A + P

Question 1

Framework of the larynx (bone(s) and cartilage(s)) (7):

Answer 1

1. Hyoid bone (only bone in the larynx, a “floating” bone)
2. Epiglottis
3. Thyroid cartilage
4. Corniculate cartilages
5. Arytenoid cartilages
6. Cuneiform cartilages
7. Cricoid cartilage

Question 2

Hyoid bone

Answer 2

• only floating bone in body besides patella (knee cap)
• Osseous
• U-shaped (opens posteriorly)
• Supports tongue and serves as attachment point for 9 muscles
• Three elements of the hyoid bone
• Corpus/body of hyoid is shield-like structure that forms the front of the bone
• Corpus is the point of attachment for 6 muscles

Question 3

Epiglottis

Answer 3

– leaf-like cartilage that acts as a protective structure when it inverts to cover the laryngeal opening during swallowing

Question 4

Thyroid cartilage

Answer 4

– largest of the laryngeal cartilages

Question 5

Arytenoid cartilages

Answer 5

• ride on the high-backed upper surface of the cricoid cartilage, forming the posterior point of attachment for the vocal folds
• 2 processes attach (Vocal and Muscular)
• Provide attachments for the Thyromuscularis and Thyrovocalis

Question 6

Corniculate cartilages

Answer 6

– sit at the apex of the arytenoid cartilages, horn-like shaped

Question 7

Cuneiform Cartilages

Answer 7

– paired wedge-shaped rods embedded within the aryepiglottic folds

Question 8

Cricoid cartilage

Answer 8

– complete ring sitting on top of the trachea, on lateral view it gives the appearance of a signet ring (back arches up relative to the front)

Question 9

2 Processes attached to the arytenoid cartilages:

Answer 9

1. Vocal process

2. Muscular process

Question 10

Function and location of the Vocal process:

Answer 10

– projects anteriorly toward the thyroid notch, the vocal folds attach here

Question 11

Function and location of the Muscular process:

Answer 11

– point of attachment for muscles that adduct and abduct the vocal folds

Question 12

Laryngeal membranes (3):

Answer 12

1. Intrinsic ligaments
2. Quadrangular membranes (paired)
3. Conus elasticus connects the thyroid, cricoid and arytenoids cartilages

Question 13

Intrinsic ligaments (location:

Answer 13

connect the cartilages of the larynx and form the support structure for the cavity of the larynx as well as the vocal folds

Question 14

Quadrangular membranes (paired) (location):

Answer 14

are the upper portion of the elastic membrane lining the larynx

Question 15

Conus elasticus (location):

Answer 15

connects the thyroid, cricoid and arytenoids cartilages

Question 16

Arytenoid Folds (location):

Answer 16

• Folds of mucous membrane which enclose ligamentous and muscular fibers, extend from the sides of the epiglottis to the apexes of the arytenoid cartilages
• Form the entrance to the larynx
• Connect the arytenoids and the epiglottis

Question 17

Vocal folds:

Answer 17

• composed of five layers of tissue
• Thin sheet of squamous epithelium (gives VFs glistening white appearance)–>healthy VFs = white
• Deep to this layer is the lamina propria which is comprised of three different tissues
• The fifth layer of the VFs is the Thyrovocalis muscle.

Question 18

5 layers of the true vocal folds:

Answer 18

1. Epithelium
2. Lamina propria
   
   • ->Superficial layer
   • ->Intermediate layer
   • ->Deep layer
3. Thyroarytenoid m.

Question 19

Ventricular Folds:

Answer 19

• a.k.a. false (vocal) folds or vestibular folds
• thick folds of mucous membrane
• above true vocal folds
• not used in normal phonation

Question 20

False vocal fold engage when…

Answer 20

…there is hyperactivity or if they lost their true vocal fold due to disease

Question 21

Innervation to Larynx (Motor + Sensory):

Answer 21

1. Motor: Vagus (CN X) – RLN & SLN
2. Sensory:
   –>Glossopharyngeal (CN IX)
   –>Internal laryngeal (X) above the false vocal folds
   RLN (X) below the false vocal folds

Question 22

What’s the first question to ask if a client has a paralyzed vocal fold?

