Evidence suggests that microbes play a vital role in health. But what microbes we get depends whether we were born in a hospital versus at home. That could impact our health decades later.
The microbiome is one of the largest organs in the body. Understanding its constituents and their functions will lead to breakthroughs in health care and well-being practices.
Tick-borne diseases are becoming more common in the United States. A public health entomologist outlines some of the lesser-known threats ticks pose to human health.
After the failure of multiple drug trials the outlook for an Alzheimer’s drug is bleak. This shouldn’t be a surprise. We don’t know the cause or even how to diagnose the disease.
As antibiotic resistance increases globally, the heat is on to find new alternatives to treat infections. Chemists can get a head start by looking at compounds produced in nature by fishes’ microbes.
Research using massive databases – such as the Danish Psychiatric Central Research Register – is enabling a whole new understanding of the links between life history, the gut and mental health.
We were the first to make the connection between P. gingivalis and fully diagnosed Alzheimer’s disease. While evidence of a link is growing, it must be interpreted in context.
Scientists still rely on a set of 19th century postulates to identify disease-causing organisms but more than 100 years of research shows why we need to move on.
It’s hard to predict how long it will take to feel better after you start taking antibiotics. But if you start feeling worse one to two days after starting the therapy, you must see your doctor.
Researchers are exploring the possibility of creating living drugs – designer microbes that can live in our guts and provide critical components that our body needs but can’t make itself.
Millions of bacteria live on our skin without making us sick. It’s when they manage to get through that they can be dangerous – particularly if they’re resistant to antibiotics.
Smooth surfaces often provide nooks and crannies for bacteria to hold onto and create a colony. New research with nanoparticles is revealing the secrets of surfaces that prevent bacterial attachment.