CHICAGO — By all measures, methicillin-resistant Staphylococcus aureus cases and related deaths are steadily increasing around the globe, according to Dr. Theodore Rosen. But MRSA isn't the only bug that's ramping up its antibiotic smarts these days.
"We are being bombarded every year by increasingly resistant bacteria," Dr. Rosen said in an interview. "Some of these are relatively trivial, some are really bad – like MRSA – and some are wreaking havoc. I'm talking about Klebsiella causing horrendous, frequently fatal drug-resistant pneumonia; multidrug resistant forms of the plague (the same plague that wiped out a third of Europe); and drug-resistant tuberculosis, a disease we thought we'd cornered years ago."
"The number of new antibiotics approved over the past few years has been steadily decreasing, and in the last 2 or 3 years, only one new antibiotic has been approved," despite promising data, said Dr. Rosen, professor of dermatology at Baylor College of Medicine, Houston.
Stung by recent problems with already approved drugs, the Food and Drug Administration has become increasingly stringent about the approval of new medications, including antibiotics, he noted.
Pharmaceutical companies also play a role. "You stand to make a lot more money developing a drug for a chronic disease than one only given for 14 days, like an antibiotic," said Dr. Rosen.
He discussed several antibiotics that showed promise but never found their way to the federal finish line. Two – oritavancin and dalbavancin – are molecularly related to telavancin, which was approved in 2009. "Oritavancin was rejected [by the FDA] because it did not show noninferiority to vancomycin," he said.
Dalbavancin did well in phase III trials for uncomplicated skin and soft tissue infections. "You can give it once a week, and it's incredibly potent, doing better by far in vitro than anything else available," Dr. Rosen said. The drug received an FDA approvable letter, but never went further. According to the FDA "the studies were not well done and questioned some of the methodology, so Pfizer sold the rights to the drug, fearing it would not be the blockbuster they had hoped," he said. The drug is now in developmental limbo.
Iclaprim, a trimethoprim-related drug, is also languishing. "It's a good drug, with a 99.9% kill rate in vitro. It works in trimethoprim resistance and can be given orally or intravenously. It looked great in its phase II and III trials," said Dr. Rosen. However, the FDA rejected the drug. Iclaprim met its initial requirement of no more than a 12.5% efficacy difference with its comparator, linezolid. However, the FDA upped the ante to no more than a 10% difference, at which time Roche sold the drug to another company, which merged with another and sold iclaprim again. "No one knows this drug's future," Dr. Rosen said.
Monoclonal antibodies that bind to the staphylococcal clumping factor are also in the works. "This is a very clever way of treating staph bacteria, by keeping them from grabbing hold of fibrinogen so they can't get into tissue," Dr. Rosen said. Early studies have shown that patients who received the antibody plus an antibiotic did better than those who only received the antibiotic, and that the combination was able to clear MRSA carriage.
"Unfortunately, the company developing this ran out of money, so this antibody is sitting on the shelf somewhere until the company finds a new financial partner," he added.
FDA's insistence on noninferiority trials for antibiotics hinders approval, Dr. Rosen opined. "It's difficult to figure out how noninferior the new drug has to be. Several have shown noninferiority – there were failures, but the failure rate was relatively low. The FDA has said the rate must be lower, because otherwise, a certain number of patients would have done better on the comparator drug, even though each drug has its own positive and negative attributes. The FDA has had conference after conference with infectious disease experts. We have made little progress in negotiation and have no new antibiotics at a time when resistance is rising, and it's critical that we develop more."
Time may be running out. Before the advent of penicillin in 1928, infection was the leading cause of death worldwide; in 2000, it was still the fourth-leading cause of death. "If our antibiotics stop working, we will rapidly go back to those pre–World War II days when all we had to treat infections were arsenic and sulfa…. It's not inconceivable that we could once again live in a time when infections reign supreme," said Dr. Rosen, who reported having no relevant financial disclosures.