At a recent Society for Neuroscience (SFN) meeting, Emory researchers described their efforts to learn about optimizing progesterone for treatment of traumatic brain injury.
Researcher Donald Stein, PhD, Asa G. Candler Professor of Emergency Medicine at Emory School of Medicine, has shown that progesterone can protect damaged brain tissue. Stein is director of the Department of Emergency Medicine’s Brain Research Laboratory.
One of the Emory SFN presentations covered efforts to find progesterone analogues that are more water soluble. This work comes from Stein and his colleagues in collaboration with the laboratory of Dennis Liotta, PhD, Emory professor of chemistry.
Currently, the lack of water solubility limits delivery of progesterone, in that the hormone must be prepared hours ahead and cannot be kept at room temperature. Small chemical modifications may allow similar compounds with the same effects as progesterone to be given to patients closer to the time of injury.
According to the results, two compounds similar to progesterone showed an equivalent ability to reduce brain swelling in an animal model of traumatic brain injury.
The second Emory report described evidence that adding vitamin D to progesterone enhances the hormone’s effectiveness when applied to neurons under stress in the laboratory. Like progesterone, vitamin D is a steroid hormone that is inexpensive, has good safety properties and acts on many different biochemical pathways.
The authors showed that a low amount of vitamin D boosted the ability of progesterone to protect neurons from excito-toxicity , a principal cause of brain injury and cell death.
The study follows earlier findings that showed giving progesterone to trauma victims shortly after brain injury appears to be safe and may reduce the risk of death and long-term disability.
David Wright, MD, assistant professor of emergency medicine at Emory School of Medicine is the national studyâ€™s lead investigator.
Michael Frankel, MD, Emory professor of neurology, will serve as site principal investigator of the clinical trial at Grady Memorial Hospital.