FDA Fails to Protect Against Antibiotic Resistance, Guarantees More Needless Death and Suffering

. (Photo credit: Wikipedia)

 

By Dr. Mercola

Antibiotic-resistant bacteria infect two million Americans every year, causing at least 23,000 deaths. Even more die from complications related to the infections, and the numbers are steadily growing.

It's now clear that we are facing the perfect storm to take us back to the pre-antibiotic age, when some of the most important advances in modern medicine – intensive care, organ transplants, care for premature babies, surgeries and even treatment for many common bacterial infections – will no longer be possible.

Experts have been warning about the implications of antibiotic resistance for years, but it's time to face the facts. Many strains of bacteria are becoming resistant to even our strongest antibiotics and are causing deadly infections.

The bacteria are capable of evolving much faster than we are. Secondly, drug companies have all but abandoned the development of new antibiotics because of their poor profit margins.

Antibiotic Resistance: How Did This Happen?

Antibiotic overuse and inappropriate use – such as taking antibiotics to treat viral infections -- bears a heavy responsibility for creating the antibiotic-resistant superbug crisis we are facing today.

According to Dr. Arjun Srinivasan, associate director of the US Centers for Disease Control and Prevention (CDC), as much as half of all antibiotics used in clinics and hospitals "are either unneeded or patients are getting the wrong drugs to treat their infections."1

There's more to the story than this, however, as antibiotic overuse occurs not just in medicine, but also in food production. In fact, agricultural usage accounts for about80 percent of all antibiotic use in the US,2 so it's a MAJOR source of human antibiotic consumption.

Nearly 25 million pounds of antibiotics are administered to livestock in the US every year for purposes other than treating disease, such as making the animals grow bigger faster.

In other parts of the world, such as the EU, adding antibiotics to animal feed to accelerate growth has been banned for years. The antibiotic residues in meat and dairy, as well as the resistant bacteria, are passed on to you in the foods you eat.

Eighty different antibiotics are allowed in cows' milk. According to the CDC, 22 percent of antibiotic-resistant illness in humans is in fact linked to food.3 In the words of Dr. Srinivasan:

"The more you use an antibiotic, the more you expose a bacteria to an antibiotic, the greater the likelihood that resistance to that antibiotic is going to develop. So the more antibiotics we put into people, we put into the environment, we put into livestock, the more opportunities we create for these bacteria to become resistant."

This is a much bigger issue than antibiotics simply being left behind in your meat. For instance, bacteria often share genes that make them resistant. In other words, the drug-resistant bacteria that contaminates your meat may pass on their resistant genes to other bacteria in your body, making you more likely to become sick.  

Drug-resistant bacteria also accumulate in manure that is spread on fields and enters waterways, allowing the drug-resistant bacteria to spread far and wide and ultimately back up the food chain to us. You can see how easily antibiotic resistance spreads, via the food you eat and community contact, in the CDC's infographic below.

Source: CDC.gov, Antibiotic Resistance Threats in the United States, 2013

One-Third of the Most Dangerous Resistant Pathogens Are Found in Your Food

According to the CDC's report, there are 12 resistant pathogens that pose a "serious" threat to public health. One-third of them are found in food. The four drug-resistant pathogens in question are:

• Campylobacter, which causes an estimated 310,000 infections and 28 deaths per year
• Salmonella, responsible for another 100,000 infections and 38 deaths annually
• E. coli
• Shigella

Previous research suggested you have a 50/50 chance of buying meat tainted with drug-resistant bacteria when you buy meat from your local grocery store.4 But it may be even worse. Using data collected by the federal agency called NARMS (National Antimicrobial Resistance Monitoring System), the Environmental Working Group (EWG) found antibiotic-resistant bacteria in 81 percent of ground turkey, 69 percent of pork chops, 55 percent of ground beef, and 39 percent of raw chicken parts purchased in stores in 2011. EWG nutritionist and the report's lead researcher, Dawn Undurraga, issued the following warning to the public:5

"Consumers should be very concerned that antibiotic-resistant bacteria are now common in the meat aisles of most American supermarkets... These organisms can cause foodborne illnesses and other infections. Worse, they spread antibiotic-resistance, which threatens to bring on a post-antibiotic era where important medicines critical to treating people could become ineffective."

What Happens When a Country Takes Its Livestock Off Antibiotics?

In the US, concentrated animal feeding operations (CAFOs) are hotbeds for breeding antibiotic-resistant bacteria because of the continuous feeding of low doses of antibiotics to the animals, who become living bioreactors for pathogens to survive, adapt, and eventually, thrive. The European Centre for Disease Prevention and Control (ECDC) ruled that antibiotic resistance is a major threat to public health, worldwide, and the primary cause for this man-made epidemic is the widespread misuse of antibiotics.6

Measures to curb the rampant overuse of agricultural antibiotics could have a major impact in the US, as evidenced by actions taken in other countries. For example, Denmark stopped the widespread use of antibiotics in their pork industry 14 years ago. The European Union has also banned the routine use of antibiotics in animal feed over concerns of antibiotic-resistant bacteria.

