Auditory evoked field
Auditory evoked field or AEF is an induced neural activity (by an auditory stimulus) that is recorded via magnetoencephalography (MEG), which is an equivalent of Auditory evoked potential (AEP) recorded by electroencephalography.[1] The advantage of AEF over AEP is the powerful spatial resolution provided by magnetic field recording, which AEP lacks. Thus, researchers using AEF often deals with the global responses of the whole brain at the cortical level while focusing on the role of the auditory pathway. The common applications of AEF are prenatal and neonatal hearing screening, cortical pitch perception, language comprehension, and attention.
Sources and types of responses
The main source of the auditory evoked field is the auditory cortex and the association cortices. The earliest cortical components of AEF is equivalent to the middle latency response or MLR of the EEG evoked potential, called the middle latency auditory evoked field or MLAEF, which occurs at 30 to 50 ms after the stimulus onset.[2] M30 and M50, occurring at 30 and 50 ms after the stimulus onset, correspond to the Pa and Pb peaks of MLR.[3] The M50 response was often used to study the correlation of aging and hearing loss. Research has shown that the amplitude of contralateral M50 enlarges with age.[4]
At 100 ms after stimulus onset occurs the most prominent response in the late latency range, the M100, which corresponds to the N1 peak of the auditory long latency response potential, or ALR.[5] M100 is the most widely used magnetic field response clinically. In 2007, Lütkenhöner et al. demonstrated that M100 can be applied to estimate hearing threshold to a higher degree of accuracy.[6]
Longer latency responses after 100 ms are referred as event-related field or ERF that includes M150, M200, M300 (equivalent of P300),[7] and M400.[8]
See also
References
- ↑ Jacobson GP. Magnetoencephalographic studies of auditory system function. J Clin Neurophysiol. 1994 May;11(3):343-64.
- ↑ Kuriki S, Nogai T, Hirata Y. Cortical sources of middle latency responses of auditory evoked magnetic field. Hearing Research 92 (1995) 47-51.
- ↑ Onitsuka T, Ninomiya H, Sato E, Yamamoto T, Tashiro N. Differential characteristics of the middle latency auditory evoked magnetic responses to interstimulus intervals. Clin Neurophysiol. 2003 Aug;114(8):1513-20
- ↑ Yamada T, Nakamura A, Horibe K, Washimi Y, Bundo M, Kato T, Ito K, Kachi T, Sobue G. Asymmetrical enhancement of middle-latency auditory evoked fields with aging. Neurosci Lett. 2003 Jan 30;337(1):21-4.
- ↑ Virtanen J, Ahveninen J, Ilmoniemi RJ, Näätänen R, Pekkonen E. Replicability of MEG and EEG measures of the auditory N1/N1m-response. Electroencephalogr Clin Neurophysiol. 1998 Apr;108(3):291-8.
- ↑ Lütkenhöner B, Klein JS. Auditory evoked field at threshold. Hear Res. 2007 Jun;228(1-2):188-200. Epub 2007 Mar 14.
- ↑ Naka D, Kakigi R, Hoshiyama M, Yamasaki H, Okusa T, Koyama S. Structure of the auditory evoked magnetic fields during sleep. Neuroscience. 1999;93(2):573-83.
- ↑ Simos PG, Basile LF, Papanicolaou AC. Source localization of the N400 response in a sentence-reading paradigm using evoked magnetic fields and magnetic resonance imaging. Brain Res. 1997 Jul 11;762(1-2):29-39.