1@nose and nasal cavity
mohanad09
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Jun 05, 2021
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About This Presentation
nose and nasal cavity. anatomy and physiology
Slide Content
Objectives
Functional anatomy of respiratory system
Mechanics of breathing
Transport of gases
Regulation of respiration
Pulmonary circulation
Lung function tests
Hypoxia and others conditions
Effect of high barometric pressure
Common disorders of respiratory system
Functional anatomy of respiratory system
Mechanics of breathing
Transport of gases
Regulation of respiration
Pulmonary circulation
Lung function tests
Hypoxia and others conditions
Effect of high barometric pressure
Common disorders of respiratory system
Oxygen Cell
Hi I am O
2
,you can call
me oxygen, and I will be your guide today.
I advise you keep all feet
and hands inside the ride at all times.
JH
Hi I am O
2
,you can call
me oxygen, and I will be your guide today.
I advise you keep all feet
and hands inside the ride at all times.
JH
Respi r a t or y Int r o
You may be asking, what is the Respiratory
system?
Well, the Respiratory system is the system
that helps you breath in and out, so oxygen
(0
2) can be pumped through your body and
carbon dioxide (CO
2) can be removed from
the blood stream.
You must remember that the Respiratory
system is made up of many different organs.
You may be asking, what is the Respiratory
system?
Well, the Respiratory system is the system
that helps you breath in and out, so oxygen
(0
2) can be pumped through your body and
carbon dioxide (CO
2) can be removed from
the blood stream.
You must remember that the Respiratory
system is made up of many different organs.
Anatomy of respiratory system
•The organs of respiratory system include:
–Nose
–Nasal cavity
–Paranasal sinuses
–Pharynx
–Larynx
–Trachea
–Bronchi and there small bronches
–Lungs which contain alveoli
•The organs of respiratory system include:
–Nose
–Nasal cavity
–Paranasal sinuses
–Pharynx
–Larynx
–Trachea
–Bronchi and there small bronches
–Lungs which contain alveoli
Anatomy of respiratory system
•The organs of respiratory system include:
•The organs of respiratory system include:
Anatomy of Respiratory System
•Structural classification
–Upper respiratory tract
–Lower respiratory tract
•Functional classification
Conducting portion (nose, pharynx, larynx, trachea,
bronchi, bronchioles, and terminal bronchioles
Their function is to filter, warm, and moisten air and conduct
it into the lungs
Provides rigid conduits for air to reach the sites of gas
exchange.
•Respiratory muscles –diaphragm and other muscles that
promote ventilation
•Structural classification
–Upper respiratory tract
–Lower respiratory tract
•Functional classification
Conducting portion (nose, pharynx, larynx, trachea,
bronchi, bronchioles, and terminal bronchioles
Their function is to filter, warm, and moisten air and conduct
it into the lungs
Provides rigid conduits for air to reach the sites of gas
exchange.
•Respiratory muscles –diaphragm and other muscles that
promote ventilation
Respiratory portion (Respiratory
bronchioles and the alveolar ducts are
responsible for 10% of the gas
exchange.
The alveoli responsible for the other
90%)
bronchioles and the alveolar ducts are
responsible for 10% of the gas
exchange.
The alveoli responsible for the other
90%)
The Respiratory System
•Function of Respiratory system
To provide oxygen (O
2) to and eliminate carbon
dioxide (CO
2) from the cells of the body.
Filters, warm and moisten the inspired air
Produces sound
Contains receptors for smell
Rids the body of some excess water and heat
Helps regulate blood pH
•Function of Respiratory system
To provide oxygen (O
2) to and eliminate carbon
dioxide (CO
2) from the cells of the body.
Filters, warm and moisten the inspired air
Produces sound
Contains receptors for smell
Rids the body of some excess water and heat
Helps regulate blood pH
The Respiratory System
Functions to supply the body with O
2and remove CO
2
“Respiration” is actually 4 distinct processes:
1.Ventilation –Movement of air into & out of the lungs
2.External Respiration –Gas exchange between blood
and air-filled chambers of the lungs
3.Transport of Gases
4.Internal Respiration –Gas exchange between
systemic blood and the tissue cells
Functions to supply the body with O
2and remove CO
2
“Respiration” is actually 4 distinct processes:
1.Ventilation –Movement of air into & out of the lungs
2.External Respiration –Gas exchange between blood
and air-filled chambers of the lungs
3.Transport of Gases
4.Internal Respiration –Gas exchange between
systemic blood and the tissue cells
The Respiratory System
Respiration
Ventilation
External
respiration
Gases
transport
Internal
respiration
Respiration
Ventilation
External
respiration
Gases
transport
Internal
respiration
Here is a overview picture of
the Respiratory System.
