Question types

Start with

Question limit

of 35 available terms

Print test

35 Matching questions

  1. Reflexes: Jerger Patterns
  2. Central Auditory Tests: Staggered Spondaic Words (SSW)
  3. Reflex Decay: Scoring
  4. Central Auditory Tests: Ear Symmetry
  5. WRS: Presentation Method
  6. Reflexes: Sensitivity and Specificity
  7. Beskey: History
  8. Reflexes: Absent and Elevated
  9. PI-PB: PB Min
  10. PI-PB: Roll-over Formula
  11. PI-PB: Administration
  12. Reflexes: Premise
  13. Tone Decay: Results - Cochlear loss
  14. WRS: Word Lists
  15. Reflex Decay: Method
  16. Tone Decay: Suprathresholds
  17. Beskey: Results
  18. Tone Decay: Tests
  19. Tone Decay: Premise
  20. Tone Decay: Results - Retrocochlear
  21. Central Auditory Tests: Premise
  22. PI-PB: Premise
  23. Reflex Decay: Premise
  24. Tone Decay: Threshold
  25. PI-PB: How to Find PI-PB
  26. Beskey: Methods
  27. PI-PB: PB Max
  28. Central Auditory Tests: Pitch and/or Duration Patterns
  29. Central Auditory Test: Population
  30. Tone Decay: Giving results
  31. WRS: Premise
  32. Tone Decay: Results - Normal ears
  33. WRS: Interpretation
  34. Beskey: Premise
  35. WRS: Presentation Level
  1. a 1. Press the button then release, then press and release again.

    2.It gets louder, louder, louder, quieter, louder, quieter, louder
  2. b taxing the system, put a tone in for a long period of time, maybe they will stop hearing it over time; if they stop hearing it they most likely have a retrocochlear loss
  3. c -If you have a Jerger pattern it could mean that there is a retrocochlear loss, but if there isn't that does NOT mean they do not have a retrocochlear loss.

    -NOT 100%
  4. d 30 or 40 dB SL above PTA/SRT
  5. e Taxing the system over a long period of time
  6. f If there is a big enough neural problem there will be a sig. difference b/w ears, and if you crank it up really loud it may get sig. worse
  7. g -Amount of decay: greater than 30 dB

    -Rate of tone decay: decay is rapid and does not change significantly with increasing intensity

    -Frequency info: slightly more decay noted in the higher pitches
  8. h 1. Turn in up very loud, as loud as they can stand to tax the system

    2. The "uncomfortable" level or LDL (loudness discomfort level)

    3. Key issue → you have to mask the other ear!! Especially if one ear is normal

    4. Figure how much is crossing over and how much masking you need to put in the NTE

    5. More length and louder (doubling taxing the system) - need to make sure you say which you are using and why
  9. i Use to determine where the problem is
  10. j -Depends on which word list we are use

    -Need to use the same type of list on both ears, b/w it could cause a "false" difference b/w ears
  11. k 1. Carhart

    2. Rosenberg

    3. Green

    4. Owen

    5. STAT

    6. Olsen and Noffsinger
  12. l Once you get in higher intensities there scores will get worse b/w you taxed the system
  13. m 1. Start at the patient's ART of the test ear and add 10 dB HL.

    2. Obtain WRS at the new level.

    3. Continue the test by adding 10 dB each time.
  14. n If the pathway is damaged you will see absent or elevated reflexes
  15. o -Be sure to specify: More length and louder (doubling taxing the system)

    -Need to make sure you say which test you are using and why
  16. p -Amount of decay: 10 to 15 dB

    -Rate of tone decay: with each +5dB increase, tone audibility is longer and longer

    -Frequency info: same amount of decay at each tested freq.
  17. q PBmax - PBmin / PBmax
  18. r 1. Find threshold at whatever freq. they want to check

    2. I'm gonna make a sound, if you hear it put your hand up, once you know longer hear it put your hand down

    3. Start testing at 10 dB above their threshold

    4. Time it for 30 secs or 1 min. - for 30 secs, after 15 secs if they lower there hand, turn it up

    5. We are looking for how many dB do we have to turn it up in a given period of time

    6. If we have to turn it up 30 dB in less than a minute → they have tone decay, which is an indicator for a retrocochlear loss
  19. s started in WWII
  20. t -You do this type of test when the patient has bilaterally hearing and difficulty with speech in noise, pitch/patterns, etc.

    -Kids with Autism sometimes have problems with these type of thing (ex: overly sensitive to sounds)
  21. u -1, 2, 3 = Retrocochlear loss

    -7, 8, 9 = cochlear/sensory loss

    -4, 5, and 6 sec = soft signs for retrocochlear loss, we to do more retrocochlear tests (ex: tone decay)
  22. v worse score
  23. w -With PTA: Is it consistence with PTA

    -Significant Differences: B/w ears

    -Roll-over: Are we going to screen for roll-over?
  24. x best score
  25. y Color in Jerger pattern
  26. z -Without a good neural system you can't handle listening in noise

    -Looking for signals that are not completely clear

    -Noise at same time that you can't filter out
  27. aa Use CD for diagnostic testing, b/c live-voice can vary
  28. ab If one is way worse then they other, there can be a difference b/w ears
  29. ac - An adult w/ a stroke → we look at which ear is doing better, they will be able to handle pitch/ patterns better if the lesion was on a certain left

    -Right side of brain handles pitch and duration, so if the lesion is on the right side, they won't be able to tell the context of the language (ex: "Look out! The window!"; they might literally look out the window)
  30. ad Tax the system
  31. ae -Screen: to see if there was a difference and we just want to confirm

    -Full: 20, 30, 40, 40 SL until it's uncomfortable
  32. af 1. Degraded signal are low in the brain stem

    2. It will put words in both ears and play words at the same exact time

    3. Measure of language dominance for kids - So they should do better in their right ear than their left ear until they are older and the ears even out
  33. ag -Amount of decay: 0 to 10 dB

    -Rate of tone decay: not significant

    -Frequency info: same across all frequencies
  34. ah 10 dB above; If it decrease by half in less than 10 secs we need to see how long it took
  35. ai 1. Type I: could be SNHL, but most likely Normal or Conductive - laying on top of each other, no diff. b/w continuous and pulsed

    2. Type II: Cochlear loss (sensory) - gets a little worse as the tone keeps going

    3.Type III: Retrocochlear loss - gets worse

    4. Type IV: severe conductive or retrocochlear - kinda drops, but doesn't continue to drop, reflexes and audiogram can help determine type of loss

    5. Type V: Pseudohypacusis - make it up it there mind, and they pick continuous as louder