Viral tracing reveals molecule responsible for adult-born neuron signaling Sep 26, 2014 Baylor study is the first time that local neuropeptide signaling has been shown to be important in the integration of adult-born neurons in a pre-existing neuronal circuit.
Baylor, Texas Children’s join national collaboration to solve most difficult, rare medical cases Jul 1, 2014 New national network of clinicians and scientists are joining forces to address prolonged undiagnosed medical conditions.
Zoghbi receives honorary degree from Yale University May 20, 2014 Baylor's Dr. Huda Zoghbi was the recipient of an honorary Doctor of Medical Sciences degree at Yale University’s 2014 commencement ceremony.
Baylor St. Luke’s Medical Center Begins Groundbreaking Treatment for Epilepsy Apr 15, 2014 CHI St. Luke’s Health Baylor St. Luke’s Medical Center announced today that it has begun treating patients with the groundbreaking new NeuroPace® RNS® System.
McGovern Institute for Brain Research to honor Dr. Huda Zoghbi Mar 4, 2014 The McGovern Institute will award the Scolnick Prize to Dr. Zoghbi April 30.
Tools produce different answers in microRNA profiles Feb 5, 2014 Baylor researchers find the choice of tools in genomic profiling can make a difference in microRNAs.
Neonatal dose of estrogen may prevent catastrophic epilepsy Jan 23, 2014 Research at Baylor finds small estrogen dose could help treat infantile spasms syndrome, potentially prevent catastrophic seizures later in life.
Lessons learned in Alzheimer's drug trial move research forward Jan 22, 2014 Results of Baylor study could help move the field of Alzheimer's drug research forward with more targeted studies.
Brain warps scenes to cancel out perceptual delays Nov 4, 2013 Baylor researchers report a new discovery which may unmask the mechanisms by which the brain strives to perceive a more up-to-the-second view.
Doubling Shank3 corresponds with mania seen in bipolar patients Oct 23, 2013 A team led by scientists at Baylor and the Jan and Dan Duncan Neurological Research Institute at Texas Children’s Hospital have found that too little or too much of the Shank3 influences brain function.