Recent Events

 

Andrew Kneynsberg wins first place in undergraduate research competition

 

 

 

Andrew Kneynsberg participated in the Summer in Biomedical Sciences Undergraduate Research Program. He conducted research examining the role of nicotine in neuropathic pain after spinal cord injury. Andrew received first place in the undergraduate research competition.

 

Dr. Floyd named 2007 McNulty Civitan Scientist

 

Candace L. Floyd, PhD� was named the 2007 McNulty Civitan Scientist by Dr. Harald Sontheimer, director of the Civitan International Research Center.� � Dr. Floyd received the� award from Mr. Whit Mallory (Chesapeake Civitan District Foundation) at the annual Civitan International Foundation Board of Director’s reception held in the atrium of the CIRC research center.� "Candace is conducting exciting research in the areas of acute spinal cord and traumatic brain injuries that may one day lead to therapies that could effectively reduce the long term damage caused by these injuries" said Sontheimer.� Floyd is an Assistant Professor in the Department of Physical Medicine and Rehabilitation at UAB.

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Research Overview

 

On-going projects include:

• Estrogens, phytoestrogens, and selective estrogen receptor modulators (SERMs) as potential protective agents in SCI.
• Evaluation of fusion proteins for delivery of anti-apoptotic proteins in SCI.
• Autophagy as a potential novel target in traumatic brain injury.
• Mechanisms of glial cell death in traumatic brain and spinal cord injury.
• Developing an animal model of blast traumatic brain injury.

 

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Recent Publications

 

• Floyd CL, Lyeth BG.
  Astroglia: important mediators of traumatic brain injury.

  Prog Brain Res. 2007;161:61-79. Review.

• Jelks KB, Wylie R, Floyd CL, McAllister AK, Wise P.
  Estradiol targets synaptic proteins to induce glutamatergic synapse formation in cultured hippocampal neurons: critical role of estrogen receptor-alpha.

  J Neurosci. 2007 Jun 27;27(26):6903-13.

• Lapanantasin S, Chongthammakun S, Floyd CL, Berman RF.
  Effects of 17beta-estradiol on intracellular calcium changes and neuronal survival after mechanical strain injury in neuronal-glial cultures.

  Synapse. 2006 Oct;60(5):406-10.

• Chaovipoch P, Jelks KA, Gerhold LM, West EJ, Chongthammakun S, Floyd CL.
  17beta-estradiol is protective in spinal cord injury in post- and pre-menopausal rats.

  J Neurotrauma. 2006 Jun;23(6):830-52.

• Floyd CL, Gorin FA, Lyeth BG.
  Mechanical strain injury increases intracellular sodium and reverses Na+/Ca2+ exchange in cortical astrocytes.

  Glia. 2005 Jul;51(1):35-46.

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Student Involvement

 

Multiple projects are ongoing in the laboratory with several opportunities for medical residents, medical or graduate students, or undergraduate students to train in laboratory research, and I am happy to discuss research prospects at any time. We model traumatic CNS injury with both in vivo and in vitro systems.

 

For TBI, we use a fluid percussion injury which produces an acceleration/deceleration brain injury in rats and mice and is characterized by long term memory deficits. To model traumatic spinal cord injury, we use an aneurysm clip compression model or an impactor contusion model in rats and mice. Both models produce an injury pathophysiology that closely mimics human spinal cord injury including histological damage, loss of function at/below the level of the lesion, and development of post-SCI pain syndromes. In vitro, we use a mechanical injury model that replicates the tensile strain applied to tissue in a CNS injury. We use primary cultures from either brain or spinal cord and live cell ratiometeric imaging to assess cellular responses to injury and efficacy of potential therapeutic agents.

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Lab Outings

 

 

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