Lecture 4 Respi Anatomy PDF

Summary

This document provides a lecture on the respiratory system. It covers various aspects, including the cardiovascular system, respiratory functions, and the structure and mechanics of breathing, offering detailed anatomical diagrams and information. It seems to be part of a larger course or curriculum.

Full Transcript

LECTURE 5

The Cardiovascular system
Blood
Heart
Vessels

The Respiratory System
Function
Upper respiratory tract
Lower respiratory tract
Muscles of Respiration
 Midterm
Oct 10th
2 hours
80 multiple choice
NO DIAGRAMS! Save that for the lab exam!
Lab Exam
During your lab time – Oct 11 - 23
40 questions
1 min per question
Identify this structure/artery/vein etc
 Respiratory System
Functions
1. area for gas exchange between the air and the blood
2. Protects the respiratory surfaces from dehydration
3. Protects against invading pathogens
4. Produces sound involved in verbal communication
5. Assists in the regulation of blood volume, blood pressure,
and body fluid pH
 An Overview of the Respiratory
System and Respiratory Tract

The Upper Respiratory System
– Consists of:
Nose, nasal cavity, sinuses, and pharynx
The Lower Respiratory System
– Consists of:
Larynx, trachea, bronchi, bronchioles, and alveoli
 Structures of the Respiratory System
Nasal cavity Frontal sinus
Nasal conchae
Sphenoidal sinus
Nose
Internal nares
Nasopharynx Tongue
UPPER
RESPIRATORY
Hyoid bone
SYSTEM Larynx

Figure 24.1
 Structures of the Respiratory System
Nasal cavity Frontal sinus
Nasal conchae
Sphenoidal sinus
Nose
Internal nares
Nasopharynx Tongue
UPPER
RESPIRATORY
Hyoid bone
SYSTEM Larynx
LOWER Esophagus Trachea
RESPIRATORY
SYSTEM Bronchus

Clavicle

Bronchioles

RIGHT LEFT
LUNG LUNG

Ribs Diaphragm Figure 24.1
 Respiratory Epithelium
Movement
of mucus Ciliated columnar
to pharynx epithelial cell
Mucous cell
Stem cell

Mucous layer

Lamina propria

Figure 24.2a
 Respiratory Epithelium
Cilia

Nucleus of columnar
epithelial cell

Lamina propria
Mucous cell
Basal lamina

Stem cell

Cilia

Lamina
propria
Nucleus of columnar
epithelial cell
Stem cell
Mucous cell
Basal lamina
Respiratory epithelium of trachea LM  932
Figure 24.2b
 Upper Respiratory Structures
Nasal conchae
Nasal cavity
Superior
Internal nares Middle
Entrance to auditory tube Inferior
Pharyngeal tonsil Nasal vestibule
Pharynx External nares
Nasopharynx
Soft palate
Oropharynx
Lingual tonsil
Laryngopharynx

Hyoid bone
Epiglotis
* NO FOOD IN Thyroid cartilage
TRACHEA! Cricoid cartilage
s
ha g u

Trachea
Es o p

Nasal Septum – separates left and right
Figure 24.4a
 Cranial cavity

Ethmoidal air cell Frontal sinus

Medial rectus muscle Right eye

Lens
Lateral rectus muscle
Superior
nasal concha
Superior
meatus

Middle nasal
Nasal septum concha
Perpendicular Middle meatus
plate of ethmoid
Maxillary sinus
Vomer
Inferior nasal
Hard palate concha
Inferior meatus

Tongue
Mandible

b

Frontal section
© 2015 Pearson Education, Inc.
The Lower Respiratory System
– Air leaves the pharynx by passing through a
narrow opening, the glottis

The Larynx
– A cylinder whose cartilaginous walls are stabilized
by ligaments and/or skeletal muscles
– Begins vertebra C3 or C4, ends at vertebra C7
– Singing and talking, etc
 The Lower Respiratory System
Unpaired Cartilages of the Larynx
1. Thyroid cartilage
2. Cricoid cartilage
3. Epiglottis
Closes over the glottis during swallowing of food
 Epiglottis

