Skeletal System

Question 1

How many bones are in the human body?

Answer 1

206

Question 2

List the functions of the skeleton

Answer 2

• Support framework for the body
• Forms boundaries (i.e, the skull)
• Attachment for muscles and tendons
• Permits movement (joints)
• Haematopoeisis (production of blood cells in the red bone marrow)
• Mineral homeostasis (mostly calcium & phosphate)
• Triglyceride storage (in yellow bone marrow)

Question 3

The skeleton accounts for what % of body weight?

Answer 3

18%

Question 4

What is bone marrow?

Answer 4

A tissue throughout the central cavity of bones, through which we produce all of our blood cells after birth.

This is where we house lots of stem cells, that can specialise as RBC’s, WBC’s or platelets.

Question 5

99% of the calcium in your body is found where?

Answer 5

In the bones / skeletal system

Question 6

Where are triglycerides (fats) stored?

Answer 6

In the yellow bone marrow

Question 7

Why is yellow bone marrow called ‘yellow’?

Answer 7

Because the fat stored within it makes it look yellow.

Question 8

What are osteogenic cells?

Answer 8

Bone stem cells.

They later specialise to become osteoblasts or osteoclasts.

Question 9

What are osteoblasts?

Answer 9

Cells that build bone. Immature/juvenile cells.

Question 10

Which bone cells secrete collagen, ground substance and other components of bony matrix

Answer 10

Osteoblasts

Question 11

How do osteoblasts become osteocytes?

Answer 11

When they get trapped within their own bony secretions and become stationery and fully mature.

Question 12

What are osteocytes and what is their function?

Answer 12

Osteocytes are mature bone cells. They maintain the daily metabolism of bone, such as nutrient exchange.

Question 13

List the 4 types of bone cells.

Answer 13

1. Osteogenic cells
2. Osteoblasts
3. Osteocytes
4. Osteoclasts

Question 14

Which are the biggest bone cells?

Answer 14

Osteoclasts

Question 15

Osteoclasts are huge cells, derived from the fusion of what?

Answer 15

As many as 50 monocytes (specialised WBC’s)

Question 16

How do osteoclasts dissolve the surface of bone (resorption)?

Answer 16

By releasing lysosomal enzymes and acids directly onto the bone surface.

Question 17

What is the difference in function between osteoblasts and osteoclasts?

Answer 17

Osteoblasts build bone matrix, osteoclasts dissolve bone matrix.

Question 18

Why do osteoclasts have a ‘ruffled border’ on the side of their cell membrane that faces the bone surface?

Answer 18

To increase surface area for enzyme release and reactions, increasing their efficiency at breaking down bone.

Question 19

What is ‘resorption’?

Answer 19

The breakdown of bone matrix

Question 20

Which bone cells work together to ‘remodel’ bone throughout life?

Answer 20

Osteoblasts and osteoclasts

Question 21

What 2 types of bone is the skeleton formed from?

Answer 21

Compact and spongy bone

Question 22

What % of our skeleton is made of compact bone?

Answer 22

80%

Question 23

Describe compact bone

Answer 23

Compact bone is found beneath the periosteum, on the outside of bones. It makes up the bulk of the diaphysis of long bones. It contains few spaces and is strong.

Question 24

What is an osteon?

Answer 24

A small structural sub-unit of compact bone. Osteons look like slices of tree trunks. They are aligned in the same line as stress.

Question 25

How many parts does an osteon have?

Answer 25

An osteon has 4 parts

Question 26

List the 4 parts of an osteon

Answer 26

1. Haversian canal
2. Lamellae
3. Canaliculi
4. Lacunae

Question 27

Within an osteon (small, structural, sub-unit of compact bone) what is housed within the Haversian Canal?

Answer 27

Blood vessels and nerves

Question 28

What are lamellae?

Answer 28

Concentric rings of calcified extracellular matrix, containing minerals and collagen.
Lamellae are found within osteons.