Answer 22

Ask if they have had any heart surgery

The Recurrent laryngeal nerve could have been nip b/c it wraps around the heart.

If Left paralysis = nerve near heart
If Right or left paralysis = nerve near the thyroid

Question 23

Three Voice Subsystems:

Answer 23

1. Respiration (Air pressure system)
2. Phonation (Vibratory system)
3. Resonation (Resonating system)

Question 24

The Respiration system is the:

Answer 24

power source for voice

Question 25

The Phonation system is the:

Answer 25

sound source

Question 26

The Resonation system is the:

Answer 26

filter

Question 27

The voice organs for the respiration system are (5):

Answer 27

1. Lungs
2. Diaphragm
3. Chest muscles
4. Ribs
5. Abdominal muscles

Question 28

The voice organ for the phonation system is:

Answer 28

The Larynx (Vocal folds)

Question 29

The voice organ for the resonation system:

Answer 29

Vocal tract:

• -> throat (pharynx)
• -> oral cavity
• -> nasal passages

Question 30

Respiration Systems Role in Sound Production:

Answer 30

Provides and regulates air pressure to cause vocal folds to vibrate

Question 31

Phonation Systems Role in Sound Production:

Answer 31

1. Vocal folds vibrate, changing air pressure to sound waves producing “voiced sound,” frequently described as a “buzzing sound”
2. Varies pitch of sound

Question 32

Resonation Systems Role in Sound Production:

Answer 32

Changes the “buzzing sound” into a person’s recognizable voice

Question 33

4 Functions of the Larynx:

Answer 33

1. RESPIRATION = breathing for life (open glottis)
2. PROTECTION with cough reflex: Close, then open glottis with help of respiratory system
3. PROTECTION during swallowing: Close glottis with help of respiratory system
4. PHONATION with voice: Close/open
   glottis and adjust vocal fold tension

Question 34

If there is a problem at the level of the larynx, it can cause:

Answer 34

breathing problems

Question 35

Which Cranial Nerve Innvervates the Coughing Reflex?

Answer 35

The Vagus innervates

Question 36

What is Silent Aspiration?

Answer 36

When the vagus nerve isn’t working to cause the reflexive cough, material gets all the way into the lungs

Question 37

What happens to respiratory system during inspiration?

Answer 37

1. Active muscle contraction occurs:
   - -> Lungs inflate
   - -> Rib cage moves in a series of movements
   - -> Diaphragm pulls down (contracts)
2. Space in the thoracic cavity increases and pressure decreases creating a negative pressure. At this point, atmospheric pressure is greater so this positive pressure moves toward the negative pressure and follows the path of least resistance

Question 38

The thoracic cavity increases in 3 planes during inspiration:

Answer 38

1. Vertical dimension is increased by the contraction of the dome-shaped diaphragm
2. Transverse (side to side) dimension is increased by raising of the curved ribs
3. Anterior-posterior dimension is increased by simultaneous forward and upward movement of the sternum

Question 39

In order for inspiration to occur the lungs must be

Answer 39

expanded

Question 40

Inspiration is a passive or active process stimulated by

Answer 40

Active Process stimulated by muscle contraction

Question 41

The first step to increasing the lung volume involves contraction of:

Answer 41

Principal inspiratory muscles

• ->diaphragm
• ->external intercostal muscles

Question 42

Diaphragmatic breathing

Answer 42

• deep abdominal breathing

- good

Question 43

Clavicular breathing

Answer 43

• shallow breathing from excessive use of accessory muscles

Question 44

During quiet breathing you mostly use:

Answer 44

your diaphragm

Question 45

During forced respiration you use:

Answer 45

• the diaphragm

- accessory muscles are also involved in increasing the size of the thoracic cavity

Question 46

Contraction of the sternocleidomastoid elevates the…

Answer 46

sternum

Question 47

Contraction of the scalenes elevates the…

Answer 47

superior ribs

Question 48

Muscles of Inspiration:

Answer 48

• Diaphragm
• Striated skeletal muscle
• Muscle fibers of the diaphragm

Question 49

Diaphragm

Answer 49

• primary muscle of inspiration
• serves as a separation between the thorax and abdomen
• one of the most important muscles besides the heart
  shaped like an inverted bowl, with its attachments along the lower margin of the rib cage, sternum, and vertebral column
• force of contraction directs it downward toward the abdominal viscera

