Respiratory Embryology

Question 1

What occurs at week 4-5 in development of the respiratory system?

Answer 1

Respiratory diverticulum forms and branches into left and right bronchial buds

Stem of the diverticulum will differentiate into trachea and larynx

Question 2

Respiratory development begins at week 4 when respiratory diverticulum forms and branches into left and right bronchial buds. The stem of the diverticulum will differentiate into trachea and larynx during week 5.

What occurs at week 5-6 in development of the respiratory system?

Answer 2

Branching yields secondary bronchial buds, which represent future lung lobes

Question 3

What occurs between week 6 and 7 in development of the respiratory system?

Answer 3

Branching yields tertiary bronchial buds, which represent future bronchopulmonary segments

Question 4

At what week of development do the terminal bronchioles form? What other important developmental process has just been completed?

Answer 4

Week 16

Formation of pericardial sac is complete at this point

Question 5

What events take place between week 16 and 28 in the development of the cardiopulm system?

Answer 5

Respiratory bronchioles form, surrounding mesenchyme becomes highly vascular; the first terminal sacs (primitive alveoli) form

Pleuroperitoneal membranes have closed off pericardioperitoneal canals; diaphragm begins to differentiate

Question 6

At what point in development of the respiratory system do the terminal sacs begin to differentiate into mature alveoli? When are the alveoli fully mature?

Answer 6

At birth; alveoli will then continue to form through the eighth year of life

Question 7

__________ _________ = median outgrowth that appears in the floor of the primitive pharynx

Answer 7

Laryngotracheal groove

Question 8

The laryngoracheal groove is the median outgrowth that appears in the floor of the primitive pharynx. It will form the _________ _________, or lung bud which is the primodium of the _________ _________

Answer 8

Laryngotracheal diverticulum

Tracheobronchial tree

Question 9

What is the embryologic origin of the pulmonary epithelium and glands of larynx, trachea, and bronchi?

Answer 9

Endoderm of laryngotracheal groove

Question 10

What is the embryologic origin of the connective tissue, cartilage, and smooth muscle in the structures of the tracheobronchial tree, thus surrounding the foregut of the developing embryo?

Answer 10

Splanchnic mesoderm (from lateral plate)

Question 11

During development of the lungs, the distal end of the laryngotracheal diverticulum (lung bud) forms the ________ ________, which grows in the ______ direction and bifurcates at day 26-28

Answer 11

Respiratory bud; ventrocaudal

Question 12

After the respiratory buds grow ventrocaudally and bifurcate around day 26-28, they will undergo further branching. The branching pattern of the lung _________ is regulated by surrounding __________

Answer 12

Endoderm; mesoderm

Question 13

How many orders of airways form after birth? How many rounds of branching does this require?

Answer 13

7 orders of airways form after birth

Goes through 16-17 rounds of branching

Question 14

The primary bronchial buds are rudiments of what structures?

Answer 14

Lungs and primary bronchi

Question 15

When do primary bronchial buds begin branching to form secondary bronchial buds?

Answer 15

During the 5th week of development

Question 16

What structures to the secondary bronchial buds form?

Answer 16

Right: Superior, middle, inferior (3)

Left: Superior, inferior (2)

Question 17

_________ bronchi form by the 7th week

Answer 17

Segmental

Question 18

Segmental bronchi form by the 7th week. What structures have formed by 24 weeks?

Answer 18

Bronchopulmonary segments

Question 19

By 24 weeks, the bronchopulmonary segments have formed. These consist of what 2 components?

What other structures have formed at this point?

Answer 19

Segmental bronchi + mesenchyme

Respiratory bronchioles have also formed

Question 20

Maturation of the lung epithelium begins at 5-17 weeks with ____________ epithelium, which may appear similar to exocrine gands

Answer 20

Pseudoglandular

Question 21

Maturation of the lung epithelium begins at 5-17 weeks with pseudoglandular epithelium, which may appear similar to exocrine gands. All major elements of the lung have formed, except which ones? Can the fetus survive at this point?

Answer 21

All major elements have formed except those involved with gas exchange, so the fetus cannot survive

Question 22

Lung epithelium is pseudoglandular between 5-17 weeks. Pseudoglandular then overlaps with development of ________ epithelium between 16-25 weeks which is associated with vascularization of lung tissue

Answer 22

Canalicular

Question 23

Lung tissue is canalicular between 16-25 weeks. What lung structures have formed at this point? Can the fetus survive?

