Selected Research Publications:

 

Traumatic Brain Injury:

 

Mitochondria dysregulation contributes to secondary neurodegeneration progression post-contusion injury in human 3D in vitro triculture brain tissue model.

Liaudanskaya et al. Cell Death Dis 14: 496 (2023).

 

Development of a novel bioengineered 3D brain-like tissue for studying primary blast-induced traumatic brain injury.

Snapper et al. J Neurosci Res 101: 3 (2023).

 

Repetitive Mild Closed Head Injury in Adolescent Mice Is Associated with Impaired Proteostasis, Neuroinflammation, and Tauopathy.

Wu et al. J Neurosci 42: 2418 (2022).

 

Genetic inhibition of RIPK3 ameliorates functional outcome in controlled cortical impact independent of necroptosis.

Wu et al. Cell Death Dis 12: 1064 (2021).

 

Cell-specific activation of RIPK1 and MLKL after intracerebral hemorrhage in mice.

Lule et al. J Cereb Blood Flow Metab 41: 1623 (2021).

 

A 3D tissue model of traumatic brain injury with excitotoxicity that is inhibited by chronic exposure to gabapentinoids.

Rouleau et al. Biomolecules 10: 1196 (2020).

 

Modeling controlled cortical impact injury in 3D brain-like tissue cultures.

Liaudanskaya et al. Adv Healthc Mater 9: e2000122 (2020).

 

Repetitive head injury in adolescent mice: a role for vascular inflammation.

Wu et al. J Cereb Blood Flow Metab 39: 2196 (2019).

 

Time-dependent changes in microglia transcriptional networks following traumatic brain injury.

Izzy et al. Front Cell Neurosci 13: 307 (2019).

 

Film interface for drug testing for delivery to cells in culture and in the brain.

Tang-Schomer et al. Acta Biomater 94: 306 (2019).

 

Automated quantification of three-dimensional organization of fiber-like structures in biological tissues.

Liu et al. Biomaterials 116: 34 (2017).

 

Dual effects of carbon monoxide on pericytes and neurogenesis in traumatic brain injury.

 

Suppression of neurocan and enhancement of axonal density in rats after treatment of traumatic brain injury with scaffolds impregnated with bone marrow stromal cells.

Mahmood et al. J Neurosurg 120: 1147 (2014).

 

Clinical correlates in an experimental model of repetitive mild brain injury.

Molecular mechanisms of cognitive dysfunction following traumatic brain injury.

The treatment of TBI with human marrow stromal cells impregnated into collagen scaffold: functional outcome and gene expression profile.

 

Delayed transplantation of human marrow stromal cell-seeded scaffolds increases transcallosal neural fiber length, angiogenesis, and hippocampal neuronal survival and improves functional outcome after traumatic brain injury.