Respiratory system
Brno, September 2023
Lecture 12
• Functions
• Epithelial lining
• Nasal cavity
• Larynx
• Pharynx
• Trachea
• Lungs + Bronchial tree
• Blood-air barrier
• Development of the respiratory system
Non-respiratory functions:
• synthesis, activation and inactivation of vasoactive substances, hormones, neuropeptides,
eicosanoids, lipoprotein complexes.
• hemostatic functions (thromboplastin, heparin)
• lung defense: complement activation, leucocyte recruitment, cytokines and growth factors
• speech, vomiting, defecation, childbirth
Respiratory system – Functions
Respiratory function
supply of O2 + elimination of CO2
Respiration = overall exchange of gasses between atmosphere and cells
Involves:
• pulmonary ventilation
• gas exchange: External + Internal respiration
• gas transport
Respiratory system – Overall composition
Upper respiratory tract
• nasal cavity
• paransal sinuses
• nasopharynx
• oropharynx
Anatomic Functional
Lower respiratory tract
• larynx
• trachea
• bronchi (extra- + intrapulmonary)
• bronchioles (up to terminal)
• respiratory bronchioles
• alveolar ducts
• alveolar sacs
• alveoles
Conducting portion
Respiratory portion
Conducting portion – General features
Function
• Transport
• Moistening
• Filtering
• Warming
Composition
Bone and/or cartilage
(mechanical support)
Mucosal lining
• Epithelium
• Lamina propria
Conducting portion – Nasal cavity + Paranasal sinuses
Left + Right nasal cavity
(separated by osseous/cartilagineous nasal septum)
Nostril
Superior concha Sphenoid sinus
Internal naris
Nasopharynx
External naris
Frontal sinus
Middle nasal concha
Inferior nasal
concha
Lining of the nasal cavity
Roof +
Superior concha
Nostrils +
Vestibule
Remaing surfaces
Olfactory epithelium Dermis
• keratinizing squamous ep.
• hairs
• sweat + sebaceous glands
• in vestibule transits to airway ep.
Airway mucosa
„respiratory“
Conducting portion – Nasal cavity + Paranasal sinuses
Support: bone and/or cartilage
No submucosa and/or hypodermis
Olfactory region Respiratory region
Nasal cavity - Airway mucosa
= respiratory mucosa – lines most of the conducting
portion of the respiratory system
Respiratory region
Ciliated pseudotratified
collumnar epithelium
(min. 5 types of cells)
Lamina propria mucosae
• loose connective tissue
• arterial and venous plexuses
• many seromucinous glands
• abundant lympoid elements
(nodules, mast cells, plasma cells)
Mucous layer
Basal cells
(stem cells)
Ciliated cells
(most abundant)
Goblet cells
(mucin)
Brush cells
(?chemosensory)
(similar to cells
of taste buds)
Small granule cells (Kulchitsky)
DNES – diffuse neuroendocrine system
Airway mucosa
Vein
Gland
Pseudostartified
epithelium
Airway mucosa – Nasal concha (Concha nasi)
Kisselbach plexus (nose bleeding)
Airway mucosa - Epithelium
Exposure to toxic compounds
Squamous metaplasia
• pseudostratified cilliated collumnar ep. changes to squamous stratified ep.
• may develop into cell dysplasia (precancerous)
Airway mucosa - Epithelium
Ciliated cells
Goblet cell9x2 + 2 microtubuli
Airway mucosa - Mucus
Goblet cell
Mucus
• mainly glycoproteins in water
• ensures moisturing of mucosa and air
• contains IgA immunoglobulins (mucosal immunity)
• traps airborne particles (dust etc)
• helps selfcleaning of the airways
- more watery
- thicker, lubricating
Airway mucosa - Mucus
Airway mucosa - Mucus
Cilia movement drives mucus towards pharynx.
Speed of mucocilliary transport - 5 mm / minute.
