Instrumental Assessments

Question 0

List the different types of laryngeal examination (5)

Answer 0

• Indirect laryngoscopy
• Direct laryngoscopy
• Fiberoptic laryngoscopy (flexible & rigid)
• Stroboscopy
• High-speed imaging

Question 1

List the different types of instrumental assessment (3)

Answer 1

• Laryngeal examination
• Physiological evaluation
• Acoustic analysis

Question 2

Procedure for indirect laryngoscopy

Answer 2

• Laryngeal mirror inserted into oropharynx
• Positioned to reflect vocal folds
• Mirror warmed, tongue pulled forward
• /iː/ (vocal folds lengthened, larynx raised)
• Quick, minimal trauma/pain

Question 3

Limitations of an indirect laryngoscopy

Answer 3

• Activates gag reflex
• View of larynx may be difficult
• Client unable to speak normally

Question 4

Procedure for direct laryngoscopy

Answer 4

• Requires hospitalisation & anaesthesia
• Endoscope inserted directly into oropharynx & close to larynx

Question 5

Advantages of a direct laryngoscopy

Answer 5

• Detailed exam (biopsies)
• Enables manipulation of structures

Question 6

Limitations of a direct laryngoscopy

Answer 6

• Invasive
• Costly
• Unable to observe laryngeal function

Question 7

What are fiberoptics?

Answer 7

• Bundle of fibres
• Some carry light (halogen), others carry image back
• 2 types:
  
  • flexible
  • rigid
• Connect to video camera (fiberoptic laryngoscopy is therefore also called videolaryngoscopy)

Question 8

Procedure for rigid fiberoptic laryngoscopy

Answer 8

• Rigid tube inserted into oropharynx
• Tongue pulled forward

Question 9

Limitations of a rigid fiberoptic laryngoscopy

Answer 9

• Limits speech & laryngeal activity
• Restricted access to laryngeal cavity

Question 10

Procedure for flexible fiberoptic laryngoscopy

Answer 10

• Passed through nasal cavity, over soft palate
• Local anaesthetic required
• Scope positioned slightly above epiglottis

Question 11

Advantages of a flexible fiberoptic laryngoscopy

Answer 11

• Flexibility (all areas)
• Zoom lens
• Client able to speak & sing
• All age groups
• Overcomes hyperactive gag

Question 12

Procedure for stroboscopy

Answer 12

• Stroboscopic light source (rigid or flexible scopes)
• Enables detailed view of vibratory behaviour of vocal folds
• Stobe light (emits rapid pulses at rate controlled by examiner)

Question 13

Basic principle of stroboscopy

Answer 13

• When the light pulse is the same as the vocal frequency (vibrations) the image is static
• When the light pulse is more or less than the vocal frequency a slow motion view of the vocal fold vibration is seen
• Each pulse illuminates different point of vibratory cycle
• Over successive vibratory cycles images become fused - slow motion image

Question 14

Parameters of a stroboscopy

Answer 14

• Symmetry of movement
• Regularity of successive vibration
• Glottal closure
• Amplitude (horizontal excursion)
• Presence & size of mucosal wave
• Presence of non-vibrating portions of vocal folds
• Presence of lesions & effect on vibration

Question 15

High-speed imaging

Answer 15

• Can provide imaging of vocal fold up to 2000 frames per second
• Allows a more sophisticated (clearer) examination of vocal fold vibration
• Relatively costly
• Mainly for research purposes

Question 16

List the different types of physiological evaluation (4)

Answer 16

• Electroglottography (EGG)
• Laryngeal aerodynamics
• Electromyography (EMG)
• Respiratory function

Question 17

Basic principle of electroglottograph (EGG)

Answer 17

• Human tissue conducts electrical current
• 2 electrodes are placed externally on thyroid cartilage (small electrical current passes between the 2)
• Vocal folds abducted: no electrical current passes between electrodes
• Vocal folds adducted: current passes freely between electrodes
• Changes in flow of electrical current = glottal cycle (laryngograph (Lx) waveform)
• Measures vocal fold contact area

Question 18

Instrumentation for an electroglottograph (EGG)

Answer 18

• Laryngograph (Lx)

Question 19

Answer 19

Laryngograph (Lx) waveform

• Closing phase: Initial contact + Maximum contact
• Opening phase: Maximum contact + Minimum contact
• One vocal fold vibration cycle = Closing phase + Opening phase

Question 20

Interpretation of laryngograph (Lx)

Answer 20

• Normal:
  
  • Sharpness of closure most important feature
  • Open phase more gradual
• Breathy:
  
  • Relatively long open phase
• Harsh:
  
  • Short open phase

Question 21

Quantitative parameters of an electroglottography (EGG)

Answer 21

• Fo:
  
  • Period of glottal cycle
  • Length of time for vocal folds to make one complete vibratory cycle
• Duty cycle:
  
  • Also called open quotient
  • Ratio of time that vocal folds are open compared to entire glottal cycle
• Closing time:
  
  • Time from totally open to totally closed

Question 22

Clinical application for electroglottography (EGG)

Answer 22

• Assessment
• Biofeedback
• Monitoring therapy

Question 23

Limitations of an electroglottography (EGG)

Answer 23

• Electrode placement
• Need to keep resistance low
• Sub-cutaneous soft tissue
• Artifacts:
  
  • Head movement
  • Laryngeal elevation

Question 24

Normal laryngograph (Lx) waveform according to Motta et al. (1990)

