1998
DOI: 10.1097/00001756-199810050-00002
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Influence of unilateral deafness on auditory evoked magnetic field

Abstract: To investigate the effect of unilateral deafness on central auditory mechanisms, we examined patients with unilateral deafness of various durations. Auditory evoked magnetic fields (AEF) were recorded using a whole-head neuromagnetometer. In patients who had unilateral deafness for more than 3 weeks, the average N100m latency in the ipsilateral hemisphere did not differ from that in the contralateral hemisphere. In addition, in some patients with congenital or early onset deafness, the equivalent current dipol… Show more

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Cited by 48 publications
(45 citation statements)
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“…Additionally, a posttraumatic increase in the efficiency of signal transduction in the remaining fibers or cortical reorganization might have improved the situation. The latter assumption is supported by reports of symmetric activations in both auditory cortices about 4 weeks after unilateral deafening in experimental animals [Fujiki et al, 1998;Scheffler et al, 1998], the modification of synaptic efficiency induced by the transcription of early genes [Kaczmarek and Chaudhuri, 1997], synaptogenesis [Jain et al, 2000], and the recruitment of modified cortical networks [Nudo and Friel, 1999].…”
Section: Deafferented Auditory Cortexmentioning
confidence: 76%
“…Additionally, a posttraumatic increase in the efficiency of signal transduction in the remaining fibers or cortical reorganization might have improved the situation. The latter assumption is supported by reports of symmetric activations in both auditory cortices about 4 weeks after unilateral deafening in experimental animals [Fujiki et al, 1998;Scheffler et al, 1998], the modification of synaptic efficiency induced by the transcription of early genes [Kaczmarek and Chaudhuri, 1997], synaptogenesis [Jain et al, 2000], and the recruitment of modified cortical networks [Nudo and Friel, 1999].…”
Section: Deafferented Auditory Cortexmentioning
confidence: 76%
“…Reorganization in adult humans following unilateral deafness has also been reported in a number of studies (Scheffler et al 1998;Mäkelä 1995, 1997;Vasama et al , 1998Fujuki et al 1998). For example, Scheffler et al (1998) measured activity in the auditory cortex using functional magnetic resonance imaging (fMRI) and reported significantly smaller ipsilateral-contralateral activity differences in unilaterally deaf adults in comparison to normal-hearing adults.…”
Section: Introductionmentioning
confidence: 77%
“…Furthermore, these changes were subsequently found to be reflected primarily by sensors in the central scalp regions. Despite this finding, most studies involving the N1 wave in CAEPs or its MEG equivalent, N1m, have not consistently shown any evidence of plasticity following unilateral deafness in adult humans (Vasama et al, 1995Fujiki et al, 1998;Khosla et al, 2003;Hine et al, 2008;Hanss et al, 2009). The present study was therefore conducted with the aim of clarifying the reasons for the inconsistent findings in EEG/MEG studies of plasticity in adult humans with late onset profound unilateral deafness.…”
Section: Introductionmentioning
confidence: 85%
“…One explanation for these inconsistencies could be methodological factors involving the source modeling techniques most often used to characterize the response of the CAS (Vasama et al, 1995Fujiki et al, 1998;Khosla et al, 2003;Hine et al, 2008). CAEPs such as the N1 (or N1m) are usually characterized in source models by one or more dipoles in each hemisphere.…”
Section: Introductionmentioning
confidence: 99%