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Flashcards in Respiratory physiology Deck (45)
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1
Q

How is DLCO measured?

A

Patient inhales carbon monoxide which diffuses across the alveolar membrane and is then exhaled and amount of exhaled is measured

2
Q

What does DLCO tell you?

A

integrity of alveolar membrane

3
Q

What can cause decreased DLCO?

A

Reduction in lung surface area (emphysema)
Increased thickness of membrane (ILD)
Pulmonary hypertension
Anaemia (due to decreased partial pressure gradients, not enough Hb drawing O2 across into alveoli)

4
Q

What are causes of increases DLCO?

A

Excercise, lying supine
asthma
pulmonary haemorrahge (increased blood in alveoli bind CO2 before diffusing across membrane)
polycythemia
Mild left heart failure with increased left sided pressures
Obesity - controversial

5
Q

When is DLCO measurement useful?

A

in determining cause of restriction:
- pulmonary (ILD) vs non pulmonary (obesity, chest wall disorders, neuromuscular weakness

in those with normal lung functions who you are suspicious have pulmonary hypertension - pulmonary HTN causes reduced DLCO

6
Q

Examples of variable extrathoracic obstruction?

A

Vocal cord paralysis (most common)
Extrathoracic goitre
tracheomalacia
laryngeal tumors

7
Q

Pathogenesis behind variable extrathoracic obstruction?

A

tumor/obstruction gets sucked inwards towards trachea in inspiration and pushed outwards on expiration
- flow volume loop shows normal expiration but flattened off inspiration

8
Q

Examples of variable intrathoracic obstruction?

A

Tumor in intrathoracic portion of trachea, tracheomalacia (affected intrathoracic portion)

9
Q

Findings in variable intrathoracic obstruction?

A

Opposite to extrathoracic

  • gets pushed outwards during inspiration due to increasing intrathoracic volume and gets pulled in during expiration due to decreasing volumes
  • flow volume loop shows normal inspiration but flattened off expiration
10
Q

What is an example of a fixed airway obstruction?

A

Circumferential tracheal tumor
Tracheal stenosis from intubation etc.
Both inspiration and expiration are flat on flow volume loop

11
Q

What is the algorithm for evaluating lung function tests?

A
FEV1/FVC ratio
- less than 0.7 obstruction
- greater then 0.7 restrictive or normal
FVC
- reduced - possible mixed or restrictive
- normal - normal or obstructive
TLC
- reduced - restrictive
- normal or enlarged - obstructive
DLCO
- reduced - restrictive, obstructive, pulmonary vascular
- normal or high with restrictive pattern suggest extra-pulmonary restriction
12
Q

What spirometry measurement is most affected by obstructive airways disease?

A

FEV1

- unable to move air quickly past obstructed airways

13
Q

What spirometry measurement is most affected by restrictive airways disease?

A

FVC

- reduced as lung volumes are reduced

14
Q

What is the concept of psuedorestriction?

A

In severe obstruction testing with spirometry only may falsely show restriction as RV is so markedly increased due to air trapping that all other lung volumes are low including FVC

15
Q

What is tests can assess residual volume and total lung capacity?

A

Helium dilution
Nitrogen washout
Body plethysmography - most accurate, one we do withing a box
Estimation from CT or CXR

16
Q

What is the residual volume?

A

The amount of air left in the lung at the end of inspiration

17
Q

What is the total lung capacity?

A

The maximum inspiration and expiration + RV

- total gas holding capacity of lung

18
Q

What is the tidal volume?

A

amount of air breathed in and out at relaxed breathing

19
Q

What is the vital capacity?

A

The maximum inspiration to expiration (maximum volume that you can breathe at)
TLC - RV = VC

20
Q

What is the functional residual capacity?

A

From the bottom of the tidal volume to the end of RV

The residual lung capacity at the end of expiration of normal breathing

21
Q

What measurements increase with air trapping?

A

RV, FRC and TLC

22
Q

How is CO2 carried in the blood?

A

Predominantly by bicarbonate ions

23
Q

What causes a shift of the Hb dissociation curve to the right?

A
Increased:
Temperature
Excercise
Co2
Acid (lower pH)
2,3 DBG
24
Q

What causes a shift in the Hb dissociation curve to the left?

A
Decreased:
Temperature
Co2
2,3 DBG
Acid (higher pH)
25
Q

What does a shift in the Hb dissociation curve to the right mean?

A

Easier for Hb to release oxgyen to the tissues

Harder for hit to bind oxygen molecules

26
Q

What dose a shift in the Hb dissociation curve to the left mean?

A

Easier for Hb to bind oxygen molecules (higher affinity for O2)
Harder for it to release it to tissues

27
Q

What does cooperative binding of O2 to Hb mean?

A

once a single oxygen molecule has bound it induces a confirmational change so that the Hb binds oxygen more readily

28
Q

What is responsible for the steep part of the oxygen Hb curve?

A

Cooperative binding of oxygen to Hb - binding of a single oxygen molecule causes increased rate of binding of others

29
Q

What cells produce surfactant?

A

Type 2 alveolar cells

30
Q

What is involved in inspiration?

A

Contraction of diaphragm pulls downwards and ribs upwards
External intercostals pull ribcage out and upwards
Increased intrathoracic volume, decreased intrapulmonary pressure which draws air into lungs
Use of accessory muscles in excercise or disease states

31
Q

What is involved in expiration?

A

Usually a passive process
Diaphragm relaxes, thoracic cavity decreases in volume and air is pushed out of the lungs
Can use the abdominal muscles and internal intercostals in excercise or disease

32
Q

What is the usual pressure in the pleural cavity?

A

-4-5mmhg in relation to atmospheric pressure

33
Q

Why is pleural pressure important?

A

Negative pressure in pleura compared to intrapulmonary causes a transpulmonary pressure which prevents lungs from collapsing

34
Q

Carbon monoxide affect on oxygenation?

A

binds irreversibly to Hb to form carboxyhaemoglobin so Hb cannot carry O2
Has higher affinity for Hb by 250x then oxygen

35
Q

How many oxygen molecules can 1 Hb bind?

A

4

36
Q

What is the main form of carbon dioxide transport?

A

Bicarbonate

37
Q

What is the normal anion gap?

A

4-12

38
Q

What are some causes of high anion gap acidosis?

A
MUDPILES
methanol
Uremia
Diabetes
propylene glycol
Iron/isoniazid
lactic acidosis
ethlyne glycol
salycilates
39
Q

What are some causes of normal anion gap acidosis?

A
ABCD
Addisons
Bicarbonate loss (GI - diarrhoea, renal - prox RTA)
Chloride excess
Dieuretics, acetazolimide
40
Q

What are causes of hypoxia with a normal Aa gradient?

A

alveolar hypoventilation

low FiO2

41
Q

What are some causes of hypoxia with increased Aa gradient?

A

diffusion deficit
VQ mismatch
R to left shunt

42
Q

What is the alveolar gas equation?

A

PAO2 = 150 - (PCO2/0.8)

43
Q

What is the normal Aa gradient?

A

5-10 but increases with age

44
Q

What is the delta ratio used for?

A

in a high anion gap metabolic acidosis to determine if there is a co-existing respiratory acidosis or metabolic alkalosis
change in anion gap divided by change in bicarbonate

45
Q

What is physiological VQ mismatch?

A

ventilation higher at apexes

Perfusion higher at bases