Seval Ceylan
I received my Master’s degree in Audiology and Speech Disorders from Ege University and completed my PhD in Audiology and Speech Disorders at Ankara Yıldırım Beyazıt University.
I have worked as an audiologist in tertiary healthcare settings, including İzmir Military Hospital and Atatürk Training and Research Hospital, where I gained extensive clinical experience in diagnostic and rehabilitative audiology.
Since 2023, I have been serving as an Assistant Professor at İzmir Tınaztepe University. My academic and clinical research interests include hearing loss, non-organic hearing loss, auditory brainstem responses (ABR), auditory evoked cortical potentials, the vestibular system and vestibular rehabilitation, and vestibular evoked myogenic potentials (VEMP). I have published articles particularly in the fields of hearing loss, electrophysiological audiology, vestibular system disorders, and VEMPs.
Within the scope of the Erasmus Staff Mobility for Teaching Programme, I carried out a teaching activity at the Department of Otorhinolaryngology and Head and Neck Surgery, Faculty of Medicine in Hradec Králové, Charles University, Czech Republic, between 21–25 October 2024. In addition, I participated as an invited speaker in the course entitled “Není BERA jako BERA”, organized by the same department, and delivered a presentation titled “ERA Milestones: Importance in Audiology Worldwide’’
Sessions
Vestibular Assessment: new tools and developments to assess patients with balance problems
The types of signals used in Auditory Brainstem Responses (ABR) can be examined in three groups: Click stimuli that include all frequency bands, Tone-Burst stimuli that include a narrow frequency band, and Chirp stimuli.
Chirp stimuli were developed to compensate for the cochlear wave delay problem when click stimuli are used in ABR. Chirp stimuli have a wide-band (like click stimuli CE-Chirp) form as well as narrow-band stimuli (like tone-burst stimuli Narrow Band CE-Chirp).
The Chirp stimulus was developed by Claus Elberling (2007) to compensate for the wave delay in the cochlea. Due to the specially adjusted temporal distribution of its components, CE Chirp stimulus simultaneously accesses characteristic regions of the basal membrane. Since all cochlear regions are simultaneously depolarized by the CE-Chirp stimulus, ABR waves with higher amplitude are obtained (1).
To eliminate the cochlear wave delay problem that occurs when a tone burst stimulus is used, the NB CE-Chirp stimulus (2). In addition, the Level Specific (LS) CE-Chirp stimulus type has been developed by creating different delay models according to the intensity level at which the developed CE-Chirp stimulus is sent.
Studies on CE-Chirp ABR: Khorsand Sabet et al. (2014) found CE-Chirp ABR wave V amplitudes to be larger than Click ABR in individuals with normal hearing (3). Stuart et al. (2014) reported that larger wave V amplitudes were obtained with the CE-Chirp stimulus at 30 dB nHL than with the Click stimulus in newborns (4).
Ferm et al (2013) found 1 and 4 kHz NB Chirp ABR thresholds to be approximately 5 dB better than tone pip ABR thresholds in infants undergoing newborn screening (5). Cargnelutti et al. (2017) found that in people with normal hearing, wave V amplitudes were larger with LS CE-Chirp ABR than with click ABR at 85 dB nHL (6).
This information in the literature shows that ABR performed with Chirp stimulus types can be used effectively to estimate behavioral hearing thresholds.
References
1. Elberling C. Auditory brainstem responses to a chirp stimulus designed from derived-band latencies in normal hearing subject. J. Acoustical Society of America November 2008;124 (5): 3022
2. Rodriques GR, Ramos N, Lewis DR. Comparing auditory brainstem responses (ABRs) to toneburst and narrow band CE-Chirp in young infants. Int J Pediatr Otorhinolaryngol. 2013 Sep;77(9):1555-60
3. Khorsand Sabet V, Mandavi-Zafarghandi ME, Safavi M, Sharifian M, Tabatabaee SM. Comparison of click and CE Chirp-evoked human auditory brainstem responses: a preliminary study. Aud 2014;23(4):69-76
4. A Stuart; Cobb, Kensi M. Effect of stimulus and number sweeps on the neonate auditory brainstem response. Ear and Hearing The Official Journal of the American Society 2014;35(5):585-588
5. Ferml L, Lightfoot G, Stevens J. Comparison of ABR response amplitude, test time, and estimation of hearing threshold using frequency-specific chirp and tone pip stimuli in newborns. Int J Audiol 2013; 52(6):419-423
6. Cargnelutti M, Cóser PL, Biaggio EPV. LS CE-Chirp® vs. Click in the neuroaudiological diagnosis by ABR. Braz J Otorhinolaryngol., 2017,Jun;83(3):313-317.