π Differentiating between conductive and sensorineural hearing loss is essential in the clinical examination of hearing loss.
π Sensorineural hearing loss can be caused by inner-ear disease or damage to the cochlear nerve, resulting in impaired perception of sound waves via air and bone conduction.
π Conductive hearing loss is caused by diseases of the middle ear or obstructions in the outer auditory canal, leading to impaired air conduction but unaffected bone conduction.
π Impaired sound conduction makes the inner ear more sensitive towards bone conduction stimuli.
π The Rinne Test helps differentiate between sensorineural and conductive hearing loss.
β‘οΈ Conductive hearing loss impairs air conduction, while sensorineural hearing loss does not.
π The Weber and Rinne tests are used to assess hearing loss.
π A positive Rinne test indicates that air conduction is intact.
π The Weber test compares bone conduction in both ears to detect the origin of hearing loss.
π Unilateral sensorineural hearing loss causes sound to be louder on the unaffected side.
π Unilateral conductive hearing loss causes sound to be louder on the affected side.
π Differentiating between sensorineural and conductive hearing loss requires interpretation of results from both the Rinne and Weber Test.
β A bilaterally positive Rinne Test indicates conductive hearing loss.
π Weber test lateralized to the right suggests right-sided conductive hearing loss or left-sided sensorineural hearing loss.
β A positive Rinne Test on both sides confirms normal air conduction.
π The Weber test can detect conductive or sensorineural hearing loss.
π A positive Rinne test indicates no significant conductive hearing loss.
ππ A negative Rinne test suggests conductive hearing loss.
ππ A normal Weber test points to symmetrical conductive hearing loss.
πππ Both the Rinne and Weber tests are useful for identifying different types of hearing loss.
π The Weber and Rinne tests are used to evaluate combined conductive and sensory neural hearing loss.
π The Weber test involves placing a vibrating tuning fork on the forehead to determine if hearing loss is unilateral or bilateral.
π The Rinne test compares air conduction and bone conduction to differentiate between conductive and sensory neural hearing loss.
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