Identifying the kind of bacteria is the main target for the physicians to be able to identify which type of antibiotic is suitable for treating the patient.
A biomedical engineering professor, Niren Murthy at Georgia Tech, lead a group that reached a new challenging in developing a new agent that can target microbes, that will illuminate the bacterial infections. That will help the doctors to save the healthy parts of limbs during the limb amputation.
It’s usually clear when a patient has a bacterial infection and needs to be treated with antibiotics, says Jason Bowling, director of epidemiology at the University of Texas Health Science Center at San Antonio, who was not involved with developing the imaging agent. But sometimes an infection is more difficult to diagnose. For example, it can be difficult to tell when a patient who has pain at the site of a hip or knee replacement has an infection. This sometimes leads doctors to prescribe antibiotics when they aren’t necessary.
An imaging scan capable of detecting bacteria would quickly answer the question, sparing uninfected patients from unnecessary antibiotics or even from surgery to remove the implant. Where there is an infection and the implant is removed, imaging could help ensure that no new hardware is implanted until the infection has been completely cleared.
Murthy’s group stole a trick from a group of viruses that gets its genome inside bacteria by attaching it to a bacterial food source, a carbohydrate called maltohexaose. Bacteria have proteins on their cell walls whose job is to bring maltohexaose inside the cell, and this happens even if that maltohexaose is attached to an imaging agent. Animal cells don’t have these proteins, so they don’t take up the contrast agent.