Question 50

Striated skeletal muscle:

Answer 50

• moves skeletal structure
• Attaches to the inferior border of the
  rib cage, xiphoid process, and to the
  posterior aspect of the vertebral column
• The middle portion is made up of a large,
  leafy aponeurosis call the CENTRAL
  TENDON (aponeurosis is a sheetlike tendon
  is a connective tissue which functions to attach
  muscle to bone)

Question 51

Muscle fibers of the diaphragm:

Answer 51

radiate out from the
central tendon, forming the STERNAL (sternum),
COSTAL (rib), and VERTEBRAL (spinal) attachments

Question 52

Function/Motion of the Diaphragm:

Answer 52

• Muscle contracts (flattens)

- Muscle fibers shorten

Question 53

Innervation of the Diaphragm:

Answer 53

• Innervated by the phrenic nerve
• Diaphragm can be placed under voluntary control (holding your breath)
• Diaphragm is primarily under involuntary control (breathing for life sustaining purposes - no choice but to breathe)
• phrenic nerve = “hiccup nerve”
  
  • –>Anything that changes the pattern of the diaphragm will stop hiccups if they are occuring

Question 54

Accessory Muscles of Inspiration:

Answer 54

1. Anterior
2. Posterior
3. Muscles of the neck
4. Muscles of the thorax, back, & upper limb

Question 55

Anterior Accessory Muscles of Inspiration:

Answer 55

1. External intercostal (important for normal breathing inhalation/inspiration)
2. Internal intercostal (interchondral portion)

Question 56

Posterior Accessory Muscles of Inspiration:

Answer 56

1. Levatores costarum (brevis and longis)

2. Serratus posterior superior

Question 57

Muscles of the neck (accessory muscles of inspiration) (3):

Answer 57

1. SCM (Sternoclydomastoid)
2. Scalenes
3. Trapezius

Question 58

Muscles of the thorax, back, & upper limb (accessory muscles of inspiration) (7):

Answer 58

1. Pectoralis major
2. Pectoralis minor
3. Serratus anterior
4. Subclavius
5. Levator scapulae
6. Rhomboideus major
7. Rhomboideus minor

Question 59

Muscles of Expiration (2):

Answer 59

Thoracic muscles (anterior and posterior)
Abdominal muscles

Question 60

Thoracic Muscles of Expiration:

Answer 60

1. Internal intercostal (interosseous portion)
2. Transversus thoracis
3. Subcostal
4. Serratus posterior inferior
5. Innermost intercostal
6. Latissimus dorsi

Question 61

Abdominal Muscles of Expiration:

Answer 61

1. Transversus abdominis
2. Internal oblique abdominis
3. External oblique abdominis
4. Rectus abdominis
5. Quadratus lumborum

Question 62

Expiration is a passive/active process for normal breathing?

Answer 62

Passive

Question 63

Expiration is a passive/active process for labored breathing?

Answer 63

Active

• Only engage muscles of inspiration in labored breathing
  e. g. Projecting voice, working out, etc.

Question 64

Anterior Thoracic Muscles of Expiration (2):

Answer 64

• Anterior – decrease volume of thoracic cavity

1. Internal intercostal (bony portion)
2. Transversus thoracic

Question 65

Posterior Thoracic Muscles of Expiration:

Answer 65

• Posterior – decrease volume of thoracic cavity

1. Subcostal
2. Serratus posterior inferior
3. Innermost intercostal
4. Latissimus dorsi

Question 66

Function of the Internal Intercostal Muscles (anterior thoracic muscle):

Answer 66

support, protect & space ribs

Question 67

Function of the Transversus Anterior Thoracic Muscles:

Answer 67

depress rib cage

Question 68

Function of the Subcostal Posterior Thoracic Muscle:

Answer 68

depress the thorax

Question 69

Function of the Serratus Posterior Inferior Thoracic Muscles (posterior Thoracic Muscle):

Answer 69

depresses lower ribs

Question 70

Function of the Intermost intercostal (posterior Thoracic muscle):