Just go to the next slide to see
it.
Picture Intro.
the Respiratory System.
Just go to the next slide to see
it.
Picture Intro.
Respiratory Overview
Nasal
Cavity
Nose
Mouth
Bronchus
Bronchiole
Alveolus
Diaphragm
Throat
(pharynx)
Windpipe
(Trachea)
Left lungs
Ribs
Nasal
Cavity
Nose
Mouth
Bronchus
Bronchiole
Alveolus
Diaphragm
Throat
(pharynx)
Windpipe
(Trachea)
Left lungs
Ribs
Welcome
Now we will begin our tour.
Welcome to…
MB
Now we will begin our tour.
Welcome to…
MB
Nasal Passage
Bronchi Tubes
Alveoli (air-sacs)
Thin-walled blood vessels called
capillaries
Very thin cells line
the alveoli so that
O
2and CO
2can
pass in and out of
the blood.
Bronchioles pass
air to and from
your alveoli.
The Trachea
is held open
by partial
rings of
cartilage.
Tongue
Pharynx
Where
are We?
We are here.
Bronchi Tubes
Alveoli (air-sacs)
Thin-walled blood vessels called
capillaries
Very thin cells line
the alveoli so that
O
2and CO
2can
pass in and out of
the blood.
Bronchioles pass
air to and from
your alveoli.
The Trachea
is held open
by partial
rings of
cartilage.
Tongue
Pharynx
Where
are We?
We are here.
The Nose
•Only externally visible part of the respiratory
system.
•Functions include:
•Providing an airway for respiration
•Moistening and warming air
•Filtering inspired air
•Serving as a resonating center for speech
•Housing the olfactory receptors.
•Only externally visible part of the respiratory
system.
•Functions include:
•Providing an airway for respiration
•Moistening and warming air
•Filtering inspired air
•Serving as a resonating center for speech
•Housing the olfactory receptors.
Chapter 22, Respiratory System 17
Structure of the Nose
Figure 22.2b
Structure of the Nose
Figure 22.2b
The Nose
Cartilages:
Septal cartilage
Nasal cartilage
Alar cartilage(lower
nasalcartilage)
A few minor alar
cartilage
Fibro-fatty tissue in
the lower part of ala
Cartilages:
Septal cartilage
Nasal cartilage
Alar cartilage(lower
nasalcartilage)
A few minor alar
cartilage
Fibro-fatty tissue in
the lower part of ala
19
Nasal Cavity
•Lies in and posterior to the external nose
•Is divided by a midline nasal septum
•Opens posteriorly into the nasal pharynx via
internal nares
•The ethmoid and sphenoid bones form the
roof
•The floor is formed by the hard and soft
palates
Nasal Cavity
•Lies in and posterior to the external nose
•Is divided by a midline nasal septum
•Opens posteriorly into the nasal pharynx via
internal nares
•The ethmoid and sphenoid bones form the
roof
•The floor is formed by the hard and soft
palates
The Nasal Cavity
Nasal septum.(Thibodeau/Patton, 2003)
Nasal septum.(Thibodeau/Patton, 2003)
The Lateral Walls of Nasal Cavity
1.Inferior meatus:
nasolacrimalduct
2.Middle meatus:
•Maxillary sinus
•Frontal sinus
•Anterior ethmoid sinuses
3.Superior meatus:
posterior ethmoid sinuses
4.Sphenoethmoidal recess:
sphenoid sinus
1.Inferior meatus:
nasolacrimalduct
2.Middle meatus:
•Maxillary sinus
•Frontal sinus
•Anterior ethmoid sinuses
3.Superior meatus:
posterior ethmoid sinuses
4.Sphenoethmoidal recess:
sphenoid sinus
Bones forming lateral wall of nasal cavity
Nasal boneEthmoid bone
Nasal
conchae
Maxilla
Palatine bone
Nasal boneEthmoid bone
Nasal
conchae
Maxilla
Palatine bone
Superior conchae
Middle conchae
Inferior conchae
Superior
meatus
Middle
meatus
Inferior
meatus
Lateral wall…….contd
Middle conchae
Inferior conchae
Superior
meatus
Middle
meatus
Inferior
meatus
Lateral wall…….contd
The Medial Wall of Nasal Cavity
The Nasal Septum Divides the
nasal cavity into right and left
halves
It has osseous and
Cartilaginous parts
Nasal septum consists of the
Perpendicular plate of the
ethmoidbone (superior)
The vomer(inferior)
and Septialcartilage(anterior)
Perpendicular
Plate (ethmoid)
Septal
Cartilage Vomer
The Nasal Septum Divides the
nasal cavity into right and left
halves
It has osseous and
Cartilaginous parts
Nasal septum consists of the
Perpendicular plate of the
ethmoidbone (superior)
The vomer(inferior)
and Septialcartilage(anterior)
Perpendicular
Plate (ethmoid)
Septal
Cartilage Vomer
Blood Supply:
External Nose:
Dorsal nasal artery
Angular artery
Superior labial artery
Internal Nose:
Sphenopalatine artery from
maxillary A.