Answer 24

• Curved peak
• Uniform ascending & descending portions

Question 25

Hypokinetic laryngograph (Lx) waveform according to Motta et al. (1990)

Answer 25

(Seen in 93% of patients)

• Sharp peak
• Decreased amplitude

Question 26

Hyperkinetic laryngograph (Lx) waveform according to Motta et al. (1990)

Answer 26

(Seen in 95% of patients)

• Plateau-like wave

Question 27

Nodules - laryngograph (Lx) waveform according to Motta et al. (1990)

Answer 27

• Single notch in closure phase (72%)
• Normal closure phase (28%)

Question 28

Polyps - laryngograph (Lx) waveform according to Motta et al. (1990)

Answer 28

• Double notch in closure phase (68%)
• Single notch in closure phase (25%)
• Near normal closure phase (7%)

Question 29

Reinke’s Oedema laryngograph (Lx) waveform according to Motta et al. (1990)

Answer 29

• Double notch in closure phase (72%)
• Single notch in closure phase (24%)
• Irregular trace (4%)

Question 30

Functional cases - laryngograph (Lx) waveform according to Motta et al. (1990)

Answer 30

Traces normalise after therapy

Question 31

Organic cases - laryngograph (Lx) waveform according to Motta et al. (1990)

Answer 31

• Normalise after surgery by 45%
• Further 55% after therapy

Question 32

Parameters of laryngeal aerodynamics

Answer 32

• Airflow rate
• Subglottal air pressure
• Sound pressure level (SPL)
• Laryngeal resistance
• Adduction/abduction rate of vocal folds

Question 33

Instrumentation for laryngeal aerodynamics

Answer 33

Aerophone II (Kay Elemetrics)

Question 34

Electromyography (EMG)

Answer 34

• Measures electrical activity of muscles
• 2 techniques:
  
  • Direct: electrodes inserted into specific muscles (cricothyroid & thyroarytenoid)
  • Indirect: surface electrodes (less precise)

Question 35

Measuring sites for electromyography (EMG)

Answer 35

4 sites:

• Orofacial area
• Lower facial area
• Suprahyoid area
• Thyrohyoid area

Question 36

Parameters for electromyography (EMG)

Answer 36

• Onset & offset muscle activity
• Pattern muscle activity
• Amplitude of activity
• Abnormal:
  
  • Extraneous bursts of muscle activity
  • Muscle activation more or less than normal amplitude

Question 37

Uses of an electromyography (EMG)

Answer 37

• Confirmation of vocal fold paralysis
• Differential diagnosis of arytenoid dislocation
• Predicting the return of vocal fold movement
• Guiding of botox injections
• Differential diagnosis of functional voice disorders

Question 38

List the types of respiratory function (2)

Answer 38

• Spirometry
• Kinematic assessment

Question 39

Measurements involved in spirometry

Answer 39

• Vital capacity (VC)
  
  • The total volume of an ‘unforced’ but complete expiration following a full inspiration
• Forced (expiratory) vital capacity (FVC)
  
  • The maximum volume of air exhaled as rapidly, forcefully, & completely as possible from the point of maximum inhalation
  • FEV1: Forced expiratory volume in the 1st second of the FVC

Question 40

Instrumentation for spirometry

Answer 40

Spirometer

Question 41

Kinematic assessment

Answer 41

• Recording of changes in circumference of rib cage & abdomen
• Determines the presence of asynchronous/arrhythmic respiratory behaviours

Question 42

Instrumentation for kinematic assessment

Answer 42

Respitrace

Question 43

Interpretation of a kinematic assessment

Answer 43

Normal: Equal contribution of rib cage and abdomen movement to lung volume reduction

Question 44

Other parameters of a kinematic assessment

Answer 44

• Frequency of paradoxing (oppositional breathing)
• Mean syllables/breath, maximum phonation time, speaking rate

Question 45

Types of acoustic analysis (3)

Answer 45

• Visipitch
• Computerised Speech Lab (CSL)
• Phonetogram/voice range profile

Question 46

Visipitch

Answer 46

• Real time display of Fo & energy of voice
• Parameters:
  
  • Average Fo & range
  • Average intensity & range
  • Frequency perturbation (jitter)
  • Amplitude perturbation (shimmer)
  • Noise-to-harmonic ratio

Question 47

Computerised Speech Lab (CSL)

Answer 47

• Measures similar parameters as Visipitch
• More sophisticated (research tool)
• Spectrograms: reflect properties of source of sound (vocal fold vibration) & resonator (vocal tract)
• Signal-to-noise/harmonic-to-noise ratio
  
  • Energy in harmonics of signal vs noise energy in signal
  • Abnormal: more noise (low harmonics-to-noise ratio)

Question 48

Answer 48

Computerised Speech Lab (CSL) - normal voice

Question 49

Answer 49

Computerised Speech Lab (CSL) - abnormal voice (rough)

Question 50

Answer 50

Computerised Speech Lab (CSL) - abnormal voice (breathy)

Question 51

Voice range profile

Answer 51

• Measures the maximum phonational pitch and intensity range
• 2-D visual, graphical representation
• Intensity values plotted against frequency values
• Profile area = maximum phonation capacity of the individual

Question 52

Instrumentation for voice range profile

Answer 52

Phonetogram

Question 53

Answer 53

Phonetogram - healthy voice

Question 54

Answer 54

Phonetogram - dysphonic voice