Tubercle: Lump of bone
Bone anatomical terms
Osteoblast, Osteocytes and Osteoclast
Bone cells
primary ossification center
Bone formation in the diaphysis of a long bone
1. broken bone causes bleeding and a blood clot forms. 2. callus forms which is a fibrous network between 2 fragments 3. cartilage model forms first then, osteoblasts enter the callus and form cancellous bone. 4.Cancellous bone is slowly remodeled to form compact and cancellous bone.
Bone repair:
Osteoclasts
Bone-destroying cells. They break down the bone matrix for remodeling and the release of calcium.
Scapula(shoulder blade) Clavicle(collar bone)
Bones of the pectoral girdle
Parathyroid Hormone(PTH) and Calcitonin
Calcium homeostasis is maintained by
Hydroxyapatite
Calcium phosphate crystals are called
Osteocytes
Cells that maintain bone matrix
Zygomatic Bones
Cheek bones
Is a tough, rope like protein
Collagen
The matrix contains
Collagen, ground substances and other organic molecules, as well as water and minerals
Bone, cartilage, tendons, and ligaments of the skeletal system are all
Connective tissues
Articular Cartilage
Covers epiphysis, Reduces Friction
1. Decreased collagen production 2. Loss of bone density 3. Degenerative changes
Effects of Aging on the Skeletal System and Joints
Epiphysis
Ends spongy bone tissue
Maxillae Palatine bones Zygomatic Bones Lacrimal Bones Nasal Bones Vomer Inferior Nasal conchae Mandible
Facial Bones
Sphenoid Bone(Sella Turcica)
Forms part of cranium floor, lateral posterior portions of eye orbits,
palatine bones
Forms the posterior portion of hard plate, lateral wall of nasal cavity
Epiphyseal plate
Growth in the length of a bone, which is the major source of increased height in an individual occurs in?
Irregular bones
Have shapes that do not fit readily into the other three categories
Ischium
Inferior and posterior region
Temporal bone(temporomandibular joint)
Inferior to parietal bones on each side of cranium
Axial Skeleton
Is composed of the skull, the vertebral column and the thoracic cage.
yellow marrow
Is mostly fat
Ossification
Is the formation of bone by osteoblast
Red marrow
Is the location of blood forming
Synovial
Joint by fluid cavity Most joints of the appendicular skeleton
Rope like collagen fibers
Lend flexible strength to the bone
Spongy bone
Located at the epiphysis of long bones and center of other bones
Outer part of diaphysis(long bones)
Location of compact bone
Diaphysis Epiphysis Articular cartilage Epiphyseal cartilage Medullary Cavity Periosteum Endosteum
Long bone Structures
Mandible
Lower jawbone
Femur(thigh) Patella(knee cap) Tibia(large lower leg) Fibula(small lower leg) Tarsals(ankle) Metatarsals(foot) Phalanges(toes and fingers)
Lower limb bones
Collagen
Makes cartilage tough
Lacrimal bones
Medial surfaces of eye orbits
Periosteum
Membrane around bones outer surface
Vomer
Midline of nasal cavity
Bone compression(weight bearing) strength
Mineral components give
Bine compression(weight-bearing) strength
Mineral in bone is in the form of?
New borns
Most bones have blood making red bone marrow
Abduction
Movement away from the midline of the body
Rotation
Movement of a structure about the long axis
Adduction
Movement toward the midline of the body
Paranasal Sinuses
Nasal Cavity have large cavities within them, called
Synarthrosis
Non-movable joint e.g skull bone articulations
Frontal Ethmoid Sphenoid maxillary
Paranasal sinuses are
Occipital Bone
Posterior portion and floor of cranium
Thoracic cage
Protects vital organs and has 12 pairs of ribs
Adults
Red marrow in the diaphysis is replaced by yellow bone marrow
Flat bones
Relatively thin, flattened shape
Osteoblast
Responsible for the formation of bone and the repair and remodeling of bone
Pronation
Rotation of the forearm with palms down
Supination
Rotation of the forearm with palms up
Diaphysis
Shaft, Compact bone tissue(on outside)
marrow
Spaces filled with soft tissue
Extension
Straightening of a joint
Vertebral column or spine
The central axis of the skeleton
tendons and ligaments
Their extracellular matrix contains large amounts of collagen fibers, making these structures very tough, like ropes or cables
long, short, flat, irregular
There are four bone shape classifications
Flexion Extension Abduction Adduction Pronation Supination Rotation
Types of movement
Humerus(upper limb) Ulna(forearm) Radius(forearm) Carpals(wrist) Metacarpals(hand)
Upper limb bones
Pelvic girdle
Where lower limbs attach to body
True ribs (1-7)
attach directly to sternum
false ribs (8-12)
attach indirectly to sternum
Flexion
bending a joint
secondary ossification center
bone formation in the epiphysis
endochondral ossification
bone formation that occurs inside hyaline cartilage
intramembranous ossification
bone formation that occurs within connective tissue membranes is called?
components of skeletal system
bone, cartilage, tendons, ligaments
Sternum
breastbone
medullary cavity
center of diaphysis, red or yellow marrow
Central canal
center of osteon, contains blood vessels
bone extracellular matrix
contains collagen and minerals, including calcium and phosphate
Cartilage extracellular matrix
contains collagen and proteoglycans
Bone reabsorption
contribute to bone repair and remodeling by removing existing bone are called
Nasal Bones
form the bridge of the nose
Maxillae
forms the upper jaw
Supports body weight Protects spinal cord Allows spinal nerves to exit the spinal cord Provides site for muscle attachment Provides movement of the head and trunk
functions of vertebral column
Acetabulum
hip socket(joint)
Pelvis
includes pelvic girdle and coccyx
long bones
longer than they are wide
Endosteum
membrane that line medullary cavity
Ilium
most superior region
Floating ribs
not attached to sternum
Lamella
rings of bone matrix
Parietal Bones
sides and roof of cranium
Epiphyseal plate
site of growth, between diaphysis and epiphysis
Amphiarthrosis
slightly movable joint e.g between vertebrae
Lacunae
spaces between lamella
1.Chondroblasts build a cartilage model, the chondroblasts become condrocytes. 2.cartilage model calcifies 3. Osteoblast invade calcified cartilage, the primary ossification forms diaphysis 4.Secondary Ossification centers epiphysis 5.Original cartilage model is almost completely ossified and remaining cartilage is the articular cartilage
steps of endochondral ossification
Fibrous joint Cartilaginous joint Synovial joint
structural classifications of joints
Osteon
structural unit of compact bone
skeletal system functions
support, protection, movement, storage, blood cell production
Canaliculus
tiny canals that transport nutrients and remove waste
Cartilaginous joints
united by cartilage Subclasses are synchondroses and symphysis
fibrous joints
united by fibrous connective tissue Subclasses are sutures, syndesmosos, and gomphoses
