Respiratory System I PDF Lecture Notes

Summary

This document details lecture notes on the respiratory system, covering both its anatomy and physiology, with specific lecture objectives and diagram illustrations. The anatomical sections include the nose, pharynx, larynx, trachea, bronchi, bronchioles, alveoli, and associated structures. Functions, modifications, and associated structures of the respiratory system are all described and illustrated.

Full Transcript

Anatomy &Physiology for Health Science I
Block 3 |Lecture 12

Respiratory System I

Dr Ali Drigo
[email protected]
Department of Anatom ical Sciences

School of Medicine, St. George’s University
 Lecture Objectives
1. List the organs of the respiratory system. a) Identify the vestibular and vocal folds

a) Differentiate between the upper and lower respiratory system. b) Identify and describe the actions of the muscles of the larynx

b) Differentiate between the conducting and respiratory zones of c) Describe how they interact to produce phonation.
the respiratory system.
6. Describe the gross anatomy and function of the trachea.
2. Describe the gross anatomy and functions of the nose. Outline the branching of the bronchial tree and respiratory
7.
a) Describe the nasal cavity. zone and describe the anatomical changes that happen as
b) Describe the components of the nasal septum. this branching occurs.
c) Identify and describe the function of the nasal conchae and
choanae. 8. Briefly describe respiratory epithelium and the changes of
epithelium within the entire respiratory system.
d) Describe the paranasal sinuses and their drainage.

3. Describe the gross anatomy and function of the pharynx.
10. Describe the structure of alveolar sacs and individual
4. Describe the gross anatomy and function of the larynx.
alveoli.
a) List the cartilages of the larynx.
a) List the cells of alveoli and their function.
b) Identify the epiglottis, the glottis and rima glottis.

5. Describes the structures involved in voice production.
Introduction to the Respiratory system
Respiration
Exchange of gases
— at the respiratory membrane

Regulate blood pH balance
(homeostasis)
Other
Special senses (Smell)
Condition + filter of inspired
air
Phonation (larynx)
Excretion (water, heat)
 Organs of the respiratory system

Figure 19.1 Histology: A Text and Atlas, 8ed © 2020 Wolters Kluwer
Structural division of the respiratory system
Upper Respiratory System
Nose
Nasal Cavity
Pharynx
Associated structures

Lower Respiratory System
Larynx
Trachea
Bronchi
Lungs
Functional division of the respiratory system
Conducting Zone/ Portion Respiratory Zone/ Portion
Filter, warm, moisten + deliver Main site of gas exchange
air to the lungs between air and blood
Nose & Nasal cavity Respiratory bronchioles
Pharynx (throat) Alveolar ducts
Larynx (voice box) Alveolar sacs
Trachea (windpipe) Alveoli
Bronchi
Bronchioles
Terminal bronchioles

Figure 23.8b Principles of Anatomy and Physiology, 16ed © 2021 John Wiley & Sons
Upper Respiratory Tract
Nose, Nasal cavity, Pharynx, and
associated structures.

Lined by:
Olfactory epithelium
Respiratory epithelium (pseudo‐ stratified
ciliated columnar with goblet cells) [RE]
Stratified squamous nonkeratinized epithelium
[SSE]

The walls have modifications which
serve to condition the air.
 Nose External nose
Structure
Visible portion
Framework: bone, hyaline cartilage
— Keep nasal cavity patent
Covering: skin, muscle, mucous
membrane
Nostrils (external nares) open into
the nasal vestibule

Functions
1. Warm, moisten, filter air
2. Detect olfactory stimuli
3. Modify speech vibrations
Figure 23.3a Principles of Anatomy and Physiology, 16ed © 2021 John Wiley & Sons
 Nasal Cavity Internal Nose
Between nasal bone + hard palate
Lined by muscle and mucous membrane
Drains Paranasal sinuses and nasolacrimal ducts
o Moistens air

Anterior: Nasal vestibule
— Cavity just inside the nostrils (external nares)
— Surrounded by cartilage; Lined by skin
— Coarse hairs – filter out large dust particles

Posterior: Choanae
— Communicates with pharynx: Choanae (internal
nares)

Superior: Olfactory region (smaller)

Inferior: Respiratory region (larger)

