Unit 1 - Skeletal System

Question 1

How many bones do the human skeleton consist of?

Answer 1

The framework of the body is made up of 206 bones, associated cartilages and joints that form the human skeleton.

Question 2

Define

Organ system

Answer 2

A group of organs and tissues working together to perform specific functions.

Question 3

Which are the skeletal systems five primary functions?

Answer 3

Movement: Bones come together to form joints that allow motion.
Structure/support: The skeleton provides the structure and support we need for movement. This is one factor that separates humans from amoeba or jellyfish.
Protection: Our essential organs such as the brain, spinal cord, heart and lungs are protected by the skeleton.
Calcium storehouse: Calcium and other minerals are stored within bone.
Blood cell production: Marrow within bone produces blood.

Question 4

The human skeletal system an be divided into which two structures?

Answer 4

Axial skeleton: The bones of the skull, vertebral column, sternum, ribcage and sacrum.

Appendicular skeleton: The bones of the upper and lower extremities.

Question 5

How many bones are there in i axial skeleton?

Answer 5

80

Question 6

How many bones are there in the appendicular skeleton?

Answer 6

126

Question 7

The human vertebral column are divided into which regions? And how many vertebrae are there per region?

Answer 7

Cervical region: 7 vertebrae
Thoracic region: 12 vertebrae
Lumbar region: 5 vertebrae
Sacrum region: 5 vertebrae
Coccyx region: 4 fused vertebrae

Question 8

How many vertebae dp the human vertebral column consist of?

Answer 8

33

Question 9

How many - and which - vertebrae in the human vertebral column can move freely?

Answer 9

24, from the first cervical vertebrae to the last lumbar vertebrae.

Question 10

Define

Ossification

Answer 10

The hardening process of bones during development.

Question 11

Until which age do the hardening process (ossification) continue in the human development?

Answer 11

Until 18-25 years of age

Question 12

Define

Epiphyseal plate

Answer 12

The location of bone growth near the end of immature bones.

Question 13

Define

Epiphyseal line

Answer 13

A line of cartilage near the end of mature long bones.

Question 14

Define

Stress fracture

Answer 14

A thin bone crack due to an accumulation of microdamage.

Question 15

In the context of the human skeleton, define “Remodeling”

Answer 15

When a bone changes shape either by increasing or decreasing its diameter.

Question 16

In the context of the human skeleton, define “Deposition”.

Answer 16

Adding new bone with osteoblasts.

Question 17

In the context of the human skeleton, define “Resorption”

Answer 17

Removing bone with osteoclasts.

Question 18

Define

Wolff’s Law

Answer 18

A theory developed by German surgeon, Julis Wolff, which states that bone will adapt to the loads placed upon it.

Question 19

How do the boned in human skeleton adapt when lifting heavy weights?

Answer 19

The body responds by laying down extra bone to thicken the diameter in a process called deposition.

Question 20

Define

Osteoclasts

Answer 20

Cells responsible for bone resorption.

Question 21

Define

Osteoblasts

Answer 21

Cells responsible for bone deposition.

Question 22

Define

Osteocytes

Answer 22

Mature bone cells that maintain a bone’s matrix.

Question 23

Define

Periosteum

Answer 23

The outer covering of bone where osteoblasts are located.

Question 24

Define

Endosteum

Answer 24

Connective tissue that covers the inside of bone and medullary cavity.

Question 25

Define

Medullary cavity

Answer 25

Central cavity of the bone shaft where marrow is stored.

Question 26

Bones consists of which two materials?

Answer 26

Compact (cortical) bone: This hard outer layer of dense tissue is strong, solid, and resistant to bending. Approximately 80% of a person’s skeletal mass comes from compact bone.

Spongy (trabecular or cancellous) bone: Light, porous inner bone material that forms a latticework of bony structures called trabeculae. Osteoporosis mainly affects spongy bone.

Question 27

Define

Osteoporosis

Answer 27

Bone disease characterized by a loss in bone mass and density.

Question 28

In the context of the human skeleton, define “Bony protrusion”

Answer 28

An eminence on the surface of bones that increase strength and contact area for muscle attachments.

