Abstract
Information on hearing thresholds is not always reliable as differences in these thresholds have been described even for the same species. This may partially be due to different methods used by different labs. A frequently used approach to obtain an estimate of hearing threshold is the electrophysiological recording of auditory brainstem responses (ABR). They are usually recorded under deep anesthesia and represent the auditory evoked far-field potentials at various levels in the central auditory pathway. Alternatively, several behavioral approaches are employed. These commonly use operant or classical conditioning to determine hearing thresholds. A potential disadvantage of these methods is that any sound conditioning may in principle alter auditory perception and therefore auditory thresholds. To exclude this type of methodological bias a prepulse inhibition (PPI) paradigm can be used where an audiogram can be determined without any kind of pre-training. Here we compare the threshold estimates obtained by two different ABR and PPI measurements where stimuli are presented in different contexts, either randomly or non-randomly, to test for a possible effect of auditory sensitization. In addition we test the effect of a frequency specific acoustic trauma on the audiograms obtained with both methods. In general we find behaviorally determined audiograms to be significantly lower in absolute thresh- old compared to ABR measurements. Furthermore non-randomized presentation context of the stimuli generally results in audiograms with 10 to 15 dB lower thresholds than pseudo-randomized presentation. Finally, the amount of threshold loss induced by acoustic trauma is similar for all methods tested.
Highlights
Detailed information about the hearing abilities of animal models is a basic prerequisite in experimental and comparative hearing research
As any form of auditory learning in principle may change the naïve hearing characteristics [26,27,28], a behavioral method that requires no pretraining is favorable. Such method is the prepulse inhibittion (PPI), where the strength of an acoustic startle responses (ASR) to an auditory stimulus can gradually be modified by preceding test sounds as a function of the perceptibility of that test sound [29,30] known as the reflex modification audiometry (RMA) [31,32,33]
If the hearing loss after an acoustic trauma is comparable between two different methods of audiogram determination; and third, if the effect of auditory sensitization dependent on the stimulus context reported in auditory cortex and inferior colliculus is present in brainstem based electrophysiological and behavioral threshold measurements in rodents
Summary
Detailed information about the hearing abilities of animal models is a basic prerequisite in experimental and comparative hearing research. As any form of auditory learning in principle may change the naïve hearing characteristics [26,27,28], a behavioral method that requires no pretraining is favorable Such method is the prepulse inhibittion (PPI), where the strength of an ASR to an auditory stimulus can gradually be modified by preceding test sounds as a function of the perceptibility of that test sound [29,30] known as the reflex modification audiometry (RMA) [31,32,33]. Such behaviorally determined perceptual thresholds reflect neuronal activity within the same neuronal substrate as the ABR measurements, namely the auditory brainstem, and reflect early
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