Medial: Nasal Septum

Lateral: Ethmoid, maxillae, lacrimal, palatine,
inferior nasal conchae bones (Turbinates)
Figure 23.3b Principles of Anatomy and Physiology, 16ed © 2021 John Wiley & Sons
 Nasal Cavity
Superior: Olfactory region
(smaller)
Roof – Ethmoid bone
Surrounded by bone
Lined by Olfactory epithelium
―Olfactory sensory neurons
―Supporting epithelial cells
―Basal epithelial cells
―Cilia; no goblet cells

FYI IMAGE

Figure 19.3 Histology: A Text and Atlas, 8ed © 2020 Wolters Kluwer
 Nasal Cavity
Inferior: Respiratory region
(larger)
Floor – palatine and maxillae bones
(hard palate)
Lined by respiratory; Pseudostratified
ciliated columnar epithelium with
goblet cells.
―Goblet cells: secrete mucous
o Moistens air
o Traps dust particles
―Ciliated columnar cells
o Move mucus and trapped dust particles
toward pharynx
―Underlying mucosa
o Capillaries warm air

Table 4.1 Principles of Anatomy and Physiology, 16ed © 2021 John Wiley & Sons
Nasal Septum
Vertical partition
Separates the cavity into
left + right

Anteriorly: hyaline
cartilage

Posteriorly: vomer,
ethmoid, maxillae,
palatine bones

Visible shelf- like
projections called
conchae (turbinates).
Figure 7.11 Principles of Anatomy and Physiology, 16ed © 2021 John Wiley & Sons
 Review: Paranasal Sinuses
Structure
Cavities within certain skull
bones
Frontal, Sphenoid, Ethmoid,
Maxillae
Lined by mucus membranes
Continuous with lining of nasal
cavity
Secretions drain into nasal
cavity

Functions
Increase surface area of
nasal mucosa
Help moisten and clean air
Resonance chambers –
enhance phonation

Figure 7.9e; 7.13a, b, & c Principles of Anatomy and Physiology, 16ed © 2021 John Wiley & Sons
 Nasal Conchae/ Turbinates
Paired, scroll-shaped projections
Extend from lateral wall into nasal
cavity
Lined by mucous membranes

Superior conchae
— Projection from Ethmoid bone
— Olfactory receptors terminate in
mucosa
— Increases surface area for smell

Middle conchae
— Projection from Ethmoid bone

Inferior conchae
— Separate facial bone

Figure 7.9a; 23.3a Principles of Anatomy and Physiology, 16ed © 2021 John Wiley & Sons
 Nasal Conchae/ Turbinates
Subdivide nasal cavity into air
passageways – meatuses
Superior meatus
Middle meatus
Inferior meatus

Functions
Increase vascular and mucosal
surface area
Cause air to swirl
Inhalation:
— Humidify (warm + moisten) air
— Filter/cleanse air (trap dust
particles)
Exhalation:
— Trap water droplets to prevent
dehydration
Sense of smell
— ONLY Superior Nasal Conchae

Figure 23.3d Principles of Anatomy and Physiology, 16ed © 2021 John Wiley & Sons
 Hyoid Bone
Axial skeleton
U-shaped
Articulates with
ligaments and
muscles
Attachment sites for
several muscles
Tongue
Neck
Pharynx

Figure 7.15a Principles of Anatomy and Physiology, 16ed © 2021 John Wiley & Sons
Pharynx Funnel-like muscular tube
Extends from Choanae to cricoid
cartilage (larynx)
Measures about 13cm (5 inches)
Subdivided into 3 regions
Nasopharynx
Oropharynx
Laryngopharynx

Lined by stratified squamous
nonkeratinized epithelium
Two layers of skeletal muscle:
Inner longitudinal/outer circular
Relax – patent/ Contract - swallowing

Function
Passageway for air/ food particles
Resonance during phonation
Protection - presence of tonsils
 Pharynx Nasopharynx
Posterior nasal cavity to tip of uvula (soft palate)
Posterior wall – Pharyngeal tonsil (adenoid)
Five openings:
2 from internal nares (choanae)
2 from pharyngotympanic (Eustachian) tubes
1 from oropharynx
Receives air, dust laden mucus from nasal cavity
Equalize air pressure (tympanic cavity and atmosphere)
Respiratory epithelium

Oropharynx
Tip of uvula to upper part of epiglottis
The palatine and lingual tonsils.
1 opening from mouth
Common passageway for air, food and drink
Stratified squamous nonkeratinized epithelium

Laryngopharynx
Hyoid bone to the lower border of cricoid cartilage
Two openings:
Esophagus posteriorly
Larynx anteriorly
Performs both digestive and respiratory function
Respiratory + Stratified squamous non keratinized epithelium

Figure 23.3b Principles of Anatomy and Physiology, 16ed © 2021 John Wiley & Sons
Lower Respiratory tract
Larynx, Trachea, Bronchi,
Lungs, and alveoli.