Answer 70

depresses rib cage

Question 71

Function of the Latissimus dorsi (posterior Thoracic muscle):

Answer 71

stabilizes chest

Question 72

Abdominal Muscles:

Answer 72

• Like a cumberbund that wraps the abdomen neatly in the front, side and back
• Function by compression of the abdominal viscera which aids in respiration and lifting
• Layers of the abdomen provide excellent support for the rib cage during lifting and other gestures
• These gestures fix the thorax by inflating the lungs and closing off the vocal folds
• The abdominal muscles help to compress the viscera while stabilizing the thorax at the same time
• Layers of connective tissue serve as attachments for muscles of the abdomen

Question 73

Vocal folds are adducted tightly or abducted loosely during abdominal compression?

Answer 73

adducted tightly

Question 74

What is the abdominal aponeurosis?

Answer 74

• A large area of space to cover anteriorly so a tendinous structure
• It provides a place of attachment for muscles to attach to the rib cage, vertebral column and pelvic girdle

Question 75

The “Linea Alba” (part of the abdomen):

Answer 75

• “White line”

- Runs from the xiphoid process to the pubic symphysis, which forms the midline structure for muscular attachment

Question 76

Transversus abdominis (location and function):

Answer 76

• Deepest of anterior abdominal muscles

- Contraction reduces the abdominal volume

Question 77

Internal Oblique Abdominis (location and function):

Answer 77

• Located between the external oblique abdominis and the transversus abdominis
• Unilateral contraction – rotates the trunk
• Bilateral contraction – creates flexion of the trunk

-Compresses abdomen

Question 78

External Oblique Abdominis (location and function):

Answer 78

• The most superficial of abdominal muscles and the largest of the group
• Bilateral contraction – flexes the vertebral column
• Unilateral contraction – bends the vertebral column laterally and rotates it

Question 79

Rectus Abdominis (location and function):

Answer 79

• Prominent abdominal muscles of the midline region
• “Rectangular” muscles appear in a series of four or five segments connected and separated by tendinous intersections (each segment capable of independent contraction).
• Use of this muscle is essential for sit-ups
• Contraction compresses the abdominal contents
• Flexes the vertebral column

Question 80

Quadratus Lumborum (location and function):

Answer 80

Located in the dorsal section of the abdominal wall

Unilateral contraction - bends body laterally, “hikes” hip

Bilateral contraction – fixes the abdominal wall to support abdominal compression

Question 81

Normal expiration:

Answer 81

A passive process because no muscular contractions are involved – expiration simply involves eliminating waste products of respiration (e.g. CO2)

Question 82

Forced expiration:

Answer 82

Active

Involves muscle contraction

Expiration begins when the inspiratory muscles relax

As external intercostals relax, the ribs move downward

As expiration begins, the diaphragm relaxes

These movements decrease the vertical and anterior-posterior dimensions of the thoracic cavity.

Question 83

3 forces during passive expiration:

Answer 83

During passive expiration, there are natural forces that go into play to restore the muscle back to relaxation state

1. Torque: the twisting of a shaft (or a rib) while not permitting one end to move
2. Elasticity: the chondral portion of the rib cage
3. Gravity: allows the restoration of the rib cage to drop down to its resting state
   When standing or sitting erect, gravity acts to pull the ribs down after expanding through the forces of the accessory muscles of inspiration
   Gravity works in favor of maximizing overall capacity because it pulls the abdominal visceral down leaving more room for the lungs

Question 84

Active Expiration involves:

Answer 84

Sometimes it is necessary to go beyond passive expiration and move into active expiration

Use of the expiratory muscles

Further reduces the size of the thoracic cavity by pressing the abdomen and forcing more air out of the lungs beyond the passive expiration level

Question 85

Quiet Tidal Breathing:

Answer 85

Respiration for life – During quiet (tidal) breathing an adult will complete between 12-18 cycles of respiration per minute

A cycle of quiet respiration is defined as one inspiration and one expiration. (10seconds = 1 cycle)

Question 86

Types of Respiration (4):

Answer 86

1. Quiet Inspiration
2. Forced Inspiration
3. Passive Expiration
4. Active Expiration

Question 87

Quiet Inspiration -

Answer 87

Utilizes the diaphragm and external intercostal muscles, but not the accessory muscles