Answer 23

Respiratory bronchioles
Primordial alveoli and sacs present (primitive alveoli)

+/- survival rates depending on thickness of these alveoli at birth (want them thin enough for adequate gas exchange)

Question 24

During maturation of the lungs:

5-17 weeks = pseudoglandular
16-25 weeks = canalicular

What forms between 24 weeks-birth? Can the fetus survive?

Answer 24

Terminal sac

At this point numerous alveoli form, epithelium is thin with increased vascularization

Gas exchange can occur, so the fetus can survive

Question 25

When the terminal sac forms between 24 weeks and birth, numerous alveoli form and epithelium is thin with increased vascularization. What 3 things are associated with this epithelium?

Answer 25

Type I pneumocytes
Type II pneumocytes
Lymphatic capillaries

Question 26

During maturation of the lungs:

5-17 weeks = pseudoglandular
16-25 weeks = canalicular
24 weeks-birth = terminal sac

What is the next phase in lung development, occurring between 32 weeks and 8 years of age?

Answer 26

Alveolar

Formation of alveolocapillary membrane, primitive alveoli, and mature alveoli

Question 27

T/F: approximately 5% of mature alveoli develop postnatally

Answer 27

False! About 95% of mature alveoli develop postnatally

Question 28

Alveolar development is largely completed at what age?

Answer 28

3 years

[however, new alveoli are added until 8 years of age]

Question 29

As the bronchi develop, ______ ______ is critical to the formation of cartilaginous bronchial plates, bronchial smooth muscle and CT, and pulmonary CT + capillaries

Answer 29

Splanchnic mesoderm

Question 30

As the bronchi develop, the splanchnic mesoderm is critical to the formation of what 3 things?

Answer 30

Cartilaginous bronchial plates

Bronchial smooth muscle + CT

Pulmonary CT + capillaries

Question 31

Lungs acquire a layer of ______ _______ from the splanchnic mesenchyme. With expansion, the lungs and pleural cavities grow in the _____ direction into the mesenchyme of the body wall, and are soon positioned close to the heart

Answer 31

Visceral pleura; caudal

Question 32

Lungs acquire a layer of visceral pleura from the splanchnic mesenchyme. With expansion, the lungs and pleural cavities grow in the caudal direction into the mesenchyme of the body wall, and are soon positioned close to the heart.

The thoracic body wall becomes lined with a layer of parietal pleura which is derived from _______ _________

Answer 32

Somatic mesoderm (from lateral plate mesoderm)

** contrast with visceral pleura which is derived from splanchnic mesoderm (also from lateral plate mesoderm)

Question 33

What is the space called between the parietal and visceral pleura?

Answer 33

Pleural cavity

Question 34

The proximal end of the laryngotracheal diverticulum forms what 2 structures?

Answer 34

Trachea and larynx

Question 35

The larynx opens into the pharynx via the _______; the passageway is located at the original point of evagination of the diverticulum.

Answer 35

Glottis

[note: the glottis eventually becomes associated with the vocal folds]

Question 36

Structures between the trachea and lung have similar embryologic origin; the cartilage, CT, and smooth muscle of the trachea is derived from ______ ______, while the glands and epithelium are ________ derived

Answer 36

Splanchnic mesoderm

Endodermally

Question 37

________ _______ = condition also known as “blind esophagus” where the esophagus contains a pouch that does not go anywhere. Food may become trapped –> infection risk, and there is diminished ability to maintain nutrition

Answer 37

Esophageal atresia

Question 38

________ ________ = condition characterized by an abnormal connection between the trachea and esophagus

Answer 38

Tracheoesophageal fistula

Question 39

What causes things like esophageal atresia and tracheoesophageal fistula?

Answer 39

Failure of the foregut endoderm to proliferate rapidly enough in relation to the rest of the embryo

Question 40

Esophageal atresia and tracheoesophageal fistula are associated with aspiration of milk and other fluids into the lungs. They are also associated with _________, referring to excess amniotic fluid which then cannot enter the stomach/intestines for absorption and is not transferred to placenta for disposal

Answer 40

Polyhydramnios

Question 41

________ ________ refers to the complete absence of a lung or lobe and accompanying bronchi; typically occurs unilaterally

Answer 41

Pulmonary agenesis

Question 42

What causes pulmonary agenesis?

