Respiratory Strand: Lecture 2 and 3 - Mechanisms of breathing

Question 1

What is the definition of breathing?

Answer 1

The bodily function that leads to ventilation of the lungs. Also known as external respiration

Question 2

What is the definition of ventilation?

Answer 2

The process of moving gases in (inspiration) and out (expiration) of the lungs

Question 3

How can diseases affecting ventilation be classified? Give examples

Answer 3

-obstructive conditions e.g asthma, lung cancer -restrictive conditions: intrinsic e.g pulmonary fibrosis or extrinsic

Question 4

What is an idiopathic disease?

Answer 4

when you don’t know what causes a disease, but something does

Question 5

What do we depend on for the movement of air?

Answer 5

Pressure gradient between atmosphere and alveoli

Question 6

What pressure differential causes inspiration?

Answer 6

Pb > Pa (Pb = barometric pressure/ atmospheric pressure)

Question 7

What pressure differential causes expiration?

Answer 7

Pa>Pb

Question 8

How do alveolar pressure changes occur? Give formula

Answer 8

They occur secondary to thoracic volume changes P α 1/V

Question 9

Which inspiratory muscles do we use for quiet breathing?

Answer 9

Diaphragm External intercostals stabilise rib cage image

Question 10

Which inspiratory muscles do we use for increasing effort whilst breathing?

Answer 10

Diaphragm External intercostals lift & expand rib cage Accessory muscles Neck muscles Shoulder girdle muscles

Question 11

What do the external intercostal muscles do?

Answer 11

Move the ribcage upwards and outwards to increase the lateral and antero-posterior diameter of the thorax

Question 12

How do expiratory muscles perform quiet breathing?

Answer 12

Elastic recoil of tissues

Question 13

Which expiratory muscles do we use for increased effort breathing?

Answer 13

Internal intercostals Abdominal wall muscles

Question 14

What nerves are in the diaphragm?

Answer 14

Phrenic nerves (C3, C4, C5)

Question 15

What nerves are in the intercostals?

Answer 15

Segmental thoracic nerves

Question 16

Why are the pleura important?

Answer 16

To transmit thoracic cage expansion into lung volume expansion Thoracic cage expansion exerts an increasing negative pressure on the intrapleural space

Question 17

How does breathing in occur?

Answer 17

1. intra pleural pressure goes down 2. air moves in 3. alveolar pressure goes down then back up to zero (equilibrates)

Question 18

How does breathing out occur?

Answer 18

1. Relax muscles 2. volume in chest goes down 3. alveolar pressure goes above zero 4. air moves out

Question 19

How is the volume of air moving in and out of the lungs during ventilation measured?

Answer 19

a spirometer

Question 20

What is tidal volume?

Answer 20

the volume of air moved in and out of the lungs during normal breathing

Question 21

What is the inspiratory reserve volume?

Answer 21

After a normal expiration, take as deep a breath in as possible the maximal amount of additional air that can be drawn into the lungs by determined effort after normal inspiration

Question 22

What is the expiratory reserve volume?

Answer 22

After a normal inspiration, breath out as deeply as possible the additional amount of air that can be expired from the lungs by determined effort after normal expiration

Question 23

What is the residual volume?

Answer 23

Even after a maximal expiration, air remains in the lungs This is because of the rigid nature of the thorax and the pleural attachment of the lungs to the chest wall that prevent complete emptying of the lungs This is the residual volume

Question 24

What are the 4 lung volumes?

Answer 24

-tidal volume -inspiratory reserve volume -expiratory reserve volume -residual volume

Question 25

How do we calculate total lung capacity?

Answer 25

Total lung capacity = TV+ IRV + ERV + RV

Question 26

How do we calculate vital capacity?

Answer 26

Vital capacity = TV + IRV + ERV

Question 27

How do we calculate functional residual capacity?

Answer 27

functional residual capacity = ERV+ RV

Question 28

What is vital capacity?

Answer 28

After a maximal inspiration, make a maximal expiration

Question 29

What would a spirometry trace look like?

Answer 29

Question 30

How do restrictive diseases affect e.g pulmonary fibrosis affect lung volumes and/or capacities?

Answer 30

reduced RV, FRC, VC, TLC

Question 31

How do obstructive lung diseases e.g asthma, COPD, emphysema affect lung volumes and/or capacities?

Answer 31

-increased RV -TLC may change -FRC increased in emphysema

Question 32

What is compliance? what is the formula?

Answer 32

Compliance is defined as the change in lung volume per unit change in intrathoracic pressure Compliance = change in volume / change in pressure

Question 33

What is the functional residual capacity dependent on?

Answer 33

FRC is dependent on the compliance of the lungs and the chest wall

Question 34

How do we measure compliance?

Answer 34

We use a spirometer for volume and an oesophageal balloon for pressure

Question 35

What is atmospheric pressure equal to?

Answer 35

0 - and all other pressures are relative

Question 36

What is recoil pressure of the lung?

Answer 36

The difference between alveolar pressure and the pleural pressure Palv-Ppl = recoil pressure

Question 37

What is the glottis?

Answer 37

The throat

Question 38

What is the recoil pressure of the lung at maximal inspiration?

Answer 38

image slide 34

Question 39

What is the recoil pressure of the lung at end expiration/tidal breathing?

Answer 39

image slide 35

Question 40

What is the recoil pressure of the lung at peak inspiration

Answer 40

image slide 36

Question 41

What does a lung compliance curve look like?

Answer 41

image slide 37

Question 42

How do we calculate the recoil pressure of the chest wall?