Airway mucosa - Mucus
Macrophages in the
mucus layer
Nasal cavity – Vestibule (Vestibulum nasi)
Location: 5 – 6 mm wide zone at the edge of nostrils
Lining: transition of dermis to airway mucosa – hairs with sebaceous glands
Nasal cavity – Olfactory epithelium
Olfactory region
Location:
• roof of the nasal cavity
• superior aspect of nasal septum
• superior concha
Colour: yellow
Size: approx. 7-10 cm2
Nasal cavity – Olfactory epithelium
Pseudotratified
collumnar epithelium
• 70 – 100 mm thick
• 3 types of cells
Lamina propria mucosae
• loose connective tissue
• arterial and venous plexuses
• axons of sensory cells
• Bowman´s glands
(tubular, branched, serous)
Nasal cavity – Olfactory epithelium
Olfactory
cell
Supporting cell
(sustentacular)
Basal cell
• short basophilic
• stem cells to supporting and olfactory
cells (regeneration of neurons !!!)
Basal cell
Olfactory
cell
• bipolar neuron apical aspect – dendrite olfactory
vesicle
• 10-20 nonmotile cilia emerge from one vesicle
• modified cilia contain the odorant receptors
• basal aspect - axon
Supporting cell
(sustentacular)
• striated border - microvilli
• secretory granules
• provide physical support + nourishement
Nasal cavity – Olfactory epithelium
Nasal cavity – Olfactory epithelium
Bone underlying the olfactory region
Unmyelinated
nerve
Large
vein Bowman’s
glands
Nasal cavity – Olfactory epithelium
Flipped upside
down compared
to all previous
pictures
!!!
Axons of
olfactory cells
(Fila olfactoria)
Passage through
the cribriform plate
Synapse with
secondary neurons
in the olfactory bulb
(N. olfactorius)
Nasal cavity – Paranasal sinuses (Sinus paranasales)
• sinus maxillaris (15-25 cm3)
• sinus ethmoidalis
• sinus frontalis
• sinus sphenoidalis
Mucous lining
• similar to airway mucosa
• thinner
• less glands
• no submucosa
Nasopharynx (Pars nasalis pharyngis) + Oropharynx (Pars oralis pharyngis)
Nasopharynx
• pseudostratified cilliated columnar epithelium
• tonsila pharyngea – infiltration of lamina propria by lymphocytes
• entry of Eustachian tube
Oropharynx
• stratified squamous epithelium
Junction of respiratory and digestive tracts
Larynx
Voicebox - responsible for phonation
Larynx – Overall anatomy
Shape of sand-glass
Vestibule
Ventricular folds
(immovable)
Vocal folds
(movable)
Infraglottic cavity
Laryngeal ventricleConstriction = paired folds
Frontal section
Epiglottis
Approx. 4 cm
Larynx – Reinforecement
Cartilages
joint by ligaments and operated by muscles
• Hyaline
• Elastic
Vocal folds
Ventricular folds
Inferior aspect
Superior aspect
Larynx
Ventricular
fold
Vocal
fold
Laryngeal
ventricle
cartilage
cartilage
Epiglottis
Vestibule
Infraglottic
cavity
Larynx – Histology
Ventricular fold (Plica ventricularis)
Vocal fold (Plica vocalis)
Vocal ligament
(elastic)
Vocal muscle
(striated)
No glands !!!
Glands
(seromucous)
Stratified
squamous ep.
Pseudostratified
ciliated collumnar ep.
Larynx – Mucosal lining
Ventricular fold
Vocal fold
Reinke´s oedema
exudate in Reinke´s space
= hoarse voice
Larynx
Transition of epithelia on inferior aspect of vocal fold
Lamina propria mucosae
M. vocalis
Stratified
squamous ep.
Pseudostratified
ciliated collumnar ep.
Larynx - Epiglottis
Lingual surfaceLaryngeal surface
Stratified
squamous ep.
Pseudostratified
ciliated collumnar ep.
Trachea
Conducting portion
Extrapulmonary position
Length approx.: 12 cm
Diameter approx.: 2 cm
• hyaline
• 10 to 12 rings
• C-shaped
Tracheal cartilage
Trachea - Crossection
Annular ligaments
Trachealis
muscle
Tracheal
cartilage
Airway
epithelium
Fibro-musculo-cartilaginous layer
Trachea - Wall
Esophagus
Pseudostratified ciliated collumnar ep.
Tracheal muscle
Trachea
Cartilage
Cartilage
Trachea - Wall
Pseudostratified ciliated collumnar ep.
