Transcript test ear
Otoscopy, hearing screening (AC) and pure tone testing with AC and BC Lecture 5 Screening and Assessment Screening Options Case Hx HHIE Otoscopy Pure tone AC screening Pure tone audiometric assessment Air Conduction or Soundfield if unable to tolerate headphones Bone Conduction Procedures for PT testing Variables affecting results Cross hearing in pure tone testing Hearing Screening Options Options Condition Case History Questions Self Report background Questionnaire HHI-E/ HHI-A Pure tone hearing screen Otoscopy Fail /Criteria None Perception of Handicap Pass < 10 Refer>10 Detection of sound Pass 20 dB, children Pass 25 dB HL, adult Condition of ear canal Varies and middle ear Drainage, wax, foreign body, asymmetry, redness Case History Hearing History Do you have a hearing loss in one or both of your ears? Was your HL sudden in onset? Do you have any ringing or noises in your ears? Medical History, History of Noise Exposure Have you had a recent illness that could have caused your HL such as sudden noise exposure, viral illness, meningitis, mumps, syphilis, aminoglycoside use, high fever, diuretic use or head trauma? Do you have any recent discharge or drainage? Do you have any pain, fullness, or discomfort in your ears? Family History Determine time of onset of HL Hearing Handicap Inventory Elderly (HHIE: Ventry & Weinstein, 1983) 10 item, yes, no, sometimes; Paper/pencil format Perceived psychosocial effects of hearing loss Psychometric Properties Strong internal consistency Strong test retest reliability (.84) High correlation with degree of hearing loss Pass/Fail Criteria Total Score < 10: Pass Total Scores > 10: Refer Total Scores > 18: Benefit from HA http://www.ausp.memphis.edu/harl/ When to screen, what to expect Clinical Indications Adults Screen as needed, requested or when they have conditions that place them at risk for HL (i.e. recreational noise exposure, family hx, concerned family member) See ASHA guidelines Expected Outcomes Identification of those persons most likely to have HL that requires referral Does not differentiate between types of HL (conductive, sensorineural etc) Normal TM Color: grayish, translucent appearance. Structures behind TM: Handle of malleus touches TM- actually draped over bone and is visible. Manubrium is closest to the drum and is most prominent. The tip at the bottom-most aspect is the umbo. The light reflex: Light originating from scope reflects off the surface of the drum, making a triangle that is visible below the malleus. Annulus: ring surrounding TM Otoscopy Otoscopy/Video Otoscopy Pull up on pinna and away for adults Pull downward on ear lobe for children Carefully place speculum in ear canal Rotate otoscope anteriorly towards the nose and attempt to ID landmarks Non Diagnostic Otoscopy Wax Fluid in middle ear Perforated eardrum Presence of foreign body Landmarks Annulus Manubrium Umbo Cone of Light Incus (shadow) Pars Tensa Pars Flaccida Setting/Equipment/Specifications Conduct hearing screening in a clinical or natural environment conducive to obtaining reliable screening results Determine ambient noise levels Be sure equipment is calibrated annually Perform listening check prior to administering pure tone test Clinical Process (Hall and Mueller, 1997) Briefly inspect each ear for evidence of abnormality (ear canal collapse, drainage etc) Seat patient comfortably with profile toward you Instruct patient to respond when they just barely hear the stimulus or even if they just think they heard a sound Use appropriate language level Response mode: Press a button Raise hand Give verbal response Clinical Process- ASHA Guidelines http://www.asha.org/docs/html/GL1997-00199.html Protocol – Adults Tones Frequencies Protocol – Kids Tones Frequencies Present at 1000, 2000 and 4000 Hz Level 25 dB HL Present at 500, 1000, 2000 and 4000 Hz Level 20 dB HL Ear Right and left ear individually Subjective Procedure Ear Right and left ear individually Tips in conducting hearing screening Position client in chair Adults – facing away from examiner (only after giving instructions) Child – varies If they can follow directions w/o difficulty – face away If they can’t follow directions – face towards examiner and give more feedback visually Provide instructions – pg 94 Position headphones Familiarize with task and then test Tips in conducting hearing screening Present a pure tone signal to the better ear (50 dB HL) If patient responds, then drop down by 10 dB steps until you obtain a response at desired screening level (20 dB HL – children, 25 dB HL for adults) Use pure tone signals of 1-2 seconds duration If NR from patient, increase in 5 dB steps until the patient responds, and then drop down in 10 dB steps Stop presenting tones once you obtain a response at the desired screening level Audiometric Test Battery Options Purpose Results Pure tone AC threshold Determines degree of dB HL HL Pure tone BC threshold Determines type of HL dB HL , but compares AC and BC to yield CHL, SNHL or MHL Acoustic Immitance Determines condition of ME and AR Pressure units