B. Ant. & Post ethmoidalA.
from ophthalmic a.
C. Branches of facial A.
Sphenopalatine a.
Maxillary a.
Veins
Ethmoidal vein------Ophthalmic v.
Other branches----Pterygoid venous plexus
Facial vein
External Nose:
Dorsal nasal artery
Angular artery
Superior labial artery
Internal Nose:
Sphenopalatine artery from
maxillary A.
B. Ant. & Post ethmoidalA.
from ophthalmic a.
C. Branches of facial A.
Sphenopalatine a.
Maxillary a.
Veins
Ethmoidal vein------Ophthalmic v.
Other branches----Pterygoid venous plexus
Facial vein
NERVE SUPPLY
Olfactory nerve
Anterior ethmoidal nerve
Nasal branches of pterigo
palatine ganglion
Nasopalatine nerve
External nose –Infra orbital nerve, Infra trochlear,
External nasal nerve.
Nerve Supply of the Nasal Cavity
Olfactory nerve
Anterior ethmoidal nerve
Nasal branches of pterigo
palatine ganglion
Nasopalatine nerve
External nose –Infra orbital nerve, Infra trochlear,
External nasal nerve.
Nerve Supply of the Nasal Cavity
The Nasal Cavity
•Olfactory region of nasal cavity
Olfactory region (Upper 1/3 rd)–The roof of the nasal
cavity, the superior aspect of the nasal septum, and the
superior concha has olfactory epithelium and olfactory
glands.
mucous membrane lined by pseudostratified columnar
epithelium -more delicate and yellowish.
The olfactory epithelium is composed of three types of
cells:
Olfactory cells
Sustentacularcells
Basal cells.
Lamina propria, houses ofBowman’s glands and a rich
vascular plexus.
•Olfactory region of nasal cavity
Olfactory region (Upper 1/3 rd)–The roof of the nasal
cavity, the superior aspect of the nasal septum, and the
superior concha has olfactory epithelium and olfactory
glands.
mucous membrane lined by pseudostratified columnar
epithelium -more delicate and yellowish.
The olfactory epithelium is composed of three types of
cells:
Olfactory cells
Sustentacularcells
Basal cells.
Lamina propria, houses ofBowman’s glands and a rich
vascular plexus.
Olfactory Epithelium
MUCOUS MEMBRANE
Lower 2/3 rd–Respiratory region, Lined by pseudo stratified
ciliated columnar epithelium-Thick ,spongy ,highly vascular
with numerous mucous glands contain Goblet cells.
Goblet cells-function produces mucus
–Contains lysozyme.
–Traps inspired dust, bacteria, and debris.
High H
2O content of mucus humidifies inward air
Ciliary current moves mucus to pharynx for swallowing.
Cold temperature disable these cilia runny nose
Contains Arteriovenous anastomosis –warms the air passing through it.
Mucous membrane covering vestibule of nose carries stiff hairs (Vibrissae).
Lower 2/3 rd–Respiratory region, Lined by pseudo stratified
ciliated columnar epithelium-Thick ,spongy ,highly vascular
with numerous mucous glands contain Goblet cells.
Goblet cells-function produces mucus
–Contains lysozyme.
–Traps inspired dust, bacteria, and debris.
High H
2O content of mucus humidifies inward air
Ciliary current moves mucus to pharynx for swallowing.
Cold temperature disable these cilia runny nose
Contains Arteriovenous anastomosis –warms the air passing through it.
Mucous membrane covering vestibule of nose carries stiff hairs (Vibrissae).
This is where it all begins.
This is where the oxygenfirst
enters your body and also where
Carbon Dioxideleaves.