Answer 42

Respiratory bud fails to split into right and left bronchial buds, so only one lung structure develops unilaterally

Question 43

________ ______ _______ are essential for normal lung development; their intermittent pattern conditions respiratory muscles and is used during fetal monitoring as a predictor of fetal outcome in preterm delivery

Answer 43

Fetal breathing movements (FBMs)

Question 44

Fetal breathing movements are forceful enough to cause aspiration of _____ _____ which helps to stimulate lung development

Answer 44

Amniotic fluid

Question 45

At birth, aeration of the lungs requires replacement of intra-alveolar fluid with air. In what 3 ways is this fluid cleared?

Answer 45

1. Released from mouth/nose by pressure on the fetal thorax during vaginal delivery
2. Pulmonary capillaries, arteries, and veins
3. Lymphatics

Question 46

____________ refers to insufficient amniotic fluid production which, when severe and chronic, can slow lung development

Answer 46

Oligohydramnios

Question 47

Oligohydramnios may lead to ________ ________, refering to a restriction of the fetal thorax (from uterine pressure). The decreased hydraulic pressure on the lungs affects stretch receptors and lung growth

Answer 47

Pulmonary hypoplasia

Question 48

What condition is characterized by rapid, labored breathing developing shortly after birth, affecting approximately 2% of neonates and accounting for 50-70% of deaths in premature infants?

Answer 48

Respiratory Distress Syndrome

Question 49

What is the major cause of respiratory distress syndrome?

Answer 49

Surfactant deficiency

[Due to this deficiency, lungs are underinflated, alveoli contain a fluid that resembles a glassy membrane (hyaline membrane disease), and there are irreversible changes in the type II alveolar cells, making them incapable of producing surfactant]

Question 50

What are some signs/symptoms of respiratory distress syndrome?

Answer 50

Tachypnea
Nasal flaring
Suprasternal, intercostal, or subcostal retractions
Grunting
Cyanosis

Question 51

What condition is thought to be formed by the dilation of terminal bronchi due to disturbance in bronchial development during late fetal life?

Answer 51

Congenital lung cysts

Question 52

What are congenital lung cysts filled with? What are some symptoms of congenital lung cysts?

Answer 52

Filled with fluid or air

May exhibit wheezing, cyanosis, difficulty breathing

Question 53

What body cavity forms during the 4th week of embryonic development?

Answer 53

Intraembryonic coelom

Question 54

The intraembryonic coelom forms during the 4th week of development. It is horseshoe shaped.

The cranial region represents the future ______ cavity

The caudal region represents the future ____ and _____ cavities

Answer 54

Pericardial

Pleural; peritoneal

Question 55

The intraembryonic coelom is continuous with what body cavity?

Answer 55

Extraembryonic coelom (chorionic cavity)

Question 56

Body folding (head fold) reshapes the intraembryonic coelom; the primitive pericardial cavity is now located cranially to the ______ _______. The heart is also repositioned and bulges into the pericardial cavity

Answer 56

Septum transversum

Question 57

What 2 narrow canals lie dorsal to the septum transversum?

Answer 57

2 Pericardioperitoneal canals

Question 58

What 2 caudal cavities are positioned where the intraembryonic and extraembryonic coeloms are continuous?

Answer 58

Peritoneal cavities

Question 59

Initially, the lung bud is in open communication with the foregut. When the diverticulum expands caudally, however, 2 longitudinal ridges called _______ ______ separate it from the foregut.

Subsequently, when these ridges fuse to form the _______ _______

Answer 59

Tracheoesophageal ridges

Tracheoesophageal septum

Question 60

The tracheoesophageal septum is important for dividing the forgut into a dorsal and ventral portion.

What important structures make up the dorsal and ventral portions formed by this septum?

Answer 60

Dorsal = esophagus

Ventral = trachea and lung buds

Question 61

Once the tracheoesophageal septum separates the forgut into dorsal (esophagus) portion and ventral (trachea+lung buds) portion, what maintains communication between the respiratory primordium and the pharynx?

Answer 61

Laryngeal orifice

Question 62

The lateral plate mesoderm divides into 2 layers as a result of the formation and coalescence of coelomic spaces within it.

The dorsal layer forms somatic mesoderm, which combines with surface ectoderm to form the ___________.

The ventral layer forms the splanchnic mesoderm, which combines with the underlying endoderm to form the __________.

Answer 62

Somatopleure

Splanchnopleure

[the space between these = the primitive body cavity]

Question 63

_______ = fluid filled body cavity completely lined by tissue created from mesoderm

Answer 63

Coelom

Question 64

Embryonic folding consists of cranial, lateral, and caudal edges of the embryonic disc brought together along the ventral midline. When does embryonic folding take place?