Epiglottis
Hyoid bone

Laryngeal
Larynx

prominence
Thyroid
cartilage

Arytenoid cartilage
Cricoid
Cricoid cartilage cartilage

Trachea
Tracheal cartilages

ANTERIOR POSTERIOR
Figure 24.6
 The Lower Respiratory System
Paired Cartilages of the Larynx
Epiglottis
– Laryngeal cartilages
– Consists of:
Cuneiform cartilages
– elastic cartillage
Corniculate cartilages
– Hyaline cartilage
Arytenoid cartilages
Thyroid cartilage
– Hyaline cartilage
– Opening and closing of glottis
Cricoid
– Producing sound cartilage
 The Lower Respiratory System
Vocal Cords
– Air passing between the vocal folds creates sound
Pitch depends on the diameter, length, & tension in the
vocal cords
Amplification of sound occurs in the pharynx, oral
cavities, nasal cavity & sinus cavities
Production of definite sounds depends on movement
of the lips, tongue, and cheeks
 The Vocal Cords
POSTERIOR
Corniculate cartilage
Corniculate cartilage Glottis (closed)
Cuneiform cartilage Glottis (open)
Aryepiglottic
Vestibular fold fold

Vocal fold Vocal fold

Epiglottis Vestibular fold

Root of tongue Epiglottis

ANTERIOR

a Glottis in the b Glottis in the
open position. closed position.

Figure 24.7ab
 The Trachea
Characteristics of the Trachea
– Size
11 cm long and 2.5 cm diameter
– Bifurcates at the carina into the right and left
bronchi at T5
– Contains 15–20 tracheal cartilages
Each cartilage ring is actually C-shaped, not a
complete ring
Connecting one cartilage ring to another are annular
ligaments
The Lower Respiratory System
Trachea

and Primary Bronchi

Fig. 24- 9
 Esophagus

Trachealis
muscle

Lumen of
trachea Thyroid
gland

Respiratory
epithelium

Tracheal
cartilage
The trachea L

b Histological cross-sectional view of the trachea
showing its relationship to surrounding structures
Figure 24.9b
 The Primary Bronchi
The trachea branches at the carina
– The branching forms the left and right primary
bronchi
– The primary bronchi enter into each lung
– The right primary bronchus is steeper and larger in
diameter than the left
Hence, a person can aspirate foreign objects into the
right lung easier than the left lung
 Hyoid
bone

Larynx

RIGHT LEFT
primary bronchi primary bronchi
Trachea
Tracheal
cartilages

Location of carina (internal ridge)
Root of right lung
Root of left lung
Superior lobar bronchus

Lung tissue
Primary Superior lobar bronchus
bronchi
Middle lobar
bronchus Secondary
bronchi

RIGHT LUNG Inferior lobar bronchi LEFT LUNG
 The Lungs
Structure of the Lungs (cone shape)
– The apex points superiorly and the base inferiorly
– The right lung has three lobes
Superior, middle, and inferior lobes
Consists of a horizontal fissure and an oblique fissure
– The left lung has two lobes
Superior and inferior lobes
Contains the oblique fissure
Left lung has a cardiac notch
 Lungs are enveloped
PLEURA in a “SACK”
Pleural
[FIST INMembranes
BALLOON]

Right & left pleural cavities are
separated by the mediastinum

PARIETAL
PLEURA

VISCERAL PLEURA
Pleural fluid: reduces friction LUNG
when the lungs move upon
inhalation and exhalation
PLEURAL CAVITY
with PLEURAL FLUID
 Lateral Surface Anatomy of the Lungs

Lateral Surfaces

Apex Apex
Superior
lobe
Superior lobe
Horizontal
fissure
Middle
lobe Cardiac
Inferior notch
lobe Oblique
Oblique Inferior
fissure lobe
fissure
Base Base
RIGHT LUNG LEFT LUNG

Fig. 24- 10
 MEDIAL SURFACE ANATOMY
OF THE LUNGS
Medial Surfaces
Apex
Superior lobar bronchus
Superior Pulmonary arteries Superior
lobe lobe

Pulmonary Middle lobar bronchus Groove
veins for aorta
Superior lobar bronchus
Pulmonary
Horizontal Inferior lobar bronchus veins
Cardiac
fissure Middle impression
lobe
Hilum
Oblique Inferior Inferior
lobe lobe Oblique
fissure fissure
Groove for Diaphragmatic
Base
esophagus surface
RIGHT LUNG LEFT LUNG

Fig. 24- 10
 The Lungs
Branches of the Secondary Bronchi
– The secondary bronchi divides to form tertiary
bronchi
The right lung has 10 tertiary bronchi and therefore 10
bronchopulmonary segments
The left lung has 9 tertiary bronchi and therefore 9
bronchopulmonary segments
 BRONCHIAL TREE
DON’T PANIC!
10 9
1 1

2

2

3

Fig. 24- 12
 BRONCHI & BRONCHIOLES

CONDUCTION
-from nasal cavity to
smallest bronchioles

RESPIRATION
- Respiratory
bronchioles and
Fig. 24- 11 alveoli
 THE ROAD TO RESPIRATION
BRONCHUS BRONCHIOLE ALVEOLUS
Figure 24- 13

RESPIRATION IS HERE!
 The Lungs
Alveolar Ducts and Alveoli
– Each lung has about 150 million alveoli
– Extensive network of capillaries surrounds each
alveolus
Capillaries drop off carbon dioxide and pick up oxygen
– Elastic tissue surrounds each alveolus
Maintains the shape and position of each alveolus
during inhalation and exhalation
 ALVEOLAR ORGANIZATION

PULMONARY ARTERY
PULMONARY - Coming from the heart
VEIN
- Going to the
heart

NOTE!

