Studied by 9 peopleTags & Description
Functions of the Skeletal System
Firstly, supports the body by providing a framework for the attachment of other tissues and organs. Secondly, serves as levers pulled by muscles in movement. Thirdly, protects soft tissues and organs
Yellow Marrow Function
Storage of Calcium and phosphate ions within the bone tissue and fat
Red Marrow Function
Red blood cell production. Holds stem cells that differentiate into red blood cells, white blood cells, and platelets.
Epiphysis
The rounded end of a long bone, where it forms a joint.
Articular Cartilage
Covers the epiphysis to form a smooth surface
Labeling the epiphysis
Based on its relative position to the body
Proximal Epiphysis
Closest to the main mass of the body
Distal Epiphysis
Farthest from the main mass of the body
Compact Bone
The densest part of the bone
Spongy Bone
Has any space in between the bony rods or struts. It contains red bone marrow.
Epiphyseal Plate
Hyaline cartilage separates the epiphysis from the rest of the bone. Also known as the “growth plate.” In adults, the cartilage is replaced by bone.
Disphysis
The middle shaft of the bone. Covered in periosteum.
Medullary Cavity
A hollow area inside of the diaphysis. Is filled with yellow marrow.
Periosteum
A layer of dense tissue that contains blood vessel and sensory nerves.
Endosteum
The innermost layer of tissue.
Osteocytes
The mineral structure of compact and spongy bone maintained by cells
Osteoblasts
Lay down new bone
Osteroclasts
Dissolve and reshape bone
Osteons
Bone tissue divided into circular units
Lamellae
Thin, calcified ring-like sheets
Lacunae
Pits in each layer of the lamella
Osteocyte
A bone cell found inside of each lacunae
Central Canal
A hollow centre containing blood vessels
Canaliculi
Tiny channels each osteocyte is connected back to the central canal through
Ossification
The process of cartilage gradually being replaced by bone. Begin with osteoblasts forming spongy bone within the centre of the bone shaft.
How does bone development proceed?
Towards the two epiphyses
As long as what happens will the bone lengthen?
As long as the growth plate continually produces new hyaline cartilage.
What forms following the growth plate being fully ossified?
The epiphyseal line
Axial Skeleton
Includes everything around the longitudinal (vertical) centre plane of the body
Appendicular Skeleton
Includes the appendages: the arms and legs.
Suture
A joint make of dense fibrous tissue
What are the skull bones designed for?
To be protective
Fontanels
A few sutures that are much wider that the fetal skull has. Allow the skull to alter its shape during birth. They close within the first two years of life.
Sinuses
Hollow bones with thin plates between them designed to drain fluids.
How do sinus headaches happen?
When they get blocked and the fluids overflow into the nasal cavity.
Hyoid
The only bone is the entire body that does not form a joint with any other bone
What attaches to the Hyoid?
The base of the tongue, aiding in swallowing and speech
Ossicles
Malleus, Uncus, Atapes: The three small bones the middle ear is made up of.
What does the ossicles do?
Bones transmit vibrations from sound to the cochlea of the inner ear
How are vertebrae named?
Based on their location
C1 - C7
Cervical vertebrae in the neck
The atlas
C1 (vertebrae)
The Axis (vertebrae)
C2
T1 - T12
Thoracic vertebrae in the upper back
L1 - L5
Lumbar vertebrae in the lower back
Which are the two bones below the lumbar, made from nine fused vertebrae?
Sacrum and Coccyx
True Ribs
Pairs 1 - 7, are connected directly to the sternum
False Ribs
Pairs 8 - 12, are connected to the sternum through cartilage or not at all
Floating Ribs
Pairs 11 + 12, are only connected to the thoracic vertebrae
Long Bones
Are longer than they are wide, with heads at each end.
Short Bones
Often cube-shaped, and contain higher amounts of spongy bone
What are some long bones in the body?
Femur, humerus, metatarsals, phalanges.