Question 29

What are canaliculi and where are they found?

Answer 29

Canaliculi are found within osteons. They are a mini system of interconnected canals that provide a route for nutrients and waste within bones.

Question 30

Why does bone need a rich blood supply?

Answer 30

Because the skeleton is a living structure. Bone is connective tissue and it is alive.

Question 31

What part of an osteon ensures that we have a blood supply to the bone?

Answer 31

The Haversian canal. It houses blood vessels and nerves.

Question 32

Why do our bones have nerves running through them?

Answer 32

So that we can feel sensation in them and avoid activity that can break them.

Question 33

Which part of an osteon gives strength to compact bones?

Answer 33

The lamellae.

They are concentric rings of calcified extracellular matrix, containing minerals and collagen.

Question 34

Where are osteocytes located within the osteons of compact bone?

Answer 34

Osteocytes are located within the lacunae of osteons, which are essentially small spaces.

Question 35

Which type of bone does not contain osteons?

Answer 35

Spongy bone doesn’t contain osteons

Question 36

Describe spongy bone.

Answer 36

Spongy bone is made up of an irregular lattice of thin columns called trabeculae, which are arranged along lines of stress.

Question 37

Where would you find trabeculae?

Answer 37

In spongy bone

Question 38

Where would you find spongy bone?

Answer 38

Spongy bone makes up the interior of short, flat and irregular bones, and the ends of long bones.

Spongy bone is always covered with compact bone.

Question 39

What is spongy bone always covered with?

Answer 39

Compact bone

Question 40

Why are osteons in compact bone, and trabeculae in spongy bone always arranged along lines of stress?

Answer 40

To ensure that when we’re being active, we are distributing forces in the most efficient and effective way possible, so that our bones can act as shock absorbers.

Question 41

What is the most abundant mineral in bone?

Answer 41

Calcium phosphate

There is also magnesium, sulphate and potassium

Question 42

What is the extracellular matrix in bone predominantly made of?

Answer 42

Collagen fibres and minerals.

Collagen is the scaffolding. The minerals contribute to the hardness of the bone.

Question 43

Define ‘long bones’.

Answer 43

Bones that are longer in length than they are in width.

Question 44

Define ‘diaphysis’.

Answer 44

The shaft of a long bone

Question 45

Define ‘epiphysis’.

Answer 45

The end of a long bone

Question 46

Give 3 examples of long bones

Answer 46

Femur, tibia, humerus

Question 47

Why are many long bones slightly curved?

Answer 47

To allow them to better distribute forces. If our bones were completely straight, they wouldn’t have any ability at all to bow under compression.

Question 48

Where would you find the epiphyses?

Answer 48

At the proximal and distal ends of long bones.

Question 49

Which structure separates the diaphysis from the epiphysis in long bones?

Answer 49

The epiphyseal growth plate

Question 50

What is the epiphyseal growth plate?

Answer 50

A layer of hyaline cartilage that separates the diaphysis from the epiphysis in long bones, and allows the diaphysis to grow in length.

Question 51

How long are epiphyseal growth plates active for?

Answer 51

Until the age of 18 - 21

They then fuse and become bone (which is why we typically stop growing at this age)

Question 52

Name 2 long bones that contain some red bone marrow.

Answer 52

Humerus, Femur

Question 53

What is the periosteum?

Answer 53

The outer layer of bone is covered by the periosteum, with the exception of areas that are covered in cartilage (ie, the ball and socket epiphyseal contacts)

Question 54

What is the central cavity in the diaphysis of long bones called?

Answer 54

The medullary cavity

Question 55

What does the medullary cavity in long bones contain?

Answer 55

Red / yellow bone marrow

Question 56

All bone marrow starts off as red bone marrow. True or false?

Answer 56

True

Question 57

Following a body trauma, yellow bone marrow can be converted to red bone marrow, to produce more blood cells. True or false?