Question 29

From which sources to the bones receive its blood?

Answer 29

Bone receives its blood from three sources: periosteal vessels, nutrient arteries, and epiphyseal vessels. These three vessels ensure that blood is available to all areas of the bone, from the innermost spongy bone to the outer compact bone.

Question 30

Define

Osteons (Haversian systems)

Answer 30

Functional units of compact bone. These vertically stacked units each contain a nerve and one or two blood vessels.

Question 31

Define

Trabeculae

Answer 31

Functional units of spongy bone. These consist of a network of plates and rods. Because spongy bone is less dense than compact bone, it contains a richer source of blood vessels.

Question 32

Can bones senes pain?

Answer 32

YES!

One primary source of bone pain is from the periosteum, the outer covering of bone that contains pain-sensitive nerve endings.

Question 33

Define

Osteoarthritis

Answer 33

Bone-on-bone contact that results in joint pain and stiffness due to a loss of articular cartilage.

Question 34

Define

Nociceptors

Answer 34

Pain sensitive nerve endings. The periosteum and endosteum coverings of bone contain nocireptors.

Question 35

Define

Hyaline cartilage

Answer 35

This deformable but elastic type of cartilage is the most widespread form in the body. It’s located in the nose, trachea, larynx, bronchi; at the end ribs, and at the end of bones of many freely moving joints in the form of articular cartilage.

Question 36

Define

Fibrocartilage

Answer 36

This tough tissue is located in the intervertebral discs and at the insertions of tendons and ligaments.

Question 37

Define

Elastic cartilage

Answer 37

As the name implies, this is the most pliable form of cartilage. It gives shape to the external ear, the auditory tube of the middle ear and the epiglottis.

Question 38

Ligaments consists of which type of collagen?

Answer 38

Type I collagen fibers

Question 39

Define

Elastin

Answer 39

An elastic protein found in connective tissue that gives the tissue extensibility.

Question 40

Ligaments are able to regain its original shape after they are stretched, why?

Answer 40

Ligaments also possess a little bit of elastin, an important elastic protein found in all connective tissue that allows those tissues to regain its original shape.

Question 41

Name and define the three different locations of ligament, in relation to the joint.

Answer 41

Extrinsic ligament: This type of ligament is located on the outside of the joint. An example is the lateral collateral ligament (LCL) on the lateral side of the knee to resist varus stress.

Intrinsic ligament: This ligament is located inside the joint. The anterior cruciate ligament (ACL) and posterior cruciate ligament (PCL) are situated inside the knee joint to resist anterior and posterior movement of the tibia, respectively.

Capsular ligament: This type of ligament is continuous with the joint capsule. The medial collateral ligament (MCL) is a capsular ligament that resists valgus stress at the knee by keeping the joint approximated.

Question 42

Define

Extrinsic ligament

Answer 42

This type of ligament is located on the outside of the joint.
Ex: The lateral collateral ligament (LCL) on the lateral side of the knee to resist varus stress.

Question 43

Define

Intrinsic ligament

Answer 43

This ligament is located inside the joint.
Ex: The anterior cruciate ligament (ACL) and posterior cruciate ligament (PCL) are situated inside the knee joint to resist anterior and posterior movement of the tibia, respectively.

Question 44

Define

Capsular ligament

Answer 44

This type of ligament is continuous with the joint capsule.
Ex: The medial collateral ligament (MCL) is a capsular ligament that resists valgus stress at the knee by keeping the joint approximated.

Question 45

Define

Varus

Answer 45

An abnormal joint movement away from the midline of the body. At the knee joint, varus can result in “bow-leggedness.”

Question 46

Define

Valgus

Answer 46

An abnormal joint movement toward the midline of the body. At the knee joint, valgus can result in “knock knees.”

Question 47

Define

Joint capsule

Answer 47

A thin, strong layer of connective tissue that contains synovial fluid in freely moving joints.

Question 48

In the context of connective tissue, define “Creep”

Answer 48

A temporary deformation of connective tissue.

Question 49

In the context of connective tissue, define “Laxity”

Answer 49

A permanent deformation of connective tissue caused by excessive stretching.

