Chapters 4 & 5 Behavioral Testing Perry C. Hanavan, Au.D. Audiologist
Audiometer
Earphones Ear Insert Earphones Reduce masking Reduce ear canal collapse Enhanced stability of sound delivered to ear Increase Comfort Reduce spread of bacteria Supra-aural Earphones
Audiogram Styles
Audiogram Styles
Recording AC Thresholds
Degree of Loss Normal 10 or better Minimal 11-25 dB HTL Mild 26-40 Moderate 41-55 Moderately severe 56-70 Severe 71-90 Profound greater than 90
Type of Loss Compare air conduction and bone conduction thresholds Outer Ear Conductive Loss Middle Ear Sensorineural Loss Inner Ear Auditory Nerve Mixed Loss
Audiogram 2-27 Number Yes/No
Air Bone
Configurations
Number Yes/No
yes/no number
yes/no number
yes/no number
CROSS CHECK SRT should be within +/- 10 dB of PTA
Masking Crossover Results when sound presented to one ear through earphones crosses to the head via bone conduction and is perceived by the opposite ear
Masking Interaural attenuation (air conduction pure tone) Reduction in sound energy of a signal as it is transmitted by bone conduction from one side to the other Hz Supra-aural Insert Bone 250 40 75 0 500 40 75 0 1000 40 60 0 2000 45 55 0 4000 50 65 0 8000 50 65
AC Masking Supra-aural earphone Insert earphone PTACTE – PTBCNTE >= 40 dB HL then mask Insert earphone PTACTE – PTBCNTE >= 70 dB HL then mask Interaural attenuation is 40 dB HL or supra-aural phones and 70 dB HL for insert phones
BC Masking Bone oscillator A-B gapTE > 10 dB HL (mask) (interaural attenuation is 0 dB for BC)
Speech Masking Supra-aural phones: Speech Test LevelTE – best BCNTE => 40 dB Insert Phones Speech Test LevelTE – best BCNTE => 70 dB ( Evaluate any speech test such as SRT and/or SRA and compare to the best BC of the non-test or opposite ear)
yes/no number
Speech Audiometry Purpose Attempt to measure the ability to understand everyday conversational communication
Uses of Speech Audiometry Measure of speech threshold Cross-check pure tone results Measure of supra-threshold speech recognition ability Differential diagnosis Measure of auditory processing ability Estimation of communication function
SPEECH TESTING SRT (speech recognition threshold) Measure of speech threshold Typically use spondees SRA (speech recognition ability) Measure of clarity Supra threshold Typically use monosyllabic or sentence material
Speech Threshold Lowest level at which speech can be recognized or detected SRT (could be any kind of speech material) ST (spondee threshold) SAT (speech awareness threshold) SDT (speech detection threshold)
Spondee Threshold Trochees (not used for assessing SRT) ST – the lowest level in decibels spondees can be recognize correctly Measure of threshold sensitivity for recognizing speech Provides estimation of hearing sensitivity in the primary speech frequencies Comparable estimation of PTA (useful for cross-check) Spondee bisyllabic word enunciated with equal stress on both syllables Trochees (not used for assessing SRT) bisyllabic word with unequal stress on both syllables
ST Materials Baseball Cowboy Hotdog Sunset Ice cream Railroad Sidewalk
SRT Speech Recognition Threshold Lowest level in decibels at which speech can be recognized correctly with at lease 50% criterion Sentences, spondees, etc. Typically use spondees unless otherwise indicated
SAT/SDT Speech awareness or detection level Lowest level in decibels at which speech is detected Used when patient unable to respond to spondees (infants, developmental delays, etc.) Approximately 10 dB better threshold than SRT threshold Audiometers calibrated to speech recognition level than detection levels
Supra-threshold Speech Recognition Ability Ability to correctly recognize speech at supra-threshold levels (reported in percentage of words correct at intensity level of presentation) 100% at 80 dB HL 96% at 40 dB SL Measured scores are generally predictable from degree, configuration and type of loss from pure tone results
Speech Recognition Ability Materials Discourse Sentences Words syllables Phonemes Nonsense words Synthetic sentences Speech in noise Filtered speech
