Respiratory Histology

Question 1

Answer 1

Question 2

What type of epithelium lines the airways and much of the nasopharynx?

Answer 2

pseudostratified ciliated columnar epithelium

Question 3

What cells make up the respiratory epithelium?

Answer 3

• pseudostratified ciliated columnar epithelial cells
• secratory cells (infoldings of epithelium)
  
  • goblet cells and mucin glands producing mucous
• sensory cells
  
  • receptors to detect irritants, mechanical disturbances
  • initiate cough reflex, sense of irritation

Question 4

What are the proportions of cell types in the respiratory epithelium?

Answer 4

• pseudostratified ciliated columnar cells - 30%
  
  • move mucous
• goblet cells - 30%
  
  • secrete mucous
• basal (stem) cells - 30%
  
  • in base, renew epithelium
• brush cells with microvili - 3%
  
  • sensory?
• serous cells - 3%
  
  • secretory but unknown product
• small granule cells
  
  • endocrine, sensory

Question 5

What are the layers of the trachea?

Answer 5

• mucosa lining the surface
• submucosa (intermediate)
• adventitia (contains cartilage where present)

Question 6

What comprises the tracheal mucosa?

Answer 6

respiratory epithelium and lamina propria

Question 7

What comprises the tracheal submucosa?

Answer 7

connective tissue and glands (serous and mucous)

Question 8

What comprises the tracheal adventitia?

Answer 8

cartilage, outer layer of connective tissue binding trachea into neck

Question 9

What structural changes occur at the intrapulmonary bronchi?

Answer 9

• walls thinner than trachea
• cartilage ring now individual plates, less organized
• smooth muscle now runs in a ring around the mucosa
  
  • lies between mucosa lamina propria and submucosa
• glands still present
• presence of lymph nodules

Question 10

What is the differential between bronchus and bronchiole?

Answer 10

loss of cartilage

Question 11

What is the structure of bronchioles?

Answer 11

• 1-2mm in diameter
• ~10-15th dichotomous branch
• respiratory epithelium gradually loses goblet cells and then ciliated columnar cells, then gains clara cells
• smooth muscle still present
• radial connective tissue keeps airways open against negative pressure and surface tension of the mucous

Question 12

What are clara cells?

Answer 12

• columnar and cuboidal cells with short microvilli (no cilia)
• release surfactant to break the surface tension and resist collapse
  
  • surfactant is a glycoprotein
• may also make neutralizing toxins
• increasing presence deeper into bronchioles

Question 13

What is the structure of the terminal bronchioles?

Answer 13

• no goblet cells
• clara cells
• cuboidal epithelium with some cilia
• 1-2 layers of smooth muscle (still dynamic)
• give rise to the respiratory bronchioles where gas exchange takes place
  
  • breaks in the terminal bronchial wall (R)

Question 14

What is the structure of the respiratory bronchioles?

Answer 14

• branching off terminal bronchioles (T)
• first respiratory structures
• gives rise to the alveolar ducts (D, chains of alveoli)
• alveoli appear (A)
  
  • thin walled pouches off respiratory bronchioles
• epithelium of the respiratory bronchioles is cuboidal
  
  • becomes squamous where it forms alveoli

Question 15

What is the structure of alveoli?

Answer 15

• thin walls called interalveolar septa
• 200 microns across
• lined by mainly simple squamlous epithelium
• wall contains pulmonary capillaries
• individual alveoli are connected by pores, allowing passage of air
• ~300 million of them, 140m² surface for gas exchange

Question 16

What is the structure of the interalveolar septum?

Answer 16

• contains reticular fibres and elastin (connective tissues) arranged radially to pull the alveoli open against the negative pressure
  
  • maintain positive pressure
  • work with surfactant

Question 17

What is the structure of the pulmonary capillaries?

Answer 17

• form a dense anastamosing network around alveoli
• very thin layer of epithelium - can see individual RBCs through the alveolar wall
• exchange occurs on the epithelial surface of the alveoli (pneumocytes)

Question 18

What are pneumocytes?

Answer 18

• cells that make up the exchange surface of the alveolar epithelium

Question 19

What are type I pneumocytes?

Answer 19

• simple squamous epithelium
• form wall between the air and the blood
• majority of alveolar and tf gas exchange surface (95%)
• stop fluid from leaking out of the pulmonary capillaries into the alveolar space
  
  • prevent pulmonary congestion that causes SOB
  • ‘water-proofed’ with tight junctions and thick basal lamina

Question 20

What are type II pneumocytes?

Answer 20

• more numerous than type I but only 5% alveolar area
• cuboidal epithelium with short microvilli and lamellar bodies
  
  • lamellar bodies are secratory vesicles with wavy lined structure
  • produce surfactant to combat surface tension
• tucked between where two septa meet (not on surface)
• act as stem cells to produce type I and type II pneumocytes

Question 21

What is the structure of the alveolar blood-gas barrier?

Answer 21

• exchange occurs between type I pneumocytes and endothelial cells of the capillary
  
  • they share a fused basal lamina between them
• can be thickened in various pathology and disease
  
  • normally ~0.1-1.5 microns wide

Question 22

What is the fate of an alveolar macrophage?

Answer 22

• some that phagocytose debris crawl up to cilia to be swept into the stomach
• others migrate into the alveolar wall and reside there permanently

Question 23

What cell type is pleura?

Answer 23

• mesothelium (simple squamous epithelium)
• supported by basal lamina and fibrous connective tissue
  
  • connective tissue contains blood vessels and lymphatics
  • some lymphatics drain into pleural space (conduit for bugs and cancer)
  • microvilli on surface of mesothelium epithelium trap hyaluronic acid to lubricate the pleural space