Answer 57

True

Question 58

What replaces periosteum on bone joint surfaces?

Answer 58

Hyaline cartilage

Question 59

How many layers does periosteum have?

Answer 59

2. It is a double layered membrane. But it is NOT a serous membrane.

Question 60

Describe the periosteum

Answer 60

The periosteum is a pain sensitive, highly vascular membrane, that protects bone and serves as an attachment point for ligaments and tendons.

Question 61

What are the periosteal arteries?

Answer 61

The periosteal arteries are blood vessels that penetrate the periosteum and deliver oxygenated blood into the bone.

Question 62

Name the 2 layers of the periosteum.

Answer 62

1. The tough, outer fibrous layer

2. The inner ‘osteogenic’ layer

Question 63

What is the purpose of the inner osteogenic layer of the periosteum?

Answer 63

It contains osteoblasts and osteoclasts, assisting in bone growth and repair.

Question 64

What is the purpose of the outer, fibrous layer of the periosteum?

Answer 64

Muscle attachment and physical bone protection.

Question 65

List 5 types of bone

Answer 65

Flat, irregular, long, short (cubed-shaped), sesamoid

Question 66

Where might you find short bones in the body?

Answer 66

Carpals and tarsals in the wrist/hand and ankles/feet

Question 67

Where might you find flat bones in the body?

Answer 67

Skull, scapula, pelvis

Question 68

There are 2 ossification pathways used to produce bone. Name them.

Answer 68

1. Intramembranous ossification

2. Endochondral ossification

Question 69

What is the difference between intramembranous ossification and endochondral ossification?

Answer 69

Intramembranous ossification is where bone develops from connective tissue sheets (all flat bones develop in this way).

Endochondral ossification is where bone develops by replacing hyaline cartilage.

Question 70

When does bone formation begin?

Answer 70

Through foetal development.

Question 71

Define ‘ossification’

Answer 71

Producing bone

Question 72

In our early 20’s, the epiphyseal growth plate ossifies. What remains in its place?

Answer 72

The epiphyseal growth line

Question 73

What is the epiphyseal growth plate and why is it significant?

Answer 73

A layer of hyaline cartilage in the epiphyses, where osteoblasts are produced, ossifying bone matrix. It is what enables bones to grow longer.

Question 74

At what age do we stop remodelling bone?

Answer 74

We don’t! We are continuously remodelling our bones, in accordance with our environment and daily activities / stresses on the body.

Question 75

How do bones grow thicker?

Answer 75

Via the osteoblasts within the inner layer of the periosteum.

Question 76

What are cartilage cells called?

Answer 76

Chondrocytes

Question 77

Which hormones promote bone formation (osteoblast activity)?

Answer 77

Growth hormone
Thyroid hormone
Oestrogen
Testosterone
Calcitonin

Question 78

Which hormones promote bone break-down (osteoclast activity)?

Answer 78

Parathyroid hormone

Cortisol (and steroid medications)

Question 79

What does the hormone calcitonin do?

Answer 79

Moves calcium from the blood stream into the bones.

Question 80

What effect does parathyroid hormone have on bones?

Answer 80

It enhances osteoclast activity, increasing the breakdown of bone and the release of calcium from the bones into the bloodstream.

Question 81

Why do blood calcium levels have to be tightly controlled?

Answer 81

To ensure proper blood clotting, nerve and muscle function.

Question 82

Which 2 body systems cannot work without calcium?

Answer 82

Nervous system & muscular system

Question 83

Calcium exchange is the body is regulated by which glands?

Answer 83

Thyroid and parathyroid glands

Question 84

What is hypocalcaemia?

Answer 84

Low blood calcium levels

Question 85

What is hypercalcaemia?

Answer 85

High blood calcium levels

Question 86

List 3 ways in which parathyroid hormone increases blood calcium.

