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ŞİRVANCI, SERAP

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Author: KAYA, ÖZLEM TUĞÇE × Subject: ABR ×

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    Effect of perinatal and postnatal thiamine deficiency on auditory pathway of the Wistar-Albino rats
    (2022-01-01) KAYA, ÖZLEM TUĞÇE; ŞİRVANCI, SERAP; Gür Ö. E., Yılmaz N. D. S., Ensari N., Senirli R. T., GÜLMEZ Z. D., KAYA Ö. T., ŞİRVANCI S., Danışman B., DERİN N., Yılmaz M. D.
    © 2022 Associação Brasileira de Otorrinolaringologia e Cirurgia Cérvico-FacialObjective: In this study, we created an animal model to demonstrate the effects of thiamine on the hearing pathways of new-borns during pregnancy and lactation by inducing a dietary thiamine deficiency in the mother. Methods: The study included 16 female Wistar albino rats. The animals were separated into four groups and provided the appropriate amounts of dietary thiamine according to their groups during pre-pregnancy, pregnancy, and lactation periods. Three pups from each mother were included in the study, and 12 pups were selected from each group. On the fortieth day after birth, the auditory pathways of 48 pups in the 4 groups were examined electro physiologically and ultra-structurally. Results: In Group N-N, morphology of hair cells stereocilia degeneration was not obtained in all turns of cochlea. In Group N-T, Inner Hair Cells (IHCs) and Outher Hair Cells (OHCs) stereocilia didn\"t show degeneration in all turns of cochlea but had rupture inrows of HCs stereocilia. In group T-N IHCs stereocilia less degeneration was observed in all turns of cochlea. OHC stereocilia partial loss was observed only in basal turn of cochlea. In Group T-T IHCs stereocilia was observed less degeneration and rupture in all turns of cochlea. Conclusion: Thiamine is vital for the development of cochlear hair cells during both prenatal and postnatal periods. Even partial deficiency of thiamine causes significant degeneration to the auditory pathway. Level of evidence: The level of evidence of this article is 5. This article is an experimental animal and laboratory study.
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    Effect of perinatal biotin deficiency on auditory pathway of the Wistar-Albino rats
    (TAYLOR & FRANCIS LTD, 2019) KAYA, ÖZLEM TUĞÇE; Yllmaz, Nevreste Didem Sonbay; Gur, Ozer Erdem; Ensari, Nuray; Bulut, Erdogan; Kaya, Ozlem Tugce; Sirvanci, Serap; Danisman, Betul; Derin, Narin; Gezgin, Bahri; Aygener, Nurdan; Yilmaz, Mustafa Deniz
    Aim: Severe biotin deficiency associated with biotinidase enzyme deficiency in newborns is seen as severe neurological problems and hearing loss. However, the effect on the infant of deficiencies in the maternal diet during pregnancy are not clear. Material and methods: The study included 16 female Wistar albino rats and 4 male Wistar albino rats, that were mated and then the females were separated into 4 groups. At 40 days after the birth, 3 pups were selected from each group, and these 12 pups were evaluated with DPOAE and ABR electrophysiologically and the cochlea was examined ultrastructurally with electron microscopy. Results: In the DPOAE evaluation, At 8000 and 11,000 Hz, the signal-noise ratios in the B-N and B-B groups were statistically significantly higher (p < .05). In ABR, lengthening of the latency periods was determined in all the waves at both 8 and 16 kHz in the B-B group. When the IPL periods were examined, lengthening in IPL 1-5 was statistically significant in the B-B group only at 8 kHz. Conclusions: Biotin can be said to have an effect on hearing pathways. However, specifically where on the hearing pathways that biotin is involved has not been clarified.