Answer 42

Pw= Ppl - Pbs Pw = pressure in chest wall

Question 43

What is the recoil pressure of the chest wall at maximal expiration, closed glottis and relaxed muscles?

Answer 43

slide 39

Question 44

What is the recoil pressure of the chest wall when the glottis is open with the muscles relaxed?

Answer 44

slide 40

Question 45

What is the recoil pressure of the chest wall during maximal inspiration, closed glottis and relaxed muscles?

Answer 45

slide 41

Question 46

What is FRC?

Answer 46

The relaxation point of the respiratory system, when chest wall and lung recoil pressures are equal but opposite

Question 47

Give 3 diseases associate with reduced compliance?

Answer 47

-circumferential burn -pulmonary fibrosis -kyphoscoliosis - affects the compliance of the chest wll

Question 48

Give details about a disease associated with increased compliance

Answer 48

Emphysema: an obstructive condition destroys the elastic tissue of the lung itself

Question 49

Is the closing capacity usually larger or smaller than the FRC?

Answer 49

the closing capacity is usually less than the FRC

Question 50

What happens if the closing capacity exceeds the FRC?

Answer 50

Alveoli in dependent lung regions will be poorly ventilated - this causes you to have an inefficient respiratory system

Question 51

Are alveoli all the same size?

Answer 51

No they’re all different sizes

Question 52

What is the law of Laplace?

Answer 52

P = 2t/r where p = pressure t= surface tension r = radius of the bubble

Question 53

What is surface tension?

Answer 53

the force required to maintain a gas-liquid interface

Question 54

What is the structure of the alveoli?

Answer 54

Question 55

what do type II alveolar cells do?

Answer 55

-they have defence functions for fighting infections and secretes surfactant

Question 56

What is surfactant and what does it do?

Answer 56

-a soapy substance that lines the inner membrane on the alveoli -produced by type II alveolar cells -90% phospholipid, 10% protein -acts as a detergent to reduce alveolar surface tension -present in all alveoli -increases pulmonary compliance -prevents atelectasis (collapsed lung) -minimises alveolar fluid -deficient in infant respiratory distress syndrome

Question 57

How does surfactant equalise pressure between alveoli of different sizes?

Answer 57

surfactant becomes more dispersed as alveolar volume increases it reduces the surface tension more in smaller alveoli so it balances out the surface tension its present in the same quantity even if alveoli are different sizes

Question 58

What is the difference in the shape of the curve when we take static measurements of air in the lungs compared with when we measure during movement of gases?

Answer 58

image slide 55

Question 59

What is hysteresis?

Answer 59

the phenomenon in which the value of a physical property lags behind changes in the effect causing it

Question 60

What are the two causes of hysteresis?

Answer 60

At small lung volumes: 1. Reduced compliance of elastic structures 2. Airway calibre (calibre= diameter of bronchioles)

Question 61

How does airway calibre have a large effect on flow? use formula

Answer 61

Flow = k.ΔP. r4 / L where: -k is a constant -ΔP - pressure differential between the top and bottom of cylinder

Question 62

By how much will the flow be reduced if the radius is reduced by half?

Answer 62

flow will reduce by 16 fold

Question 63

What is laminar flow?

Answer 63

When all air molecules are going in a nice organised path, not bumping into each other

Question 64

How many divisions of the trachea are there?

Answer 64

23-from the trachea to the alveolar sacs trachea, bronchi, bronchioles, terminal bronchioles, respiratory bronchioles, alveolar ducts, alveolar sacs

Question 65

What is a vitalograph spirometer used to measure?

Answer 65

-the forced vital capacity (FVC) -the forced expiratory volume in 1 second (FEV1)

Question 66

What is a peak flow used to measure?

Answer 66

the peak expiratory flow rate (PEFR) - convenient way of measuring airway obstruction (not as good as spirometry)

Question 67

What are the differences in PVC and fev1 in patients with normal, obstructive and restrictive pulmonary disease

Answer 67

Question 68

What can distinguish between obstructive and restrictive lung conditions?

Answer 68

FEV1 / FVC ratio

Question 69

What is a key difference between asthma and COPD?

Answer 69

Asthma - the airway constriction is reversible so that the FEV1 and PEFR would be restored to normal after salbutamol COPD - airway constriction is irreversible

Question 70

How is energy used in inspiration?

Answer 70

To overcome elastic forces - stored as potential energy which is dissipated in expiration

Question 71

How do we calculate work?

Answer 71

work = volume x pressure

Question 72

What are 7 other functions of the lung other than gas exchange?

Answer 72

1. Expulsion of air from the lungs to produce sound and speech (phonation)
2. Conversion of angiotensin I to angiotensin II in the regulation of blood pressure and volume
3. Local production of surfactant (a phospholipid) to decrease surface tension in the alveolar cells
4. Act as a reservoir of blood
5. Filtration of small blood clots from the blood to prevent them entering the systemic circulation
6. Secretion of immunoglobulin (mainly IgA) into bronchial mucus in response to allergic challenges
7. Maintenance of acid-base balance - by excretion of carbon dioxide

Question 73

Is Bronchiectasis reversible or irreversible?

Answer 73

A disease with irreversibe dilation of the bronchial walls

Question 74

What does pulmonary fibrosis result from?

Answer 74

Pulmonary fibrosis results from lung scarring and cyst formation arising from inflammation of the airways.

Question 75

What is the change in inflating pressure and how is it measured?

Answer 75

the difference between atmospheric pressure and intrapleural pressure, measured by an oesophageal balloon