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Audiology Volume 26, 1987 - Issue 5
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Original Article

Rate and Filter Dependence of the Middle-Latency Response in Infants

James Jerger Division of Audiology, Department of Otolaryngology, Baylor College of Medicine, and Department of Audiology, The Methodist Hospital, Houston, Tex, USA
,
Rose Chmiel Division of Audiology, Department of Otolaryngology, Baylor College of Medicine, and Department of Audiology, The Methodist Hospital, Houston, Tex, USA
,
Daniel Glazeb Departments of Neurology and Pediatrics, Baylor College of Medicine, and Department of Neurophysiology, The Methodist Hospital, Houston, Tex, USA
&
James D. Frost Departments of Neurology, Baylor College of Medicine, and Department of Neurophysiology, The Methodist Hospital, Houston, Tex, USA
Pages 269-283 | Received 17 Jan 1987, Accepted 20 Mar 1987, Published online: 07 Jul 2009

References

  • Barnet A., Friedmann S., Weiss I., Olrich E., Shanks B., Lodge E. VEP development in infancy and early childhood.A longitudinal study. Electroenceph. clin. Neurophysiol. 1980; 49: 476–489
  • Brown D. The use of the middle latency response (MLR) for assessing low frequency auditory thresholds. J. acoust. Soc. Am. 1982; 71: 1, p. 99
  • Engel R. Early waves of the electroencephalic auditory response in neonates. Neuropaediatrie 1971; 3: 147–154
  • Fifer R. The MLR and SSEP in neonates; unpubl. doct. diss. Baylor College of Medicine, Houston 1985
  • Frye-Osier H., Goldstein R., Hirsch J., Weber K. Early- and middle-AER components to clicks as response indices for neonatal hearing screening. Ann. Otol. Rhinol. Lar. 1982; 91: 212–216
  • Galambos R., Makeig S., Talmachoff P. A 40-Hz auditory potential recorded from the human scalp. Proc. natn. Acad. Sci. USA 1981; 78: 2643–2647
  • Geisler C, Frishkopf L., Rosenblith W. Extracranial responses to acoustic clicks in man. Science 1958; 128: 1210–1211
  • Goff W, Allison T., Lyons W. Origins of short latency auditory evoked response components in man. Desmedt, Auditory evoked potentials in man. Pharmacology correlates of evoked potentials; Prog. clin. Neurophysiology, vol. 2. Basel, Karger 1977
  • Goldstein R. Dimensions of the averaged electro-encephalic response. Ear and Hearing 1984; 5: 185–186
  • Goldstein R., McRandle C. Middle components of the averaged electroencephalic response to clicks in neonates. Hirsh, Eldredge, Hirsh, Hearing and Davis: Essays Honoring Hallowell Davis. Washington University Press, St. Louis 1976
  • Goldstein R., Rodman L., Karlovich R. Effects of stimulus rate and number on the early components of the averaged electroencephalic response. J. Speech and Hearing Res. 1972; 15: 559–566
  • Goldstein R., Frye-Osier H. Simultaneous recording of early- and middle-latency AERs for neonatal hearing screening or evaluation. Nodar, Barber, Evoked potentials II. Butterworths, Woburn 1984
  • Gutnick H., Goldstein R. Effect of contralateral noise on the middle components of the averaged electroencephalic response. J. Speech and Hearing Res. 1978; 21: 613–625
  • Hecox K., Burkard R. Developmental dependencies of the human brainstem auditory evoked response. Ann. N. Y. Acad. Sci. 1982; 388: 538–556
  • Izumi S. The effects of rejection slope and passband of input filter on MLR. Audiology (Japan) 1980; 23: 184–203
  • Kavanagh K., Harker L., Tyler R. Auditory brain-stem and middle latency responses. I. Effects of response filtering and waveform identification. II. Threshold responses to a 500 Hz tone pip. Ann. Otol. Rhin. Lar. 1984; 93: 108, pp. 2–12
  • Kileny P. Auditory middle latency responses: current issues. Semin. in Hearing. 1983; 4: 403–413
  • Klein A. Properties of the brain-stem response slow wave component. I. Latency, amplitude, and threshold sensitivity. Archs Otolar 1983; 109: 6–12
  • Kraus N., Reed N., Smith D., Stein L., Cartee C. Auditory middle latency responses in children: effects of age and diagnostic category. Electroenceph. clin. Neurophysiol. 1985; 62: 343–351
  • Lane R., Mendel M., Kupperman G., Vivion M., Buchanon L., Goldstein R. Phase distortion of averaged electroencephalic response. Archs Otolar 1974; 99: 428–432
