Lecture 6

Question 1

Pleural Space Disease

Answer 1

Pneumothorax*  = air
Chylothorax* =  lymph
Pyothorax* = pus
Hemothorax = blood
Hydrothorax = "water" - pure transudate
Diaphragmatic hernia = organs

Question 2

Radiographic signs of pleural effusion

Answer 2

1. Gravity dependent soft tissue opacity

2. Fissure lines in the lungs

Question 3

Pleural space

Answer 3

1. Pleura: thin layer of mesothelial cells
   
   • visceral pleura covers lung surface
   • parietal pleura lines thoracic wall, diaphragm, mediastinum
   • small amount of fluid between layers normally (helps lungs expand when thorax expands)
2. Pleural fluid volume determined by:
   
   • Starling’s forces (hydrostatic and oncotic pressure)
   • Lymphatic drainage
   • Mesothelial cells

Question 4

Potential pleural effusion mechanisms

Answer 4

1. Increased venous hydrostatic pressure (ie. CHF, thrombosis)
2. Decreased oncotoic pressure
3. Impairment of lymphatic drainage (increased venous pressure, lymphatic trauma, neoplasia, lung lobe torsion)
4. Increased vascular permeability

Question 5

Pleural effusion: physical exam

Answer 5

Pattern of dyspnea:
- RESTRICTIVE

Auscultation
- Muffled ventrally (gravity dependent fluid)

Pneumothorax: muffled dorsally, echo-like (air bubble rises)

Question 6

Pleural Effusion: other physical exam parameters

Answer 6

1. Other cardiopulmonary abnormalities (including jugular pulses)
2. Thoracic compression (ie. cat mediastinal mass)
3. Peripheral LN
4. Abdominal palpation: masses, pain, ascites
5. Fever
6. Mucous membranes
7. Cranial nerves (space occupying mass putting pressure on nerves causing Horner’s syndrome)
8. BCS/muscle condition

Question 7

Pleural Effusion (first step)

Answer 7

1. Respiratory distress?
   ==> Yes = thoracocentesis
   ==> No = Thoracic imaging, minimum database

Question 8

Thoracocentesis

Answer 8

1. Sternal (ideal, not required; gravity dependent fluid will be symmetrical)
2. Insert
   - ~7-9th intercostal space
   
   • Air: aim for 2/3rd the way up between CCJ and spine
   • Fluid: may need to aim closer to CCJ
   • Insert needle in front of rib (vessels and nerves lie caudal to ribs!!)
3. Ultrasound-guidance helpful for effusions

(often you can make a patient feel a lot better by just tapping one side)

Question 9

Thoracocentesis

Answer 9

1. Insert needle bevel up
2. W/ needles:
   
   • Once in chest, raise hand UP (allows needle to rest against body wall w/ bevel OUT - allows fluid to be pulled in)

Question 10

Thoracocentesis: volume removed

Answer 10

1. Save samples of effusion
   
   • Note total volume removed
   • EDTA tube: preserves cell morphology for cytology
   • Red top: various biochemical tests
   • Culture tubes (aerobic and anaerobic)
   • +/- PCV if hemorrhagic (if peripheral PCV is same as effusion PCV, indicates bleeding into pleural space - hemothorax)

Question 11

Effusion Classification

Answer 11

1. Transudate
   
   • Protein ~0.0 g/dL
   • TNCC < 2500/uL
2. Modified transudate
   
   • Protein ~2.5 g/dL
   • TNCC ~2500 - 5000/uL
3. Exudate
   
   • Protein > 5 g/dL
   • TNCC > 5000/uL

Question 12

Pleural effusion: transudates

Answer 12

Transudates:
1. Low protein, low cellular pleural fluid
2. Usually caused by low oncotic pressure
- Hypoalbuminemia
DDx: Hepatopathy (decreased liver function), PLE, PLN
3. *Or increased hydrostatic pressure from early heart failure
- Over time the heart failure transudates turn into modified transudates

Question 13

Pleural effusion: modified transudates

Answer 13

Modified transudates

1. Transudates that have been “modified” by the addition of: cells, protein, and/or chyle
   
   • Right sided heart failure, pericardial disease
   • Neoplasia (lymphoma, mesothelioma, carcinoma, etc)
   • Chylothorax
   • Lung lobe torsion
   • Idiopathic

Question 14

Pleural effusion: exudates

Answer 14

Exudates:

1. High protein, high cellular effusions
2. Predominant cell type depends on underlying cause
   
   • Infectious (bacterial, fungal)
   • Neoplasia
   • FIP
   • Chylothorax
   • Lung lobe torsion

Question 15

Biochemical tests

Answer 15

1. Triglycerides
   
   • Definitive dx of chylothorax: fluid TG > serum TG
     (chyle = fat and WBC’s)
2. Glucose
   
   • Low in septic effusions
3. pH
   
   • Low in septic effusions

Question 16

Thoracic imaging

Answer 16

1. Radiographs
   
   • Confirm pleural effusion (masks soft tissue lesions!)
     
     • sometimes you may want to do thoracocentesis, drain the fluid and repeat radiographs
   • May help determine etiology (cardiomegaly, mediastinal mass, lymphadenopathy)
2. Thoracic ultrasound
   
   • Pleural fluid acoustic window
   • Pleural thickening, masses, abscess
3. Thoracic CT
   
   • Neoplasia, abscesses, foreign body

Question 17

Pleural fluid and neoplasia

Answer 17

Neoplasia is a frequent cause of pleural effusion!*

1. Tumors affecting any one of the following locations
   
   • Visceral/parietal pleura, lungs, mediastinum, LN/lymphatics
2. Varied fluid types: modified transudate (or exudate), chylous

Question 18

Pleural fluid and neoplasia: Dx

Answer 18

Dx: identify cells on fluid cytology
- Most common w/ round cell neoplasia (lymphoma - they usually flake off the best)
- Absence of a dx on fluid cytology
- Imaging (ultrasound - thorax AND abdomen, CT)
NOTE: abdomen is easier to biopsy/aspirate than is the thorax
- +/- surgery for exploration and biopsy
- thoracoscopy
- thoracotomy

Question 19

Hemothorax

Answer 19

1. Hemorrhage into the pleural space
2. Causes
   
   • Trauma
   • Neoplasia
   • COAULOPATHY (rodenticide!!!)*
   • Vessel rupture
     
     • lung lobe torsion, heartworms, Spirocerca lupi (all not super common)

Question 20

Hemothorax: dx

Answer 20

1. Effusion PCV roughly equals peripheral PCV
2. Effusion should NOT clot (platelets and clotting factors get taken back up by pleural surfaces quite quickly!)
3. Effusion contains:
   
   • Macrophages
   • NO platelets

Question 21

Hemothorax: tx

Answer 21

1. Only tap if necessary to alleviate dyspnea
   
   • Body will absorb RBC’s
   • May make worse if coagulopathy present
2. Assess coagulation status
   
   • PT and PTT
3. Treatment depends on underlying cause
   
   • Vit K and blood products for rodenticide toxicity
   • Surgery may be indicated if bleeding mass