General Pathology Resp Tract

Question 0

What does the ‘air conduction system’ consist of?

Answer 0

• nasal cavity
• Nasopharynx
• larynx
• trachea
• bronchi
• bronchioles

Question 1

What does the upper respiratory tract consist of?

Answer 1

• Nasal cavity
• paranasal sinuses
• Nasopharynx
• Larynx
• Gutteral pouches (horses and great apes)

Question 2

What does the gas exchange system consist of?

Answer 2

Respiratory bronchioles and alveoli

Question 3

What provides 50% resistance to airflow as respiratory defence mechanimsms?

Answer 3

Nasal chambers

• remove particles >10-20nm
• humidify and warm incoming air
• detect noxious irritants

Question 4

How does the pharynx/larynx protect resp tract`?

Answer 4

• epiglottis prevents food entering trachea

- accidental ingestion of food particles -> cough reflex

Question 5

Where is the mucocilliaray escalator? what secretions?

Answer 5

terminal bronchioles -> larynx (not alvioli)

- secretions: IgA, IgG, interferon, antimicrobial peptides eg. defensins

Question 6

What immune cells are present in the respiratory tract? Where sepcifically ?

Answer 6

alveolar macrophages

• resident in alveoli
• normally one sentinel macrophage per alveolus
• ingest particles
• numbers will ^ with demand eg. dusty environment

Question 7

Define atelectasis

Answer 7

1* - failure of lung to expand at birth (lack of surfactant
> partial or total
2* - or acquired: collapse of lung tissue previouslly ventilated
> parital or total
> 2* to compression or obstruction

Question 8

What colour is normal healthy lung?

Answer 8

Pale salmon pink

Question 9

Potential causes of atelectasis 2* to compression?

Answer 9

• pulmonary/mediastinal masses
• hydrothorax
• pnumothorax
• prolonged recumbency in large animials
• prolonged abdo distension

Question 10

Potential causes of atelactasis 2* to obstruction?

Answer 10

• common in cattle (lack of collateral ventilation due to thick fibrous septi)
• exudate
• distended alvilo collapse as trapped air absorbed
• collapsed alvioli contain little fluid and macrophages

Question 11

Define emphysema. WHat types exist?

Answer 11

> excessive air in the lungs

• alveolar
• interstitial
• compensatory

Question 12

How can emphysema be seen at PM?

Answer 12

• imprints of ribs

- lungs do not delfate

Question 13

causes of alveloar emphysema? Spp?

Answer 13

• abnormla enlargement of airspaces distal to terminal bronchioles due to destruction of alveolar walls by neutrophil elastase (eg. RAO in horses)
• hard to exhale so permenantly inflated
• alvioli pop and merge together
• gas exchange compromised

Question 14

causes of interstitial emphysema. Spp?

Answer 14

• septal (interstital) lymphatics dilated with air 2* to forced expiration eg. pneumonia in cattle

Question 15

causes of compensatory of emphysema. Spp?

Answer 15

• adjacent to an area of consolidation (all species)

Question 16

2 main forms of pigmentation?

Answer 16

1. Melanosis
   - melananin depoistion in alveolar walls (calves, lambs, piglets)
   - normal, not pathological
2. Anthracosis
   - carbon taken up by alveolar macrophages
   - urban dogs and cats
   - rarely pathological unless v severe (then defence mechanisms may be compromised)

Question 17

Define hyperaemia

Answer 17

increased blood flow into tissue

Question 18

types of hyperaemia - cause?

Answer 18

• localised or diffuse

- associated with acute inflammation

Question 19

What colour are areas of lung affected by hyperaemia? Congestion?

Answer 19

Hyperaemia: Dark red
Congestion: Grey blue
- BUT cannot distinguish congestion from hyperaemia on gross analysis ??? LOOK UP

Question 20

where is hyperaemia commonly seen in the lungs?

Answer 20

• cranioventral lulng with aspiration pnumonia

Question 21

Define congestion

Answer 21

• decreased blood flow from tissue

Question 22

what conditions is congestion seen with in the lungs?

Answer 22

• diffuse in cardiac failure
• dependant (may be unilateral) in hypostatic congestion
• hypostatic terminal pulmonary congestion with barbituate euthanasia (postmortem change, not pathological)

Question 23

Where does lymphatic drainage flow from lungs?

Answer 23

thoracic duct - vena cava

Question 24

How does pulmonary oedema affect repiration?

Answer 24

• flooding of alvioli by fluid
• mixxes with surfactant
• foam
• compromises ventilation

Question 25

What factors resist pulmonary oedema?

