Diseases of the pleural space

Question 1

How common is pleural disease a cause of dyspnoea (SA and horses?

Answer 1

SA - relatively common

Horses - rare

Question 2

What causes pleural disease?

Answer 2

wide variety of disease, generally result in the development of either fluid or air in the pleural space.

Question 3

CS - pleural disease -7

Answer 3

• most consistent finding is dyspnoea
• Pyreixa with septic effusion
• hypoproteinaemia signs - chronic diarrhoea
• trauma - pneumothorax, haemothorax, diaphragmatic hernia
• bleeding - coagulopathy
• other signs - neoplasia

Question 4

PE findings -pleural disease

Answer 4

• increased RR and RE, shallow
• orthopnoea
• dullness on percussion of ventral thorax (fluid)
• resonance on percussion of dorsal thorax (pneumothorax)
• displacement of apex beat of heart (mass)
• evidence of concurrent abdominal abnormalities
• other evidence of RCHF

Question 5

What should you hear if you percuss a normal lung field?

Answer 5

Resonance (dullness indicates a problem such as fluid)

Question 6

What does an ‘empty’ cranial abdomen with dyspnoea suggest?

Answer 6

diaphragmatic hernia

Question 7

What does concurrent ascites with dyspnoea suggest

Answer 7

bi-cavity effusions imply a more generalised disease

Question 8

How can the presence of a pleural effusion be confirmed?

Answer 8

• imaging (radiography or ultrasound - less manipulation so may be better for severe dyspnoea cases). THEN once confirmed, perform thoracocentesis

Question 9

Indications - thoracocentesis - 3

Answer 9

• moderate volume pleural effusion
• diagnostic
• therapeutic

Question 10

3 important technical aspects of thoracocentesis

Answer 10

• maintain a closed system
• maintain sterility
• cranial OR caudal to the heart.

Question 11

How can you maintain a closed system with thoracocentesis?

Answer 11

Butterfly needle attached to an extension set with either a syringe or a 3-way tap attached to this.

Question 12

How to you perform thoracocentesis in horses?

Answer 12

reliance on valves and gravity

Question 13

How do you analyse pleural fluid?

Answer 13

EDTA tubes - cytology

Plain tube - culture and biochemical analysis

Question 14

What do you analyse in pleural fluid? 6

Answer 14

• cytology, TCC and differential count
• TPC
• bacterial culture and sensitivity
• gram stain
• Tg and cholesterol levels (suspect chyle)
• NT-proBNP (cats to distinguish cardiogenic or non-cardiogenic effusions)

Question 15

How are effusions classified? 2

Answer 15

Based on TNCC and TP

Question 16

What is transudate in the pleural space called?

Answer 16

Hydrothorax

Question 17

What is exudate in the pleural space called?

Answer 17

Pyothorax

Question 18

What are transudates typically caused by?

Answer 18

hypoproteinaemia

Question 19

How can exudates be classified?

Answer 19

Always inflammatory, determine whether septic or non-septic

Question 20

List 5 causes of modified transudates?

Answer 20

• venous obstruction
• RCHF
• neoplasia
• lung lobe torsion
• diaphragmatic hernia

Question 21

Why does chylothorax arise?

Answer 21

as a consequence of damage to the thoracic duct –> intestinal lymph drains into the thoracic cavity

Question 22

Outline chylothorax sample

Answer 22

• grossly milky appearance
• high in Tg (fluid Tg > plasma Tg)
• TNCC and S.G. similar to modified transudate but cells are predominantly lymphocytes.

Question 23

What does haemothorax usually indicate? 2

Answer 23

coagulopathy, trauma or neoplasia

Question 24

Does a haemothorax sample usually clot?

Answer 24

NO because it is usually defibrinated since it has been in the cavity for some time. This does not usually indicate a coagulopathy.

Question 25

Outline protein and cell content of a haemothorax sample.

Answer 25

usually similar to normal blood

Question 26

Causes - pneumothorax

Answer 26

usually spontaneous or secondary to trauma

Question 27

Where can air leak from to cause a pneumothorax?

Answer 27

lung, mediastinum or through the thoracic wall.

Question 28

T/f: small to moderate volume pneumothorax is common after RTA

Answer 28

True

Question 29

What further diagnostic tests might you want to do once you have determined there is a pleural effusion?

