0000000000423821

AUTHOR

Kaisorn L. Chaichana

showing 3 related works from this author

Long-term hydrocephalus alters the cytoarchitecture of the adult subventricular zone

2014

Hydrocephalus can develop secondarily to a disturbance in production, flow and/or absorption of cerebrospinal fluid. Experimental models of hydrocephalus, especially subacute and chronic hydrocephalus, are few and limited, and the effects of hydrocephalus on the subventricular zone are unclear. The aim of this study was to analyze the effects of long-term obstructive hydrocephalus on the subventricular zone, which is the neurogenic niche lining the lateral ventricles. We developed a new method to induce hydrocephalus by obstructing the aqueduct of Sylvius in the mouse brain, thus simulating aqueductal stenosis in humans. In 120-day-old rodents (n = 18 per group), the degree of ventricular d…

AdultDoublecortin Domain ProteinsMalePathologymedicine.medical_specialtyTime FactorsSubventricular zoneBiologyCorpus callosumArticleCorpus CallosumCohort StudiesMiceYoung AdultLateral ventriclesCerebrospinal fluidDevelopmental NeuroscienceNeuroblastInternal CapsuleLateral VentriclesGlial Fibrillary Acidic ProteinmedicineAnimalsHumansMaze LearningMice Inbred BALB CNeuropeptidesNeurogenesisAnatomymedicine.diseaseMagnetic Resonance Imagingnervous system diseasesHydrocephalusDisease Models AnimalKi-67 Antigenmedicine.anatomical_structureGene Expression Regulationnervous systemNeurologyAqueductal stenosisFemaleMicrotubule-Associated ProteinsHydrocephalusExperimental Neurology
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Intra-operatively obtained human tissue: Protocols and techniques for the study of neural stem cells

2009

The discoveries of neural (NSCs) and brain tumor stem cells (BTSCs) in the adult human brain and in brain tumors, respectively, have led to a new era in neuroscience research. These cells represent novel approaches to studying normal phenomena such as memory and learning, as well as pathological conditions such as Parkinson's disease, stroke, and brain tumors. This new paradigm stresses the importance of understanding how these cells behave in vitro and in vivo. It also stresses the need to use human-derived tissue to study human disease because animal models may not necessarily accurately replicate the processes that occur in humans. An important, but often underused, source of human tissu…

BiopsyBrain tumorCell Culture TechniquesNerve Tissue ProteinsBiologyArticleIntraoperative PeriodIn vivoNeurosphereSpheroids CellularmedicineElectron microscopyHumansProcess (anatomy)NeuronsNeural stem cellsBrain NeoplasmsGeneral NeuroscienceStem CellsBrain tumor stem cellsHuman brainmedicine.diseaseImmunohistochemistryNeural stem cellCulture MediaMicroscopy Electronmedicine.anatomical_structureCell cultureAstrocytesNeoplastic Stem CellsTissue and Organ HarvestingNeurospheresStem cellNeuroscienceBiomarkersImmunocytochemistry
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Preservation of glial cytoarchitecture from ex vivo human tumor and non-tumor cerebral cortical explants: A human model to study neurological diseases

2007

For the human brain, in vitro models that accurately represent what occurs in vivo are lacking. Organotypic models may be the closest parallel to human brain tissue outside of a live patient. However, this model has been limited primarily to rodent-derived tissue. We present an organotypic model to maintain intraoperatively collected human tumor and non-tumor explants ex vivo for a prolonged period of time (similar to 11 days) without any significant changes to the tissue cytoarchitecture as evidenced through immunohistochemistry and electron microscopy analyses. The ability to establish and reliably predict the cytoarchitectural changes that occur with time in an organotypic model of tumor…

Pathologymedicine.medical_specialtyIndolesTime FactorsbrainMatrix (biology)BiologyModels BiologicalStatistics NonparametricArticleOrgan Culture TechniquesMicroscopy Electron TransmissionIn vivoGlial Fibrillary Acidic ProteinmedicineHumanshumanorganotypicCerebral Cortexelectron microscopyBrain NeoplasmsGeneral NeuroscienceexplantReproducibility of ResultsCell migrationHuman brainMiddle AgedImmunohistochemistrymedicine.anatomical_structureCytoarchitectureImmunohistochemistryFemaleTissue PreservationNervous System DiseasesNeurogliaEx vivoExplant culture
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