Question 88

Forced Inspiration -

Answer 88

Uses the diaphragm, external intercostal muscles and many of the accessory muscles (e.g. for speech)

Question 89

Passive Expiration –

Answer 89

Allows forces to go back to resting position after inspiration

Question 90

Active Expiration –

Answer 90

Use of muscular effort to push beyond the resting position

Question 91

2 Tools for measuring respiration:

Answer 91

1. Spirometer

2. Manometer

Question 92

Spirometer –

Answer 92

Measures respiratory flow, volumes, and lung capacities

–> Forced Vital Capacity and FEV1

Question 93

Manometer –

Answer 93

Measures air pressure

• ->Maximum inspiratory pressure (MIP)
• -> Maximum expiratory pressure (MEP)

Question 94

Forced Vital Capacity (FVC):

Answer 94

Everything that can force out in one breath

All of the air in out lungs that we can get out

Question 95

Maximum Expiratory Pressure (MEP):

Answer 95

Measured by a Manometer
Maximum expiratory pressure = peek flow
How much can they forcibly blow into the air pressure gage = tells us how strong the expiratory muscles are

Question 96

Maximum Inspiratory Pressure (MIP):

Answer 96

Measured by a Manometer
All the air they can suck in = MIP
Tells us how strong the inspiratory muscles are

Question 97

Respiratory Volumes refer to:

Answer 97

Applies a number to the amount of air in each compartment of the respiratory system (i.e. the alveoli)

Measured in milliliters (ml) or liters (L)

Question 98

Respiratory Capacities refer to:

Answer 98

Are more functional units of measurement that represent combination of volumes

Measured in milliliters (ml) or liters (L)

Question 99

Types of Respiratory Volumes (5):

Answer 99

1. Tidal Volume (TV)
2. Inspiratory Reserve Volume (IRV)
3. Expiratory Reserve Volume (ERV)
4. FEV1 = forced expiratory volume in the 1st second
5. Residual Volume (RV)

Question 100

Tidal Volume (TV) =

Answer 100

volume of air exchanged in one cycle of respiration

Question 101

Inspiratory Reserve Volume (IRV) =

Answer 101

volume of air that can be inhaled after tidal inspiration (e.g. yawn)

Question 102

Expiratory Reserve Volume (ERV) =

Answer 102

volume of air that can be exhaled after tidal expiration

Question 103

FEV1 =

Answer 103

forced expiratory volume in the 1st second

Question 104

Residual Volume (RV) =

Answer 104

the amount remaining in the lungs after maximum exhalation

Question 105

Types of Respiratory Capacities:

Answer 105

1. Vital Capacity (VC) or forced vital capacity (FVC)

2. Total Lung Capacity (TLC)

Question 106

Vital Capacity (VC) or forced vital capacity (FVC) =

Answer 106

Volume of air that can be inhaled following maximal exhalation

IRV+ ERV+TV=VC

Vital capacity represents the capacity available for speech

Question 107

Total Lung Capacity (TLC) =

Answer 107

Sum of inspiratory reserve volume, tidal volume, expiratory reserve volume and residual volume

TLC=IRV + ERV + RV

Question 108

How is Vital Capacity different from Total Lung Capacity?

Answer 108

VC represents the volume of air involved in a maximal respiratory cycle (without RV) whereas total lung capacity includes RV

Question 109

Volumes and Capacities in relation to Voice:

Answer 109

you need to take enough air (volumes & capacities) in to get words out

Question 110

The minimum power source to make the vocal folds move would elevate a column of water…

Answer 110

…between 3cm-5cm H20.

Question 111

How much power source does one need to be barely heard?

Answer 111

A minimal 3-4cm H2O

Question 112

Conversational speech requires how much power?

Answer 112

~7 cm H2O or ~60 dB

Question 113

Louder speech requires how much power?

