How Germs Might Shape the Future of Architecture

We know that buildings can make us sick. Take, for example, cases of lead poisoning, mold exposure, or the aptly named Sick Building Syndrome. But can they also make us healthier? Scientists are trying to answer that very question, starting with detailed studies of the microbes that populate our homes and offices. The end goal? Using this information to design structures constructed with bodies in mind.

This is a big shift in how we’ve previously conceptualized microbial life. We’ve long treated bacteria as the enemy. But it turns out that few of the germs we’re constantly trying to kill with hand sanitizer actually cause disease—and the more bacteria we have on the whole, the better. In fact, our habit of ultrasterilization appears to be hurting us. A number of recent studies have lent credence to the so-called “hygiene hypothesis,” which attributes the uptick in autoimmune and allergic diseases, including eczema and asthma, to a lack of early childhood exposure to germs.

This is an emerging field, so new that it doesn’t even have a proper name yet.
So how do we get that healthy exposure to bacterial flora when we spend more than 90 percent of our time indoors? That’s the focus of an emerging field, so new that it doesn’t even have a proper name yet. Today, scientists studying the microbiology of the built environment are changing the way we think about bacteria and working toward ways to harness their potential for good. Here we’ll use the term “bio-inspired” to refer to design that incorporates biological processes or systems.... Read more here.

Latest News

Start-up founded by IGSB faculty wins $250,000 Polsky Center award

BiomeSense, a startup developing biosensors that can detect particular kinds of bacteria in patients’ feces that could help improve the efficacy of clinical trials, won the University of Chicago’s Innovation Fund finals and an investment of up to $250,000 from the college.

Massive data analysis shows what drives the spread of flu in the US

Models built with data from health claims, weather, geography and Twitter predict how the flu spreads from the south and southeastern coast

Subscribe to RSS Feed