The Nose and Mouth
MB
This is where the oxygenfirst
enters your body and also where
Carbon Dioxideleaves.
The Nose and Mouth
MB
The Nose and Mouth
When the air comes into your noseit gets
filtered by tiny hairs and it is moistened by the
mucus that is in your nose.
Your sinusesalso help out with your
Respiratory System.
They help to moisten
and heat the air that you breath.
Air can also get into your body through your
mouth/oral cavitybut air is not filtered as
much when it enters in through your mouth.
MB
When the air comes into your noseit gets
filtered by tiny hairs and it is moistened by the
mucus that is in your nose.
Your sinusesalso help out with your
Respiratory System.
They help to moisten
and heat the air that you breath.
Air can also get into your body through your
mouth/oral cavitybut air is not filtered as
much when it enters in through your mouth.
MB
The Paranasal Sinuses
•Paranasal Sinuses
–Cavities in cranial bones
•Functions
–Lighten skull bones
–Produce mucus
–Resonate during sound
production
–help warm and moisten air
Each sinus is name after the bone it resides in!
•Paranasal Sinuses
–Cavities in cranial bones
•Functions
–Lighten skull bones
–Produce mucus
–Resonate during sound
production
–help warm and moisten air
Each sinus is name after the bone it resides in!
Lateral aspects of sinuses
Maxillary Sinus
Pyramidal in shape
Paired & symmetric
Located within the body of the
maxilla behind the skin of the
cheek.
The roof is formed by the floor
of the orbit, and the floor is
related to the roots of the 2
nd
premolars and 1
st
molar teeth.
The maxillary sinus opens into
the middle meatus of the nose
Capacity of 30ml.
Pyramidal in shape
Paired & symmetric
Located within the body of the
maxilla behind the skin of the
cheek.
The roof is formed by the floor
of the orbit, and the floor is
related to the roots of the 2
nd
premolars and 1
st
molar teeth.
The maxillary sinus opens into
the middle meatus of the nose
Capacity of 30ml.
Frontal Sinuses
Rarely symmetrical
Contained within the frontal
bone .
Separated from each other by
a bony septum.
Each sinus is roughly triangular
Extending upward above the
medial end of the eyebrow and
backward into the medial part
of the roof of the orbit.
Opens into the middle meatus
Rarely symmetrical
Contained within the frontal
bone .
Separated from each other by
a bony septum.
Each sinus is roughly triangular
Extending upward above the
medial end of the eyebrow and
backward into the medial part
of the roof of the orbit.
Opens into the middle meatus
Sphenoidal Sinuses
•Lie within the body of the
sphenoid bone
•Below sella turcica
–Extends between dorsum
sellae and post clinoid
processes
•Opens into the
sphenoethmoidal recess
above the superior
concha
•Lie within the body of the
sphenoid bone
•Below sella turcica
–Extends between dorsum
sellae and post clinoid
processes
•Opens into the
sphenoethmoidal recess
above the superior
concha
Ethmoid Sinuses
•They are anterior, middle, and
posterior
•They are contained within the
ethmoid bone, between the nose
and the orbit
•Anterior & middle
–Drains into middle nasal meatus
•Posterior
–Drain into superior nasal meatus
•Separated from the orbit by a
thin plate of bone so that
infection can readily spread from
the sinuses into the orbit
•They are anterior, middle, and
posterior
•They are contained within the
ethmoid bone, between the nose
and the orbit
•Anterior & middle
–Drains into middle nasal meatus
•Posterior
–Drain into superior nasal meatus
•Separated from the orbit by a
thin plate of bone so that
infection can readily spread from
the sinuses into the orbit
The Pharynx
Funnel-shaped passageway that connects nasal
cavity and mouth to the larynx and esophagus.
The muscular wall consists of skeletal muscle.
Extends from base of the
skull to the level of 6
th
cervical vertebrae.
Funnel-shaped passageway that connects nasal
cavity and mouth to the larynx and esophagus.
The muscular wall consists of skeletal muscle.
Extends from base of the
skull to the level of 6
th
cervical vertebrae.
The Pharynx
The nasopharynx –air passage
–Lined by respiratory epithelium
•(pseudostratified Ciliated columnar
epithelium)
–Pharyngeal tonsil
–Auditory tube
Oral and laryngeal region
–Passageway for air, food,
and drink
–Stratified squamous epith.
