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Skills For Catheter Insertion Improved By Simulation Training
New technology allows student doctors to practice operations and other procedures on simulators before trying them out on real patients, just as pilots practice for emergencies on aircraft simulators. Medical educators feel that this will increase patient safety, by avoiding first-time mistakes being made on live patients. But does education by simulation actually work? Can doctors learn new skills on simulators instead of on humans?

To What Extent Can Environmental Pollutants And Alcohol Affect GI Health?
New research quantifies the precise effects of environmental pollutants and alcohol intake on gastrointestinal (GI) health. Both studies being presented this week during Digestive Disease Week® 2009 (DDW®) offer concrete evidence that the environment and alcohol intake can affect GI health and share important insights into new directions for future research. DDW is the largest international gathering of physicians and researchers in the fields of gastroenterology, hepatology, endoscopy and gastrointestinal surgery.
News of the day
Results From A European Caregiver Survey Highlight The Impact Of Attention Deficit Hyperactivity Disorder (ADHD) On The Child And The Family
Shire plc (LSE: SHP, NASDAQ: SHPGY), the global specialty biopharmaceutical company, today announced results of a European survey that found a child"s Attention Deficit Hyperactivity Disorder (ADHD) symptoms at school were a key concern for parents, yet outside of school their child"s ADHD also had significant impact on parents" personal time.1 The survey also revealed key findings surrounding parents" role in assessment and treatment for their child.1 Additionally, the survey suggested that informational needs may not be met adequately for these children with ADHD and their families.1 Conducted in partnership with ADHD advocacy groups in four EU countries, the survey analysed parental impressions surrounding the impact of ADHD on their child, themselves and their family, as well as their child"s ADHD treatment plan.
Diagnostics

'Tasting' Mechanism Used By Airway Cells To Detect And Clear Harmful Substances

The same mechanism that helps you detect bad-tasting and potentially poisonous foods may also play a role in protecting your airway from harmful substances, according to a study by scientists at the University of Iowa Roy J. and Lucille A. Carver College of Medicine. The findings could help explain why injured lungs are susceptible to further damage. The study, published online July 23 in Science Express, shows that receptors for bitter compounds that are found in taste buds on the tongue also are found in hair-like protrusions on airway cells. In addition, the scientists showed that, unlike taste cells on the tongue, these airway cells do not need help from the nervous system to translate detection of bitter taste into an action that expels the harmful substance. The hair-like protrusions, called motile cilia, were already known to beat in a wave-like motion to sweep away mucus, bacteria and other foreign particles from the lungs. The study is the first to show that motile cilia on airway cells not only have this "clearing" function, but also use the receptors to play a sensory role. The researchers also found that when the receptors detect bitter compounds, the cilia beat faster, suggesting that the sensing and the motion capabilities of these cellular structures are linked. "On the tongue, bitter substances trigger taste cells to stimulate neurons, which then evoke a response -- the perception of a bitter taste. In contrast, the airway cells appear to use a different mechanism that does not require nerves," said Alok Shah, a UI graduate student and co-first author of the study. "In the airways, bitter substances both activate the receptors and elicit a response -- the increased beating of the cilia -- designed to eliminate the offending material." Shah and co-first author Yehuda Ben-Shahar, Ph.D., an assistant professor of biology at Washington University who was a postdoctoral fellow at the UI when the study was conducted, worked in the lab of senior study author Michael Welsh, M.D. (photo, upper left), UI professor of internal medicine and molecular physiology and biophysics, who holds the Roy J. Carver Chair of Internal Medicine and Physiology and Biophysics. Welsh also is a Howard Hughes Medical Institute investigator. "These findings suggest that we have evolved sophisticated mechanisms to guard ourselves from harmful environmental stimuli," Ben-Shahar said. "Our work also suggests that losing cilia in the lungs, due to smoking or disease, would result in a reduced general ability to detect harmful inhaled chemicals, increasing the likelihood of further damaging an injured lung." In addition to Ben-Shahar, Shah and Welsh, the UI team included Thomas Moninger, assistant director of the UI Central Microscopy Research Facility, and Joel Kline, M.D., UI professor of internal medicine. The study was funded by grants from the National Institutes of Health. Jennifer Brown University of Iowa


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