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Noble-Haeusslein’s laboratory is focused on translational neuroscience research in the field of neurotrauma. Their overarching long-term objective is to develop targeted therapeutics that will improve recovery after traumatic spinal cord and pediatric brain injuries. This research relies on cellular, molecular and behavioral tools to identify key mechanisms underlying early cell injury that impair recovery processes in preclinical models of neurotrauma. This multifaceted approach has led to the discovery of new pharmacologic and stem-cell based therapeutics that ameliorate several key features of spinal cord injury; namely, bladder and locomotor dysfunction and central neuropathic pain.
Similar progress has been made in the team’s studies of traumatic injury to the pediatric brain. Traumatic brain injuries (TBIs) are the leading cause of death and disability in children and there is growing concern that even mild forms of TBIs including concussions may have long-term adverse consequences. Noble-Haeusslein’s team has found that age at time of injury is predictive of recovery in brain-injured rodents, with younger ages showing less resilience to the injury with more profound long-term deficits in cognition and sociability. These studies have led to the discovery of unique, age-dependent, immune-based signatures that give rise to long-term cognitive deficits. Importantly, these deficits can be rescued by either genetic or pharmacologic approaches that target the early innate immune response.
Most recently, the team has turned its attention to several new areas of research. These include a novel model of concussion to the gyrencephalic adolescent brain where the early immune response may render the brain more vulnerable to repeat insults. In addition, they are addressing the cross-talk between the injured pediatric brain and the microbiome which may give rise to long-term changes in social behaviors.
Similar progress has been made in the team’s studies of traumatic injury to the pediatric brain. Traumatic brain injuries (TBIs) are the leading cause of death and disability in children and there is growing concern that even mild forms of TBIs including concussions may have long-term adverse consequences. Noble-Haeusslein’s team has found that age at time of injury is predictive of recovery in brain-injured rodents, with younger ages showing less resilience to the injury with more profound long-term deficits in cognition and sociability. These studies have led to the discovery of unique, age-dependent, immune-based signatures that give rise to long-term cognitive deficits. Importantly, these deficits can be rescued by either genetic or pharmacologic approaches that target the early innate immune response.
Most recently, the team has turned its attention to several new areas of research. These include a novel model of concussion to the gyrencephalic adolescent brain where the early immune response may render the brain more vulnerable to repeat insults. In addition, they are addressing the cross-talk between the injured pediatric brain and the microbiome which may give rise to long-term changes in social behaviors.
研究兴趣
论文共 117 篇作者统计合作学者相似作者
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JOURNAL OF NEUROTRAUMAno. 15-16 (2023): A24-A24
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Michelle C. LaPlaca,J. Russell Huie,Hasan B. Alam,Adam D. Bachstetter,Hulya Bayir,Patrick F. Bellgowan, Diana Cummings,C. Edward Dixon,Adam R. Ferguson,Chantelle Ferland-Beckham,Candace L. Floyd,Stuart H. Friess,Aristea S. Galanopoulou,Edward D. Hall,Neil G. Harris,Bridget E. Hawkins,Ramona R. Hicks,Lindsey E. Hulbert,Victoria E. Johnson,Patricia A. Kabitzke,Audrey D. Lafrenaye,Vance P. Lemmon, Carrie W. Lifshitz,Jonathan Lifshitz,David J. Loane,Leonie Misquitta,Vahagn C. Nikolian,Linda J. Noble-Haeusslein,Douglas H. Smith,Carol Taylor-Burds, Nsini Umoh,Olga Vovk,Aaron M. Williams,Margaret Young,Laila J. Zai
FRONTIERS IN NEUROLOGY (2021)
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#Papers: 118
#Citation: 9104
H-Index: 46
G-Index: 95
Sociability: 7
Diversity: 0
Activity: 0
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