1. Chapter 25 Respiratory System

2. Upper respiratory tract
Fig. 25.1
Upper respiratory tract
Sinuses
Nasal cavity
Pharynx
Lower respiratory tract
Larynx
Trachea
Bronchi
Lungs
Sphenoidal sinus
Frontal sinus
Nasal cavity
Upper
respiratory
tract
Pharynx
Larynx
Trachea
Lower
respiratory
tract
Bronchi
Lungs
Pleura
Diaphragm

3. Conducting portion transports air
Fig. 25.1
Conducting portion transports air
Nose, nasal cavity, pharynx, larynx, trachea, airways
Respiratory portion does gas exchange
respiratory bronchioles, alveolar ducts, alveoli (air sacs)
Sphenoidal sinus
Frontal sinus
Nasal cavity
Upper
respiratory
tract
Pharynx
Larynx
Trachea
Lower
respiratory
tract
Bronchi
Lungs
Pleura
Diaphragm

4. External Respiration Internal Respiration
Exchange of gases between atmosphere and blood
inhalation of air
diffusion into blood
Exchange of gases between blood and cells of the body
transport from lungs to body and back

5. Other Functions Gas conditioning Sound production Olfaction Defense
warming
humidifying
cleansing of particulates
Sound production
Olfaction
Defense

6. Lungs surrounded by pleura
Fig
Lungs surrounded by pleura
simple squamous epithelium called mesothelium
Outer surface is parietal pleura
Inner surface (contact with lung) is visceral pleura
Pleural cavity divides pleural layers, has thin layer of fluid
Parietal pleura
Visceral pleura
Pleural cavity
Parietal pleura
Pleural cavity
Visceral pleura
Diaphragm

7. Fig. 25.11 Apex Superior lobe Horizontal fissure Oblique fissure
Middle lobe
Cardiac notch
Inferior lobe
Lingula
Base
Right lung
Left lung
(a) Lateral views

8. Fig. 25.11 Apex Superior lobe Oblique fissure Pulmonary artery
Main bronchus
Hilum
Pulmonary veins
Root of the lung
Horizontal
fissure
Cardiac impression
Middle lobe
Cardiac notch
Inferior lobe
Oblique fissure
Oblique
fissure
Base
Lingula
Right lung
Left lung
(b) Medial views

9. Nasal cavity includes nasal conchae (bony ridges)
Fig. 25.2
Superior nasal concha
Superior meatus
Middle nasal concha
Middle meatus
Nasal
cavity
Nasal
cavity
Inferior meatus
Inferior nasal concha
Vestibule
Nostril
Hard palate
Nasal cavity includes nasal conchae (bony ridges)
Divide nasal cavity into 3 air passages called nasal meatus
Create turbulence, slow air passage, ensure air is warmed and humidified
Vestibule is area behind nostrils

10. Hard palate is bottom of nasal cavity
Fig. 25.2
Superior nasal concha
Superior meatus
Middle nasal concha
Middle meatus
Nasal
cavity
Nasal
cavity
Inferior meatus
Inferior nasal concha
Vestibule
Nasal cavity is lined with pseudostratified ciliated columnar epithelium with goblet cells
produce mucus
highly vascularized
Nostril
Hard palate
Hard palate is bottom of nasal cavity
Nasal septum divides right and left sides

11. Paranasal sinuses named for bone
Fig. 25.2
Frontal sinus
Paranasal sinuses named for bone
frontal sinus housed in frontal bone
sphenoidal sinus housed in sphenoid bone
maxillary sinuses housed in maxillary bone
Paranasal
sinuses
Sphenoidal sinus

12. Fig. 25.3 Frontal Ethmoidal Sphenoidal Maxillary
Copyright © McGraw-Hill Education. Permission required for reproduction or display.
Frontal
Ethmoidal
Sphenoidal
Maxillary

13. Pharynx = throat divided into 3 parts
Fig. 25.2
Pharynx = throat
divided into 3 parts
pathway for food and air until epiglottis
Nasopharynx usually for air only
soft palate blocks food from mouth
lined with pseudostratified ciliated columnar epithelium
Oropharynx pathway for air and food
lined with non-keratinized stratified squamous epithelium
Laryngopharynx extends from hyoid bone to larynx and esophagus
(b) Regions of pharynx
Pharynx:
Nasopharynx
Oropharynx
Laryngopharynx

