Posts tagged behavior
Articles and news from the latest research reports.
3D reconstruction of Phineas Gage’s skull, showing the passage of the tamping iron. Read about Gage’s connectome here
Donepezil found helpful in dementia with lewy bodies
July 31, 2012
(HealthDay) — For patients with dementia with Lewy bodies (DLB), treatment with 5 or 10 mg/day donepezil is associated with significant cognitive, behavioral, and global function improvements, according to research published in the July issue of the Annals of Neurology.
Etsuro Mori, M.D., Ph.D., of the Tohoku University Graduate School of Medicine in Sendai, Japan, and colleagues conducted a randomized, double-blind, placebo-controlled trial involving 140 patients with DLB who received either placebo or 3, 5, or 10 mg of donepezil hydrochloride per day for 12 weeks (35, 35, 33, and 37 patients, respectively). Cognitive function was measured using the Mini-Mental State Examination (MMSE); behavioral changes were measured using the Neuropsychiatric Inventory; global function was evaluated using the Clinician’s Interview-Based Impression of Change-plus Caregiver Input (CIBIC-plus); and caregiver burden was also assessed.
The researchers found that, compared with placebo treatment, the MMSE scores were significantly better with donepezil 5 mg (mean difference, 3.8) and 10 mg (mean difference, 2.4), but the 3 mg/day dose was not significantly better than placebo (P = 0.017). Donepezil at doses of 3, 5, and 10 mg/day correlated with significant improvements versus placebo on CIBIC-plus. Both the 5 and 10 mg doses of donepezil resulted in significant improvements in behavioral measures. Caregiver burden also improved, but only with the 10 mg/day dose. The safety results were similar among the groups and were consistent with the known profile.
"Donepezil at 5 and 10 mg/day produces significant cognitive, behavioral, and global improvements that last at least 12 weeks in DLB patients, reducing caregiver burden at the highest dose," the authors write. Several authors disclosed financial ties to pharmaceutical companies, including Eisai Co., which funded the study and manufactures donepezil.
Source: medicalxpress.com
Smell the potassium: Surprising find in study of sex- and aggression-triggering vomeronasal organ
"We found two new ion channels—both of them potassium channels—through which VNO neurons are activated in mice," says Associate Investigator C. Ron Yu, Ph.D., senior author of the study. "This is quite unusual; potassium channels normally don’t play a direct role in the activation of sensory neurons."
Humans have shrunken, seemingly vestigial VNOs, but still exhibit instinctive, pre-programmed behaviors relating to reproduction and aggression. Scientists hope that an understanding of how the VNO works in mice and other lower mammals will provide clues to how these innate behaviors are triggered in humans.
The VNO works in much the same way as the main olfactory organ that provides the sense of smell. Its neurons and their input stalks, known as dendrites, are studded with specialized receptors that can be activated by contact with specific messenger-chemicals called pheromones, found mostly in body fluids. When activated, VNO receptors cause adjacent ion channels to open or close allowing ions to flood into or out of a neuron. These inflows and outflows of electric charge create voltage surges that can activate a VNO neuron, so that it signals to the brain to turn on a specific behavior.
A Neurologist Makes the Case for Teaching Teachers About the Brain
Do you recall some of your college professors who knew their subject matter but had zero teaching skills? Staying awake in their one-way-directed lecture classes required Herculean strength (or lots of coffee). They were never trained to develop the skillset of engagement strategies.
Even though I was a physician with a strong science background, when I decided to become a classroom teacher (and thought I’d teach science), I did not want to make that career change without the benefit of instruction and guided student teaching. The year I spent in my graduate school of education program was invaluable in my transition to becoming a professional educator.
Did Your Brain Make You Do It?
ARE you responsible for your behavior if your brain “made you do it”?
Often we think not. For example, research now suggests that the brain’s frontal lobes, which are crucial for self-control, are not yet mature in adolescents. This finding has helped shape attitudes about whether young people are fully responsible for their actions. In 2005, when the Supreme Court ruled that the death penalty for juveniles was unconstitutional, its decision explicitly took into consideration that “parts of the brain involved in behavior control continue to mature through late adolescence.”
Controlling Monkey Brains and Behavior With Light
ScienceDaily (July 26, 2012) — Researchers reporting online on July 26 in Current Biology, a Cell Press publication, have for the first time shown that they can control the behavior of monkeys by using pulses of blue light to very specifically activate particular brain cells. The findings represent a key advance for optogenetics, a state-of-the-art method for making causal connections between brain activity and behavior. Based on the discovery, the researchers say that similar light-based mind control could likely also be made to work in humans for therapeutic ends.
(Credit: © Eric Isselée / Fotolia)
"We are the first to show that optogenetics can alter the behavior of monkeys," says Wim Vanduffel of Massachusetts General Hospital and KU Leuven Medical School. "This opens the door to use of optogenetics at a large scale in primate research and to start developing optogenetic-based therapies for humans."
In optogenetics, neurons are made to respond to light through the insertion of light-sensitive genes derived from particular microbial organisms. Earlier studies had primarily validated this method for use in invertebrates and rodents, with only a few studies showing that optogenetics can alter activity in monkey brains on a fine scale.
In the new study, the researchers focused on neurons that control particular eye movements. Using optogenetics together with functional magnetic resonance imaging (fMRI), they showed that they could use light to activate these neurons, generating brain activity and subtle changes in eye-movement behavior.
The researchers also found that optogenetic stimulation of their focal brain region produced changes in the activity of specific neural networks located at some distance from the primary site of light activation.
The findings not only pave the way for a much more detailed understanding of how different parts of the brain control behavior, but they may also have important clinical applications in treating Parkinson’s disease, addiction, depression, obsessive-compulsive disorder, and other neurological conditions.
"Several neurological disorders can be attributed to the malfunctioning of specific cell types in very specific brain regions," Vanduffel says. "As already suggested by one of the leading researchers in optogenetics, Karl Deisseroth from Stanford University, it is important to identify the underlying neuronal circuits and the precise nature of the aberrations that lead to the neurological disorders and potentially to manipulate those malfunctioning circuits with high precision to restore them. The beauty of optogenetics is that, unlike any other method, one can affect the activity of very specific cell types, leaving others untouched."
Source: Science Daily
Sheep backpacks reveal flocking strategy
UK researchers have shown for the first time that instead of fleeing randomly when faced with danger, sheep head straight for the center of the flock.
Understanding this behavior in healthy animals may help researchers understand the breakdown in social behaviours caused by neurological disorders in sheep, as well as those in humans, such as Huntington’s disease.
The findings support a 40-year-old idea put forward by evolutionary biologist Bill Hamilton. He suggested that creatures as different as insects, fish and cattle all react to danger by moving towards the middle of their respective swarms, schools or herds. “Scientists agree that flocking behavior has evolved in response to the risk of being attacked by predators.
The idea is that being part of a tight-knit group not only increases the chances that you might spot a predator, but decreases the chance that you are the one the predator goes for when it attacks,” explains Dr. Andrew King from The Royal Veterinary College (RVC), lead author the study, published in Current Biology today.
Why Facial Disfigurements Creep Us Out
Whether we realize it or not, most of us have a knee-jerk reaction when we see someone with a facial disfigurement, such as psoriasis, a cleft lip, or a birthmark. We may sit away from them on the bus, hesitate to shake their hand, or even give a barely masked look of revulsion. A new study suggests these disgust reactions stem from an ancient disease-avoidance system that normally prevents us from catching illnesses. Essentially, we treat facial disfigurements like infectious diseases.