Orsolya Farkas scite author profile

Diffuse traumatic brain injury (DTBI) is associated with neuronal plasmalemmal disruption, leading to either necrosis or reactive change without cell death. This study examined whether enduring membrane perturbation consistently occurs, leading to cell death, or if there is the potential for transient perturbation followed by resealing/recovery. We also examined the relationship of these events to calpainmediated spectrin proteolysis (CMSP). To assess plasmalemmal disruption, rats (n ϭ 21) received intracerebroventricular infusion 2 h before DTBI of a normally excluded 10 kDa fluorophore-labeled dextran. To reveal plasmalemmal resealing or enduring disruption, rats were infused with another labeled dextran 2 h (n ϭ 10) or 6 h (n ϭ 11) after injury. Immunohistochemistry for the 150 kDa spectrin breakdown product evaluated the concomitant role of CMSP. Neocortical neurons were followed with confocal and electron microscopy.

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Cellular and subcellular change evoked by diffuse traumatic brain injury: a complex web of change extending far beyond focal damage

Farkas

Povlishock

2007

197

124

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Update on protein biomarkers in traumatic brain injury with emphasis on clinical use in adults and pediatrics

et al. 2009

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We conclude that only S-100B in severe traumatic brain injury has consistently demonstrated the ability to predict injury and outcome in adults. The number of studies with protein degradation products is insufficient especially in the pediatric care. Cohort studies with well-defined end points and further neuroproteomic search for biomarkers in mild injury should be triggered. After critically reviewing the study designs, we found that large homogenous patient populations, consistent injury, and outcome measures prospectively determined cutoff values, and a combined use of different predictors should be considered in future studies.

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Traumatic axonal injury in the perisomatic domain triggers ultrarapid secondary axotomy and Wallerian degeneration

Kelley

Farkas

Lifshitz

et al. 2006

Experimental Neurology

102

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Orsolya Farkas

Mechanoporation Induced by Diffuse Traumatic Brain Injury: An Irreversible or Reversible Response to Injury?

Cellular and subcellular change evoked by diffuse traumatic brain injury: a complex web of change extending far beyond focal damage

Update on protein biomarkers in traumatic brain injury with emphasis on clinical use in adults and pediatrics

Traumatic axonal injury in the perisomatic domain triggers ultrarapid secondary axotomy and Wallerian degeneration

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