Perichondrium
Cartilage
Lamina propria mucosae
• fibroelastic connective tissue + lymphoid cells
Submucosa
• thick, dense fibroelastic connective tissue
• numerous seromucous glands – Tracheal glands
• rich blood and lymph supply
Adventitia
• fibroelastic connective tissue
Esophagus
Trachea
Bronchial tree
Primary bronchi – Extrapulmonary
• the same structure as trachea
• smaller diameter then trachea
• accompanied by the pulmonary arteries, veins, and lymphatics
Begins at bifurcation of trachea
Bronchial tree 18 to 25 dichotomic divisions in total
Right lungLeft lung
2 secondary bronchi – 2 lung lobes
(Lobar bronchi)
3 secondary bronchi – 3 lung lobes
(Lobar bronchi)
Tertiary bronchi
(Segmental bronchi)
• total number of 10
• diameter about 8 mm
• further ramification 8x - 10x
Bronchopulmonary segment
• about 10 % of lung
• own vasculature
• enclosed in fibrous capsula
• used in surgery
Medium + Small bronchi
• diameter down to 1 mm
• cartilage in their wall
Primary bronchioles
• diameter about 1 mm
• no cartilage
• one PB serve one pulmonary lobule
Terminal bronchioles
• 5 – 7 TB branched from one PB
• diameter about 0,5 mm
Pulmonary lobule
• pyramidal shape
• surrounded by very thin fibrous capsule
• volume 1 – 2 cm3
DO
NOT
MIX
!!!
Bronchi
macroscopic picture
Bronchial tree – Bronchi (Lobar to Small)
Diametr of bronchi
• elastic fibres
• smooth muscle
• cartilage
• glands
• goblet cells
• height of epithelium
Mucosa
• typical airway epithelium (or bilayered
collumnar)
• elastic fibers in lamina propria
• bronchial glands in LP
• BALT in LP (bronchi-associated
lymphoid tissue)
Submucosa
• contains fewer glands
• discontinuous layer of smooth muscle
separates from lamina propria mucosae
• muscle becomes more prominent in
smaller size bronchi
Fibrocartilaginous layer
• cartilaginous plates
Bronchus – Cartilaginous plates
Trachea
Bronchus
Bronchus - Intrapulmonary
CP
CP
CP
CP
Bronchus - Intrapulmonary
Bronchus - Intrapulmonary
Bronchioles - Primary + Terminal – General features
Wall
• mucosa + muscle layer (bundles) + elastic and
colagen fibers
• NO cartilage
• NO glands
Epithelial lining
• simple collumnar to simple cuboidal ep.
• many epithelial cells have cilia
• NO Goblet cells
• Club cells (formerly Clara cells)
Club cells
• dome-shaped
• apex with microvili
• secretions
(antimicrobials, surfactant-like material)
• P450 enzyme (detoxification)
• stem cells to the area
Bronchiole
Alveole
Alveole
Alveole
Alveole
Bronchiole
Alveoli
Alveoli
Bronchiole
Blood
vessel
Epithelium
Collagen fibers
Muscle bundles
Respiratory portion
Respiratoryportion
REMINDER
Pulmonary lobule
• defined by ONE primary bronchiole
• Include 5 to 7 Terminal bronchioles
• pyramidal shape
• surrounded by very thin fibrous capsule
• volume 1 – 2 cm3
Terminal bronchiole
NO alveoli
Respiratory bronchiole
Outpocketing alveoli
Respiratory portion
Alveolar duct - wall made by:
• groups of cuboidal cells
• individual alveoli
• elastic fibers
• smooth muscle cells surrounding alveolar entries
Atrium
entry into alveolar sac
Alveolar sac
group of alveoles opened
into common atrium
Respiratory portion
Respiratory portion
Respiratory portion
NO alveoli
Some
alveoli
Terminal bronchiolus – NO connection into alveoli
Terminal bronchiolus
Alveolus
Alveolus
Alveolus
Alveolus
Alveolus
Respiratory bronchiolus – openings into alveoli
Respiratory bronchiolus
AD - Alveolar duct AS – Alveolar sac A - Alveolus V – Vein PA – Perialveolar artery
Alveoli
Features
• diameter approx. 200 mm
• total number approx. 300 millions
• total surface about 100 – 140 m2
• interalveolar septa (elastin + type III collagen)
• alveolar pores (Kohn´s; 8 – 60 mm diameter)
Continuous capillaries
Place of gas exchange
Alveoli
Elastic fibers Capillary
Alveolar macrophage – „dust cell“
• migratory
• some migrate up to pharynx and get swallowed/expectorated
• some migrate via lymph vessels
• some become resident in lungs
Type I Pneumocyte
(membranous)
• very flat – about 80 nm thickness
• occluding junctions
• about 95% of alveolar surface
Type II Pneumocyte
(granular)
• cuboidal (10 mm)
• more numerous than type I pneumocytes
• lamellar bodies – surfactants SP-A, -B, -C, -D
• stem cells to alveolar lining (type I and II pneu.)
