Bone pathology

Question 1

What is the bone matrix composed of?

Answer 1

• Organic component: osteoid (90% type 1 collagen, 10% water, non-collagenous proteins, lipids, proteoglycas)
• Inorganic component of mineralised tissue (hydroxyapatite = hydroxylated calcium phosphate)

Question 2

What is the consequence of the loss of inorganic matrix of the bone?

Answer 2

Flexible bones

Question 3

What is the consequence of the loss of organic matrix of the bone?

Answer 3

Brittle bone

Question 4

Describe the appearance and role of osteoclasts

Answer 4

Multinucleate, remove calcium from bone

Question 5

Describe the histological appearance of osteocytes

Answer 5

Sit in lacunae, surrounded by matrix

Question 6

Compare the ossification of long and flat bones

Answer 6

• Long: endochondral ossification at the metaphyseal growth plates (physes)
• Flat: intramembranous ossification, bone formed directly from he periosteum

Question 7

Briefly describe the histological appearance of the physes of long bones

Answer 7

• Growth starts at hyaline cartilage (dark purple)
• Moves down into medullary cavity
• Then mineralises and ossifies, becomes pink
• Medullar cavity and spongy bone

Question 8

What is the most common response of injured periosteum?

Answer 8

Formation of new bone e.g. around a fracture site

Question 9

What is meant by brachygnathia?

Answer 9

Abnormally short jaw

Question 10

What is meant by prognathia?

Answer 10

Abnormal projection of jaw

Question 11

What is meant by kyphosis?

Answer 11

Dorsal curvature of the spinal column

Question 12

What is meant by lordosis?

Answer 12

Ventral curvature of the spinal column

Question 13

What is meant by scoliosis?

Answer 13

Lateral deviation of the spinal column

Question 14

What is amelia?

Answer 14

Absence of limbs

Question 15

What is hemimelia?

Answer 15

Absence of distal limb part

Question 16

What is polydactyly and which animals are predisposed?

Answer 16

Presence of supranumerary digits, most common in cats, esp. Hemignway cats

Question 17

What is adactyly?

Answer 17

Absence of a digit

Question 18

What is syndactyly?

Answer 18

Fusion of digits

Question 19

What causes chondrodysplasias?

Answer 19

Hereditary disorder of bone growth as a result of primary lesions in the growth cartilage

Question 20

Which bones are affected by chondrodysplasias and why?

Answer 20

Long bones only, as only endochondral ossification is affected

Question 21

Describe the appearance of an animal with chondrodysplasia

Answer 21

• Short legs and normal sized heads (dogs)
• Sheep usually normal length of legs but abnormal appearance of these (aka spider lamb syndrome)
• Also seen in cattle (bulldog cattle)

Question 22

What causes osteopetrosis?

Answer 22

Defect in bone resorption by osteoclasts - plenty of osteoclasts but are not functioning correctly

Question 23

Describe the consequences of osteopetrosis

Answer 23

• Bone mineral density increased, but bones are more fragile
• Not enough collagen

Question 24

Which species are most commonly affected by osteopetrosis?

Answer 24

Cattle, sometimes horses

Question 25

Give examples of congenital bone disorders

Answer 25

• Chondrodysplasia
• Osteopetrosis
• Osteogenesis imperfecta
• Congenital hyperostosis
• Osteochondromatosis

Question 26

Give the main metabolic bone diseases

Answer 26

• Osteoporosis
• Rickets/osteomalacia
• Fibrous osteodystrophy

Question 27

What are common causes of metabolic bone diseases?

Answer 27

Nutritional, toxic or endocrine

Question 28

Describe the structure of bone affected by osteoporosis

Answer 28

Reduced bone mass, normal bone quality, well mineralised

Question 29

List the main causes of osteoporosis

Answer 29

- Malnutrition
Physical inactivity 
- Dietary calcium deficiency
- Advanced age
- Glucocorticoid excess (e.g. long term steroid administration)
- Oestrogen or androgen deficiency

Question 30

What are the consequences of osteoporosis?

Answer 30

• Brittle bones

- Fractures

Question 31

Explain the difference between rickets and osteomalacia

Answer 31

• Failure ofmineralisation in growing skeleton (rickets) and adults (osteomalacia)

Question 32

List the main causes of rickets/osteomalacia

Answer 32

• Calcium/vit D deficiencies
• Phosphorous deficiency
• Chronic renal disease (calcium phosphorous imbalance)

Question 33

What are the consequences of rickets/osteomalacia?