Answer 64

Week 4

Question 65

During the process of embryonic folding, when ectoderm fuses at the ventral midline, a space is formed within the lateral plate mesoderm called the _______ _________

Answer 65

Intraembryonic coelom

Question 66

The intraembryonic coelom gives rise to the _____ _______ that line the coelom

Answer 66

Serous membranes

Question 67

_________ mesoderm coats the inner surface of the body wall.

_______ mesoderm ensheaths the gut tube.

Answer 67

Somatic

Splanchnic

Question 68

Which specific coelom forms the embryonic body cavity?

Answer 68

Intraembryonic coelom

Question 69

The intraembryonic coelom is divided into what 3 cavities during the 4th week?

Answer 69

1 Pericardial cavity

2 pericardioperitoneal canals

1 peritoneal cavity

Question 70

Formation of the head fold relocates the heart and pericardial cavity ________ (anterior to foregut). At this point a definitive pericardial cavity has been established, but it remains open into the _______ _________

Answer 70

Ventrally

Pericardioperitoneal canals

Question 71

The pericardial cavity initially remains open into the pericardioperitoneal canals. These are located lateral to the future _______; and dorsal to the ______ _______, which is a thick plate of mesodermal tissue occupying space between the thoracic cavity and stalk of yolk sac

Answer 71

Esophagus

Septum transversum

Question 72

The septum transversum is a mesodermal structure that exists anterior to the umbilical vesicle. What is it a primordium for?

Answer 72

The central tendon of the diaphragm

[also provides block of mesoderm that forms CT of liver]

Question 73

The septum transversum forms partitions in each pericardioperitoneal canal, separating what structures?

Answer 73

Pericardial cavity from the pleural cavities

Pleural cavities from the peritoneal cavity

Question 74

Due to the growth of lung buds into the pericardioperitoneal canals, a pair of membranous ridges is produced.

The first develops cranially, superior to the lungs. What are these ridges called?

Answer 74

Pleuropericardial folds

Question 75

Due to the growth of lung buds into the pericardioperitoneal canals, a pair of membranous ridges is produced.

The second develops caudally, inferior to the lungs. What are these ridges called?

Answer 75

Pleuroperitoneal folds

Question 76

Due to the growth of lung buds into the pericardioperitoneal canals, a pair of membranous ridges is produced cranially (pleuropericardial folds) and caudally (pleuroperitoneal folds).

The pleuropericardial folds enlarge to become pleuropericardial membranes. What do these membranes form partitions around, and what do they contain?

Answer 76

Form partitions that separate the pericardial cavity and pleural cavities

Contain the common cardinal veins, which drain into the sinus venosus of the heart

Question 77

The pleuropericardial membranes form partitions separating the pericardial cavity and pleural cavities. These contain the common cardinal veins, which drain into what structure?

Answer 77

Sinus venosus of the heart

Question 78

The pleural cavities expand ventrally around the heart and extend into the body wall, splitting the mesenchyme into:

An outer layer that becomes the _______ _____

An inner layer that becomes the ______ ______

Answer 78

Thoracic wall

Fibrous pericardium

Question 79

The pleural cavities expand ventrally around the heart and extend into the body wall, splitting the mesenchyme into an outer layer (thoracic wall) and an inner layer (fibrous pericardium). These two structures form the ______ ______

Answer 79

Primordial mediastinum

Question 80

Due to the growth of lung buds into the pericardioperitoneal canals, a pair of membranous ridges is produced cranially (pleuropericardial folds) and caudally (pleuroperitoneal folds).

The pleuroperitoneal folds enlarge and project into the pericardioperitoneal canals, then become the pleuroperitoneal membranes.

The pleuroperitoneal membranes eventually partition what structures?

Answer 80

Pleural cavities from peritoneal cavity

Question 81

The pericardioperitoneal canals grow ventrally to eventually fuse with the ______ ______, sealing them off.

Closure of the pericardioperitoneal canals is completed by week ____ of development and is characterized by definitive separation of the _______ and _______ cavities

Answer 81

Septum transversum

7

Pleural; peritoneal

Question 82

During what weeks of development does the diaphragm develop?

Answer 82

Weeks 4-5

Question 83

The diaphragm is formed by what 4 embryologic components?

Answer 83

Septum transversum

Pleuroperitoneal membranes

Dorsal esophageal mesenchyme

Muscular ingrowth from lateral body walls

Question 84

The diaphragm is innervated by spinal nerves from ______, which join together to form the ______ nerve

Answer 84

C3-5

Phrenic

Question 85

What pathological condition is characterized by viscera bulging into the pleural cavity prior to birth?

