2. TERMINOLOGY, LANDMARKS AND SKELETAL SYSTEM Flashcards

Key anatomical terminology. Major bones of the body and structure and function of the skeletal system. Joints. Signs, symptoms and investigation procedures and some orthodox treatments of skeletal pathologies.

1
Q

Describe what is meant by the anatomical position

A

The anatomical position describes the body position from which directional terms always reference:

  • Person stands erect
  • Feet parallel, flat on the floor
  • Arms at the sides of the body, palms facing forward
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2
Q

Describe the following body positions:
Supine
Prone

A

Supine describes the body lying face up

Prone describes the body lying face down

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3
Q
Define the following terms:
Distal 
Unilateral
Medial
Proximal
Lateral
Posterior
Superior
A
Distal - Further from the trunk
Unilateral - on one side only
Medial - towards the midline
Proximal - Nearer to the trunk
Lateral - Away from the midline
Posterior - Nearer the back (dorsal for NS)
Superior - Towards the top
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4
Q

Explain the difference between the following planes:

a) Coronal
b) Sagittal / Medial
c) Horizontal / Transverse / Axial

A

a) Separating the body front and back
b) Separating the body left and right
c) Separating the body top and bottom

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5
Q

List four functions of the human skeleton

A
  • Provides the body framework
  • Forms boundaries (skull, thorax)
  • Permits movement (joints)
  • Haematopoiesis (formation, development of blood cells in the red bone marrow)
  • Mineral homeostasis (calcium, phosphate, magnesium)
  • Triglyceride storage (yellow bone marrow)
  • Protection (ribs)
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6
Q

Which bone building cells synthesise and secrete collagen and other components of bony matrix?

A

Osteoblasts

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7
Q

What are mature bone cells called and what is their function?

A

Osteocytes maintain the daily metabolism of bone such as nutrient and waste exchange

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8
Q

Which bone cell can transform into an osteocyte?

A

Osteoblast

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9
Q

Describe three features of compact bone

A
  1. Haversian Canal - space for the blood vessels and nerves
  2. Lamellae: Concentric rings of calcified extracellular matrix containing minerals and collagen
  3. Canaliculi: A mini system of interconnected canals that provides a route for nutrients and waste
  4. Lacunae: Small spaces between the lamellae with osteocytes
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10
Q

What is one structural unit of compact bone called

A

An osteon

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11
Q

What percentage of the skeleton is compact bone

A

80%

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12
Q

Where is compact bone located?

A

It is found beneath the periosteum (two-layered vascular membrane) of all bones and makes up the bulk of the diaphysis of long bones

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13
Q

Explain what is meant by resorption

A

The breakdown of bone matrix

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14
Q

Describe two features of spongy bone

A

Spongy

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15
Q

Describe two features of spongy bone

A

Spongy bone consists of an irregular lattice of thin columns called ‘trabeculae’ that are arranged along lines of stress.
Microscopic spaces between the trabeculae make the bone lighter and contains red bone marrow, which produces blood cells, as well as blood vessels that nourish the bone.

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16
Q

Where is spongy bone located in the body?

A

In the interior of short, flat and irregularly shaped bones and the ends of long bones.

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17
Q

Why is spongy bone always covered by compact bone?

A

Because spongy bone is much softer and vulnerable to injury, it is always covered by hard and protective compact bone

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18
Q

What is the most abundant mineral found in bone?

A

Calcium phosphate (which combines with other minerals such as magnesium, sulphate and potassium

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19
Q

Name five examples of a long bone

A

Femur, tibia, fibula, humerus, radius, ulna

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20
Q

The epiphysis is separated from the diaphysis by the ________________ plate, which is a layer of ________ cartilage that allows the diaphysis to grow in length. The epiphysis contains a region of thin outer ________ bone covered by hyaline cartilage. There is an inner spongy bone with _____ bone marrow. The diaphysis contains an outer compact bone covered by __________. It contains a central ________ cavity that contains _____ and _______ bone marrow.

A
epiphyseal growth
hyaline
compact
red
periosteum
medullary
red 
yellow
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21
Q

What is the periosteum?

A

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

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22
Q

What do the following terms mean:

a) Diaphysis
b) Epiphysis

A

a) The tubular shaft of long bones

b) The proximal and distal ends of long bones

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23
Q

What is the periosteum? Describe three functions thereof.

