Toxic chemicals, per-, and poly-fluoroalkyl substances, abbreviated as PFAS and also known as "forever chemicals," have been ...

Scientists have identified a form of bacteria that eats the toxic "forever chemicals" that leach into the water supply by way ...

Toxic ‘forever chemicals’ are increasingly showing up in the environment, our food and drinking water, and throughout our ...

Now, a University at Buffalo-led team has identified a strain of bacteria that can break down and transform at least three types of PFAS, and, perhaps even more crucially, some of the toxic byproducts ...

Research using non-toxic bacteria to fight high-mortality cancers prepares for clinical trials. ScienceDaily . Retrieved February 3, 2025 from www.sciencedaily.com / releases / 2025 / 01 ...

A University of Massachusetts Amherst-Ernest Pharmaceuticals team of scientists has made “exciting,” patient-friendly advances in developing a non-toxic bacterial therapy, BacID, to deliver ...

A University of Massachusetts Amherst-Ernest Pharmaceuticals team of scientists has made "exciting," patient-friendly advances in developing a non-toxic bacterial therapy, BacID, to deliver cancer ...

In the quest to take the "forever" out of "forever chemicals," bacteria might be our ally. Most remediation of per- and polyfluoroalkyl substances (PFAS) involves adsorbing and trapping them, but ...

Researchers have developed a non-toxic bacterial therapy, BacID, to deliver cancer-fighting drugs directly into tumors, showing promise for treating high-mortality cancers like liver, ovarian, and ...

A team has identified a strain of bacteria that can break down and transform at least three types of PFAS, and, perhaps even more crucially, some of the toxic byproducts of the bond-breaking process.

A University of Massachusetts Amherst-Ernest Pharmaceuticals team of scientists has made “exciting,” patient-friendly advances in developing a non-toxic bacterial therapy, BacID, to deliver ...