News

In a very severe, genetic form of microcephaly, stem cells in the brain fail to divide, according to a new Columbia University Medical Center study that may provide important clues to understanding how the Zika virus affects the developing brain. The study was published August 24 in Nature Communications.

Researchers at the Skaggs School of Pharmacy and Pharmaceutical Sciences at CU Anschutz have developed a technique that estimates an HIV-negative patient's adherence to drugs prescribed to prevent HIV transmission during sex

Rheumatoid arthritis patients taking medications that inhibit interleukin-1beta (IL-1beta), a molecule that stimulates the immune system, are 300 times more likely to experience invasive Group A Streptococcal infections than patients not on the drug, according to University of California San Diego School of Medicine researchers. Their study, published August 19 in Science Immunology, also uncovers a critical new role for IL-1beta as the body’s independent early warning system for bacterial infections.

In developing nations, the current test to diagnose tuberculosis (TB) is error-prone, complicated and time-consuming. Furthermore, patients in these resource-limited areas can’t easily travel back to a clinic at a later date to get their results. To make diagnoses simpler, faster and more accurate, chemists have developed a quick and easy diagnostic tool. Field trials of the experimental new test began in June in South Africa, which has a high incidence of TB.

Geographers at the University of Southampton have completed a large scale data and mapping project to track the flow of internal human migration in low and middle-income countries.

As one of the most successful intracellular pathogens, Mycobacterium tuberculosis (Mtb) causes 8 million cases of tuberculosis and 1.3 million deaths worldwide annually. During the course of infection, Mtb is exposed to diverse redox stresses that trigger metabolic and physiological changes.

Norovirus is the most common viral cause of diarrhea worldwide, but scientists still know little about how it infects people and causes disease. Research has been hindered by an inability to grow the virus in the lab. Now, researchers at Washington University School of Medicine in St. Louis have identified the protein that norovirus uses to invade cells. The discovery, in mice, provides new ways to study a virus notoriously hard to work with and may lead to treatments or a vaccine.