A

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

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24
Q

Describe the difference between the inner and outer layers of the periosteum.

A

The outer layer is tough and fibrous and is protective. The inner ‘osteogenic’ layer contains osteoblasts and osteoclasts, assisting in bone growth and repair.

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25
Q

Apart from long bones, name four other types of bones and list one example for each bone.

A

Short bones: carpals, tarsals
Irregular bones: vertebrae
Flat bones: cranium, scapula, pelvis
Sesamoid bone: Patella

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26
Q

Describe the difference between Intramembranous and Endochondrial ossification

A

With Intramembranous ossification, bone develops from connective tissue sheets. All flat bones develop this way (skull, clavicles etc.)
In the case of Endochondrial ossification, bone develops by replacing hyaline cartilage

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27
Q

Identify which bone grows lengthwise

A

Long bones elongate from the epiphyseal growth plate until the early twenties.

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28
Q

List two factors that influence bones to grow in thickness

A

Physical stress, muscle activity and weight

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29
Q

Explain the role of the epiphyseal plate

A

During childhood, long bones continue to lengthen because the epiphyseal plate (made of cartilage at each end of the bone) continues to produce new cartilage on its diaphyseal surface. This cartilage is then turned to bone

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30
Q

Name two hormones that promote osteoblast activity

A

Growth Hormone

Calcitonin

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31
Q

Name two hormones that promote osteoclast activity

A

Parathyroid hormone

Cortisol

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32
Q

Name two glands in the body that regulate calcium exchange

A

Thyroid gland

Parathyroid gland

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33
Q

Describe in detail what happens to restore balance when:

a) blood calcium level is too low
b) blood calcium level is too high

A

a) Sensors pick up low levels of blood calcium and Parathyroid hormone is released which stimulates osteoclast activity, releasing calcium into the blood from the bone (resorption). The kidneys are also stimulated to reabsorb and retain calcium in the blood. Furthermore the formation of calcitriol is increased, which promotes calcium uptake from food in the intestines.
b) Sensors pick up high levels of calcium in the blood, stimulates the release of calcitonin from para-follicular cells in the thyroid gland, which promotes osteoblast activity. This leads to the absorption of calcium back into the bone, and thus increased bone formation.

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34
Q

Describe the role of the following vitamins and minerals in the regulation of blood calcium

a) Vitamin D
b) Vitamin K2
c) Magnesium

A

a) Vitamin D3 assists the absorption of calcium from the intestinal tract into the blood
b) Vitamin K2 activates a protein called osteocalcin which controls utilisation of the calcium in the body
c) Magnesium is a co-factor needed for the conversion of Vitamin D in the body

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35
Q

Name two reasons why a patient might be deficient in Vitamin D

A
  • Lack of sun exposure
  • Reduced dietary absorption
  • Reduced ability to produce active form of Vitamin D (Calcitriol) in the skin, liver and kidneys
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36
Q

In the body, mechanical stress leads to increased ________ deposition and increased ________ production.

A

mineral

collagen

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37
Q

Does parathyroid hormone increase or decrease blood calcium?

A

increase

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38
Q

What type of exercise promotes bone building and why is it important?

A

Weight bearing exercise builds bone in that it ensures bone formation occurs more quickly than bone resorption. Lack of stress on bones can cause mass loss of up to 1% per week eg. bedridden patients and is a risk factor for osteoporosis.

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39
Q

Explain the difference between the axial and appendicular skeleton

A

The axial skeleton is the ‘central skeleton’ and contains 80 bones including the skull, inner ear bones, hyoid, thoracic cage and vertebral column. It serves to protect the body’s most vital organs.
The appendicular skeleton consists of the bones supporting the extremities/limbs and has 126 bones. These are the shoulder girdle, arms, hands, pelvic girdle, legs and feet. They function to enable movement as well as organ protection.

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40
Q

How are skull bones joined together?

A

With fibrous joints (sutures)

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41
Q

Name two functions of the vertebral column

A
  • Protection for spinal cord
  • movement (side bending)
  • support of skull
  • forms axis of the trunk
42
Q

What four regions are the vertebral column divided in and how many vertebrae is in each?

A

Cervical (7) C1-C7
Thoracic (12) T1-T12
Lumbar (5) L1-L5
Sacrum (5 fused) and Coccyx (4 fused bones)

43
Q

How many vertebrae do humans typically have?

