11/8/2023 0 Comments Weber test ear![]() ![]() The image below shows this procedure.Ī normal test is when the patient can hear the tuning fork easier when held 1 cm from the EAC rather than when placed on the bone. Once the patient can hear this, place the prongs of the tuning fork 1 cm away from the external auditory canal and ask if the noise is louder when placed against the bone or when held up next to the ear. Be sure to place the fork directly on the bone rather than on the tissues surrounding it. Rinne’s TestĪgain strike the tuning fork lightly and then place the base of the tuning fork firmly on the bone of the mastoid on one side. ![]() No more information can be gained really from this test. Therefore this test is merely a test of difference in function between the two ears. Or it could mean that the right ear has a conductive hearing loss and therefore the right ear has become more sensitive to bone conduction and so hears it better than the left. This could mean that the left ear had a sensorineural hearing loss and therefore the tone went to the right because that is the only ear that can hear. Say for example that the patient found that he could hear the tone more on the right side compared to the left. Unfortunately this test does not differentiate between conductive and sensorineural hearing loss – it can’t even really tell you which side is affected. one on top of each other) when used in this test.Ī normal result is when the patient can hear the tuning fork tone in both ears equally.Īn abnormal result is when the patient can hear the tuning fork tone in one ear more than the other. Contrary to the image the ‘prongs’ of the tuning fork should strictly be in line vertically (i.e. Strike the 512Hz tuning fork lightly on your elbow or knee (so that you can barely hear it at arms length) and place the base of the lightly vibrating tuning fork firmly on the forehead (or any bone prominence in the midline of the skull – equidistant from both ears). ![]() The image below shows how to perform this test. This may be due to the fact that now the affected ear is subject to less environmental noise compared to the normal side and therefore becomes more sensitive to the vibrations through the skull. The also rely on the fact that when there is a purely conductive hearing loss in one ear, that ear becomes more sensitive to bone conduction hearing compared to the normal side. These tests both exploit the fact that in normal people the ear is more sensitive to sound via the air (i.e via the middle ear mechanism) compared to bone conduction (i.e ‘hearing’ the sound transmitted as vibrations through the bone of the skull).
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