The hair cells of the inner ear have a previously unknown “root” extension that may allow them to communicate with nerve cells and the brain to regulate sensitivity to sound vibrations and head position, researchers at the University of Illinois at Chicago College of Medicine have discovered. Their finding is reported online in advance of print in the Proceedings of the National Academy of Sciences.
psychology
Do you hear what I hear?
(Medical Xpress) — In both animals and humans, vocal signals used for communication contain a wide array of different sounds that are determined by the vibrational frequencies of vocal cords. For example, the pitch of someone’s voice, and how it changes as they are speaking, depends on a complex series of varying frequencies. Knowing how the brain sorts out these different frequencies—which are called frequency-modulated (FM) sweeps—is believed to be essential to understanding many hearing-related behaviors, like speech. Now, a pair of biologists at the California Institute of Technology (Caltech) has identified how and where the brain processes this type of sound signal.
Past pregnancies linked to reduced MS risk in women
Women who have multiple pregnancies may have a lower risk of developing multiple sclerosis (MS), according to research published in the March 7, 2012, online issue of Neurology, the medical journal of the American Academy of Neurology.
What does chronic stress in adolescence mean at the molecular level?
Chronic stress has a more powerful effect on the brain during adolescence than in adulthood and now there’s proof at the molecular level, according to findings published in Neuron by University at Buffalo researchers.
Hypothermia protects the brain against damage during stroke
Thromboembolic stroke, caused by a blood clot in the brain, results in damage to the parts of the brain starved of oxygen. Breaking up the clot with tissue plasminogen activator (tPA) reduces the amount of damage, however, there is a very short time window when the value of the treatment outweighs the side effects. New research published in BioMed Central’s open access journal Experimental & Translational Stroke Medicine shows that, during the first 24 hours after a stroke, mild hypothermia (34C) can reduce the side effects of tPA and potentially increase the window of opportunity for tPA treatment.