Disrupted Axonal Fiber Connectivity As a Marker of Impaired Consciousness States

June 2013

Project: PVS / MCS
Philip A. Defina
Rafael Rodriguez-RojasRafael
Batista García-Ramó
Yasser Iturria
Maylen Carballo-Barreda
…and others.

ABSTRACT: Background: Persistent vegetative states (PVS) and locked-in syndrome (LIS) are well differentiated disorders of consciousness that can be reached after a localized brain injury in the brainstem. The relations of the lesion topography with the impairment in the whole-brain architecture and functional disconnections are poorly understood. Methods: Two patients (PVS and LIS) and 20 age-matched healthy volunteers were evaluated using diffusion tensor imaging (DTI). Anatomical network was modeled as a graph whose nodes are represented by 71 brain regions. Inter-region connections were quantified through Anatomical Connection Strength (ACS) and Density (ACD). Complex networks properties such as local and global efficiency and vulnerability were studied. Mass univariate testing was performed at every connection using network based statistic approach. Results: LIS patients’ network showed significant differences from controls in the brainstem-thalamus-frontal cortex circuitry, while PVS patients showed a widespread disruption of anatomical connectivity in both hemispheres. Both patients showed a reorganization of network attributes, with decreased global and local efficiency, significantly more pronounced in PVS. Conclusions: Our results suggest that DTI-based network connectivity combined with graph theory is useful to study the long-range effect of confined injuries and the relationship to the degree of consciousness impairment, underlying PVS and LIS.

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The new neuroscience frontier: Promoting neuroplasticity and brain repair in Traumatic Brain Injury

November 2009

The Clinical Neuropsychologist 23(8):1391-9
DOI: 10.1080/13854040903058978
SourcePubMed
Philip A Defina
Jonathan Fellus
Mary Zemyan Polito
John Deluca
…and others.

ABSTRACT: Increased awareness of traumatic brain injury (TBI) in the military, a persistent call for evidence-based treatment, and recent government funding have revealed new research opportunities in neuroscience. This paper describes a relatively new frontier for research: that of the facilitation or enhancement of neuroplasticity and brain repair in TBI using novel treatment protocols. Such protocols, algorithmically introduced, may be tailored to the individual through the matching of neuromarkers with specific interventions. Examples of neuromarkers and interventions employed for the purpose of neuromodulation are reported. Problems with lack of controlled studies and inferring causation in correlational research are noted. Healthy skepticism and open-minded creativity are needed so that we can think in unorthodox ways, create partnerships, harness available knowledge and expertise, and ultimately develop effective treatments.

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Juke Bar Fundraiser for IBRF

 

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Thank you so much to everyone who showed up at Juke Bar to support the International Brain Research Foundation last week. I am excited to announce that we have used the funds raised to start two new funds. One will go directly to people who have suffered traumatic brain injury and will be used to help them cover expenses of treatments, including implementing IBRF-developed protocols. The second will be dedicated to those who suffer from Post Traumatic Stress, and will go directly to helping fund procedures such as Dr. Lipov’s Stellate Ganglion Block. At IBRF, we not only want to push the boundaries of neuroscience research, but we also endeavor to reduce the financial strain that these hardships put on families of those going through these biological and psychological injuries. Feel free to contact us for more information or if you are interested in donating to either of these funds!