Answer 25

• tight junctions between alveolar epithelium ( and capillary endothelia)
• intra-alveolar pressure > interstitial pressure
• normal conditions: fluid escaping from the blood through the endothelium passes into interstitial space and removed by lymphatic drainage

Question 26

where does oedema build up in lungs?

Answer 26

alveolar spaces

Question 27

4 main causes of pulmonary oedema

Answer 27

1. cariogenic (Pressure overload)
   - slowly developing LSCF -> high venous pressure
2. neurogenic (pressue overload)
   - sympathetic stimulation in acute brain damage (eg. RTA) -> ^ pulmonary capillary hydrostatic pressue
3. excessive fluid tx (volume overload)
4. damage to endothelium or epithelium
   - toxic substances (eg. gases/smoke, systemic toxins: paraquat, 3-methyl indole, endotoxins from the gut)
   - part of acute inflammatory process

Question 28

Gross path of pulmonary oedema

Answer 28

• lungs wet and heavy
• may not collapse on thoracic opening
• rib impressions

Question 29

micro path of pulmonary oedema

Answer 29

fluid usually leaches out

- may be seen as pale pink fluid when stained with H+E (eosin stain)

Question 30

Causes of haemorrhage in the lungs?

Answer 30

• septiceamia
• bleeding disorders
• severe congestion
• severe acute inflammation

Question 31

What indicates chornic haemorrhage?

Answer 31

Haemosiderin in alveolar macrophages

Question 32

Define thrombosis

Answer 32

Obstruction of vessels by coagulated blood components during life

Question 33

Define embolism

Answer 33

Detachment of thrombi or bacteria or fat or air which moves aorund cicrulation and lodges in distant small blood vessels

Question 34

Define infarction

Answer 34

Death of tissues due to an interruption (usually sudden) in its blood supply

Question 35

What are the 3 aspects of thrombosis formation?

Answer 35

• Endothelial injury
• Abnormal blood flow
• Hypercoagulability
  > EXAM QUESTION!

Question 36

Are pulmonary thrombosis, embolism and infarction common? Predisposing factors?

Answer 36

- rare
> predisposing factors:
- DIC
- liver abscessation esp. cattle
- valvular endocarditis (all species) 
> lung lobe torsion may cause abrupt infarction

Question 37

How can rhinitis and sinusitis be classified?

Answer 37

• acute/subacute/chronic
• localised/systeic (eg. malignant catarrhal fever with herpesvirus)
• infectious or non-infectious (allergic/idiopathic)
• morphological subtype: serous, catarrhal (mucoid), purulent/supparative, necrotising, ulcerative, haaemorrhagic

Question 38

Sequalae of rhinitis and sinusitis?

Answer 38

• resolution
• healing by scar formation
• extension to other parts of the respiratory tract
• inflammation may localise and persistn in the gutteral pouches

Question 39

What are gross and histological description of pnumonia based on?

Answer 39

• distribution of changes in the lungs

- type of inflammatory response

Question 40

4 main types of pnumonia?

Answer 40

• bronchopnumonia (fibrinous or supparative)
• interstitial
• embolic
• granulomatous

Question 41

which type of pnumonia often has a cranioventral patten in all lunglobes?

Answer 41

supparative or fibrinous bronchopneumonia

Question 42

what causes bronchopnuemonia and how does this affect gross pathology? how does it spread?

Answer 42

• bacterial infection, can be 2* to aspiration
• lesions ocour in cranioventral lung fields due to gravity ^ deposition of infectious agents here
• spread of inflammation from lobule to lobule along the airways OR by necorsis of alveoli and septa in the case of toxin producing bacteria

Question 43

Sequalae of bronchopnumonia?

Answer 43

> resolution (mild inflammation resolves in 7d, lung back to normal 3 weeks)
deterioriation
- abscess formation with pyogenic bacteria
- pleuritis in severe fibrinous pnumonia with adhesions
- death in fulminating cases due to hypoxeamia and toxaemia (+- necrosis)
persistence (more severe inflam becomes chronic with fibrosis or bronchiectasis (sequestration))

Question 45

What is bronchiectasis? When is it seen?

Answer 45

> permenant dilation of bronchi due to irreversible damage to bronchi wall -> nodular lung surface and large bronchioles on cut surface

• sequel to chronic bronchitis or persistent bronchopnumonia (eg. if seen at abbattoir indicates historical pnumonia problem on farm) as exuat e and inflam cells plug the bronchi and stretch them
• in severe cases bronchial wall may be destroyed resulting in abscess formation

Question 46

What is lobar pneumonia? Pathogeneis?