14. Auditory tube opens into nasopharynx
Soft palate lifts to block passage of food to nasal cavity during swallowing
Fig. 25.2
Opening of auditory tube
Soft palate
Uvula
Nasopharynx
Pharynx
Oropharynx
Laryngopharynx
Palatine tonsil
Lingual tonsil

15. Tonsils provide first line of defense in immune system
Fig. 25.2
Tonsils provide first line of defense in immune system
Pharyngeal tonsil
Nasopharynx
Pharynx
Oropharynx
Laryngopharynx
Palatine tonsil
Lingual tonsil

16. Epiglottis flips down during swallowing to cover opening to trachea
Food passes down esophagus
Fig. 25.2
Nasopharynx
Pharynx
Oropharynx
Laryngopharynx
Epiglottis
Esophagus
Thyroid cartilage
Larynx
Trachea
Cricoid cartilage

17. Larynx is voice box Air passage Produces sound Fig. 25.2 Epiglottis
Thyroid cartilage
Cricoid cartilage

18. Opening to larynx is laryngeal inlet 9 pieces of cartilage
Fig. 25.4
Opening to larynx is laryngeal inlet
9 pieces of cartilage
held in place by ligaments and muscles
Thyroid cartilage is largest
front has v-shaped projection called laryngeal prominence
creates Adam’s apple
Epiglottis
Hyoid bone
Thyrohyoid membrane
(extrinsic)
Thyroid cartilage
Thyrohyoid muscle (extrinsic)
Laryngeal prominence
Cricothyroid muscle
(extrinsic)
Cricoid cartilage
Cricotracheal ligament (extrinsic)
Trachea
(a) Anterior view

19. Kept open by tracheal cartilage rings
Fig. 25.6
Trachea = windpipe
Kept open by tracheal cartilage rings
C-shaped
connected by ligaments
open ends connected by trachealis muscle and elastic, ligamentous membrane
pushes against trachea during swallowing
contracts during coughing; decreases diameter of trachea, increases speed of airflow
Esophagus
Larynx
Thyroid cartilage
Cricoid cartilage
Trachea
Tracheal cartilage
Anular ligament
Right main
bronchus
Left main
bronchus

20. Tracheotomy Trachea Thyroid cartilage Tracheotomy tube Cricoid
gland
Scalpel
Incision
Suprasternal
notch
Sutures 1
Incision is made superior to suprasternal notch. Thyroid may have to be cut as well. 2
Retractors separate the tissue, and an incision is made through the third and fourth tracheal rings. 3
A tracheotomy tube is inserted, and the remaining incision is sutured closed.

21. Trachea cross-section
Fig. 25.6
Posterior
Esophagus
Trachea cross-section
Lined with pseudostratified ciliated columnar epithelium
goblet cells secrete mucin
cilia propels mucus and dust toward larynx and pharynx for swallowing
Trachealis muscle
Lumen of trachea
Mucosa
Submucosa
Tracheal cartilage
LM 8x
Anterior

22. Trachea cross-section
Mucosa
Trachea cross-section
Fig. 25.6
Pseudostratified
ciliated columnar
epithelium
Lamina
propria
LM 8x
Anterior
Posterior
Submucosa
Mucosa
Lumen of trachea
Trachealis muscle
Esophagus
Tracheal cartilage
Basement
membrane
Submucosa
Mucus
Lumen
(d)
Lined with pseudostratified ciliated columnar epithelium
goblet cells secrete mucin
cilia propels mucus and dust toward larynx and pharynx for swallowing

23. Trachea splits at sternal angle into left and right main bronchi
Fig. 25.6
Right main
bronchus
Left main
Carina (internal
projection)
Trachea
Trachea splits at sternal angle into left and right main bronchi

