ABSTRACT
OBJECTIVE: 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.
Subject(s)
Auditory Pathways , Thiamine Deficiency , Pregnancy , Animals , Rats , Female , Rats, Wistar , Hair Cells, Auditory , Cochlea , Thiamine/pharmacology , Hair Cells, Auditory, OuterABSTRACT
SUMMARY: Studies have shown the adverse effects of epileptic seizures on reproductive health. The aim of the present study was to investigate morphological changes, apoptosis and GABA localization in the testis tissue of genetic absence epilepsy rats. Testis tissues of GAERS and Wistar rats were processed for paraffin embedding and electron microscopy. Sections were stained with hematoxylin and eosin, Masson's trichrome and periodic acid-Schiff reaction. GABA immunohistochemistry was applied for determining the alterations in GABA levels. GABA immunoreactivity was observed in the seminiferous tubules and interstitial areas of both GAERS and Wistar rats. GABA immunoreactivity was found to be decreased in GAERS compared to Wistar group. Electron microscopic observations showed that GABA was present in manchette microtubules, sperm tail and neck at different phases of spermiogenesis. Qualitative observations revealed that testis tissues of GAERS showed reduced sperm in the seminiferous tubules compared to the Wistar controls. In conclusion, we demonstrated GABAergic system in the seminiferous tubules of control and GAERS rats, in parallel with the previous studies; and there were alterations in this system in GAERS. We suggest that these alterations in absence epilepsy may also affect the gonadal system, resulting in decreased sperm production.
RESUMEN: Los estudios han demostrado los efectos adversos de las convulsiones epilépticas sobre la salud reproductiva. El objetivo del presente estudio fue investigar los cambios morfológicos, la apoptosis y la localización de GABA en el tejido testicular de ratas con epilepsia de ausencia genética. Se procesaron tejidos testiculares de ratas GAERS y Wistar para inclusión en parafina y microscopía electrónica. Las secciones se tiñeron con hematoxilina y eosina, tricrómico de Masson y reacción de ácido peryódico de Schiff. Se aplicó inmunohistoquímica de GABA para determinar las alteraciones en los niveles de GABA. Se observó inmunorreactividad de GABA en los túbulos seminíferos y las áreas intersticiales de las ratas GAERS y Wistar. Se encontró que la inmunorreactividad de GABA estaba disminuida en GAERS en comparación con el grupo Wistar. Las observaciones microscópicas electrónicas mostraron que GABA estaba presente en los microtúbulos, la cola y el cuello del espermatozoide en diferentes fases de la espermiogénesis. Las observaciones cualitativas revelaron que los tejidos testiculares de GAERS mostraron una reducción de los espermatozoides en los túbulos seminíferos en comparación con los controles Wistar. En conclusión, demostramos el sistema GABAérgico en los túbulos seminíferos de ratas control y GAERS, en paralelo con estudios previos; y además se observaron alteraciones en este sistema en GAERS. Sugerimos que estas alteraciones en epilepisa de ausencia genética también pueden afectar el sistema gonadal, resultando en una disminución de la producción de semen.