Lecture 1

Question 1

The mucociliary escalator clears dust/pathogens from which areas of the respiratory tract?

Answer 1

Trachea and Bronchi

Question 2

Why does dust tend to settle in the terminal bronchioles?

Answer 2

There is a rapid decrease in air velocity in the terminal bronchioles, so dust tends to settle here!

Question 3

Does the respiratory zone or the conducting zone have a greater surface area?

Answer 3

Respiratory zone

Question 4

If the mucociliary escalator clears dust/debris from the trachea and bronchi, what clears debris from the respiratory zone (respiratory bronchioles, alveolar ducts, alveolar sacs)?

Answer 4

Macrophages clear debris out of the respiratory zone

Question 5

What type of cell produces surfactant in the lungs?

Answer 5

Type II pneumocyte

Question 6

What comprises the upper airway?

Answer 6

Pharynx, Larynx, Trachea, Bronchi, Bronchioles

Question 7

What comprises the lower airway?

Answer 7

Respiratory bronchioles and alveoli

Question 8

Is the smooth muscle in the respiratory tract in the upper airway or the lower airway?

Answer 8

Upper air way. The bronchi and bronchioles are surrounded by smooth muscle.

Question 9

What do normal bronchial sounds sound like?

Answer 9

Harsh, hollow, blowing

• airflow through trachea/mainstem bronchi
• loudest over trachea
• both inspiratory and expiratory

Question 10

What do normal vesicular sounds sound like?

Answer 10

Rustling

• Airflow through lobar bronchi
• Peripheral
• Primarily inspiratory (can be hard to hear!)

Question 11

Name 4 abnormal breath sounds.

Answer 11

1. Crackles
2. Wheezes
3. Stertor
4. Stridor

NOTE: 1 &2: typically heard w/ stethoscope on chest
3&4: more upper resp. issues, audible

Question 12

What are “crackles”?

Answer 12

Discontinuous “popping” sounds

• Cause: snapping open of small airways that have collapsed or accumulated fluid/debris
• Timing: mostly INSPIRATORY

Question 13

What are some differentials if you were to hear crackles?

Answer 13

1. Pulmonary edema (cardiogenic vs. non-cardiogenic)
2. Pneumonia (esp. aspiration)
3. Fibrosis

Question 14

What are wheezes?

Answer 14

A continuous, whistling musical sound (hear w/ stethoscope)

• Cause: airflow through constricted or narrowed airways
• Timing: EXPIRATORY

Question 15

Wheezes: Differentials

Answer 15

1. Lower airway inflammatory disease
   - Feline asthma/feline lower airway disease
   - Canine chronic bronchitis
2. Anaphylactic reaction

Question 16

Stertor?

Answer 16

Snoring, snorting, snuffling noise

• Cause: upper airway obstruction of airflow due to excess tissue or secretions
• Timing: VARIABLE (usually BOTH insp. and expir.)

Overtly audible sound, like snoring..

Question 17

Where does stertor sugges disease is localized to?

Answer 17

Stertor suggests disease is localized to the nasal cavity and/or nasopharynx
- anything filling nasal cavity or nasopharynx can cause stertor

Question 18

Stertor: differentials

Answer 18

1. Brachycephalic syndrome
2. Nasal congestion/infiltration
3. Nasopharyngeal polyps
4. Nasal/Nasopharyngeal neoplasia
5. Inflammatory/infectious rhinitis
6. Nasal/nasopharyngeal foreign body

Question 19

Stridor

Answer 19

Intense, high-pitched wheeze

• Cause: extra-thoracic UPPER airway collapse and/or narrowing
• Timing: virtually always INSPIRATORY (opposite of wheezes!)
• Overtly audible sound
• When stridor is present w/ choice change, suspect laryngeal involvement (ie. dog has less of a bark)