Answer 33

• Bone deformities
• Thickening of growth plates
• Fractures

Question 34

Describe the appearance of rachitic rosaries

Answer 34

• Occurs with rickets/osteomalacia

- Increased cartilage and fibrous connective tissue at costrochondral junctions

Question 35

What is fibrous osteodystrophy?

Answer 35

• Similar to rickets but more severe, osteoclasts destroy bone
• Increased widespread osteoclastic resorption of bone and replacement by fibrous tissue
• Aka rubber jaw in dogs, bran disease in horses

Question 36

List the causes of fibrous osteodystrophy

Answer 36

• Primary hyperparathyroidism
• Secondary hyperparathyroidism (renal/nutritional)
• Pseudohyperparahthyroidism (certain neoplasia)
• Lack of UV in reptiles
• Can also be seen as part of rickets

Question 37

What are the consequences of fibrous osteodystrophy?

Answer 37

• Lameness
• Fractures
• Deformities

Question 38

Compare the bone mineralisation in rickets/osteomalacia, osteoporosis and fibrous osteodystrophy

Answer 38

• Rickets/osteomalacia: reduced bone mineralisation (increased connective tissue)
• Osteoporosis: normal mineralisation (loss of spicules of bone, diaphysis gone)
• Fibrous osteodystrophy: fibrous replacement

Question 39

List toxicities and nutritional imbalances that affect bone

Answer 39

• Hypervitaminosis D
• Vitamin C deficiency
• Vitamine A deficiency or toxicity
• Lead toxicity
• Fluoride toxicity

Question 40

List the common causes of hypervitaminosis D

Answer 40

• Ingestion of calcinogenic plans e.g. Solanum sp, Trisetum flavescens
• Feed overdoses (pigs, horses)
• Ingestion of certain drugs (e.g. rodenticide such as cholecalciferol)

Question 41

Describe the consequences of hypervitaminosis D regarding bone (incl. location)

Answer 41

• Produces hypercalcaemia an/or hyperphosphataemia and consequently metastatic mineralisation
• Typically seen in vessels, lung, kidney, stomach

Question 42

Explain the effect of vitamin C deficiency on bone

Answer 42

• Required for collagen synthesis
• Most primates, guinea pigs and some bats cannot synthesise vit C
• Leads to osteopaenia

Question 43

What are the consequences of vitamin C deficiency in bone?

Answer 43

• Bone fragility
• Fractures
• Metaphyseal/articular/muscular/subcutaneous haemorrhages

Question 44

Why do haemorrhages occur with vitamin C deficiency?

Answer 44

Vessels do not have proper collagen component so they burst

Question 45

What is osteitis?

Answer 45

Inflammation of bone

Question 46

What is periostitis?

Answer 46

Inflammation of bone with periosteal involvement

Question 47

what is osteomyelitis?

Answer 47

Inflammation of bone with bone marrow involvement

Question 48

What are potential sources of infectious inflammatory diseases of bone?

Answer 48

• Haematogenous spread
• Trauma
• Inflammation of adjacent tissues e.g periodontitis (maxilla/jaw), otitis (tympanic bulla)

Question 49

What are the most common bacterial causes of bone infection?

Answer 49

• Trueperella pyogenes
• Strep spp
• Staph spp
• E. coli
• Salmonella spp.

Question 50

Describe fungi as a cause of infectious bone disease and give examples

Answer 50

• Rare and difficult to treat
• Coccidioides immitis
• Blastomyces dermatitidis

Question 51

Give examples of viral bone disease

Answer 51

• Canine distemper virus
• bovine viral diarrhoea
• NB will be sterile, no inflammation

Question 52

In which animals is bacterial osteomyelitis most common and why?

Answer 52

• Young farm animals and foals

- As extension of navel/joint ill

Question 53

What is the causative agent of lumpy jaw and describe the appearance

Answer 53

• Actinomyces bovis
• Chronic pyogranulomatous osteomyelitis
• Lots of necrotic tissue present with neutrophils (pus)

Question 54

Describe the radiographic appearance of osteomyelitis

Answer 54

Increased radiopacity

Question 55

In which breeds and ages is metaphyseal osteopathy most common?