A

24 movable vertebrae plus a group of 5 and 4 fused vertebrae, which results in a total of 26 (or 33 if counting the fused ones separately).

44
Q

Describe the role of the intervertebral discs in the body

A

Discs are shock-absorbing structures

They bind vertebral bodies and separate individual vertebrae.

45
Q

When are intervertebral discs most hydrated?

A

In the morning and in those aged 30-40 years

46
Q

Which two bones make up the shoulder girdle?

A

Clavicle and scapula

47
Q

Where in the body do we find carpals, metacarpals and phalanges?

A

In the wrist, hand and fingers

48
Q

Which bones comprise the pelvic girdle?

A

Hip bones
Sacrum
Coccyx

49
Q

Name the longest and strongest bone in the body

A

Femur (thigh bone)

50
Q

Explain how muscles are attached to bones

A

Skeletal muscles are attached to bone via tough fibrous structures called tendons.

51
Q

What is the role of joints in the body?

A

Joints connect two bony structures and permit varying degrees of movement

52
Q

Name three types of joints

A
  1. Fibrous (sutures in skull)
  2. Cartilaginous (intervertebral discs; epiphyseal plate)
  3. Synovial (shoulder, hip, elbow, knee)
53
Q

Give two examples of joints that allow for little or no movement

A

Sutures in skull; intervertebral discs

54
Q

Describe the structure of the synovial joint

A

Bones at the joints are covered by a layer of hyaline cartilage (articular cartilage), reducing friction and absorbing shock.
These joints contain synovial fluid (consisting mostly of hyaluronic acid and interstitial fluid), but no direct blood supply. Therefore, movement is essential to aid diffusion of these from the blood. Examples are hinge joints and ‘ball and socket’ joints.

55
Q

Name the two regions that make up intervertebral discs

A

Annulous fibrosus - outer rim of fibrocartilage

Nucleus pulposus - central core of soft gelatinous material

56
Q

List one example for each of the following joints:

a) Ball and socket
b) Hinge

A

a) Shoulder, hip

b) Elbow, knee

57
Q

Describe the main role of bursae

A

These closed fluid-filled sacs are strategically positioned to cushion and reduce friction in areas where bone would otherwise rub on muscle, tendons or skin.

58
Q

Structurally, name two general locations for bursae in the body

A

Between skin and bone; tendon and bone; muscle and bone or ligaments and bone.

59
Q

Define the following term with regards to angular movements:

  1. Flexion
  2. Extension
  3. Rotation
  4. Lateral flexion
  5. Abduction
  6. Adduction
  7. Circumduction
A
  1. Decrease in joint angle
  2. Increase in joint angle
  3. Movement around its longitudinal axis
  4. Movement of trunk away from the midline
  5. Movement away from the midline
  6. Movement towards the midline
  7. Circular movement
60
Q

With regards to special movements, define the following:

  1. Elevation
  2. Depression
  3. Protraction
  4. Retraction
  5. Inversion
  6. Eversion
  7. Dorsiflexion
  8. Plantar Flexion
  9. Supination
  10. Pronation
  11. Opposition
A
  1. Elevation - superior movement
  2. Depression - inferior movement
  3. Protraction - anterior movement
  4. Retraction - posterior movement
  5. Inversion - medial movement of sole (turn in)
  6. Eversion - lateral movement of sole (turn out)
  7. Dorsiflexion - bending foot up
  8. Plantar Flexion - bending foot down
  9. Supination - forearm movement, palm facing up
  10. Pronation - forearm movement, palm facing backward
  11. Opposition - thumb touching fingertips
61
Q

Name the two bones of the forearm

A

Ulna and radius

62
Q

Name the two bones in the lower leg

A

Tibia and fibula

63
Q

What could cause bone fractures?

A

Physical trauma fracture or Pathological fracture [low bone density (osteoporosis), Vitamin D deficiency]

64
Q

What is the difference between a complete and incomplete fracture?

A

A complete fracture is when the bone is broken (fully separated) into two or more fragments - this could be open (skin perforated) or closed (no soft tissue damage).
In an incomplete fracture, bone is fragmented but not separated into fragments.