Lined by Respiratory
epithelium

Contains structures that
function in conduction and
gas exchange
 Larynx
Also known as the voice box
Midline, anterior neck
Connects laryngopharynx
to trachea
Anterior to esophagus
From C4 to C6 vertebrae
Composed
Cartilages (9)
Cavity
Vocal folds (2)
Muscles

Figure 23.2a Principles of Anatomy and Physiology, 16ed © 2021 John Wiley & Sons Fig 8.215 © 2020 Elsevier Ltd. Drake et al: Gray’s Anatomy for Students, 4ed
www.studentconsult.com
 Laryngeal cartilages

Three (3) Paired Arytenoid Cartilage
Arytenoid, Corniculate, Cuneiform Most important of paired cartilages
Three (3) Unpaired Wide range of mobility
Thyroid, Cricoid and Epiglottic Involved in phonation
Figure 23.5a,b,b Principles of Anatomy and Physiology, 16ed © 2021 John Wiley & Sons
Influences change in position/tension of vocal folds
 Laryngeal Cavity & Folds Cavity
Opening of larynx to inferior border
of cricoid cartilage
Two portions
Laryngeal Vestibule (LV)
Rima vestibuli — Above Vestibular folds [SSE]
Infraglottic cavity (IC)
— Below vocal folds [RE]

Vocal Folds
Paired mucous membrane folds
Vestibular folds (false vocal cords)
Vocal folds (true vocal cords)
Rima glottidis Rima glottidis
Space between the true vocal folds
Glottis
True Vocal folds with mucous
membrane + Rima glottidis
Figure 23.5c,d Principles of Anatomy and Physiology, 16ed © 2021 John Wiley & Sons
Vocal Folds: Effort Closure
Vestibular folds
False vocal cords
Superior pair of folds
Space between: rima vestibuli
NOT involved with Phonation
When held together:
— Hold breath against thoracic
cavity pressure
— E.g., heavy lifting
Fig 8.225d © 2020 Elsevier Ltd. Drake et al: Gray’s Anatomy for Students, 4ed
www.studentconsult.com
 Vocal Folds: Phonation
Vocal folds
Main structures for voice production
Vocal ligament – elastic ligament
Phonation
Vocal ligaments stretch between laryngeal
cartilages
Activity of intrinsic muscles of larynx
— Vary tension in vocal folds
— Vary size of rima glottidis
Air forced through larynx ⭢ vibration of folds ⭢
produce sound
— Tension: Pitch — Pressure: Volume
Recognizable speech, individual quality:
Resonance: pharynx, mouth, nasal cavity,
paranasal sinuses
Pronunciation (Muscles): pharynx, face,
tongue, lips; teeth Fig 8.225c © 2020 Elsevier Ltd. Drake et al: Gray’s Anatomy for Students, 4ed
www.studentconsult.com
Vocal Folds: Movement
Intrinsic muscles
Contract ⭢ pull on
arytenoid cartilage
Posterior cricoarytenoid
muscle
Abduction of vocal folds
Open rima glottidis
Lateral cricoarytenoid
muscle
Adduction of vocal folds
Close rima glottidis
Other Intrinsic muscles
Elongate (tighten) on folds
Shorten (relax) vocal folds

Figure 23.6 Principles of Anatomy and Physiology, 16ed © 2021 John Wiley & Sons, Fig 8.223 © 2020 Elsevier Ltd. Drake et al: Gray’s Anatomy for Students, 4ed www.studentconsult.com
Trachea
Also known as windpipe
Cylindrical tube, 12cm (5 inches) long
Anterior to the esophagus
Larynx to the 5th thoracic vertebrae
Carina
Bifurcation of trachea
Sensitive mucosa – cough reflex
Wall has 4 layers:
Mucosa
Submucosa
Cartilage
Adventitia
Passageway for air from the upper to the
lower respiratory tract
Figure 19.5 Histology: A Text and Atlas, 8ed © 2020 Wolters Kluwer
 Trachea
Mucosa
Respiratory epithelium
Lamina propria (elastic + reticular fibers)
Submucosa
Figure 23.7a Principles of Anatomy and Physiology, 16ed © 2021 John Wiley & Sons
Glands and loose connective tissue
Hyaline Cartilage
Anteriorly: 16-20 C-shaped rings
— Prevents collapse of the trachea
Posteriorly: Membranous wall
— Trachealis muscle (posterior)
— Elastic connective tissue
o Allows for diameter change of the trachea