Answer 46

> aggressive fulminating bronchopneumonia
common appearance of pneumonia in dogs and cats (lack of septation of lung lobules)
- invasion of highly toxic bacteria eg. pasturella
- aspiration of foreign fluids or gastric contents
-> inflammation occupies major part of/entire lobe of lung
- may follow impaired defences

Question 47

Sequalae of lobar pneumonia?

Answer 47

• commonly death

- fibrosis of affected areas in surviving animals

Question 48

Pathogenesis of bronchointerstitial pneumonia? Where does it manifest?

Answer 48

• inhaled mycoplasms and some viruses
• initial inflammatory reaction in bronchioles
• interstitial lymphocytic proliferation -> forms complete lymphoid follicles around the airways (cuffing)
• lymphoid follicles = cell-mediated response to chronic persistent antigenic challenge
  > combination of cranioventral bronchopneumonia

Question 49

Importance of broncho-interstitial pneumonia?

Answer 49

• mostly economic
• reduced growth rate
• predisposition to the entry of more pathogenic agents

Question 50

How does interstitial pnuemonia form?

Answer 50

2* to haematogenous rather than inhaled damage

Question 51

Which part of the lung is infected by interstitial pneumonia?

Answer 51

• inflammation of interstitial septa rather than airways
• distribution diffuse cf. cranioventral in brncho-pneumonia
• may be more dorsocaudal areas affected

Question 52

Aetiology of interstitial pneumonia?

Answer 52

> acute
- infections (eg. distemper dogs)
- inhaled chemicals (eg. smoke)
- ingested toxins (eg. paraquat or tryptophan-fog fever)
- systemic conditions (eg. uraemia)
- hypersensitivity reactions (eg. lungworm infestation)
chronic
- infections (eg. jaagsiekte sheep)
- inhaled dusts (eg. coal dust, silica)
- hypersensitivity reactions (eg. saccharopolyspora rectivirgula - farmer’s lung)

Question 53

What is paraquat and what pathology does it cause t low and high doses? Spp?

Answer 53

• paraquat herbicide (now banned but still in use illegally)
• poisoning occours in cats and dogs
  > pneumotoxin that selectively damages alveolar epithelium
  > allow exuation of fluid -> alveolar lumen -> loss of resp function
• low doses (accdental): moderate pulm oedema, resp distress days-weeks later due to alveolar wall fibrosis
• high doses (malicious): severe fatal pulonary oedema and haemorrhage

Question 54

What disease may cows ingesting lush pasture in Autumn develop? Pathogenesis?

Answer 54

Tryptophan poisoning -> acute bovine pulmonary oedema and emphysema (FOG FEVER)
- high morbidity and mortality
> pathogenesis
- tryptophan metabolised to 3-methyl indole
- toxic to type 1 pnumocytes

Question 55

Gross and micro path of acute bovine pulmonary oedema and emphysema?

Answer 55

• lungs enlarged and wet
• markedly widened interlobular septa (oedema and emphysema)
• flooding of alvioli with protein rich fluid

Question 56

What gross appearance does emphysema have?

Answer 56

Bubble wrap

Question 57

What does embolic pneumonia result from?

Answer 57

• septic emboli in pulmonic vessels (remainder of lung relatively normal)
• 2* to endocarditis
• 2* to hepatic abscessation
• 2* to phlebitis eg. of the jugular

Question 58

What causes granulomatous pnumonia?

Answer 58

• mycobacteria (eg. TB)

- fungi (eg. aspergillosis)

Question 59

Pathogenesis and cytology of granulomatous pneumonia?

Answer 59

• inflammation chronic and persistent
• macrophages predominant cell type
• may be mistaken for tumours on gross examination
  > micro
• acid-fast bacilli stain red with ZN
• fungi stain with PAS or silver stains eg. Grocott

Question 60

What is the most comon tumour-like lesion in the URT? Cause?

Answer 60

Polyps
- nasal or nasopharyngeal
- single or mutliple
- often pedunculated
- hyperplastic, ulcerated epithelium
- granulates to fibrous strom with varying no. inflammattory cells
> 2* to chronic irritation or inflammation

Question 61

What tumours may be present in the URT?

Answer 61

Nasal and paranasal sinus malignant carcinomas or sarcomas

- v invasive

Question 62

What are the majority of lung neoplasms?

Answer 62

> majority 2* (metastatic)
- mammary, haemangiosarcoma, osteosarcoma -> multiple nodules in all lung lobes
may be 1* usually invasive carcinomas, arise at hilar region and spread through lung and regional LNs

Question 63

What paraneoplastic disease may be seen with lung neoplasia?

Answer 63

• Hypertrophic Pulmonary Osteopathy (Marie’s Disease in humans)
• extensive periosteal new bone formation in all limbs
• pathogenesis unknown, may be nervous or vascular aetiology