Answer 86

1. Increases osteoclast activity
2. Stimulates the kidneys to reabsorb and retain calcium in the blood.
3. Increases formation of calcitriol, which promotes calcium uptake from food in the intestines

Question 87

What is calcitriol?

Answer 87

The final active form of Vitamin D. It pulls calcium from your gut and into your blood.

Question 88

What form of vitamin D does parathyroid hormone activate?

Answer 88

Calcitriol - the final, active form of Vitamin D

Question 89

Which organ releases calcitriol?

Answer 89

The kidneys

Question 90

What is calcitonin?

Answer 90

A hormone that lowers blood calcium levels.

It inhibits osteoclasts and promotes osteoblast deposition of calcium in the bones.

Question 91

Which gland secretes calcitonin into the blood?

Answer 91

The thyroid gland (para-follicular cells)

Question 92

With regards to the skeletal system, what very important function does Vitamin D have?

Answer 92

It draws calcium from the intestines and moves it into the blood. It can then go into the bones.

Question 93

Explain the vitamin D cycle/process in the body

Answer 93

1. UV light on the skin creates a Vit D precursor
2. It goes to the liver
3. It goes to the kidneys
4. Finishes as final form of calcitriol (D3)

Question 94

List some dietary sources of vitamin D

Answer 94

Oily fish (i.e, wild salmon), mushrooms, eggs, supplements (from lichen). But sunshine is best!

Question 95

How does vitamin D3 work closely with vitamin K2?

Answer 95

D3 assists the absorption of calcium into the blood

K2 activates a protein called osteocalcin, which controls utilisation of calcium in the body (depositing it in bones)

Question 96

What role does vitamin K2 play in the skeletal system?

Answer 96

K2 activates a protein called osteocalcin, which controls the depositing of calcium from the blood into the bones.

Question 97

What is osteocalcin?

Answer 97

A protein activated by vitamin K2, which moves calcium from the blood into the bones.

Question 98

Where can we get Vitamin K2?

Answer 98

From fermented foods (ie, natto), and from our own gut bacteria.

Question 99

Weight bearing exercise can help stimulate osteoblasts and bone growth/density. True or false?

Answer 99

True

Question 100

Explain 3 roles of the periosteum

Answer 100

1. To protect the bone
2. To help the bones grow in width
3. To deliver blood supply to the bone (via periosteal arteries)

Question 101

The skeleton is divided into 2 sections, what are these called?

Answer 101

1. Axial skeleton

2. Appendicular skeleton

Question 102

How many bones are in the axial skeleton?

Answer 102

80

Question 103

What is the role of the axial skeleton?

Answer 103

To protect the body’s most vital organs

Question 104

What does the appendicular skeleton consist of?

Answer 104

The bones supporting the extremities / limbs

Question 105

Which bone does the tongue attach to?

Answer 105

The hyoid bone

Question 106

What type of joints are the skull bones joined together with?

Answer 106

Fibrous joints (“sutures”)

Question 107

What are the sinuses and what do they do?

Answer 107

The sinuses are air-filled cavities in the skull.

They give resonance to the voice, and lighten the face and cranium

Question 108

What are fontanelles?

Answer 108

Soft spots on a baby’s head at the junctions between the fibrous sutures. Fontanelles assist in childbirth.

Question 109

How many moveable vertebrae are in the spinal column?

Answer 109

24

Question 110

How many vertebrae are in each section of the spinal column?

Answer 110

Cervical = 7
Thoracic = 12
Lumbar = 5
Sacrum & Coccyx (fused bones)

Question 111

List 3 functions of the vertebral column.

Answer 111

1. Protection of the spinal cord
2. Movement (i.e, side bending)
3. Supporting the skull
4. Axis of the trunk

Question 112

What structure connects neighbouring spinal vertebrae with one another?

Answer 112

Invertebral discs

Question 113

Each thoracic vertebrae (T1 - T12) attaches to a corresponding rib (rib 1 - 12). True or false?