Answer 113

~12 cm H2O or ~85 dB

Question 114

Air Pressure (definition and measurement):

Answer 114

Air pressure is the force exerted on the walls of a chamber by molecules of air

Pressure is Force exerted on Area

–>P=F/A

Question 115

Pressures of the respiratory system (4):

Answer 115

1. Atmospheric pressure is used in discussion of respiratory system (Patm)
2. Intraoral pressure in the oral cavity (PM)
3. Subglottal pressure below the vocal folds (Ps)
4. Alveolar or lung pressure within the thoracic cavity (Pal)

Question 116

Phonation:

Answer 116

• a.k.a. voicing
• Sound source
• Larynx the is structure for phonation

Question 117

When the vocal folds are abducted they are:

Answer 117

open

Question 118

When the vocal folds are adducted they are:

Answer 118

closed

Question 119

Parts of the larynx involved in breathing and vocalization:

Answer 119

• Arytenoid cartilage (vocal process, muscular process)

- Vocal Folds

Question 120

Movements that take place between the arytenoid

and cricoid cartilages:

Answer 120

The vertical axis is where the arytenoid
cartilage rotates

The movements include:

• adduction (ADD)
• abduction (ABD)
• anterior-posterior (AP) sliding
• medial-lateral (ML) sliding

Question 121

What happens when the lateral cricoarytenoids contract?

Answer 121

adducts the arytenoid cartilages

to close the glottis

Question 122

When the thyroaryteniods contract…

Answer 122

They pull the arytenoid cartilages forward & backward, thereby loosening and tightening the vocal folds

Question 123

When the posterior cricoarytenoids contract…

Answer 123

They rotate the arytenoid cartilages laterally (abduct),
causing the vocal folds to separate from one another,
opening the glottis

Question 124

When the cricothyroid contracts…

Answer 124

It rotates the thyroid cartilage forward
around an axis through the cricothyroid joint.

This action stretches the vocal cord, thereby tensing it (amount of tension depends on pitch desired)

Question 125

What is the Bernoulli Effect?

Answer 125

At a constant volume flow (of air), at a point of constriction, ↓pressure = ↑velocity of flow

This explains vocal fold vibration (NOT a muscular event)

When airflow comes to a point of constriction (the vocal folds), it creates a build up of pressure to build up subglottic air pressure

When getting ready to voice, we close the vocal folds to build pressure, then the pressure goes down, the velocity of the air flow goes up forcing the air above the folds
Then, the Bernoulli effect sucks the fold back together

Question 126

1 cycles of the vocal folds = ___hz

Answer 126

1

Question 127

Description of the Vibratory System of the Vocal Folds:

Answer 127

Measured in hz

Column of air pressure moves upward
towards vfs in “closed” position
Column of air pressure opens bottom
of vibrating layers of vfs; body of vfs
stays in place
Column of air pressure continues to
move upward, now towards the top of
vfs, and opens the top
The low pressure created behind the
fast-moving air column produces a
Bernoulli effect which causes the
bottom to close, followed by the top.
Closure of the vocal folds cuts off the
air column and releases a pulse of air

Question 128

Average fundamental frequency of men:

Answer 128

110hz

Question 129

Average fundamental frequency of women:

Answer 129

180-220hz

Question 130

Average fundamental frequency of children:

Answer 130

300hz

Question 131

Forces/Properties of Phonation (need 4 to create voice):

Answer 131

• Ps (subglottic air pressure)
• Tissue elasticity (vfs) –> aerodynamic-myoelastic theory (due to the epithelial layer of the vocal folds)
• Constriction of airflow –> Bernoulli Effect
• Laryngeal muscles

Question 132

What is Frequency perceived as?

Answer 132

Pitch

Question 133

How is frequency measured (2):

Answer 133

1. MDVP

2. Visipitch

Question 134

What is intensity (dB)/amplitude perceived as?

Answer 134

Loudness

Question 135

How is intensity(dB)/amplitude measured (2):

Answer 135

1. Sound Pressure Level (SPL) Meter- measures loudness
2. LSVT Companion software (Lee Silverman Voice Treatment Companion software- measures loudness level through the computer and stores it)

Question 136

Ligament vs. Tendon:

Answer 136

ligament: connects bone to bone (or cartilage)
tendon: connects muscle to bone

Question 137

Muscles vs. Membranes:

Answer 137

Membrane: covers thing (e.g. muscles, bone, etc.)

Muscle: the mass that contracts

Question 138

genio-

Answer 138

chin

Question 139

mylo-

Answer 139

molar