Biomechanical instability of the brain–CSF interface in hydrocephalus
Duy P, Mehta N, Kahle K. Biomechanical instability of the brain–CSF interface in hydrocephalus. Brain 2024, 147: 3274-3285. PMID: 38798141, PMCID: PMC11449143, DOI: 10.1093/brain/awae155.Peer-Reviewed Original ResearchBrain-CSF interfaceBrain parenchymaPost-hemorrhagic hydrocephalusLow intracranial pressureAbnormal biomechanical propertiesNormal pressure hydrocephalusPost-infectiousCongenital hydrocephalusImpaired neurodevelopmentCommunicating hydrocephalusCSF homeostasisBiomechanical instabilityHydrocephalusIntracranial pressureAnimal studiesPressure hydrocephalusArachnoid granulationsPrimary derangementBrain surgeryStudy of hydrocephalusAge groupsCSF reabsorptionVentriculomegalyVentricleSecondary enlargementThe genetic basis of hydrocephalus: genes, pathways, mechanisms, and global impact
Hale A, Boudreau H, Devulapalli R, Duy P, Atchley T, Dewan M, Goolam M, Fieggen G, Spader H, Smith A, Blount J, Johnston J, Rocque B, Rozzelle C, Chong Z, Strahle J, Schiff S, Kahle K. The genetic basis of hydrocephalus: genes, pathways, mechanisms, and global impact. Fluids And Barriers Of The CNS 2024, 21: 24. PMID: 38439105, PMCID: PMC10913327, DOI: 10.1186/s12987-024-00513-z.Peer-Reviewed Original ResearchConceptsCerebrospinal fluidOverview of genesEtiology of HCPathogenesis of HCChoroid plexus cauterizationEndoscopic third ventriculostomyIncreased intracranial pressureGenetic architectureGenetic basisImpact of geneticsVentricular shuntSurgical treatmentThird ventriculostomyPhenotypic heterogeneityHeterogeneous diseasePharmacological treatmentGenetic syndromesMolecular pathogenesisIntracranial pressureHydrocephalusTherapeutic measuresGenesGeneticsBrain injuryPathway