Respiratory System PDF - ANAT2241

Summary

This document details lecture outlines on the Respiratory System, covering function, structure, and histology. It includes learning outcomes, anatomical classifications, and an analysis of the various components of the system such as bronchi, alveoli, and the tracheobronchial tree. The document is likely a presentation or lecture notes, not an exam paper.

Full Transcript

Respiratory System
ANAT2241: Histology

JOYCE EL-HADDAD

[email protected]
@orientatewithjoyce

Lecture Outline
• Function and structure of the respiratory system
• Tracheobronchial tree
• Histology of the respiratory system

Learning Outcomes:
LO1. To understand the function and components of
respiratory system
LO2. To understand the histological features of the upper
and lower respiratory tract
LO3. To understand the histological architecture of
bronchial tree
LO4. To understand the differences between bronchi and
bronchioles
LO5. To understand the types of cells in alveoli

Textbook reference: Netter’s Essential Histology

Overall Function of the Respiratory System
The gas exchange: CO2 and O2 btw the organism and the
external environment.

LO1. To understand the function and components of respiratory system

The respiratory system – Anatomical
Classification
Anatomical divisions:
• The upper respiratory tract: nose, pharynx and associated
structures;
• The lower respiratory tract: larynx, trachea, bronchi and
lungs.

LO1. To understand the function and components of
respiratory system

Anatomical vs Functional Classification
Anatomical Classification:
• The upper respiratory tract: nasal
cavity, pharynx and associated
structures;

Functional Classification:
• Conductive portion: filtering,
humidifying, & moistening the air.
When you hear the word ‘moist’

• The lower respiratory tract: larynx,
trachea, bronchi and lungs.

• Respiratory portion: site of gas
exchange.

LO1. To understand the function and components of respiratory
system

Respiratory Epithelium
o

Respiratory epithelium lines most the nasal cavities, and conducting portion of
the respiratory system

o

Respiratory epithelium = Pseudostratified Ciliated Columnar Epithelium

o

There are 5 major types of cell in respiratory epithelium:
1)

Ciliated Columnar cells (~250 cilia on each cell)

2)

Goblet cells – mucous production

3)

Brush cells (chemosensory receptors) – columnar cells with blunt microvilli (very
few)

4)

Small granule cells - endocrine function

5)

Basal cells - function?

• Location:
Ø
Ø
Ø
Ø

Most of the nasal cavity – nasopharynx
Paranasal sinuses
Most of the larynx
Trachea

Nasal Cavity
• The pseudostratified ciliated columnar
epithelium of the mucous membrane has
abundant, unevenly distributed mucussecreting goblet cells. Many branched
seromucous glands extend into the underlying
lamina propria and are connected to the
surface via small ducts.
• In the lamina propria are large venous
plexuses. Their major role is to warm inspired
air via heat exchange.

336

Respiratory System

Low-magnif
nasal concha. R
externally and is i
lumen (*). Its cen
contains several t
trabeculae (B). A
drained by a duct
100×. H&E.

*

B
V

*

LARYNX- a short passage for air between the pharynx and the trachea

•
•
•

Vestibular fold: Respiratory epithelium
Vocal cord (VC): Nonkeratinized stratified squamous
epithelium Vocal ligament: elastic connective tissue
Vocalis muscle (VM): large bundles of striated fibers

Tracheo-Bronchial Tree
Trachea > Primary bronchi >
Secondary (lobar) bronchi >
Tertiary (segmental) bronchi >
Bronchioles > Terminal
bronchioles > Respiratory
bronchioles > Alveolar ducts >
Alveolar sacs > Alveoli*

*Purple = conducting portion
Pink = Respiratory portion

LO3. To understand the histological architecture of
bronchial tree

Trachea:
1. Mucosa:
- Epithelium: Lined with typical respiratory
epithelium
- Lamina propria (LP)