65
Q

Describe the four stages of fracture repair

A
  1. Haematoma and inflammation: Blood vessels at fracture line are broken and blood leaks into the site. Death of local cells and swelling.
  2. Fibrocartilaginous callus formation: Phagocytes clean up the debris. Fibroblasts invade and lay down collagen, forming a soft callus (2-3 weeks)
  3. Bony callus formation: Osteoblasts replace soft callus with new bone (< 3 months)
  4. Bone remodelling: The callus is mineralised and compact bone is laid down. Then osteoclasts reshape the new bone (months - years)
66
Q

What does the common first aid treatment for sprains, ‘RICE’ entail

A

Rest
Ice
Compression
Elevation

67
Q

What are ligaments?

A

Ligaments are tough bands of connective tissue that attach bone to bone.

68
Q

Where does joint dislocation commonly occur?

A

Shoulder and knee (patella)

69
Q

Briefly explain the following:

a. Kyphosis
b. Lordosis
c. Scoliosis

A

a. A healthy spine will include a thoracic spine kyphosis which can help distribute forces through the spine. [Hyper-kyphosis can occur due to poor posture or secondary to diseases such as osteoporosis.
b. A lordosis describes an increased concavity, as seen in the cervical and lumbar spine [Hyper-lordosis can be genetic or due to pregnancy and can cause muscular fatigue]
c. A scoliosis is a lateral ‘S’ shaped curve in the spine [often asymptomatic, but severe cases can cause spinal nerve compression]

70
Q

What is the difference between subluxation and dislocation of a joint?

A

Subluxation is incomplete or partial joint dislocation.
Dislocation is the complete separation of two bones at a joint and leads to reduced strength and compromised joint function.

71
Q

Define osteoporosis

A

Chronic, progressive thinning of the bone (‘porous bone’) characterised by decreased bone mineral density leading to bone fragility and increased risk of fractures.

72
Q

How is osteoporosis diagnosed?

A

Conventionally, by a ‘dual x-ray absorptiometry’ (DXA scan). On this test, a ‘T-score’ lower than -2.5 indicates osteoporosis.

73
Q

List three dietary factors that increase the risk of osteoporosis

A

High acid-forming diet ( high sugar and protein)
Low in minerals
Malnourished
Excess sodium, caffeine, fizzy drinks

74
Q

Why would low stomach acid contribute to the development of osteoporosis?

A

Gastric acid is needed to ionise calcium and assist absorption

75
Q

Name four non diet-related risk factors for osteoporosis

A
  • Sedentary lifestyle
  • Increasing age
  • Female and post-menopausal (oestrogen would normally suppress osteoclast activity)
  • Drugs (long-term corticosteroid use)
  • Low body weight
  • Toxins (heavy metals)
  • High alcohol and smoking
  • Endocrine pathologies (eg. Cushings, hyperpara thyroidism, hyperthyroidism)
76
Q

List two signs and/or symptoms of osteoporosis

A

Asymptomatic until bone reaches critical thinness whereby fractures occur with minor trauma (spine and hips commonly).
Focal pain and kyphotic posture, loss of height.
Pain is aggravated by prolonged sitting, standing, bending and relieved by lying on side with knees flexed.

77
Q

Describe the pathological process in osteomalacia and rickets

A

osteomalacia and rickets describe the inadequate mineralisation of the bone matrix in spongy and compact bone. It is characterised by decalcification and hence softening of bone, especially in spine, pelvis and legs.

78
Q

Explain the main difference between osteomalacia and rickets

A

The onset of osteomalacia is normally in the adult or teenage years while rickets occurs in children and prior to the closure of the epiphyseal growth plate. For this reason children with rickets will display the characteristic bowing of the lower limbs.

79
Q

What are the primary and secondary causes of osteomalacia and rickets?

A

Primarily, osteomalacia and rickets are caused by a vitamin D deficiency due to insufficient sunlight and dietary intake. Secondary causes can be malabsorption disorders and reduced receptor sites for vitamin D in tissues.

80
Q

What is osteomyelitis and what are the causes?

A

Osteomyelitis is a bacterial infection of the bone marrow, resulting in necrosis and then bone weakness. It is usually caused by Staphylococcus Aureus infection through the blood supply or following a fracture or surgery. Immunosuppression, diabetes and the use of IV drugs are risk factors.

