Respiratory strand: Lecture 7 - Development of Lungs

Question 1

How is the respiratory tract divided anatomically?

Answer 1

• Upper respiratory tract

- Lower respiratory tract

Question 2

What does the upper respiratory tract consist of?

Answer 2

• nasal cavities
• nasopharynx
• oropharynx

Question 3

What does the lower respiratory tract consist of?

Answer 3

-trachea
-bronchi
-bronchioles
-terminal bronchioles
-respiratory bronchioles
-alveolar ducts
-alveolar sacs
-alveoli
diagram slide 3

Question 4

What structure divides the URT from the LRT?

Answer 4

The larynx

Question 5

What are the 3 germ layers?

Answer 5

ectoderm
mesoderm
endoderm

Question 6

Which germ layer does the inner epithelial lining come from?

Answer 6

endoderm

Question 7

Which germ layer does the connective structures like blood vessels come from?

Answer 7

mesoderm

Question 8

Give 5 developments of the embryo by week 4?

Answer 8

• yolk sac visible
• somites visible
• CNS development
• gut tube formed
• respiratory diverticulum (lung bud) appears in ventral wall of foregut

Question 9

How is the gut tube divided?

Answer 9

-foregut (area above septum transverse)
-midgut (yolk sak)
-hindgut (anything distal/below yolk sak)
image slide 5

Question 10

What occurs in the gut tube?

Answer 10

Its where we develop our respiratory system via the respiratory diverticulum

Question 11

What occurs on day 22?

Answer 11

Lung bud forms

Question 12

In which direction does the lung bud grow?

Answer 12

ventrocaudally

front and tail ways

Question 13

What separates the respiratory diverticulum from the foregut?

Answer 13

tracheoesophageal ridges

Question 14

What is happening in this image?

slide 6

Answer 14

• ventrally, trachea and lung bud divide to form two lung buds
• yellow and blue tube separate to form oesophagus and trachea
• separate trachea and oesophagus then a trachea septum

Question 15

What is a fistula?

Answer 15

An abnormal communication/ connection

Question 16

What is a TOF?

Answer 16

Tracheoesophageal fistula -

abnormal connection between trachea and oesophagus

Question 17

Why might a TOF occur?

Answer 17

from incomplete division of the foregut into oesophageal ad respiratory portions

Question 18

What is oesophageal atresia?

Answer 18

slide 7 configuration A

• closed or absent oesophagus
• distal part of oesophagus still connected to trachea - narrowed so much it closes
• upper oesophagus ends abruptly; lower oesophagus forms fistula with trachea

Question 19

What is the effect of a Tracheoesophageal Fistula with Oesophageal Atresia?

Answer 19

• abdomen rapidly distends as stomach fills with air (air goes down trachea and escapes into oesophagus and then stomach)
• stomach contents can make way up to the respiratory system from the oesophagus

Question 20

What is an H type tracheoesophageal fistula?

Answer 20

-much more rare than TOF
-isolated fistula
-milk may be ‘driven’ into respiratory system
slide 9

Question 21

What does the VACTERL or VATER acronym stand for? why is it important?

Answer 21

V-  Vertebral defects 
A- Anal atresia 
(C)- Cardiac defects
T - Tracheo-oesophageal fistulas 
E- Esophageal atresia 
R - Renal abnormalities 
(L) - Limb defects 
TOF's are usually associated with other congenital abnormalities - most commonly cardiac defects

Question 22

What happens during partitioning of oesophagus and respiratory diverticulum?

Answer 22

Right and left lung buds form

Question 23

What happens during week 5?

Answer 23

• further growth and differentiation results in formation of main bronchi
• main bronchi form secondary bronchi (3 right, 2 left)

Question 24

What happens during week 6?

Answer 24

-further branches results in the formation of the tertiary bronchi - these will each supply a bronchopulmonary segment / bronchial tree (10 right, 8 left)
image slide 11

Question 25

What happens by week 16?

Answer 25

branching continues to form terminal bronchioles

Question 26

What happens by week 26?

Answer 26

• forms respiratory bronchioles

- gaseous exchange can occur (although inefficient)

Question 27

What happens by week 36?

Answer 27

first alveoli develop

Question 28

How is branching regulated?

Answer 28

-By the interaction of the epithelium (derived from the foregut) with the overlying visceral mesoderm

Question 29

What do the cartilage, smooth muscle, connective tissue and capillaries form from?

