Gene therapy normalizes brain function in Parkinson’s patientsNovember 20th, 2007 - 12:53 pm ICT by admin
Washington, November 20 (ANI): An experimental gene therapy has shown the potential to normalise brain function in patients with Parkinsons disease in a study involving brain scans.
The effects of the treatment administered by collaborators from The Feinstein Institute for Medical Research and Weill Cornell Medical Center in Manhattan are still present a year later.
During the study, the researchers delivered genes for glutamic acid decarboxylase (GAD) into the subthalamic nucleus of the brain in patients with Parkinsons.
The first phase of the study was carried out as a safety study, and the genes were delivered to only one side of the brain to reduce risk and to better assess the treatment.
The subjects received the viral vector-carrying genes to the side of the brain that controls movement on the side of their body most affected by the disease.
Upon performing Position emission tomography (PET) scans on the patients, the researchers found that the motor network on the untreated side of the body got worse, while that on the treated side got better.
This is good news. You want to be sure that the treatment doesnt make things worse, Dr. David Eidelberg of The Feinstein Institute for Medical Research.
Having this information from a PET scan allows us to know that what we are seeing is real, Dr. Eidelberg said.
The scans also detected differences in responses between dose groups, with the highest gene therapy dose demonstrating a longer-lasting effect.
This study demonstrates that PET scanning can be a valuable marker in testing novel therapies for Parkinson’s disease, Dr. Eidelberg said.
The scans further confirmed that the therapy did not cause any see changes in cognition.
The study has been published in the Proceedings of the National Academy of Sciences. (ANI)
Tags: brain function, cornell medical center, dose groups, experimental gene therapy, feinstein, genes, glutamic acid decarboxylase, medical research, national academy of sciences, parkinson, parkinsons disease, position emission tomography, proceedings of the national academy of sciences, subthalamic nucleus, viral vector, weill cornell medical center