Answer 29

• BLOOD TESTS - hypoproteinaemia (renal, hepatic, GIT), hyperglobulinaemia (FIP in cats), neutrophilia (inflammation), cytopaenias (BM disease)
• SEROLOGY - FELV, FIV (association with mediastinal lymphoma), FIP, coronavirus (poor diagnostic value), clotting time (APTT and OSPT).

Question 30

Why should you perform radiography after as well as before thoracocentesis?

Answer 30

may reveal changes obscured by fluid (e.g. soft tissue effusion of the lung parenchyma).

Question 31

What may ultrasound allow you to identify when there is fluid in the thorax?

Answer 31

• mediastinal massess

- pulmonary masses, abscesses etc

Question 32

What further sophisticated diagnostic measures can be employed? 3

Answer 32

• EXPLORATORY THORACOTOMY –> pleural biopsy and detection of abnormalities not detectable by any other means
• THORACOSCOPY- minimally invasive surgical technique available in some centres
• CT SCAN

Question 33

How is pleural disease best treated?

Answer 33

Most effective method of management is to manage the underlying disease. Sometimes pleural disease needs to be managed as though it were the primary disease (pleuropnuemonia in horses, pyothorax in small animals, chylothorax in small animals and pneumothorax in small animals)

Question 34

How is lube lobe torsion managed generally?

Answer 34

surgically

Question 35

Pathogenesis - equine pleuropneumopnia

Answer 35

Mixed bacterial infection of organisms that are often the normal flora of the pharynx:

• beta-haemolytic streptococci
• E.coli
• Klebsiella spp.
• Pasteurella spp.
• Bordatella spp.
• Bacteroides spp (anaerobic)

Question 36

What are the 2 main processes that lead to equine pleuropneumonia?

Answer 36

1. suppression of pulmonary defence mechanisms (i.e MCE and macrophages)
2. inhalation of bacteria with subsequent extension into the pleural space (–> cranioventral distribution)

Question 37

What may suppress pulmonary defence mechanisms?

Answer 37

• transport over long distances in planes as horses heads are tied up (abnormal for them)
• strenuous exercise
• sx and anaesthesia
• recent respiratory viral infection
• recent stressful event

Question 38

What do equine pleuropneumonia signs depend on?

Answer 38

• amount of fluid, pathogen and extent of parenchymal disease
• chronicity

Question 39

Acute CS - equine pleuropneumonia

Answer 39

• pyrexia
• lethargy
• slight nasal discharge
• shallow breathing
• guarded cough
• painful stilted gait
• pleurodynia (pleuritic pain in the chest)

Question 40

Late acute CS - equine pleuropneumonia

Answer 40

• nostril flare
• tachycardia
• increased jugular pulse height (to 1/3 up the neck)
• toxic MM
• guarded, soft, moist cough
• foetid nasal discharge

Question 41

Chronic CS - equine pleuropneumonia

Answer 41

• intermittent fever
• weight loss
• ventral limb oedema

Question 42

Dx - equine pleuropneumonia - 8

Answer 42

• hx
• CS
• PE
• Haematology
• ultrasonography
• thoracocentesis
• (radiography)
• transtracheal aspirate

Question 43

Auscultation findings - equine pleuropneumonia - 6

Answer 43

• not consistent, often not useful
• absent airway sounds ventrally
• dorsal sounds normal or abnormal
• fluid in the trachea
• pleural friction rubs?
• cardiac sounds radiate?

Question 44

Percussion findings - equine pleuropneumonia

Answer 44

ventral dullness

Question 45

What signs would be present on thoracic ultrasound in equine pleuropneumonia?

Answer 45

• PLEURAL FLUID - volume, location, character (echogenicity increases with cell count whilst gas bubbles suggest anaerobes)
• LUNGS - consolidation and abscessation

Question 46

What signs would be present on thoracic radiography in equine pleuropneumonia?

Answer 46

• ACUTE STAGE - pleural effusion obscures lung pathology

- CHRONIC STAGE - identification of consolidation, abscesses and pneumothorax.

Question 47

What are the 2 most important diagnostic methods for equine pleuropneumonia?

Answer 47

• TRANSTRAHCEAL ASPIRATE: important to obtain a sample that is not contaminated by the URT
• THORACOCENTESIS - physical characteristics, cytology and bacteriology

Question 48

Aims - equine pleuropneumonia treatment 4

Answer 48

1. remove excess pleural fluid
2. AB therapy
3. anti-inflammatory and analgesic therapy
4. supportive care

Question 49

What does drainage of the thoracic cavity allow? 4

Answer 49

• removal of restrictive forces
• re-expansion of the pulmonary tissue
• improves pulmonary clearance
• removes debris, organisms, inflammatory mediators and toxins

Question 50

How can the thoracic cavity be drained?