RDS (Respiratory Distress Syndrome of neonates)
lack of surfactants in premature born - collapse of alveoli
Alveoli - Surfactant
Cytoplasm of type I pneumocyte
Lumen of alveolus
Alveoli - Surfactant
Surfactant
Alveoli – Macrophages
Macrophages
Alveoli – Interalveolar septum
Alveoli – Blood-Air barrier
Thickness: 0,1 – 1,5 μm
Exchange of gasses: passively by diffusion based on gradient
Nucleus of
endothelial cell
Surfactant layer
Type I pneumocyte
Fused basal laminae
Endothelium
Alveoli – Blood-Air barrier
I - Type I pneumocyte II - Type II pneumocyte Alv - Alveolus Cap - Capillary Mac - Macrophage
ac
ac
ac
ap
ap
ap
lv
lv
lv
lv
Alveoli – Blood-Air barrier
Capilaries
Type II pneumocyte
Alveoli – Blood-Air barrier
Erythrocyte
Pleura
Sheet that lines pleural cavities (left and right)
Visceral pleura – covers the lungs
Parietal pleura – lines cavity wall
Visceral pleura
Parietalal pleura
Pleura
Mesothelium (simple squamous ep.)
Connective tissue (about 1 mm)
Blood supply
Pulmonary circulation
„functional“
Bronchial circulation
„nutritive“
Pulmonary artery Bronchial artery
Bronchial capilaries
Pulmonary vein
Tertiary bronchus
Bronchopulmonary segment
Lung development
Endoderm
• epithelium
• glands
Mesenchyme
• connective tissue
• cartilage
• muscles
Early week 4: Respiratory (laryngotracheal) diverticulum of the foregut (ventral aspect)
Lung development
Late
week 4
Early
week 4
Early
week 5
Intricate interactions with the surrounding mesoderm
Internal aspect of the ventral
wall of the pharynx
Esophagotracheal
ridges
Esophagotracheal
septum
Lung development
• Lumen first obliterate and then recanalize
• Pharyngeal ventricle + Ventricular and Vocal plicas develop
• Pharyngeal cartilages + Ligaments + Muscles develop (from 4. and 6. pharyngeal arch)
Inside aspect of the ventral
wall of the pharynx
week 12week 6
Lung development – Further branching of bronchi
Late
week 6
Late
week 5
Late
week 8
Before birth - 18 x
Total number of branchings
After birth - 7x
until 8 years of age
Lung development – Development of pleuro-pericardial folds
• by subsequent growth in caudal and lateral directions, the bronchial buds penetrate into primitive pleural cavities
• the splanchnic mesoderm, which covers the outside of the lung, is transformed into the visceral pleura
• the somatic mesoderm, covering the body wall from the inside, becomes the parietal pleura
• the space between the parietal and visceral pleura is the pleural cavity
Lung development – Lung histogenesis (maturation)
Pseudoglandular period (week 5 to 17)
• terminal bronchioles are formed
• blindly ended terminal bronchioles - resemble gland
• cuboidal epithelial lining (endodermal)
• NO respiratory bronchioles and/or alveoli
Canalicular period (week 13 to 25)
• development of respiratory bronchioles, sacs, and vascularisation
• respiration and survival is possible but only with intensive care
• still severe non-maturity
Terminal sac period (week 24 to birth)
• considerable increase of terminal sacs and alveoli with
well differentiated pneumocytes
• sufficiently formed blood-air barrier
• since week 26 - survival without intervention is possible
(fetal weight about 1000 g)
Alveolar period (week 32 – 8 years)
• longest period
• development of lungs becomes finalized
Thank you for your attention !
ahampl@med.muni.cz
Building A1 – 1st floor