The nasopharynx –air passage
–Lined by respiratory epithelium
•(pseudostratified Ciliated columnar
epithelium)
–Pharyngeal tonsil
–Auditory tube
Oral and laryngeal region
–Passageway for air, food,
and drink
–Stratified squamous epith.
Nasopharynx
•Boundaries:
•Roof:body of sphenoid &
basal part of the occipital
bone
•Floor:upper surface of soft
palate and pharyngeal
isthmus
•Boundaries:
•Roof:body of sphenoid &
basal part of the occipital
bone
•Floor:upper surface of soft
palate and pharyngeal
isthmus
Oropharynx
•Lies behind the mouth
•Extends from soft palate to
upper border of epiglottis
•Boundaries:
•Roof:Soft palate and
pharyngeal isthmus
•Floor:Posterior one third of
tongue, median & lateral
glossoepiglottic folds
•Lies behind the mouth
•Extends from soft palate to
upper border of epiglottis
•Boundaries:
•Roof:Soft palate and
pharyngeal isthmus
•Floor:Posterior one third of
tongue, median & lateral
glossoepiglottic folds
Laryngopharynx
Lies behind the laryngeal inlet & the
posterior surface of larynx
Extends from upper border of
epiglottis to lower border of cricoid
cartilage
Boundaries:
Anterior wall: mucosa surface of the
posterior surface of larynx
•Posterior wall: supported by bodies of
C3, 4, 5, 6 vertebrae
•Lateral wall:
Supported by thyroid cartilage and
thyrohyoid membrane
Lies behind the laryngeal inlet & the
posterior surface of larynx
Extends from upper border of
epiglottis to lower border of cricoid
cartilage
Boundaries:
Anterior wall: mucosa surface of the
posterior surface of larynx
•Posterior wall: supported by bodies of
C3, 4, 5, 6 vertebrae
•Lateral wall:
Supported by thyroid cartilage and
thyrohyoid membrane
Pharyngeal Wall
It is a musculo-membranous
wall, composed of:
Mucosa & submucosa
Pharyngobasilar fascia
Muscles: circular &
longitudinal
Buccopharyngeal fascia
It is a musculo-membranous
wall, composed of:
Mucosa & submucosa
Pharyngobasilar fascia
Muscles: circular &
longitudinal
Buccopharyngeal fascia
Nerve supply of the pharynx
Motor supply
Cranial part of accessory nerve
Glossopharyngeal nerve.
Recurrent laryngeal nerve
External laryngeal nerve.
Sensory supply
Pharyngeal branch of pterygo-palatine ganglion.
Glossopharyngeal nerve.
Internal laryngeal nerve.
Motor supply
Cranial part of accessory nerve
Glossopharyngeal nerve.
Recurrent laryngeal nerve
External laryngeal nerve.
Sensory supply
Pharyngeal branch of pterygo-palatine ganglion.
Glossopharyngeal nerve.
Internal laryngeal nerve.
Blood supply of the pharynx
a)Ascending pharyngeal artery
b)Facial artery
c)Maxillary artery.
d) Lingual artery
a)Ascending pharyngeal artery
b)Facial artery
c)Maxillary artery.
d) Lingual artery
47
The Larynx (Voicebox)
Extends from the level of the 4
th
to the 6
th
cervical
vertebrae
Attaches to hyoid bone superiorly
Inferiorly is continuous with trachea (windpipe)
Three functions:
1.Produces vocalizations (speech)
2.Provides an open airway (breathing)
3.Switching mechanism to route air and food into proper
channels
•Closed during swallowing
•Open during breathing
The Larynx (Voicebox)
Extends from the level of the 4
th
to the 6
th
cervical
vertebrae
Attaches to hyoid bone superiorly
Inferiorly is continuous with trachea (windpipe)
Three functions:
1.Produces vocalizations (speech)
2.Provides an open airway (breathing)
3.Switching mechanism to route air and food into proper
channels
•Closed during swallowing
•Open during breathing
48
•Framework of the larynx
9 Cartilages connected by membranes and ligaments
Thyroid cartilage with laryngeal prominence (Adam’s apple)
anteriorly
Cricoid cartilage inferior to thyroid cartilage: the only
complete ring of cartilage: signet shaped and wide
posteriorly
•Framework of the larynx
9 Cartilages connected by membranes and ligaments
Thyroid cartilage with laryngeal prominence (Adam’s apple)
anteriorly
Cricoid cartilage inferior to thyroid cartilage: the only
complete ring of cartilage: signet shaped and wide
posteriorly
49
Behind thyroid cartilage and above cricoid: 3
pairs of small cartilages
1.Arytenoid: anchor the vocal cords
2.Corniculate
3.Cuneiform
–9
th
cartilage: epiglottis
Behind thyroid cartilage and above cricoid: 3
pairs of small cartilages
1.Arytenoid: anchor the vocal cords
2.Corniculate
3.Cuneiform
–9
th
cartilage: epiglottis
50
Epliglottis* (the 9
th
cartilage)
Elastic cartilage covered by mucosa .On a stalk attached to thyroid cartilage
Attaches to back of tongue
During swallowing, larynx is pulled superiorly Epiglottis tips inferiorly to cover
and seal laryngeal inlet to Keeps food out of lower respiratory tract
Epliglottis* (the 9
th
cartilage)
Elastic cartilage covered by mucosa .On a stalk attached to thyroid cartilage
Attaches to back of tongue
During swallowing, larynx is pulled superiorly Epiglottis tips inferiorly to cover
and seal laryngeal inlet to Keeps food out of lower respiratory tract
51
*
*
Posterior views
*
*
Posterior views
The laryngeal muscles are a set of muscles in the anterior neck responsible
for sound production. The intrinsic muscles of the larynx function to move the
vocal cartilages and control tension. They are innervated by theVagus nerve.
