sign in sign up
<<
Home , Audiogram, Audiometry, Conductive hearing loss, Pure tone audiometry

OPEN ACCESS GUIDE TO AND AIDS FOR OTOLARYNGOLOGISTS

CLASSIFICATION OF De Wet Swanepoel & Claude Laurent

Classification of hearing loss is an essen- to air conduction signals, tial component of audiological assessment. pure tone thresholds, presented with a bone Classifying hearing loss according to the oscillator (see Pure Tone type, degree and configuration of hearing chapter), represent hearing thresholds loss is the primary information required to when directly stimulating the . Air determine further test procedures and to conduction stimuli represent hearing thres- direct medical and/or audiological inter- holds of conducted through the en- ventions. tire (external, middle, in- ner and auditory nervous system) whilst bone conduction audiometry repre- Hearing Loss – Classification sents thresholds of sound conducted through the and auditory nervous Hearing status is typically quantified ac- system. cording to the hearing threshold (lowest intensity at which a signal is just audible to Using these tests in both one can as- a person (measured in or dB) certain the type, degree, configuration and across several (measured in symmetry of hearing loss. The combina- Hertz or Hz). The gold standard to deter- tion of bone and air conduction tests al- mine hearing thresholds is pure tone audio- lows one to differentiate between patho- metry (PTA) (see logy located in the external and chapter); it is recorded on a chart called an as opposed to the cochlea and central audi- (Figure 1). tory pathway.

It is important however to note that these tests must be done as part of an audiological test battery so as to confirm and crosscheck the audiometric results. Some types of hearing loss also require other tests to determine the exact type of hearing loss. Auditory neuropathy is one such condition and requires advanced tests including auditory brainstem responses (see chapter on auditory brainstem res- ponse) and otoacoustic emissions (see chapter on otoacoustic emissions).

Figure 1: Pure tone audiogram (x-axis = ; y-axis = intensity) Conductive hearing loss indicates an Hearing thresholds are recorded across obstruction to the flow of sound energy frequencies using air conduction pure tone from the atmosphere to the inner ear. signals that are presented using transducers Pathology causing conductive hearing loss (e.g. insert earphones, supra-aural, circum- blocks the natural transduction of energy aural, or free field speakers). In addition through the external and middle ear (Figure 2).

Figure 2: Hearing loss related to the structure of the ear

Flow of sound energy may be blocked in the canal e.g. by wax impaction; flow may be blocked in the middle ear in Figure 3: Audiogram of a patient with the cases of with effusion or conductive hearing loss any other condition which changes the sound conduction properties of the middle Sensorineural hearing loss ear structures (Table 1). Many types of conductive hearing loss are reversible e.g. This is a broad term used to describe with removal of wax plugs or drainage of reduction of auditory threshold sensitivity. middle ear effusions. show The pathology may be located in the normal bone conduction but abnormal air cochlea and/or in the auditory nerve and conduction thresholds (Figure 3). central nervous system auditory structures (retrocochlear) (Table 1, Figure 2). The Conductive hearing loss causes of sensorineural hearing loss are Wax impaction in ear canal varied (Table 1). Atresia of ear canal Perforation of tympanic membrane Historically it was difficult to clearly differentiate between sites-of-lesion in the Dislocation of ossicular chain sensory and neural systems because they are so closely linked. There are also Otitis media with effusion deteriorating effects secondary to the primary lesion e.g. noise induced damage Sensorineural hearing loss to the cochlea may also cause secondary Genetic hearing loss (syndromic & non- atrophy of the central auditory pathway. syndromic) Audiological advances such as otoacoustic Congenital infections (e.g. Rubella, CMV) Acquired infections (measles, mumps, toxo- emissions (see chapter on otoacoustic plasmosis, meningitis, syphilis) emissions) and auditory brainstem evoked (aminoglycosides, loop diuretics, responses (see chapter on auditory brain- cytotoxic drugs, antimalarials) stem response) have however increased Noise induced hearing loss our diagnostic specificity of the primary Presbyacusis site-of-lesion. Table 1: Examples of causes of conductive and sensorineural hearing loss Audiograms of sensorineural hearing loss show hearing loss that equally affects air and bone conduction (Figure 4).

