lecture 14 - respiratory system 1

Question 1

functions of the respiratory system?

Answer 1

exchange of gases

regulation of body pH

protection from inhaled pathogens and irritants

vocalisation

Question 2

overview of the gas exchange system?

Answer 2

ventilation/external respiration

internal transport

internal respiration

Question 3

what is ventilation?

Answer 3

exchange of air between the atmosphere and the lungs

external respiration

Question 4

what is internal transport?

Answer 4

movement of gas from lungs to the blood circulation

Question 5

what is internal respiration?

Answer 5

gas exchange at the cellular level

Question 6

what are the right and left lungs separated by?

Answer 6

the heart and the mediastinum

Question 7

whats the hilum?

Answer 7

triangular depression on the mediastinal surface of each lung where the primary bronchi, blood, sympathetic vessels and nerves enter and exit the lung

Question 8

whats the cardiac notch?

Answer 8

groove in the mediastinal surface of of the left lung where it comes into contact with the heart

Question 9

wheres the start of the respiratory system?

Answer 9

the nasal cavity

Question 10

how many lobes are the lungs divided into?

Answer 10

right - 3 lobes

left - 2 lobes

Question 11

what are the conducting systems?

Answer 11

not involved in gas exchange - main role is to move air in

comprised of:
• upper respiratory tract
• lower respiratory tract

lead from external environment to exchange surfaces

warm, humidify and filter inspired air

Question 12

what is the upper respiratory tract made of?

Answer 12

• nasal cavity
• pharynx
• larynx

Question 13

what is the lower respiratory tract made of?

Answer 13

• trachea
• bronchi
• bronchioles

Question 14

what is the respiratory zone?

Answer 14

comprised of alveoli and capillary system

gas exchange surface

Question 15

what does the nose and naval cavity do?

Answer 15

• inhaled air is warmed and humidified
• filters debris
• secretes antibacterial substances
• has olfactory receptors for smell
• enhances resonance of voice

Question 16

what does the pharynx (throat) do?

Answer 16

• warm, humidify and filter inspired air
• soft palate component moves posteriorly during swallowing to prevent food from entering nasopharynx and nasal cavity
• protects against mechanisms stress (air and food)

Question 17

what does the larynx do?

Answer 17

• prevents food and liquids entering the respiratory tract

* sound production

Question 18

the bronchial tree

Answer 18

lower respiratory tract conducting system

trachea branches into 2 primary bronchi - left and right

5 secondary bronchi
18 tertiary bronchi

divide into bronchioles

terminal division into a cluster of alveoli

Question 19

how does the structure of airways relate to the function

Answer 19

as conducting systems divide the cross sections area increases exponentially

large SA for gas exchange at alveoli

Question 20

epithelial cells of the lower conducting system

Answer 20

• goblet cells
• ciliated cells
• mucocilary escalator

Question 21

what do goblet cells do?

Answer 21

secrete mucus to form a continuous mucus layer over the surface of the respiratory tract

Question 22

what do ciliated cells so?

Answer 22

produce saline

sweep mucus upwards to pharynx

Question 23

what does the mucociliary escalator do?

Answer 23

removes noxious particles from the lungs

saline secretion essential for functioning mucociliary escalator

Question 24

how is cystic fibrosis causes?

Answer 24

defect in CFTR (cystic fibrosis transmembrane regulator channel)

results in decreased fluid component of mucus

thick, sticky mucus layer cannot be cleared

bacteria can colonise causing recurrent lung infections

Question 25

how is the trachea kept open?

Answer 25

C-shaped cartilage rings

Question 26

what is the posterior surface of the trachea covered with?

Answer 26

elastic connective tissue and smooth muscle

allows oesophagus to expand during swallowing

Question 27

what are the 3 main histological changes that occur as the bronchi divide?

Answer 27

cartilage changes to complete rings, to progressively fewer, irregular plates

epithelium gradually changes to columnar cells in smaller bronchi

amount of smooth muscle increases

Question 28

structure of bronchioles

Answer 28

non-ciliated epithelium

smooth muscle layer

no cartilage

branch into 2 alveolar ducts

Question 29

where do alveolar ducts end?

Answer 29

in alveolar sacs - grape like clusters of alveoli which are surrounded by elastic fibres and a network of capillaries

Question 30

vasculature of the alveoli

Answer 30

extensive capillary network provides large SA for exchange

pulmonary artery supplies deoxygenated blood

pulmonary vein carries oxygenated blood away

Question 31

structure of alveoli

Answer 31

single epithelial layer

supported by elastic fibres

large SA

Question 32

what are the 2 types of alveoli?

Answer 32

type 1 alveolar cell
• 90% of alveoli
• very thin
• for gas exchange

type 2 alveolar cell
• smaller
• thicker
• produce surfactant

Question 33

what do macrophages do?

Answer 33

protect alveolar structures from non-filtered small particles

Question 34

what does ventilation involve?

Answer 34

diaphragm

respiratory muscles

pressure changes

Question 35

what is inhalation?

Answer 35

active contraction of the diaphragm

Question 36

what is expiration?

Answer 36

passive relaxation of the diaphragm

Question 37

what do the repsiraoty muscles do?

Answer 37

external intercostal muscles and scalenes raise rib cage upwards and outwards

in quiet breathing, expiration is passive

in forced breathing, intercostal muscles are active and accessory muscles play a role

Question 38

what is the mechanics of breathing?

Answer 38

movement of the thoracic cage and diaphragm during breathing

inspiration - increase is thoracic volume

expiration - decrease in thoracic volume

Question 39

what is Boyle’s law?

Answer 39

describes the relationship between pressure and volume

states that as:
• volume increases, pressure decreases
• volume decreases, pressure increases

Question 40

what pressure gradients influence ventilation?

Answer 40

atmospheric pressure

intrapulmonary pressure

intrapleural pressure

Question 41

what is atmospheric pressure?

Answer 41

pull of gravity of air around us creates atmospheric pressure

Question 42

what is intrapulmonary pressure?

Answer 42

air pressure in the alveoli

rises and falls with inspiration and expiration

always eventually equalises with atmospheric pressure

Question 43

what is intrapleural pressure?

Answer 43

pressure in the pleural cavity

rises and falls with inspiration and expiration

doesn’t equalise with atmospheric pressure

Question 44

what are pleural sacs?

Answer 44

go around each lung - not fully: gap where bronchi and blood vessels enter and leave the lung

double membraned

in-between the 2 membranes there is a pericardial cavity

Question 45

what does the pericardial cavity do?

Answer 45

creates a tiny layer of fluid

helps keep the membranes together

Question 46

what is the outer layer of the plural sac?

Answer 46

parietal pleura

fused to ribcage, diaphragm and other local structures

Question 47

what is the inner layer of the plural sac?

Answer 47

visceral pleura

continuous with the surface of the lungs

Question 48

what do pleural fluid do?

Answer 48

acts as a lubricant to allow lung to move within thorax

maintains lung inflation at rest

Question 49

summary of inspiration

Answer 49

• contraction of inspiratory muscles
• increase thoracic volume
• decrease intrapleural pressure
• increase lung volume
• decrease alveolar pressure
• air into lungs

Question 50

summary of expiration

Answer 50

• relaxation of inspiratory muscles
• decrease thoracic volume
• increase intrapleural pressure
• decrease lung volume
• increase alveolar pressure
• air out of lungs to functional residual capacity

Question 51

summary of forced expiration

Answer 51

• contraction of expiratory muscles
• decrease thoracic volume
• increase intrapleural pressure
• decrease lung volume
• increase alveolar pressure
• air out of lungs below functional residual capacity