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Human 3D cellular model of hypoxic brain injury of prematurity
Anca M. Pașca
, Jin Young Park
, Hyun Woo Shin
, Qihao Qi
,
Omer Revah
, Rebecca Krasnoff
, Ruth O’Hara
, A. Jeremy Willsey
, Theo D. Palmer
, Sergiu P. Pașca
*
*
Corresponding author for this work
Research output
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Article
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peer-review
146
Scopus citations
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Keyphrases
Unfolded Protein Response
100%
Prematurity
100%
Intermediate Progenitors
100%
Anoxic Brain Injury
100%
3D Cell Model
100%
Lung
50%
Environmental Factors
50%
High Risk
50%
Brain Development
50%
Severe Disease
50%
Hypoxia
50%
Improved Survival
50%
Three-dimensional (3D)
50%
Brain Regions
50%
Genetic Factors
50%
Molecular Mechanism
50%
Neurodevelopmental
50%
Postconception
50%
Cerebral Cortex
50%
Moderate to Severe
50%
Technological Progress
50%
Neonatal Care
50%
Over 80
50%
Hypotension
50%
Organoids
50%
Immaturity
50%
Cortical Tissue
50%
Encephalopathy
50%
Human Cortex
50%
Oxygen Deprivation
50%
Gray Matter
50%
Protein Changes
50%
Oxygen Effect
50%
Premature Infant
50%
Small Molecule Modulators
50%
Cellular Platform
50%
Corticogenesis
50%
Medical Advances
50%
Cerebral Blood Flow
50%
Extremely Premature
50%
Cortical Cell Types
50%
Flow Regulation
50%
Neuroscience
Cerebral Cortex
100%
Unfolded Protein Response
100%
Gray Matter
50%
Corticogenesis
50%
Brain Disease
50%
Human Brain
50%
Brain Region
50%
Hypotension
50%
Organoid
50%