Answer 55

Usually larger breeds e.g. Danes, Labs, young dogs 2-6mo

Question 56

Describe the presentation of metaphyseal osteopathy

Answer 56

• Lameness
• Fever
• Swollen painful metaphyses in multiple long bones
• May look like infection
• Joint tap shows fibrin, cloudy, blood, but no bacteria

Question 57

What is metaphyseal osteopathy?

Answer 57

Suppurative sterile and fibrinous ostemyelitis of the trabecular bone of the metaphysis

Question 58

Give examples of non-neoplastic proliferative bone lesions

Answer 58

• Hypertrophic osteopathy

- Craniomandibular osteopathy

Question 59

What is hypertrophic osteopathy?

Answer 59

Progressive, bilateral periosteal new bone formation in the diaphyses of distal limbs

Question 60

What is the underlying cause of hypertrophic osteopathy?

Answer 60

Usually intra-thoracic neoplasia or inflammation (some kind of space occupying lesion)

Question 61

Describe the radiographic appearance of hypertrophic osteopathy

Answer 61

• Joints unaffected
• Excess bone on the outside of bones, no bone destruction
• New woven bone, not lamellar bone
• Metacarpal/metatarsal bones affected first, then spreads proximally

Question 62

Describe craniomandibular osteopathy

Answer 62

• Hereditary condition of westies/scotties
• Thickening of mandibles, occipital and temporal bones
• Generally only cosmetic issue, unless affecting TMJ which will cause difficulty opening hte mouth

Question 63

List the benign tumours of bone

Answer 63

• Osteoma
• Chrondroma
• Fibroma

Question 64

List the malignant tumours of bone

Answer 64

• Osteosarcoma
• Chrondrosarcoma
• Firbrosarcoma

Question 65

Compare the prevalence of benign vs malignant bone neoplasia

Answer 65

Malignant more common, benign possible esp. in cartilage e.g. chondroma

Question 66

What are the disadvantages of using biopsy in the diagnosis of bone neoplasia?

Answer 66

• Biopsies often contain reactive periosteum

- Fractures possible

Question 67

Outline the occurrence of metastatic bone tumours

Answer 67

• Rare

- Mainly carcinomas e.g. pulmonary carcinomas in cats can metastasise to digits (to 3rd phalanx, sloughing claws)

Question 68

Which bone neoplasia fits with the following characteristics?

• Osteoblast origin
• Rare
• Primary site: flat bones
• Benign behaviour

Answer 68

Osteoma

Question 69

Which bone neoplasia fits with the following characteristics?

• Osteoblast origin
• Common
• Primary site: metaphyses of larger appendicular bones
• Hihgly malignant with early metastasis

Answer 69

Osteosarcoma

Question 70

Which bone neoplasia fits with the following characteristics?

• Chondrocyte/chondroblast origin
• Rare
• Primary site: flat bones
• Benign behaviour

Answer 70

Chondroma

Question 71

Which bone neoplasia fits with the following characteristics?

• Chondrocyte/blast origin
• Relatively rare
• Primary site: ribs, sternum, nasal cavity
• Metastases not common and late

Answer 71

Chondrosarcoma

Question 72

Which bone neoplasia fits with the following characteristics?

• Fibroblast origin
• Uncommon
• Benign behaviour

Answer 72

Fibroma

Question 73

Which bone neoplasia fits with the following characteristics?

• Fibroblast origin
• Relatively rare
• Primary site: diaphyses of bones of appendicular skeleton
• Metastasise relatively late

Answer 73

Fibrosarcoma

Question 74

Where do osteosarcomas most commonly arise?

Answer 74

Metaphyses of long bone, close to the knee, away from the elbow

Question 75

Describe the metastasis of osteosarcomas

Answer 75

Haematogenously - even if no metastases found are probably there, just not visible

Question 76

Compare the relationship of osteosarcomas and chrondosarcomas with regards to joints

Answer 76

• Osteosarcomas do not cross joints

- Chondrosarcomas do cross joints

Question 77

What are the advantages of CT over radiography?

Answer 77

• CT eliminates superimposition
• Produces 3D reconstructions
• Good for areas with lots of superimposition e.g. skull, elbow

Question 78

What imaging modalities are useful for MSK investigations?

