Gül, ZülfiyeBüyükuysal, M. Çağatay2023-10-262023-10-262020-03-03Gül, Z. vd. (2020). "Brain slice viability determined under normoxic and oxidative stress conditions: Involvement of slice quantity in the medium". Neurological Research, 42(3), 228-238.0161-64121743-1328https://doi.org/10.1080/01616412.2020.1723299https://www.tandfonline.com/doi/full/10.1080/01616412.2020.1723299http://hdl.handle.net/11452/34600Objective: In vitro acute adult brain slice methods are instruments in developing our knowledge of the nervous system. Optimization of this method for obtaining high-quality brain slices is extremely important in terms of consistency and reliability of the experimental results. Although some important topics such as slice thickness, temperature, and composition of the physiological medium have been studied for optimization, involvement of slice quantity in medium on tissue viability has not been investigated yet. Methods: Different number of slices (1, 3, or 6 slices) were incubated under normoxic or some prooxidant stress conditions induced by oxygen-glucose deprivation (OGD), H2O2, FeSO4+ ascorbic acid, or menadione to evaluate the effect of slice density on tissue viability. Results:Slice quantity in the normoxic incubation medium caused a significant increase in 2,3,5-triphenyltetrazolium chloride (TTC) staining intensity of the slices. Similarly, increase in the slice quantity in the medium also protected the slices against either OGD, H2O2, FeSO4, or menadione-induced decrease in TTC staining. In addition to TTC staining, lactate dehydrogenase leakage or malondialdehyde and reactive oxygen species production under normoxic or ischemia-like conditions were also attenuated by increasing slice quantity in the medium. Conclusion: These results show that when using brain slices method for investigating the structural and functional features of brain at the molecular and cellular levels, both slice quantity in the medium and incubation volume should be considered first. Increasing slice quantity or decreasing incubation volume probably causes an increase in the concentration of endogenous substance(s) involved in neuroprotection.eninfo:eu-repo/semantics/closedAccessNeurosciences & neurologyBrain slicesIncubation volumeSlice quantityOxidative stressTtc stainingRat striatal slicesCortical slicesIn-vitroProtectsLactateAcidReceptorsPyruvateHypoxiaNetworkAnimalsBrainCulture mediaFemaleOrgan culture techniquesOxidative stressRats, sprague-dawleyReactive oxygen speciesBrain slice viability determined under normoxic and oxidative stress conditions: Involvement of slice quantity in the mediumArticle0005145039000012-s2.0-8507969925022823842332065058Clinical neurologyNeurosciencesSevoflurane; Brain ischemia; AnimalsAscorbic acidLactate dehydrogenaseMalonaldehydeMenadioneReactive oxygen metaboliteTriphenyltetrazoliumReactive oxygen metaboliteAnimal experimentAnimal modelArticleBrain homogenateBrain sizeBrain sliceCell densityCell viabilityComparative studyControlled studyEnergy metabolismFemaleIn vitro studyLipid peroxidationMaleNeuroprotectionNeurotransmitter releaseNonhumanOxidative stressRatReoxygenationTissue injuryAnimalBrainCulture mediumMetabolismOrgan culture techniqueProceduresSprague dawley rat