1. Lumen 1

2. Submucosa:
- Slightly denser CT than LP
- Seromucous glands
3. Musculo-cartilaginous layer:
- A series of C-shaped hyaline cartilage rings
- Trachealis muscle
4. Adventitia:
- Connective tissue that binds trachea to
adjacent structures

Tracheo-Bronchial Tree
Trachea > Primary bronchi >
Secondary (lobar) bronchi >
Tertiary (segmental) bronchi >
Bronchioles > Terminal
bronchioles > Respiratory
bronchioles > Alveolar ducts >
Alveolar sacs > Alveoli*

*Purple = conducting portion
Pink = Respiratory portion

LO4. To understand the differences between bronchi and
bronchioles

Bronchi

1. Mucosa:
- Epithelium: Lined with typical respiratory
epithelium
- Lamina propria (LP) + lymphatic tissue
2. Muscularis
- Smooth muscle and elastic fibers

Lumen 1
1. Lumen

3. Submucosa
- Slightly denser CT than LP
- Seromucous glands
4. Cartilaginous:
- Discontinued hyaline cartilage plates
5. Adventitia:
- Connective tissue that binds bronchi to
adjacent structures

LO4. To understand the differences between bronchi and
bronchioles

Respiratory System

343

Schematic section of a large bronchus.
Ciliated columnar epithelium with numerous goblet cells
Basal cells lined up on basement membrane
Lamina propria with elastic fibers, blood vessels, and lymphatics
Smooth muscle
Submucosal glands
Nerve fascicle
Hyaline cartilage plate surrounded by perichondrium
Blood vessels
Lymph vessel

*
SD

RE

SM

MA

HC

LM section of the wall of a bronchus. Ciliated respiratory epithelium (RE) lines the lumen (*). Smooth muscle (SM) is in the underlying lamina propria.
A plate of hyaline cartilage (HC) is situated on the outer aspect of the airway. A seromucous gland appears to the right. 300×. H&E.

LO4. To understand the differences between bronchi and
bronchioles
LM of a bronchial seromucous gland. It contains pale-stained mucous acini (MA), darkly stained serous demilunes (SD), and flattened myoepithelial

Tracheo-Bronchial Tree
Trachea > Primary bronchi >
Secondary (lobar) bronchi >
Tertiary (segmental) bronchi >
Bronchioles > Terminal
bronchioles > Respiratory
bronchioles > Alveolar ducts >
Alveolar sacs > Alveoli*

*Purple = conducting portion
Pink = Respiratory portion

LO4. To understand the differences between bronchi and
bronchioles

Bronchioles
o

Bronchioles lack mucosal glands and
cartilage

o

Larger bronchioles are lined with
respiratory epithelium

o

Smaller, terminal bronchioles lined with
either simple ciliated columnar/cuboidal
epithelium

Mucociliary escalator
LO4. To understand the differences between bronchi and
bronchioles

Terminal Bronchioles
- Thin, incomplete circular layer of smooth muscle
- No cartilage
- Functionally, the last part of the conducting portion
- Epithelium consists of simple ciliated cuboidal cells
and club cells

CLUB CELLS:
- Non ciliated, apical end of the cells are dome
shaped and their cytoplasm contains
secretory granules
- Function:
i. Secretion of surfactant, and mucin.
ii. Detoxification of xenobiotic compounds
iii. Immune defense
LO4. To understand the differences between bronchi and
bronchioles

Respiratory Bronchioles
- Presence of alveoli in the wall of the

respiratory bronchioles; always include
saclike alveoli
- Epithelium:
• Ciliated cuboidal cells
• Club cells
• Simple squamous cells at the alveolar
openings and extending into the alveolus

LO4. To understand the differences between bronchi and
bronchioles

Tracheo-Bronchial Tree
Trachea > Primary bronchi >
Secondary (lobar) bronchi >
Tertiary (segmental) bronchi >
Bronchioles > Terminal
bronchioles > Respiratory
bronchioles > Alveolar ducts >
Alveolar sacs > Alveoli*