THE BRONCHIAL
ARTERIES / VEINS
FROM THE
THORACIC VESSELS
SUPPLY THE
STRUCTURAL
COMPONENTS OF
THE LUNGS

Fig. 24- 13

Figure 24.14a
 Respiratory
epithelium Branch of
pulmonary
From the heart
Bronchiole artery

Bronchial artery (red),
vein (blue), and
nerve (yellow) Smooth muscle
around terminal
bronchiole
Terminal
bronchiole

Respiratory
bronchiole

Elastic fibers

Capillary Arteriole
Branch of beds Lymphatic
pulmonary vessel
vein Alveolar
duct
To the heart Alveoli

Alveolar sac

Interlobular
septum

Visceral pleura

Pleural cavity
Parietal pleura

Figure 24.13a
 ALVEOLAR STRUCTURE
Pneumocyte
type II cell
Pneumocyte
type I cell
Alveolar
macrophage
Red blood cell
Elastic
fibers Capillary lumen

Nucleus of
Endothelium endothelial cell

0.5 µm
Alveolar
macrophage
Capillary
Fused basal Alveolar Surfactant
laminae epithelium

Endothelial cell
of capillary Alveolar air space

c Diagrammatic sectional view of alveolar structure
and the respiratory membrane.
The respiratory membrane.
 Alveolus and Respiratory Membrane
Gas exchange at the alveoli
Pulmonary arteries transport carbon dioxide to the alveolar
capillaries
Carbon dioxide leaves the capillaries and enters the alveolar
sacs
Oxygen leaves the alveolar sacs and enters the capillaries
Oxygen enters the pulmonary veins and returns to the heart
to be pumped to all parts of the body
 Pulmonary Ventilation &
Respiratory Muscles
Inspiration
Create NEGATIVE intrathoracic pressure
Increase anterior-posterior, lateral, & vertical
diameters and volume
Using DIAPHRAGM, INTERCOSTALS (other
accessory muscles)

Expiration
Decrease intrathoracic volume
Relax muscles, increase abdominal pressure,
bronchial elastic recoil
 Respiratory Muscles and Pulmonary
Ventilation
Diaphragm
– Contracts (lowers) to cause inhalation
– Relaxes (raises) to cause exhalation
External intercostals
– Elevate the ribs to aid in inhalation
Internal intercostals
– Depress the ribs to aid in exhalation
 1 The Respiratory Muscles

Accessory Primary
Respiratory Muscles Respiratory Muscles
(Inhalation) (Inhalation)
Sternocleidomastoid External intercostal
muscle muscles

Scalene muscles
Accessory
Pectoralis minor Respiratory Muscles
muscle (Exhalation)

Serratus anterior Internal intercostal
muscle muscles
Transversus thoracis
muscle
Primary
Respiratory Muscles External oblique
(Inhalation) muscle
Diaphragm Rectus abdominis

Internal oblique muscle

Figure 24.16
2 The Mechanics of Breathing

Ribs and
sternum
elevate

Diaphragm
contracts
3 Respiratory Movements

KEY
= Movement of rib cage

= Movement of diaphragm

= Muscle contraction
Inhalation
Inhalation is an active
process. It primarily Accessory Respiratory
involves the Muscles (Inhalation)
diaphragm and Sternocleidomastold
the external muscle
intercostal
muscles, with Scalene muscles
assistance Pectoralis minor muscle
from the
accessory Serratus anterior muscle
respiratory
muscles as
needed.
Primary Respiratory
Muscles (Inhalation)

External intercostal
muscles

Diaphragm

© 2015 Pearson Education, Inc.
3 Respiratory Movements

KEY

= Movement of rib cage

= Movement of diaphragm

= Muscle contraction
Exhalation
During forced exhalation,
the tranversus thoracis
and internal intercostal
muscles actively
depress the
ribs, and the Accessory Respiratory
abdominal Muscles (Exhalation)
muscles
Transversus thoracis
compress
muscle
the abdomen
and push the
diaphragm up.

Internal intercostal
muscles

Rectus abdominis and
other abdominal
muscles (not shown)

© 2015 Pearson Education, Inc.
 The end
Questions?
Please study!!
Get help early!!