When a ligament has laxity, the joint becomes less stable (i.e., loose) and makes a person more susceptible to joint dislocations and osteoarthritis.

Question 50

In the context of connective tissue, define “Tear”

Answer 50

A partial or complete separation of a tissue due to a stretch beyond its structural capacity.

A tear occurs when a tissue is stretched beyond its structural capacity. The tear can be either partial or complete. A partial ligament tear can heal with rest, whereas a complete tear usually requires surgery to repair.

Question 51

Why is it hard fot ligaments to heal, and how long can it take?

Answer 51

Ligaments have a limited capacity to heal due to their low blood supply. Indeed, blood flow to ligaments is less than that of muscle or bone, which is why it can take months or a year to completely heal.

Question 52

Which type of collaged do the joint capusle consist of?

Answer 52

Type I collagen fibers

Question 53

Define

Synovial membrane

Answer 53

A thin layer of connective tissue beneath the joint capsule that makes a lubricating fluid.

Question 54

What is the number one risk factor for injury to any joint?

Answer 54

A previous injury to that joint. This fact is especially true for the ligaments as they have a limited capacity to recover.

Question 55

When ligament heals from a partial or complete tear, do it become stronger or weaker? And why?

Answer 55

The tissues aren’t as strong as they originally were due to an accumulation of scar tissue. Because scar tissue consists of abnormal collagen, poor cross-linking, and smaller fibrils, it’s a weaker form of connective tissue. This means the ligament is more susceptible to future tears. Therefore, extra care should be taken when stretching or training a joint that endured a ligament injury.

Question 56

What is the consequence of a joint laxity due to an overly stretched ligament?

Answer 56

And joint laxity caused by an overly stretched ligament can make a joint less stable than it needs to be. Unfortunately, a loose ligament cannot regain its original shape and become “tight” again. Therefore, muscles that surround a loose joint should be sufficiently strong as they must also provide the stabilizing effect the loose ligament can no longer perform.

Question 57

How many joints are there in the human skeletal system?

Answer 57

360

Question 58

Define the area of articulation of the sternoclavicular (SC) joint.

Answer 58

Sternum and clavicle

Question 59

Define the area of articulation of the glenohumeral (GH) joint.

Answer 59

Glenoid fossa (scapula) and humerus

Question 60

Define the area of articulation of the acromioclavicular (AC) joint.

Answer 60

Acromion process (scapula) and clavicle

Question 61

Define the area of articulation of the scapulothoracic region (pseudo joint) joint.

Answer 61

Scapula and ribcage

Question 62

Define the area of articulation of the humeroradial joint.

Answer 62

Humerus and radius

Question 63

Define the area of articulation of the humeroulnar joint.

Answer 63

Humerus and ulna

Question 64

Define the area of articulation of the radioulnar (proximal) joint.

Answer 64

Rcadius and ulna (elbow region)

Question 65

Define the area of articulation of the radius and ulna (elbow region) joint.

Answer 65

Radius and ulna (wrist region)

Question 66

Define the area of articulation of the radiocarpal joint.

Answer 66

Radius and carpal bones

Question 67

Define the area of articulation of the sacroiliac (SI) joint.

Answer 67

Sacrum and ilium

Question 68

Define the area of articulation of the hip joint.

Answer 68

Femur and pelvis

Question 69

Define the area of articulation of the patellofemoral joint.

Answer 69

Patella and femur

Question 70

Define the area of articulation of the tibiofemoral joint.

Answer 70

Tibia and femur

Question 71

Define the area of articulation of the tibiofibular joint.

Answer 71

Tibia and fibula

Question 72

Define the area of articulation of the talocrural joint.

Answer 72

Talus and tibia

Question 73

Define the area of articulation of the subtalar joint.

Answer 73

Talus and calcaneus

Question 74

What does it mean to be double-jointed?

Answer 74

Ligaments are normally very taut around a joint. However, some people are born with “loose ligaments” that allow the joints to move through a greater range of motion than is normal. Even though it might seem cool to have excessive flexibility and appear “double-jointed,” loose ligaments make people more susceptible to joint dislocations and osteoarthritis.