*Purple = conducting portion
Pink = Respiratory portion

LO4. To understand the differences between bronchi and
bronchioles

Alveolar Ducts & Sacs
Alveolar Ducts:
- simple cuboidal and thin
squamous epithelium as you
move towards sacs
Alveolar Sacs:
- Squamous cells and abundance
of elastic and reticular fibers
- Prominent network of capillaries

Alveoli
Saclike evaginations
• Responsible for the spongy
structure of the lungs
• Each adult lung has
approximately 200 million
alveoli
Cells:
1- Type I alveolar cells (or type I
pneumocytes)
2- Type II alveolar cells (type II
pneumocytes or septal cells)
3- Alveolar macrophages (dust
cells)

Type I alveolar cells (or type I pneumocytes)
348

• Make up about 95% of the
alveolar lining
• Have tight junctions that
prevent the leakage of
tissue fluid into the alveolar
air space

Respiratory System

LM of the parenchyma
lined by flattened type I pneu
nuclei, and cuboidal type II p
euchromatic nuclei. Pulmona
erythrocytes traverse the inte
macrophages (dust cells, DC
ingested particulate matter. A
vein (PV) has a thin wall and
pulmonary capillaries. 675×

PV
PC

II

DC
I

Schematic of alveoli a

Alveolar dust ce

DC

*

II
Alveolus
(airspace)

WBC

*

RBC
I

Type I cell with
tight junctions

10 µm

Type II alveolar cells (type II pneumocytes or septal
348
Respiratory System
cells)
•

Cuboidal cells bulging into the air space

•

Synthesises and releases pulmonary surfactant

•

Lowers surface tension at the air-epithelium interface
and helps prevent alveolar collapse at exhalation

•

Allows alveoli to be inflated with less inspiratory force,
easing the work of breathing

•

Cell nuclei are more euchromatic relative to Type I
pneumocyte – why?

PV
PC

II

LM of th
lined by flatt
nuclei, and c
euchromatic
erythrocytes
macrophage
ingested par
vein (PV) ha
pulmonary c

DC
I

*

Schema

DC

II

348

Respiratory System

Alveolar macrophages (dust cells)
•
•

LM of the parenchyma of the lung. Pulmonary alveoli are
lined by flattened type I pneumocytes (I), with darkly stained
nuclei, and cuboidal type II pneumocytes (II), with more
euchromatic nuclei. Pulmonary capillaries (PC) filled with
erythrocytes traverse the interalveolar septa. Alveolar
macrophages (dust cells, DC) are clearly seen after they have
ingested particulate matter. A small branch of the pulmonary
vein (PV) has a thin wall and collects venous blood from the
pulmonary capillaries. 675×. H&E.

PV

PC

Found in alveoli and in the interalveolar septum
II

PV
PC

II

Active alveolar macrophages can often be
distinguished from type II pneumocytes because
they are slightly darker due to their content of dust
and carbon from air andDCcomplexed iron
(hemosiderin)
from erythrocytes
I

DC
I

Schematic of alveoli and interalveolar septum.
Alveolar dust cell

Type II cell

DC

*

Capillary

II

Alveolus
(airspace)

DC

*

Alveolus
(airspace)

WBC

II

*
Capillary

RBC
I

Type I cell with
tight junctions

Interalveolar septum

WBC
RBC

10 µm
EM of the alveoli of the lung. Red (RBC) and white (WBC) blood cells occupy lumina of pulmonary capillaries, which travel in interalveolar septa.
Alveolar spaces (*) are lined by type I pneumocytes, which are best seen in the region of their elongated nuclei, and type II pneumocytes (II). Alveolar
macrophages (dust cells, DC) in the interstitium are recognizable by their content of lysosomes. The area delineated by the rectangle is seen at higher
magnification in Fig. 15.16. 1000×. (Courtesy of Dr. B. J. Crawford)

I

*