Answer 29

Formed from visceral mesoderm

Question 30

Which germ layer forms the pleura?

Answer 30

Mesoderm

Question 31

How do we ensure the branching pattern is correct?

Answer 31

Its regulated by the mesoderm and endoderm - they send signals and communicate with each other to stimulate the correct branching pattern

Question 32

What does the mesoderm split into?

Answer 32

The visceral mesoderm and parietal mesoderm

Question 33

What does the visceral mesoderm form?

Answer 33

The visceral pleura

Question 34

What does the parietal mesoderm form?

Answer 34

The parietal pleura

Question 35

What is pulmonary agenesis?

Answer 35

• Failure to form a lung

- complete absence of bronchi and vasculature

Question 36

When does this occur?

Answer 36

When a lung bud fails to split

Question 37

What are the two types of pulmonary agenesis?

which is the most severe?

Answer 37

unilateral or bilateral

bilateral genesis is incompatible with life

Question 38

What is the clinical presentation of unilateral pulmonary agenesis?

Answer 38

• child usually develops respiratory distress
• remaining lung is compromised, usually by LRT infection
• 60% have other congenital anomalies including cardiac lesions, diaphragmatic hernias, and skeletal abnormalities
• agenesis of the right lung is associate

Question 39

If you have left agenesis, what will your right lung look like?

Answer 39

it will be enlarged as its compensating

Question 40

What is pulmonary hypoplasia?

Answer 40

• all components are developed, but incompletely developed
• severity of hypoplasia determines the degree of respiratory compromise
• may be found in association with congenital diaphragmatic hernia (CDH)

Question 41

Whats the definition of hypoplasia?

Answer 41

Fails to form fully

Question 42

What is branching morphogenesis?

Answer 42

• Supernumerary lobes and segments
• when branching pattern goes wrong
• little functional significance

Question 43

Explain the 4 periods of maturation of the lung?

Answer 43

1. Pseudoglandular
2. Canalicular
3. Saccular/ terminal sac
4. Alveolar

image slide 17 - little overlap between each process

Question 44

When is the pseudo glandular period?

Answer 44

5-17 weeks

Question 45

What occurs in the pseudo glandular period?

Answer 45

• branching of the respiratory tree has occurred to form terminal bronchioles
• respiration is NOT possible; therefore foetus could not survive

Question 46

When is the canalicular period?

Answer 46

16-25 weeks

Question 47

What occurs during the canalicular period?

Answer 47

• terminal bronchioles give rise to respiratory bronchioles, which give rise to alveolar ducts
• mesodermal tissue becomes highly vascularised
• respiration is possible towards end of canalicular period as some terminal sacs have developed at the ends of the respiratory bronchioles
• inefficient gaseous exchange can occur: better prognosis for birth at this point

Question 48

When is the terminal sac period?

Answer 48

26 weeks - birth

Question 49

What occurs during the terminal sac period?

Answer 49

• further terminal sacs (primitive alveoli) develop
• epithelium thins and capillaries come into ‘contact’ with epithelium
• blood-air barrier formed
• surfactant forms a film over the internal walls of terminal sacs
• decreases surface tension thus facilitating inflation
• foetus born prematurely (24 weeks) can survive if given intensive care but may suffer from respiratory distress

Question 50

What does surfactant do?

Answer 50

Prevents alveoli from collapsing when theres low pressure

Question 51

When is the alveolar period? (where we develop alveolar sacs)

Answer 51

36 weeks- 8 years

-95% of mature alveoli do not develop after birth

Question 52

Why do the lungs develop mostly after birth?

Answer 52

Due mainly to an increase in the number of respiratory bronchioles and alveoli

Question 53

When do breathing movements start?

Answer 53

in utero

this serves to remove amniotic fluid (we inspire it)

Question 54

What happens to any remaining lung fluid at birth?

Answer 54

Its reabsorbed by capillaries

Question 55

Why do you have a good chance of survival if you’re born from 26 weeks onwards?

Answer 55

Surfactant is produced in sufficient qualities

Question 56

What will occur for a birth at 23 weeks?

Answer 56

• laboured breathing
• increased rate of breathing
• mechanical ventilation needed
• damage to alveolar lining; fluid and serum proteins leak into alveolus
• bronchopulmonary dysplasia (abnormal formation)

Question 57

What does glucocorticoid treatment do?

Answer 57

Accelerates fatal lung development and surfactant production
this must be taken before birth to increase surfactant