Answer 78

• Radiography
• CT
• MRI
  Scintigraphy
• (Ultrasonography)

Question 79

What is scintigraphy and how is it used in MSK investigations?

Answer 79

• Radionuclide imaging
• Increased uptake of radioisotope in regions of inflammation
• Can be used to look for damage in bone, but non-specific

Question 80

What are the possible ways in which bone can respond to pathological processes?

Answer 80

• Increased or decreased bone mass (main change): increase or loss (osteopaenia, always bad)
• Change in shape/contour
• Change in alignment

Question 81

What is sclerosis?

Answer 81

Localised area of increased bone density

Question 82

Why might sclerosis occur?

Answer 82

• Response of bone to “wall off” pathology e.g. infection, cyst
• Or response to increased/abnormal loading (Wolff’s law)

Question 83

What may cause the appearance of artefactual sclerosis on a radiograph?

Answer 83

• Superimposition of structures
• Adjacent bone loss
• Foreign material on coat

Question 84

What may cause the appearance of artefactual bone loss on a radiograph?

Answer 84

• Gas or defect in sof tissue

- Mach lines (overlapping of 2 bones, mimics hairline fracture)

Question 85

How should radiographs be used in diagnosing a musculoskeletal disease?

Answer 85

Cannot give a definitive diagnosis, other than a fracture, but can indicate if a lesion is aggressive or non-aggressive and help form a differentials list

Question 86

What are the following radiographic signs indicative of?
Soft tissue swelling, changes in subchondral bone opacity (mainly sclerosis), narrowing of joint space, osteophyte formation, osteochondral fragments in the joint cavity, joint subluxation, cyst formation?

Answer 86

Osteoarthritis

Question 87

List the typical locations for osteophytes in the elbow

Answer 87

• Dorsal anconeal process
• Cranial joint aspect
  lateral epicondylar crest of humerus
• medial epicondyle of humerus
• Medial coronoid process of ulna
• Trochlear notch of ulna

Question 88

Describe the radiogaphic signs of metabolic bone disease

Answer 88

• Generalised bone disease

- Usually osteopaenia

Question 89

Describe the appearance of bone in nutritional secondary hyperparathyroidism

Answer 89

• Cortices thin

- Bones less obvious compared to soft tissue

Question 90

Describe the radiographic appearance of vitA excess in cats and how this occurs

Answer 90

• Increased bone formation

- Feeding of raw liver

Question 91

Outline metabolic bone disease in reptiles

Answer 91

• Imbalance in Ca, P, vitD
• Lethargy, reluctance to move
• Osteopaenia and pathological fractures
• Tx: correct deficiency, may recover if fractures not too bad

Question 92

Describe the radiographic appearance of metaphyseal osteopathy

Answer 92

• Localised lesion, but affects multiple long bones esp. radius and ulna
• Early: radiolucent line adjacent to metaphyses
  Later: periosteal new bone formation and sclerosis (lucency of metaphyses still present)

Question 93

Describe the radiographic appearance of craniomandibular osteopathy

Answer 93

• Reactive periosteal new bone formation on mandible and ventral skull bones
• Increased bone density

Question 94

Describe the clinical presentation of panosteitis

Answer 94

• Shifting (spontaneously switching) lameness in young growing dogs esp. GSD
• Self limiting
• Affects FL more than HL

Question 95

Describe the radiographic appearance of panosteitis

Answer 95

• Increased opacity of medullary canal: irregular, heterogenous, inflammatory
• Thumb print lesions may be seen
• Eventually cortical thickening
• Often centred around nutrient foramina

Question 96

Describe the clinical presentation of immune-mediated polyarthritis

Answer 96

• Painful, stiff, depressed animal
• Swollen joints
• Ligamentous laxity
• Affects all joints, changes most common/initially in carpi and hocks

Question 97

Outline the radiographic apperance of immune mediated polyarthritis

Answer 97

Will only see bony changes in erosive form, multiple lytic lesions around and “crossing” joints

Question 98

Describe the radiographic appearance of bone cysts

Answer 98

• Often single, can be multiple
• Usually oval/circular lucent area and well marginated +/- sclerotic rim
• Usually near joints

Question 99

What are the predilection sites for bone cysts in the horse?

Answer 99

Stifle and fetlock