24. Fig. 25.7 Main bronchi Lobar bronchi Larynx Segmental bronchi
Smaller bronchi
Larynx
Trachea
(b)
Right main bronchus
Left main bronchus
Right lobar bronchus
Left lobar bronchus
Right segmental bronchus
Left segmental bronchus
Smaller bronchi
Smaller bronchi

25. Bronchi branch into bronchioles
Fig. 25.8
Bronchiole
Bronchi branch into bronchioles
lined with simple columnar or cuboidal epithelium
no cartilage in walls
smooth muscle around walls causes bronchoconstriction/ bronchodilation
Terminal bronchioles are end of conducting pathway
Branch of
pulmonary artery
Terminal bronchiole
Respiratory bronchiole

26. Asthma causes bronchial constriction Treatment is inhaled steroids
Page 769
Asthma causes bronchial constriction
Treatment is inhaled steroids
Swollen submucosa
Mucus
Mucosa
Mucosa
Narrowed airway
Submucosa
Extra mucous
secretion
Normal airway
Airway during an asthma attack

27. Terminal bronchioles branch into respiratory bronchioles
branch into smaller bronchioles
divide into alveolar ducts
lined with simple squamous epithelium
each ends in alveolar sac
Fig. 25.8
Bronchiole
Branch of
pulmonary artery
Terminal bronchiole
Pulmonary
arteriole
Respiratory bronchiole
Pulmonary
capillary
beds
Alveolar duct
Branch of
pulmonary vein
Alveoli
Alveolar pores
Pulmonary
venule
Interalveolar
septum
Alveolar sac
Elastic fibers
Connective tissue

28. Each alveolus is ¼ to ½ mm diameter Thin wall promotes gas diffusion
Alveolar pores are holes between adjacent alveoli
promote gas diffusion
Fig. 25.8
Bronchiole
Branch of
pulmonary artery
Terminal bronchiole
Pulmonary
arteriole
Respiratory bronchiole
Pulmonary
capillary
beds
Alveolar duct
Branch of
pulmonary vein
Alveoli
Alveolar pores
Pulmonary
venule
Interalveolar
septum
Alveolar sac
Elastic fibers
Connective tissue

29. Fig. 25.8 Respiratory bronchiole Alveolar sac Terminal bronchiole
ducts
Respiratory
bronchiole
Alveolar
duct
Alveoli
Alveoli
Fig. 25.8
LM 60x
SEM 180x
(b)
(c)

30. Pulmonary capillaries run between alveoli
Fig. 25.9
Pulmonary capillaries run between alveoli
Type I cells promote gas diffusion
Type II cells secrete surfactant
reduces surface tension in fluid lining alveolua
Macrophages consume foreign objects
Erythrocyte
Pulmonary
capillaries
Alveolar type I cell
Alveolar type II cell
Alveolar
macrophages
Alveolar pores
Interalveolar
septum
(a)

31. Fig. 25.9 Nucleus of capillary endothelial cell Nucleus of alveolar
type I cell
Interalveolar
septum
Erythrocyte
Capillary
Diffusion of CO2
Diffusion of O2
Alveolus
Alveolar epithelium
Fused basement membranes
of the alveolar epithelium and
the capillary endothelium
Respiratory
membrane
Capillary endothelium
(b)

32. © Collection CNRI/Phototake
Copyright © McGraw-Hill Education. Permission required for reproduction or display.
Page 764
Left lung
Chest x-ray of a patient with pneumonia in the left lung. A normal lung appears as a black space on an x-ray because its spongy structure is not dense. In contrast, a pneumonia lung appears white or opaque on an x-ray due to accumulation of fluid and cells.
© Collection CNRI/Phototake

33. Page 764 Thickened alveolar walls Fluid and leukocytes in alveoli
Respiratory
bronchiole
Alveolar duct
Alveoli
LM 30x
LM 75x
Normal lung tissues.
Tissues within a lung affected by pneumonia.

34. contain black deposits.
Page 770
Nonsmoker’s lungs: Lungs are pink.
Alveoli are small,
numerous, and
well formed.
Alveoli
Smoker’s lungs: Lungs are blackened.
Alveoli are enlarged,
less numerous, and
contain black deposits.
Enlarged alveolus
Deposits