What are some short bones in the body?
Carpals and Tarsals
Flat Bones
Are thinner, flattened, and often curved. Made of thin layers of compact and spongy bone.
What are some flat bones in the body?
Skull bones, pelvic bones, ribs, and sternum
Sesamoid Bones
Are embedded within a tendon (patella).
Irregular Bones
Do not fit into any of the other categories due to their unusual shapes (vertebrae).
Articulations (joints)
Exist wherever two bones meet. Classified according to the range of motion they allow.
Fibrous Joints
Contain fibrous tissue and immovable, including cranial sutures.
Cartilaginous Joints
Are connected entirely with fibrocartilage or hyaline cartilage and allow limited movement.
What are some examples of cartilaginous joints?
The symphysis pubis and the fibrocartilage between the vertebrae.
Synovial Joints
A space called a synovial cavity filled with fluid that separates that bone, allowing free movement. Contain many structures designed to minimise bone-bone contact.
What are some synovial joints in the body?
Knee, elbow, shoulder, fingers
Fibrous Capsule
Continuous with the periosteum
Synovial Fluid
Fills the space between the bones
Synovial membrane
Seals the synovial fluid
Bursa
A fluid-filled sac that cushions the area
Aspirations
Drain fluid from synovial joints due to swelling or inflammation following an injury or surgery.
What causes the cracking noise in joints?
The stretching of a synovial membrane, causing air to quickly escape.
Ligaments
Join bones together, and contain dense regular connective tissue.
Menisci
Shock-absorbing fibrocartilage pads which complex joints may also have
Ball and Socket
Found in the shoulder and hip. Has the greatest range of motion (360 degrees).
Hinge Joints
Allow movements along a single plane (flex and extend only). Elbow, knee, and between the phalanges.
Condylar Joints
Allows angular movement in two planes. Radius and Carpal bones, Phalanges and metacarpals or metatarsals.
Saddle Joints
Allow circular movement and angular movement and angular movement in two planes. Between carpal and metacarpal at the base of the thumb.
Gliding or Plane Joints
Allos multidirectional movement within a single plane. Between the carpals or tarsals.
Pivot Joints
Allows rotations in a single plane. Between the atlas and axis.
Sprains
Stretching/tearing of ligament. This occurs when a joint is forced into an abnormal position.
Dislocations
Caused when a bone is completely displaced from its joint
Simple or Closed Frature
Caused when the bone breaks internally but does not come through the skin.
Open Frature
Projects through the skin. Increased bleeding and risk of infection.
Greenstick fractures
Do not break through the entire bone. More likely in children, due to bones having more cartilage and being more flexible.
Comminuted Fractures
Involve the bone shattering into multiple pieces or fragments
Compression Fractures
Cause a crumpling of the vertebrae. Most frequent with older people experiencing osteoporosis.
Brittle Bone Disease (osteogenesis imperfecta)
A congenital disorder that results in an inability to produce a type of collagen needed in bone tissue.
Osteoporosis
A decrease in bone mass that most often occurs in women after menopause, due to decrease in sex hormones circulation.
Scoliosis
An abnormal sideways curvature of the spine. It occurs most often during the pre-pubescent growth spurt. Mostly, the cause is unknown.
Osteoarthritis
A wearing down of the articular cartilage as a result of aging. Results in pain, stiffness, and loss of flexibility in joints.
Hypermobility
A Condition where a greater range of motion in joints is possible due to abnormally-shaped ends of bones and/or genetic connective tissue defect leading to weakened cartilage and/or tendons. Can lead to osteoarthritis.
The diaphysis is covered with a layer of dense tissue that contains blood vessels and sensory nerves. What is the name of this tissue?
Periosteum
Which bone marrow holds stem cells that differentiate into red blood cells, white blood cells, and platelets.
Red Bone Marrow
Which joint type has the greatest range of motion?
Ball and Socket joint
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