81
Q

Define osteoarthritis

A

A degenerative, non-inflammatory wear-and-tear arthritis of the articular cartilage, typically affecting weight-bearing (larger) joints in individuals typically over 50 years of age.

82
Q

What are the signs and symptoms of osteoarthritis?

A
  • Gradual onset of pain, increasing over months/years
  • Joint pain and stiffness
  • Not associated with systemic symptoms
83
Q

Discuss the primary and secondary causes of osteoarthritis

A

Primary: Associated with ageing (80% of 65-year olds have radiological signs of OA)
Secondary: Associated with predisposing factors:
a) congenital
b) trauma (fractures, surgery, meniscal injury)
c) obesity

84
Q

How is osteoarthritis diagnosed

A

By x-ray - revealing narrowed joint space, osteophyte (bone spur) formation and squaring of rounded joint surfaces.

85
Q

Describe the pathophysiology of osteoarthritis

A
  1. Articular cartilage wears away to expose underlying bone.
  2. Subchondral bone becomes hard and glossy (eburnation)
  3. Remodelling of underlying bone (i.e. thickening)
  4. Compensatory bone overgrowth in an attempt to stabilise joint = osteophytes (spurs).
86
Q

How is Rheumatoid Arthritis defined?

A

It is an autoimmune inflammation of the synovium, potentially affecting ALL organs except the brain.

87
Q

What is the aetiology of Rheumatoid Arthritis?

A
  • Inherited susceptibility to RA is associated with HLA-DR4 and DR1 genetic markers
  • Infections such as EBV and Rubella
  • Abnormal intestinal permeability, SIBO, smoking
88
Q

Morning stiffness (> 1 hour) is more prevalent in _______-arthritis

A

Rheumatoid

89
Q

What are four signs/symptoms of rheumatoid arthritis?

A
  • Symmetrical / bilateral in small joints
  • Gradually spreads through more proximal structures
  • Deformity of joints
  • General malaise and fatigue
  • Subcutaneous nodules (around fingers/elbows)
  • C1/C2 subluxation and compression of spinal cord leading to paralysis and neurological complications.
90
Q

How would blood test results vary in the case of Rheumatoid VS Osteoarthritis

A

In the case of Rheumatoid Arthritis, you will see raised:

  • ESR (Erythrocyte Sedimentation Rate)
  • CRP (C-Reactive protein)
  • Rheumatoid factor
91
Q

_______-arthritis symptoms are often worse in the evening

A

Osteo

92
Q

What are osteophytes?

A

Bone spurs in osteoarthritis

93
Q

What is eburnation?

A

Subchondral bone that has become hard and glossy because of wear and tear

94
Q

Describe the pathophysiology of gout

A

Gout is a type of monoarthritis, characterised by uric acid crystal deposition in synovial joints.

95
Q

Is gout more prevalent in men or women?

A

Men (10:1)

96
Q

What causes gout?

A

Dietary: High intake of purine-rich foods (red meat, organ meats, shellfish), excessive alcohol, dehydration (not enough water)
Other: Kidney disease, obesity, hypertension, medications, Type II diabetes

97
Q

What are the signs and symptoms of gout?

A

Sudden onset of intensely painful, red, hot swollen joints, lasting 12-24 hours. Shiny skin over joint. Usually monoarticular and most often affects the big toe.
Urate crystals can deposit under the skin and produce ‘tophi’.

98
Q

What is the typical allopathic treatment for gout and why could they be problematic?

A

Allopurinol - hepatotoxic
Corticosteroid injections - can cause indigestion, rapid heartbeat, nausea, insomnia, osteoporosis, glaucoma, indigestion

99
Q

What is Ankylosing Spondylitis?

A

AS is a systemic autoimmune disease associated with chronic inflammation of the spine and sacroiliac joints, often leading to spinal fusion

100
Q

Describe the pathophysiology of disc herniation

A

The nucleus pulposis of the intervertebral disc leaks out through the annulus fibrosis. This tends to affect the discs with the highest fluid content, mainly lumbar (L5/S1) and cervical spine.

101
Q

What is bursitis and which joints does it commonly affect?

A

Bursitis is the inflammation of a bursa. This commonly affects the shoulder (sub-acromial) and hip (trochanteric). It can be caused by repetetive use (e.g. overhead work when decorating), sudden trauma or an infection.