  • Linden R., Campbell K., Hamel G., Picton T. Human auditory steady state evoked potentials during sleep. Ear and Hearing 1985; 6: 167–174
  • McFarland W., Vivion M., Goldstein R. Middle components of the AER to tone pips in normal and hearing impaired subjects. J. Speech and Hearing Res. 1977; 20: 781–798
  • McRandle C, Smith M., Goldstein R. Early averaged electroencephalic responses to clicks in neonates. Ann. Otol. Rhinol. Lar. 1974; 83: 695–702
  • Mendel M., Adkinson C, Harker L. Middle components of the auditory evoked potentials in infants. Ann. Otol. Rhinol. Lar. 1977; 86: 293–299
  • Mendel M., Goldstein R. Early components of the averaged electroencephalic response to constant level clicks during all-night sleep. J. Speech and Hearing Res. 1971; 14: 829–840
  • Mendelson T., Salamy A. Maturational effects on the middle components of the averaged electroencephalic response. J. Speech and Hearing Res. 1981; 46: 140–144
  • Moushegian G., Rupert A., Stillman R. Scalp-recorded early response in man to frequencies in the speech range. Electroenceph. clin. Neurophysiol. 1973; 35: 665–667
  • Osterhammel P., Shallop J., Terkildsen K. The effect of sleep on the auditory brain stem response (ABR) and the middle latency response (MLR). Scand. Audiol. 1985; 14: 47–50
  • Peters J., Mendel M. Early components of the averaged electroencephalic response to monaural and binaural stimulation. Audiology 1974; 13: 195–204
  • Picton T, Fitzgerald P. A general description of the human auditory evoked potentials. Moore, Bases of auditory brain-stem evoked responses. Grune & Stratton, New York 1983; 141–156
  • Picton T, Hillyard S. Human auditory evoked potentials. II. Effects of attention. Electroenceph. clin. Neurophysiol. 1974; 36: 191–199
  • Picton T., Woods D., Baribeau-Braun J. Evoked potential audiometry. J. Otolar. 1977; 6: 90–119
  • Polich J., Starr A. Middle-, late-, and long-latency auditory evoked potentials. Moore, Bases of auditory brain-stem evoked responses. Grune & Stratton, New York 1983; 345–361
  • Scherg M. Distortion of the middle latency auditory response produced by analog filtering. Scand. Audiol. 1982; 11: 57–60
  • Skinner P., Glattke T. Electrophysiologic response audiometry: state of the art. J. Speech and Hearing Res. 1977; 42: 179–198
  • Sokol S. Infant visual development: evoked potential estimates. Ann. N.Y. Acad. Sci. 1982; 388: 514–525
  • Sprague B., Thornton A. Clinical utility and limitations of middle-latency auditory evoked potentials. Annu. Conv. ASHA, Toronto 1982
  • Stein L., Kraus N. Maturation of the middle latency response MLR. Semin. in Hearing, in press
  • Suzuki X, Hirabayashi M., Kobayashi K. Auditory middle responses in young children. Br. J. Audiol. 1983; 17: 5–9
  • Suzuki X, Hirabayashi M., Kobayashi K. Effects of analog and digital filterings on auditory middle latency responses in adults and young children. Ann. Otol. Rhinol. Lar. 1984; 93: 267–270
  • Suzuki X, Kobayashi K. An evaluation of 40-Hz event-related potentials in young children. Audiology 1984; 23: 599–604
  • Tomita Y., Nishimura S., Tanaka T. Short latency SEPs in infants and children: developmental changes and maturational index of SEPs. Electroenceph. clin. Neurophysiol. 1986; 65: 335–343
  • Vivion M., Goldstein R., Wolf K., McFarland W. Middle components of human auditory averaged electoencephalic response: waveform variations during averaging. Audiology 1977; 16: 21–37
  • Vivion M., Hirsh J., Frye-Osier J., Goldstein R. Effects of stimulus rise-fall time and equivalent duration on middle components of AER. Scand. Audiol. 1980; 9: 223–232
  • Vivion M., Wolf K., Goldstein R. Toward objective analysis for electroencephalic audiometry. J. Speech and Hearing Res. 1979; 22: 88–102
  • Wolf K., Goldstein R. Middle component averaged electroencephalic responses to tonal stimuli from normal neonates. Archs Otolar 1978; 104: 508–513
  • Wolf K., Goldstein R. Middle component AERs from neonates to low-level tonal stimuli. J. Speech and Hearing Res. 1980; 23: 185–201
  • Zerlin S, Naunton R. Early and late averaged electroencephalic response at low sensation levels. Audiology 1974; 13: 366–378

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