The spectre of superbugs
Sabrina Tavernise & Denise Grady June 07, 2016, The New York Times
Military researchers in the US have identified the first patient in the United States to be infected with bacteria that are resistant to an antibiotic that was the last resort against drug-resistant germs. The patient is well now, but the case raises the spectre of superbugs that could cause untreatable infections, because the bacteria can easily transmit their resistance to other germs that are already resistant to additional antibiotics. The resistance can spread because it arises from loose genetic material that bacteria typically share with one another.
“Think of a puzzle,” said Dr Beth Bell, of the Centers for Disease Control and Prevention, USA. “You need lots of different pieces to get a result that is resistant to everything. This is the last piece of that puzzle, unfortunately, in the United States. We have that genetic element that would allow for bacteria that are resistant to every antibiotic.”
The bacteria are resistant to a drug called colistin, an old antibiotic that in the United States is held in reserve to treat especially dangerous infections that are resistant to a class of drugs called carbapenems. If carbapenem-resistant bacteria, called CRE, also pick up resistance to colistin, they will be unstoppable. “This is huge,” said Dr Lance Price, a researcher at George Washington University. “We are one step away from CRE strains that cannot be treated with antibiotics. We now have all the pieces in place for it to be untreatable.”
The gene for resistance to colistin was first found in China, where the drug is used in pig and poultry farming. Researchers reported its discovery there in November. It has also been found in the intestine of one pig in the United States. CRE is still relatively rare, causing just 600 deaths a year, but by 2013, researchers had identified it in healthcare facilities in 44 states. Dr Thomas R Frieden, director of the Centers for Disease Control and Prevention. often calls it the “nightmare superbug,” because it is resistant to all but one antibiotic — colistin.
“We risk being in a post-antiobiotic world,” Dr Thomas said. “That wouldn’t just be urinary tract infections or pneumonia — that could be for the 6,00,000 patients a year who need cancer treatment.” He added, “The medicine cabinet is empty for some patients.”
The colistin resistance in the United States came to light when a 49-year-old woman, who Dr Beth said was “connected ...to the military,” was treated for a urinary infection at a military clinic in Pennsylvania. Because her urine culture had unusual results, the sample was sent to the Walter Reed National Military Medical Center, which identified the drug resistance. The bacteria, though resistant to colistin and some other antibiotics, were not resistant to carbapenems. Doctors there published a report on the case in a medical journal.
Sample analysis
Patrick McGann, a scientist at the Walter Reed Army Institute of Research and lead author of the paper, said researchers had only started analysing samples a few weeks ago. They tested samples from 6 patients, and one of them was the woman’s. Dr Beth said researchers did not know how the patient contracted the resistant bacteria. The microbes have been found in people in Asia and Europe, but the patient had not traveled during the past 5 months. It is possible that she contracted the bacteria from food, or from contact with someone else who was infected, Dr Beth said. Public health workers will interview the woman and will probably test her family members and other close contacts for the bacteria, she said.
Infectious disease doctors have long warned that overuse of antibiotics in people and in animals put human health at risk by reducing the power of the drugs, some of modern medicine’s most prized jewels. About 2 million Americans fall ill from antibiotic-resistant bacteria every year and at least 23,000 die from those infections.
The CRE germs usually strike people receiving medical care in hospitals or nursing homes, including patients on breathing machines or dependent on catheters. Healthy people are rarely, if ever, affected.
But the bugs attack broadly, and the infections they cause are not limited to people with severely compromised immune systems. CRE was believed to be the cause of infections from improperly cleaned medical scopes that led to the death of 2 people at Ronald Reagan UCLA Medical Center in California last year.
“Think of a puzzle,” said Dr Beth Bell, of the Centers for Disease Control and Prevention, USA. “You need lots of different pieces to get a result that is resistant to everything. This is the last piece of that puzzle, unfortunately, in the United States. We have that genetic element that would allow for bacteria that are resistant to every antibiotic.”
The bacteria are resistant to a drug called colistin, an old antibiotic that in the United States is held in reserve to treat especially dangerous infections that are resistant to a class of drugs called carbapenems. If carbapenem-resistant bacteria, called CRE, also pick up resistance to colistin, they will be unstoppable. “This is huge,” said Dr Lance Price, a researcher at George Washington University. “We are one step away from CRE strains that cannot be treated with antibiotics. We now have all the pieces in place for it to be untreatable.”
The gene for resistance to colistin was first found in China, where the drug is used in pig and poultry farming. Researchers reported its discovery there in November. It has also been found in the intestine of one pig in the United States. CRE is still relatively rare, causing just 600 deaths a year, but by 2013, researchers had identified it in healthcare facilities in 44 states. Dr Thomas R Frieden, director of the Centers for Disease Control and Prevention. often calls it the “nightmare superbug,” because it is resistant to all but one antibiotic — colistin.
“We risk being in a post-antiobiotic world,” Dr Thomas said. “That wouldn’t just be urinary tract infections or pneumonia — that could be for the 6,00,000 patients a year who need cancer treatment.” He added, “The medicine cabinet is empty for some patients.”
The colistin resistance in the United States came to light when a 49-year-old woman, who Dr Beth said was “connected ...to the military,” was treated for a urinary infection at a military clinic in Pennsylvania. Because her urine culture had unusual results, the sample was sent to the Walter Reed National Military Medical Center, which identified the drug resistance. The bacteria, though resistant to colistin and some other antibiotics, were not resistant to carbapenems. Doctors there published a report on the case in a medical journal.
Sample analysis
Patrick McGann, a scientist at the Walter Reed Army Institute of Research and lead author of the paper, said researchers had only started analysing samples a few weeks ago. They tested samples from 6 patients, and one of them was the woman’s. Dr Beth said researchers did not know how the patient contracted the resistant bacteria. The microbes have been found in people in Asia and Europe, but the patient had not traveled during the past 5 months. It is possible that she contracted the bacteria from food, or from contact with someone else who was infected, Dr Beth said. Public health workers will interview the woman and will probably test her family members and other close contacts for the bacteria, she said.
Infectious disease doctors have long warned that overuse of antibiotics in people and in animals put human health at risk by reducing the power of the drugs, some of modern medicine’s most prized jewels. About 2 million Americans fall ill from antibiotic-resistant bacteria every year and at least 23,000 die from those infections.
The CRE germs usually strike people receiving medical care in hospitals or nursing homes, including patients on breathing machines or dependent on catheters. Healthy people are rarely, if ever, affected.
But the bugs attack broadly, and the infections they cause are not limited to people with severely compromised immune systems. CRE was believed to be the cause of infections from improperly cleaned medical scopes that led to the death of 2 people at Ronald Reagan UCLA Medical Center in California last year.
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