Question 20

Stidor: differentials

Answer 20

1. Laryngeal paralysis
2. Laryngeal collapse
3. Tracheal collapse
4. Laryngeal/tracheal obstruction
   - intraluminal (foreign body, mass)
   - Extraluminal (mass, soft tissue swelling)

Question 21

Dyspnea

Answer 21

Respiratory distress - labored breathing in response to:

1. Hypoxemia
2. Hypercapnia

Question 22

Top 4 localizations of Dyspnea

Answer 22

1. Upper airway
2. Lower airway
3. Parenchymal
4. Pleural space

Question 23

Dyspnea patterns

Answer 23

1. Obstructive (inspiratory and expiratory)

2. Restrictive

Question 24

Obstructive Dyspnea

Answer 24

Obstruction of airway
- normal to increased respiratory rate
- increased depth of breathing (hyperpnea)
ITS LIKE A MAN UNDERWATER BREATHING THROUGH A STRAW

Question 25

Obstructive Inpiration

Answer 25

Slow, deep inhalation
+/- stridor

Due to a dynamic EXTRA-THORACIC obstruction
- tracheal or laryngeal obstruction (ie. laryngeal paralysis)

Question 26

Obstructive expiratory

Answer 26

Slow, prolonged expiration

• Due to INTRA-THORACIC airway disease
  
  • large airway obstruction (intra-thoracic tracheal collapse)
  • small airway disease (bronchitis, feline asthma)

Question 27

Restrictive Dyspnea

Answer 27

Occurs due to disease process that restricts lung INFLATION
- increased respiratory rate
- variable depth, depending on disease state
Example: pleural space disease
PICTURE A BEAR SQUEEZING A MAN - RESTRICTIVE

Question 28

Does tachypnea equal panting?

Answer 28

NO.

Question 29

Normal resting respiratory rates

Answer 29

Canine: 18 - 34 brpm
Feline: 16 - 40 brpm

Question 30

Pulse Oximtry (SpO2)

Answer 30

Emits red and infrared lights
- Detector measures unabsorbed light
- Oxygenated blood ABSORBS infrared light
- Deoxygenated blood absorbs red light
Place on ear, lip, tongue, prepuce/vulva
- a dark pigmented animal may make it difficult to get a reading!

Question 31

Can the pulse ox differentiate between carboxyhemoglobin and monoxyhemoglobin from oxygenated hemoglobin?

Answer 31

NO!!!

Question 32

Oxygen supplementation?

Answer 32

1. Hypoxemia
   
   • PaO2 < 80 mmHg
2. Oxygen desaturation
   
   • SPO2 < 94%
3. Respiratory distress/arrest

Question 33

FiO2 w/ intubaction

Answer 33

intubated FiO2 = 100% oxygen

Question 34

FiO2 w/ Oxygen Cage

Answer 34

FiO2 oxygen cage = 40-60%

• takes time, expensive, isolation of animal
• non-invasive and non-stressful

NOTE: at 60% we are have a risk of explosion.. Start at 40%

Question 35

Nasal Oxygen FiO2

Answer 35

Nasal oxygen FiO2 = 40-50%
- quite effective; place in ventral nasal meatus

Pros = good for large dogs; easy to care for patient
Cons = uncomfortable, nasal bleeding (not good in thrombocytopenic patients), inadvertent removal

Question 36

Face mask FiO2

Answer 36

Face mask FiO2 = 50%
- very practical if it’s NOT long term

Pros = convenient
Cons = need tight seal, can be stressful

Question 37

Hood oxygen FiO2

Answer 37

Hood oxygen FiO2 = 40-60%

Pros = easy and economical (saran wrap the front of an E-collar)
Cons = gets hot/humid, variable FiO2, may need sedation

Question 38

Flow-by-oxygen FiO2

Answer 38

Flow-by-oxygen FiO2 = ~30-40%
- hold tube 2-4 cm from nose

Pros = easy, convenient
Cons = high flow rates (waste), not long-term solution