Answer 113

True

Question 114

Which lumbar vertebrae is the most vulnerable to injury and why?

Answer 114

L5 (the lowest). This is purely mechanical. All of the weight of the upper body is sat on it.

Question 115

How many intervertebral discs are there and what is their function?

Answer 115

23

They act as shock absorbers and separate individual vertebrae.

Question 116

When are vertebral discs most hydrated?

Answer 116

In the morning.

Also at age 30 - 40 (this is why prolapsed discs are most common at this age)

Question 117

Vertebral discs are comprised of 2 parts. Name them.

Answer 117

1. Annulus fibrosis (tough outer)

2. Nucleus pulposus (a gel-like inner pad)

Question 118

What is the thoracic cage comprised of?

Answer 118

The ribs (12 pairs), sternum, thoracic vertebrae (posteriorly)

Question 119

Which ribs are not attached to the sternum?

Answer 119

Ribs 11 and 12 (‘floating ribs’). They have no anterior bony attachments.

Question 120

How many bones make up the appendicular skeleton?

Answer 120

126 bones

Question 121

Where are the carpal bones found?

Answer 121

In the wrist

Question 122

Where are the phalanges found?

Answer 122

In the fingers. They are the finger bones.

Question 123

What are skeletal muscles?

Answer 123

Muscles that attach to bone and move joints

Question 124

Generally speaking, which tough, fibrous structure attaches muscle to bone (via the periosteum)?

Answer 124

Tendons

Question 125

How many joints are in the human body?

Answer 125

187

Question 126

What are the 3 types of joints?

Answer 126

1. Fibrous joints (i.e, sutures in the skull)
2. Cartiliginous joints (i.e, epiphyseal growth plate, intervertebral discs)
3. Synovial joints

Question 127

Which type of joint permits the most movement?

Answer 127

Synovial joints

Question 128

What are the opposing joints of synovial joints covered by, and why?

Answer 128

A layer of articular cartilage.

This reduces friction and acts to shock absorb

Question 129

What does synovial fluid mostly consist of?

Answer 129

Hyaluronic acid and interstitial fluid

Question 130

Do synovial joints have a direct blood supply?

Answer 130

No

Question 131

What are bursa?

Answer 131

Sac-like, fluid-filled structures that are strategically located to reduce friction in the body.

Question 132

What type of fluid is found inside bursae?

Answer 132

Connective tissue fluid

Question 133

Where are bursae located?

Answer 133

Between skin and bone, tendon & bone, muscle & bone, or ligament & bone

i.e, shoulder, hip, knee

Question 134

Define ‘flexion’

Answer 134

Decrease in joint angle

Question 135

Define ‘extension’

Answer 135

Increase in joint angle

Question 136

Define ‘rotation’

Answer 136

Movement around a longitudinal axis (twisting).

In limbs it can be medial or lateral.

Question 137

Define ‘lateral flexion’

Answer 137

Side bending. Movement of the trunk away from the midline

Question 138

Define ‘abduction’

Answer 138

Movement away from the midline

i.e, hip or shoulder/arm

Question 139

Define ‘adduction’

Answer 139

Movement towards the midline

i.e, hip or shoulder/arm

Question 140

Define ‘circumduction’

Answer 140

Circular movement, multiple combinations of other movements.

Question 141

Define ‘protraction’ and ‘retraction’

Answer 141

Protraction = Anterior movement (forwards)
Retraction = Posterior movement (backwards)

i.e, protract and retract the shoulders

Question 142

Define ‘inversion’ and ‘eversion’.

Answer 142

Inversion = medial movement of sole (turn in)
Eversion = lateral movement of sole (turn out)

Question 143

Define ‘supination’ and ‘pronation’

Answer 143

Supination = turning the palm upwards
Pronation = turning the palm downwards

Question 144

Define ‘opposition’

Answer 144

Movement of thumb across the palm to touch fingertips