Speech Test Administration Monitored Live Voice Speaker variations Scores affected by rate and quality of presentation May not provide sufficient test-retest reliability Recorded Recommended procedure Greater test-retest reliability Normative data (for word recognition scores – WRS…speech recognition ability scores)
Open Vs. Closed Set Closed Set Open Set Limited set of response possibilities Useful for young children with limited vocabulary, patients with poor articulation, developmental delays Scores may be 10% better compared to open set scores Open Set More challenging as response possibilities are somewhat unlimited
NU-6 (CNC) (Open Set)(Recorded or Live)
CID W-22 (PB Word Lists) (Open Set)(Recorded or Live)
CUNY Nonsense Syllable Test (Closed Set)(Recorded)
Minimum Age of Administration
WIPI (25 Word Lists) (Closed Set)(Recorded)
NU-CHIPS (Closed Set)(Recorded)
Dichotic Sentence Identification (Closed Set)(Recorded) The DSI test uses 6 of the same sentences as the SSI-ICM test but presents 1 sentence to each ear simultaneously at 50-dB SL, and the participant is asked to select from a printed list which 2 sentences were heard. Fifer et al showed that the test is resistant to the effects of SNHL below 50 dB HL. The DSI test is administered in both a free and a directed mode. In the directed mode, only the sentence heard in test ear is noted, whereas in the free mode, the sentences heard in both ears are reported. Five presentations are used if the score is 100%; otherwise, another 5 sentences per ear are administered. Scores are better in the directed mode than in the free mode, and the right ear scores are normally higher in adults than the left ear scores, presumably due to age related corpus callosum dysfunction. Normal scores are 80% correct and above.
Pediatric Speech Intelligibility (Closed Set)(Recorded) PSI Both monosyllabic words and sentences recorded in quiet and with competition. Employs color plates with pictures of animals (animals used to avoid ethnic biases) which represent either the sentences or the words. Investigates peripheral and auditory processing disorders.
BKB-SIN (Adults) (Open Set)(Recorded)
BKB-SIN (Children) (Open Set)(Recored)
Quick-SIN for Adults Open Set-Recorded
QuickSIN Test for SNR
Redundancy vs. HL Sensitivity less more Syllables Words Sentences Redundancy of Informational Content Sensitivity to Hearing Loss less more
Significant Difference Compare test results When is there a significant difference between test scores on speech scores? These data permit comparison of scores to determine whether there is a significant difference
Lower Confidence Levels
yes/no number
Count the Dots Each dot represents 1% of the information contributing to speech clarity. The number of dots audible predict how well one understands quiet speech from a six foot distance. The dots are unevenly distributed, with many more of them filling in the gray zone between 1000 and 3000 Hz than in the 250 to 500 Hz area. Count the dots that are below a person’s audiometric threshold. The more dots below threshold, the better one is able to hear normal conversational speech. The fewer dots below threshold, the more difficulty hearing conversational speech.
SII and AI Relationship
SII and AI Relationship of Various Speech Materials
Count the Dot (AI)
SNR Loss for 110 HA Wearers
26% AI Understand 90% Sentences
SNR Loss
PI & Site of Lesion
Pathologic PI Calculate PI for SN When .40 or greater, suggests neural rather than cochlear
yes/no number
Number of Words for SRA
Speech Site of Lesion Diagnosis ME OE IE AN A-B Gap Excellent SRA No Rollover A-B Gap Excellent SRA No Rollover SN Loss XX No Significant Rollover SRA above lower confidence limits SN Loss Significant Rollover XX SRA below Lower confidence Limits (scores lower than expected for degree of loss)
Audigram 5-23
Audiogram 5-4
Speech Masking Supra-aural earphone Insert earphone Speech LevelTE – BCNTE(best tone) >= 40 dB HL Insert earphone Speech LevelTE – BCNTE(best tone) >= 70 dB HL
Audiogram 2-20
Audiogram 2-25