Answer 85

Congenital diaphragmatic hernia

Question 86

Which side of the body is typically impacted by congenital diaphragmatic hernia?

Answer 86

80% of cases are left-sided

95% found posterolaterally

Question 87

The lungs are the most impacted organ with a congenital diaphragmatic hernia. What affect does this type of hernia have on the lungs, and what secondary condition might this lead to?

Answer 87

Diaphragmatic hernia may compress the lung leading to pulmonary hypoplasia

Question 88

A 26 y/o female with polyhydramnios gave birth to a full term male. Immediately after birth, the infant presented with excessive secretions that cause drooling, choking, coughing, and gagging. He also showed signs of respiratory distress, was unable to feed, and had an abnormal chest x-ray. Which of the following is his most likely diagnosis?

A. Esophageal atresia
B. Tracheoesophageal fistula
C. Respiratory distress syndrome
D. Congenital lung cysts
E. Congenital diaphragmatic hernia

Answer 88

B. Tracheoesophageal fistula

Question 89

A full-term newborn infant was suffering from respiratory distress after birth. Examination reveals cyanosis, barrel-shaped chest, scaphoid appearing abdomen, and absence of breath sounds on one side. Imaging studies reveal lung hypoplasia. Which of the following is your most likely diagnosis?

A. Esophageal atresia
B. Tracheoesophageal fistula
C. Respiratory distress syndrome
D. Congenital lung cysts
E. Congenital diaphragmatic hernia

Answer 89

E. Congenital diaphragmatic hernia

Question 90

A premature infant developed rapid, shallow respiration shortly after birth. This was accompanied by nasal flaring, subcostal retractions, and grunting. Imaging revealed a bell-shaped thorax, reduced lung volume, and lung parenchyma with a granular pattern. Which of the following is your most likely diagnosis?

A. Esophageal atresia
B. Tracheoesophageal fistula
C. Respiratory distress syndrome
D. Congenital lung cysts
E. Congenital diaphragmatic hernia

Answer 90

C. Respiratory distress syndrome

Question 91

A 26 y/o female with polyhydramnios gave birth to a full term male. Immediately after birth, the infant presented with excessive secretions that cause drooling, choking, coughing, and gagging. He also showed signs of respiratory distress, was unable to feed, and had an abnormal chest x-ray.

The infant was diagnosed with tracheoesophageal fistula. At what stage/week did this occur, and what is the underlying embryologic mechanism?

Answer 91

Likely occurred during week 4 with failure of tracheoesophageal septum to divide the foregut properly

[Tracheoesophageal fistulas are the result of abnormal connections between the trachea and esophagus. This issue develops from improper division of the foregut by the tracheoesophageal septum. It is generally associated with esophageal atresia and polyhydramnios]

Question 92

A full-term newborn infant was suffering from respiratory distress after birth. Examination reveals cyanosis, barrel-shaped chest, scaphoid appearing abdomen, and absence of breath sounds on one side. Imaging studies reveal lung hypoplasia.

The infant is diagnosed with a congenital diaphragmatic hernia. At what stage/week did this occur, and what is the underlying embryologic mechanism?

Answer 92

Likely occurred during weeks 4-5 due to failure of pleuroperitoneal membrane to develop or fuse with the other components of the diaphragm

Question 93

A premature infant developed rapid, shallow respiration shortly after birth. This was accompanied by nasal flaring, subcostal retractions, and grunting. Imaging revealed a bell-shaped thorax, reduced lung volume, and lung parenchyma with a granular pattern.

The infant is diagnosed with respiratory distress syndrome. What is the most likely underlying cause?

Answer 93

Surfactant deficiency

Question 94

A premature infant developed rapid, shallow respiration shortly after birth. This was accompanied by nasal flaring, subcostal retractions, and grunting. Imaging revealed a bell-shaped thorax, reduced lung volume, and lung parenchyma with a granular pattern.

The infant is diagnosed with respiratory distress syndrome. At what stage/week did this occur, and what is the underlying embryologic mechanism?

Answer 94

Most likely occurred prior to terminal sac stage (week 24) when type II pneumocytes begin producing surfactant

This infant likely has a surfactant deficiency, meaning that the lungs are underinflated, and alveoli contain a fluid resembling glassy membrane (hyaline membrane disease). With irreversible changes in type II alveolar cells, they are unable to produce surfactant.