for sound production. The intrinsic muscles of the larynx function to move the
vocal cartilages and control tension. They are innervated by theVagus nerve.
55
•Pair of mucosal vocal folds (true vocal cords)
over the ligaments: white because avascular
•Pair of mucosal vocal folds (true vocal cords)
over the ligaments: white because avascular
56
•Innervation of larynx (makes surgery at neck risky)
–Recurrent laryngeal nerves
–Vagus nerve
–Damage to one: Hoarseness
–Damage to both: can only Whisper
•Innervation of larynx (makes surgery at neck risky)
–Recurrent laryngeal nerves
–Vagus nerve
–Damage to one: Hoarseness
–Damage to both: can only Whisper
Arterial Supply
Sup. Laryngeal
Inf. Laryngeal A
Sup. Laryngeal
Inf. Laryngeal A
The Larynx
Histology Structures
Epithelial lining:
Superior portion of larynx is lined by stratified squamous
epithelium
Below the vocal folds –pseudostratified ciliated columnar
epithelium.
Histology Structures
Epithelial lining:
Superior portion of larynx is lined by stratified squamous
epithelium
Below the vocal folds –pseudostratified ciliated columnar
epithelium.
Pitch
•The faster the vocal folds vibrate, the higher the pitch.
•In general, men's vocal folds can vibrate from 90 -500
Hz, and they average about 115 Hz in conversation.
•Women's vocal folds can vibrate from 150 -1000 Hz,
and they average about 200 Hz in conversation.
•Vocal folds vibrate faster as they're pulled longer,
thinner, and more taut and vibrate more slowly when
they're shorter, thicker, and floppier.
•The cricothyroid muscle and thyroarytenoid muscle
coordinate with each other to create different pitches
•The faster the vocal folds vibrate, the higher the pitch.
•In general, men's vocal folds can vibrate from 90 -500
Hz, and they average about 115 Hz in conversation.
•Women's vocal folds can vibrate from 150 -1000 Hz,
and they average about 200 Hz in conversation.
•Vocal folds vibrate faster as they're pulled longer,
thinner, and more taut and vibrate more slowly when
they're shorter, thicker, and floppier.
•The cricothyroid muscle and thyroarytenoid muscle
coordinate with each other to create different pitches
Cough Reflex
•Cough ejects mucus and foreign matter
from the lungs and helps maintain
patency of the pulmonary alveoli. May
be voluntary, but more often in
response to stimulation of receptors in
the larynx or lower respiratory tract.
•Three phases:
inspiratory-larynx opens wide to
permit rapid and deep inspiration;
compressive-tight closure of the
glottis and strong activation of
expiratory muscles;
expulsive-larynx opens widely and
a sudden outflow of air in the range
of 6-10 liters/sec.
•Cough ejects mucus and foreign matter
from the lungs and helps maintain
patency of the pulmonary alveoli. May
be voluntary, but more often in
response to stimulation of receptors in
the larynx or lower respiratory tract.
•Three phases:
inspiratory-larynx opens wide to
permit rapid and deep inspiration;
compressive-tight closure of the
glottis and strong activation of
expiratory muscles;
expulsive-larynx opens widely and
a sudden outflow of air in the range
of 6-10 liters/sec.
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