and type of tympanogram Speech Audiometry Determines extent of speech understanding Percent of words correct Pure tone audiometry – threshold testing Cornerstone audiometric assessment tool Several researchers involved in development of technique for hearing testing (Carhart & Jerger, Hughson & Westlake) Purpose: to quantify the amount, type and configuration of hearing loss Results recorded on audiogram Not screening Scope of Practice: Limited to audiology Air and Bone Degree of Hearing Loss Determined by pure tone air results Type of Hearing loss Determined by comparing pure tone bone results with pure tone air results Configuration of Hearing loss Determined by pattern of pure tone air results Current Procedure (modified Hughson Westlake Method) Begin in better ear Use warbled, pulsed or conventional pure tones Begin at 1000 Hz Assess mid octaves if gap of more than 20 dB Familiarize with task Signal duration: ____ seconds Present a pure tone signal to the better ear at a level comfortably ________the patient’s presumed threshold Usually 40 dB above threshold (typically at 50 dB HL) for normal hearing Determining Threshold After demonstrating familiarization, then begin threshold search with down 10, up 5 rule… Increase the intensity level in ____ dB steps until the patient responds Go back down another ____dB and present the stimulus once more Increase the intensity again in ___ dB increments, seeking a response The patient’s threshold for the stimulus is the lowest level obtained in at least half of a series of presentations Record threshold level on audiogram Go on to the next frequency using same method until all frequencies are obtained (250, 500, 1,2,4,&8 K) Go to other ear after the first ear is completed. Variables affecting results Cognitive ability Adults Children May have to do an alternative assessment Alternate assessments VRA and Conditioned Play Audiometry Conditioned Play Audiometry http://www.youtube.com/watch?v=_eKn-lrGYZo Visual Reinforcement audiometry http://www.youtube.com/watch?v=S45H3i2ulto http://www.youtube.com/watch?v=_6wtsoTfg6A&list=PLV7nKx5rKr5Se aKOZeea8s1mSpbCMijDu&index=37 Variables affecting results Environment Ambient noise levels cannot exceed an allowable value (ASHA guidelines) Distractors Visual Proprioception Variables affecting results Stimulus Starting level – must provide familiarization Duration of stimulus Type of tone Presentation pattern Pitfalls and Fixes False Positives and False Negatives Collapsing ear canals Standing waves Tactile response Pure Tone Average (PTA)- pg 98 PTA - simple summary of degree of HL Conventional formula: Average of 500, 1000, 2000 Hz / 3 Alternative 4 frequency formula Average of 500, 1000, 2000, 4000 Hz / 4 Audiogram Calculate Pure tone average Cross-over Hearing Cross over can occur through Air Conduction or Bone conduction The sound presented to the test ear crosses through the skull and stimulates the hair cells of the opposite cochlea The ear that is actually responding to the tone is not the test ear Conditions When one ear hears much better than the other When there are large differences between the ears If assessing at very high intensity levels Cross-over Hearing AC When values >/= 40 dB consider using masking to reevaluate thresholds in which ear? Frequency (Hz) 500 0 10 dB Hearing Level 20 30 40 50 60 70 80 90 100 1000 2000 3000 4000 6000 Interaural attenuation (IA) Amount of reduction in intensity that occurs when a signal crosses the head from one ear to the other Sound can cross via AC or BC Typical IA value = 40 dB HL for AC Typical IA value = 0 dB HL for BC Varies by individual, HL and frequency Cross-Over Hearing in Air Conduction Is AC (test ear) – 40 dB > AC (non test ear)? Examples: 250 0 10 20 30 40 50 60 70 80 90 100 110 120 500 1000 2000 4000 8000 250 0 10 20 30 40 50 60 70 80 90 100 110 120 500 1000 2000 4000 8000 BC Complex phenomenon that involves interaction of 3 different ways to stimulate the cochlea. *Distortional BC – of bony cochlear labyrinth Inertial BC – inertial response of middle ear ossicles and inner ear fluids Osseotympanic BC – radiation of sound energy into external ear canal Each contributes differently to the BC response Set-up BC testing completed with test ear uncovered Non test ear can be covered when using masking If the ear is covered, then a BC signal sounds louder Increase in sound pressure in the ear canal Air vs Bone Results AC can be the same as BC AC can be worse than BC = Air Bone Gap BC should not be worse than AC – slight variations can be obtained Occlusion Effect (OE) Demonstration Occurs for frequencies </= 500 Hz Occurs in normal hearing or SNHL if ear occluded Does not occur in CHL Interaural attenuation (IA) for BC Amount of reduction in intensity that occurs when a signal crosses the head from one ear to the other Sound also crosses via BC IA values for BC Compare AC and BC threshold of the test ear IA = 10 dB HL Cross Hearing in BC Only a concern when there is an ABG in the test ear Is AC (test ear) – BC (test ear) > 10 dB? Air-Bone-Gap in Test Ear > 10 dB