Cases of meningitis caused by herpes virus set to rise Viral meningitis is definitely common.

Cases of meningitis caused by herpes virus set to rise Viral meningitis is definitely common, but many situations go unreported, say researchers in this week’s BMJ. And because of the raising incidence of genital herpes in the united kingdom, cases of meningitis caused by the herpes virus are set to rise, they warn. In 2005-6, 2898 individuals were admitted to hospital in England with a medical diagnosis of viral meningitis, however that is 10 times the amount of instances notified to medical Protection Company in both England and Wales over the same period propecia sverige . Related StoriesBlocking calcium-signaling pathway could inhibit Ebola virus and other sources of deadly infectionsHIV, Ebola seem to be of animal originMillions more bird species killed by West Nile virus than previously thoughtMeningitis can be an inflammation of the membranes that cover the brain and spinal cord and can be most common in small children.

But Hazen says this new research suggests a new connection between red meat and cardiovascular disease. ‘This process differs in everyone, depending on the gut microbe fat burning capacity of the individual,’ he says. ‘Carnitine metabolism suggests a new way to help explain why a diet abundant with red meats promotes atherosclerosis.’ While carnitine is occurring in red meats, including beef, venison, lamb, mutton, duck, and pork, it's also a dietary supplement obtainable in pill type and a common component in energy drinks. With this new study at heart, Hazen cautions that even more research needs to be done to analyze the protection of chronic carnitine supplementation. ‘Carnitine isn’t an essential nutrient; our body produces all we need,’ he says. ‘We have to examine the safety of chronically consuming carnitine supplements as we've shown that, under some circumstances, it could foster the growth of bacteria that make TMAO and potentially clog arteries.’ This study may be the most recent in a line of study by Hazen and his co-workers exploring how gut microbes can donate to atherosclerosis, uncovering new and unexpected pathways involved in heart disease.