2 Auditory Neuropathy

Auditory neuropathy is a type of hearing loss which technically can be considered a subgroup of sensorineural hearing loss, but has a very characteristic presentation with a specific subset of symptoms and diag- nostic test results. The clinical presentation is varied and consequently has been refer- red to as auditory neuropathy spectrum disorder (ANSD). These patients have significant sensorineural hearing loss de- spite evidence of normal outer hair cell function, and the neural response is absent or abnormal as measured by the auditory Figure 4: Example of audiogram of a brainstem response. patient with sensorineural hearing loss They may present with any degree and Mixed hearing loss configuration of hearing thresholds despite absent or very abnormal auditory nerve Mixed hearing loss refers to the combined functioning as measured by the auditory presence of both conductive and sensori- brainstem response. Furthermore, speech neural hearing loss (Figure 5). perception is disproportionately poor with respect to the hearing loss.

The signature diagnostic finding is the presence of normal or near-normal outer hair cell functioning as measured by the cochlear microphonic response; this can be visualised on the auditory brainstem response. Otoacoustic emissions are also generally present despite significant loss of hearing sensitivity.

Degree and configuration of hearing loss

Figure 5: Example of audiogram of a The degree of hearing loss is quantified patient with mixed hearing loss for each ear as an indication of severity of hearing loss. The PTA for air conduction Mixed hearing loss may occur when a thresholds at 500, 1000 and 2000 Hz is sensorineural hearing loss is compounded traditionally used to classify the degree of by conductive hearing loss e.g. due to otitis hearing loss in each ear. Table 2 illustrates media with effusion. Mixed hearing loss a commonly used classification of the may also be related to developmental ab- degree of hearing loss based on PTA. normalities affecting both the middle ear Normal adult hearing thresholds are gene- and cochlea. rally considered to be <25dB.

3 Author & Editor Pure tone Degree of Hearing average Loss (dB HL) De Wet Swanepoel PhD < 15 Normal Associate Professor 16 – 25 Slight Department of Communication Pathology 26 – 40 Mild University of Pretoria 41 – 55 Moderate Pretoria, South Africa 56 – 70 Moderately severe [email protected] 71 – 90 Severe ≥ 90 Profound Author & Editor Table 2: Degree of hearing loss based on the PTA of 500, 1000 and 2000 Hz air Claude Laurent, MD, PhD conduction thresholds Professor in ENT ENT Unit Hearing loss configuration is classified in Department of Clinical Science accordance with the shape of the air con- University of Umeå duction audiogram across the frequency Umeå, Sweden spectrum. Different configurations may be [email protected] associated with certain aetiologies of hearing loss. A commonly used classifica- Editor tion system is presented in Table 3. Johan Fagan MBChB, FCS(ORL), MMed Term Descriptions Professor and Chairman Flat ≤5dB average differ- Division of Otolaryngology rence per octave University of Cape Town Gradually sloping 6-10dB rise or fall Cape Town per octave South Africa Sharply sloping 11-15dB rise or fall [email protected] per octave Precipitously sloping ≥16dB rise or fall per octave OPEN ACCESS GUIDE TO Rising Better hearing at the higher frequencies AUDIOLOGY & HEARING AIDS Trough or saucer ≥20dB more loss at FOR OTOLARYNGOLOGISTS middle frequencies http://www.entdev.uct.ac.za than at 250 and 8000Hz Notch Sharply poorer at one frequency, with reco- very at adjacent fre- quencies The Open Access Atlas of Otolaryngology, Head & Neck Operative by Johan Table 3: Configurations of hearing loss Fagan (Editor) [email protected] is based on air conduction PTA licensed under a Creative Commons Attribution - Non-Commercial 3.0 Unported License

4