Adventitia
Areolar connective tissue
 Bronchi Primary (Main) bronchi
Right Primary (Main) Bronchi
— Right lung
— Shorter and more vertical than left
Left Primary (Main) Bronchi
Left Main Bronchus — Left lung
Wall identical to trachea

Secondary (Lobar) bronchi
Supply the lobes of the lungs
Right Lobar Right – 3/ Left – 2
Bronchus Resp. epithelium w/ plates of cartilage
Tertiary (Segmental) bronchi
Supply bronchopulmonary segments
Resp. epithelium w/ plates of cartilage

Left Segmental
Bronchus
Figure 23.8 Principles of Anatomy and Physiology, 15ed © 2016 John Wiley & Sons
 Bronchioles
From branching of Segmental bronchi
Epithelium varies
Ciliated simple columnar
Exocrine Clara cells
Larger: w/ goblet cells
Smaller: w/o goblet cells
— No cartilage
— Replaced by Smooth muscle

Terminal bronchioles
End of the conducting zone
Supply lung lobules
Nonciliated simple columnar
Figure 23.8b Principles of Anatomy and Physiology, 16ed © 2021 John Wiley & Sons
Bronchioles
Respiratory bronchioles
Microscopic branches
Beginning of Respiratory Zone
Have pulmonary alveoli
Simple cuboidal to squamous
Eventually divide into alveolar ducts

Alveolar ducts
More alveoli outpouchings
Simple squamous epithelium
Figure 23.8b Principles of Anatomy and Physiology, 16ed © 2021 John Wiley & Sons
Alveolar sacs & Alveoli
Alveolar saccules/sacs
Terminal dilation of alveolar duct
Cluster of grapes
~100 sacs at end of each duct
―Each saccule: ~20-30 outpouchings
―Pulmonary alveoli (single grape)

Alveoli
Air‐filled sacs
Site of actual gas exchange
Give the lung its spongy characteristic
Alveoli Interalveolar
Septum

The lung tissue made up of
many alveoli.
Interalveolar septum:
Wall between alveoli
Simple squamous epithelium
Alveolar epithelial cells
Type I Pneumocytes
— (95% of cells)
Type II Pneumocytes
Alveolar macrophages (Dust
cells)
Figure 23.12d Principles of Anatomy and Physiology, 16ed © 2021 John Wiley & Sons
Alveolar Cells

Type I Pneumocytes Type II Pneumocytes (Septal cells)
Squamous (flat cells) Cuboidal cells w/ microvilli
Most numerous Fewer in number
Line ~95% of alveolar surface area Found between type I cells
Nearly continuous lining Secretes pulmonary alveolar fluid
Part of the blood‐gas barrier with surfactant
(respiratory membrane) Mixture: phospholipids +
lipoproteins
Main site of gaseous exchange
Reduce surface tension
Regenerates itself as well as the type
I cells (stem cells)
Alveolar Cells
Alveolar
macrophages
phagocytose
fine dust
particles, debris

Figure 23.12c Principles of Anatomy and Physiology, 16ed © 2021 John Wiley & Sons
 Bronchial Tree Changes
Lumen: 🢙diameter
Mucosa
🢙in cell height, layer height
🢙in goblet cells
🢙in cilia
Appearance of new cells
(e.g., macrophages)
Cartilage
C-Rings ⭢ Incomplete rings
⭢ Plates ⭢ etc.
Smooth Muscle
⭡as cartilages ↓
Figure 19.23 Histology: A Text and Atlas, 8ed © 2020 Wolters Kluwer
Epithelium of Respiratory Tract
Refer to Table in Textbook

Table 23.1 Principles of Anatomy and Physiology, 16ed © 2021 John Wiley & Sons
References
Tortora, G., and Nielsen, M.T.(2021). Principles of Anatomy and
Physiology, 16th ed. John Wiley & Sons, Inc. USA

Drake, R., Vogl, A., and Mitchell, A. (2015). Gray’s Anatomy for
Students, 3rd ed. Philadelphia: Churchill Livingstone.

Ross, M.H., and Pawlina, W.(2020). Histology: A Text and Atlas: With
Correlated Cell and Molecular Biology, 8th ed. Wolters Kluwer Health