Answer 50

indwelling cannula or via repeated intermittent drainage

Question 51

What is pleuroscopy?

Answer 51

a camera is inserted in between the 2 pleural layers. allows visualisation, and excellent drainage along with break down of adhesions.

Question 52

Treatment - equine pleuropneumonia - 3

Answer 52

• ANTI-INFLAMMATORY AND ANALGESIC THERAPY - opiates and NSAIDs
• ABs - broad spectrum initially, then based on culture and sensitivity, needs to cover aerobes and anaerobes
• SUPPORTIVE CARE - oxygen, bronchodilators, fluids, nutrition

Question 53

Treatment - chronic stages of equine pleuropneumonia

Answer 53

pleural and pulmonary abscesses may be amenable to drainage, via resection of intercostal mm and/or rib. Providing they are walled off from the rest of the pleural cavity.

Question 54

Prognosis - equine pleuropneumonia

Answer 54

• MILD, DIAGNOSED EARLY - may return to previous career with early and aggressive therapy, survival of 50-100%
• SEVERE - can be salvaged for breeding with months of AB treatment and surgery.

Question 55

Complications - equine pleuropneumonia -7

Answer 55

• thrombophlebitis
• laminitis
• diarrhoea
• pulmonary abscess
• pleural adhesions
• bronchopleural fistula
• constrictive pericarditis

Question 56

What is the principle of pyothorax therapy in small animals?

Answer 56

= removal of infective material, isolation and removal of cause and resolution of infection. Various ways to achieve this. A less aggressive therapy risks there being a nidus of infection remaining and the problem recurring/.

Question 57

Outline 3 methods of treating pyothorax in small animals

Answer 57

1. thoracocentesis followed by systemic ABs
2. implantation of indwelling drains to facilitate pleural lavage, leave in situ for 5-7 days, systemic AB therapy
3. exploratory thoracotomy, debridement and lavage of thoracic cavity and placement of indwelling drains

Question 58

What are the problems of treating a pyothorax with thoracocentesis followed by systemic ABs

Answer 58

• single thoracocentesis unlikely to remove sufficient infective material
• systemic ABs unlikely to penetrate inspissated purulent material in the pleural space
• high likelihood of recrudescence

Question 59

Outline pros/cons of treating a pyothorax with implantation of indwelling drains to facilitate pleural lavage, leave in situ for 5-7 days, systemic AB therapy

Answer 59

PROS - more likely to remove all infective material, lavage should facilitate AB penetrations
CONS - still risk of recurrence if FB present to act as a nidus.

Question 60

Pros/cons of treating a pyothorax with exploratory thoracotomy, debridement and lavage of thoracic cavity and placement of indwelling drains

Answer 60

PROS - greatest likelihood of success at resolving pyothorax

CONS - perioperative morbidity and mortality

Question 61

Prognosis - chylothorax

Answer 61

low likelihood of success with surgical or medical management of chronic chylothorax

Question 62

Medical management - chylothorax - 3

Answer 62

• detect underlying cause although usually idiopathic
• reduce formation of intestinal lymph (low fat diet?, medium chain Tg oil, diuresis)
• enhance resorption of fluid from the pleura (Rutin = benzopyrone)

Question 63

Surgical management -chylothorax

Answer 63

• attempts to ID and ligate the thoracic duct in an attempt to redistribute the pleural fluid.
• attempts to enhance absorption of pleural fluid

Question 64

What is a salvage surgical technique for chylothorax?

Answer 64

Pleurodesis = artificial obliteration of the pleural space by adhesion of the 2 pleurae.

Question 65

Actions - small volume pneumothorax (traumatic or spontaneous origin)

Answer 65

rest patient and see if it resolves

Question 66

Actions - moderate volume pneumothorax (traumatic or spontaneous origin)

Answer 66

drain air, rest patient and manage conservatively

Question 67

Actions - large volume of recurrent air (pneumothorax) (traumatic or spontaneous origin)

Answer 67

place an indwelling drain and drain repeatedly but likely that exploratory laparotomy will be required to identify and correct the underlying cause.

Question 68

What is the best treatment for a pneumothorax?

Answer 68

ID the underlying cause and treat this (e.g. ruptured bulla)