Non-invasive detection and monitoring of experimental hydrocephalus with distortion product otoacoustic emissions
View/ Open
Access
info:eu-repo/semantics/openAccessDate
2016Author
Ezerarslan, HandeBeriat, Güçlü Kaan
Nurhat, Raziye Handan
Kazancı, Burak
Çelikkan, Ferda Topal
Sabuncuoğlu, Bizden
Sabuncuoğlu, Hakan
Metadata
Show full item recordCitation
Ezerarslan, H., Beriat, G. K., Nurhat, R. H., Kazancı, B., Çelikkan, F. T., Sabuncuoğlu, B., & Sabuncuoğlu, H. (2016). Non-invasive detection and monitoring of experimental hydrocephalus with distortion product otoacoustic emissions. Auris Nasus Larynx, 43(4), 404–411. https://doi.org/10.1016/j.anl.2015.11.004Abstract
Objective: We aimed to find out the effects of short term and long term hydrocephalus and
intracranial ventricular volume changes on cochlear functions by using distortion product otoacoustic
emission (DPOAE) in experimental hydrocephalus rat models for the first time in literature.
Methods: This study was performed with 48 healthy, adult (8 weeks old), Sprague–Dawley rats
which weighed between 200 and 240 g. Six groups were formed in this study: short term control,
short term sham, short term hydrocephalus, long term control, long term sham and long term
hydrocephalus groups. Each group contained eight rats. Short term period was 4 weeks and long
term period was 8 weeks after the study started. At the end of these periods, DPOAE measurements
were performed and then rats were sacrificed to determine ventricular volumes.
Results: DPOAE values at all frequencies were significantly decreased in the short term
hydrocephalus group when compared to the short term control and short term sham groups. DPOAE
values at all frequencies were significantly decreased in the long term hydrocephalus group when
compared to the long term control and long term sham groups. Besides, long term sham group which
had higher ventricular volumes than long term control group also had lower DPOAE measurements.
Significant associations were present between DPOAE measurements and ventricular volumes in
hydrocephalus models.
Conclusion: The functional disturbances in cochlear functions due to hydrocephalus have been
demonstrated with DPOAE measurements in this study. DPOAE measurements may be thought
as an easily applicable non-invasive method in detection and follow-up of patients with
hydrocephalus. Our findings should be supported with clinical studies in humans.