After Denmark implemented the antibiotic ban, it was later confirmed the country had drastically reduced antibiotic-resistant bacteria in their animals and food. Furthermore, the Danish 'experiment' proved that removing antibiotics doesn't have to hurt the industry's bottom line. In the first 12 years of the ban, the Danish pork industry grew by 43 percent -- making it one of the top exporters of pork in the world. As reported by Consumer Reports:7

"What happens when a country takes its livestock off antibiotics? In 2000 Denmark's pork industry ceased using antibiotics to promote the growth of its animals. Instead of eviscerating the nation's pork industry, those moves contributed to a 50 percent rise in pork production, according to a 2012 article in the journal Nature.8

Frank Aarestrup, D.V.M., Ph.D., head of the EU Reference Laboratory for Antimicrobial Resistance and author of the article, attributes Denmark's success to three factors: laws banning the improper use of antibiotics, a robust system of surveillance and enforcement, and rules that prevent veterinarians from profiting from selling antibiotics to farmers.'Farmers and their livestock can thrive without the heavy use of antibiotics,' Aarestrup wrote. 'With a little effort, I believe that other countries can and must help their farmers to do the same.'"

What's Standing in the Way of Curbing Antibiotic Use in the US?

In a word, industry. For instance, the American Pork Industry doesn't want to curb antibiotic use, as this would mean raising the cost of producing pork by an estimated $5 for every 100 pounds of pork brought to market. The pharmaceutical industry is obviously against it as well. Even though they're not keen on producing new antibiotics to bring to the market, they want to protect those that are already here – especially those incredibly lucrative varieties that are used perpetually in animal feed. Even Dr. Aarestrup, who helped Denmark cut the use of antibiotics in livestock by 60 percent, wrote about the intense industry pressures he faced:9

"Reducing Denmark's reliance on antibiotics was far from easy. My lab was visited by pharmaceutical executives who did not like what we were finding, and I would be cornered at meetings by people who disagreed with our conclusions. I have even been publicly accused of being paid to produce biased results. Despite such challenges, it has been satisfying to see that Danish farmers and their livestock can thrive without the heavy use of antibiotics. …The practice continues unabated in the United States, despite a statement from the Food and Drug Administration [FDA]… suggesting that farmers should stop voluntarily."

FDA Again Fails to Take Appropriate Action on Agricultural Antibiotics

The FDA issued its long-awaited guidance on agricultural antibiotics on December 11, 2013.10 Unfortunately, it's unlikely to have a major impact in terms of protecting your health. The agency is simply asking drug companies to voluntarily restrict the use of antibiotics that are important in human medicine by excluding growth promotion in animals as a listed use on the drug label.11This would prevent farmers from legally using antibiotics such as tetracyclines, penicillins, and azithromycin for growth promotion purposes. But it certainly does not go far enough to protect public health. The guidance contains far too many loopholes for any meaningful protection.

For example, farmers would still be allowed to use antibiotics for therapeutic purposes, which would allow them to continue feeding their animals antibiotics for growth promotion without actually admitting that's the reason for doing so. As reported byScientific American:12

"[T]he success of the FDA's new program depends on how many companies volunteer to change their labels over the next 90 days in alignment with the FDA cutoff period. (Companies that do change their labels will have three years to phase in the changes.) And then there are myriad questions about how this would be enforced on the farm."

In short, while giving the superficial appearance of taking warranted action to protect public health, the reality is that they're simply shills for the industry. Michael Taylor,13 FDA Deputy Commissioner for Foods and Veterinary Medicine, and former VP for public policy at Monsanto, is again responsible for caving in to industry at the expense of human lives.

Why Did FDA Ignore Risk Factors from the Very Beginning?

According to a recent report14 from the Natural Resources Defense Council (NRDC), the FDA has known that using antibiotics in factory farms is harmful to human health for over a dozen years, yet it took no action to curb its use. And now, all they're doing is asking drug companies, who make massive amounts of money from these products, to voluntary restrict their use.

The report also found that 26 of the 30 drugs reviewed by the FDA did not meet safety guidelines issued in 1973, and NONE of the 30 drugs would meet today's safety guidelines... As reported by Rodale Magazine,15 the FDA is supposed to look at three factors when determining the safety of an antibiotic-based feed additive. Based on the three factors listed below, the NRDC's report16 concluded that virtually ALL feed additives containing penicillin and tetracycline antibiotics—both of which are used to treat human disease—pose a "high risk" to human health, and should not be permitted:

1. The chances that antibiotic-resistant bacteria are being introduced into the food supply
2. The likelihood that people would get exposed to those bacteria
3. The consequences of what happens when people are exposed to those bacteria—would they still be able to get treated with human antibiotics?

Looking on the Brighter Side

The impending superbug crisis has a three-prong solution:

1. Better infection prevention, with a focus on strengthening your immune system naturally
2. More responsible use of antibiotics for people and animals, with a return to biodynamic farming and a complete overhaul of our food system
3. Innovative new approaches to the treatment of infections from all branches of science, natural as well as allopathic

There are some promising new avenues of study that may result in fresh ways to fight superbugs. For example, Dutch scientists have discovered a way to deactivate antibiotics with a blast of ultraviolet light before bacteria have a chance to adapt, and before the antibiotics can damage your good bacteria.17

And British scientists have discovered how bacteria talk to each other through "quorum signaling" and are investigating ways of disrupting this process in order to render them incapable of causing an infection. They believe this may lead to a new line of anti-infectives that do not kill bacteria, but instead block their ability to cause disease.18 But the basic strategy that you have at your disposal right now is prevention, prevention, prevention—it's much easier to prevent an infection than to halt one already in progress.

Natural compounds with antimicrobial activity such as garlic, cinnamon, oregano extract, colloidal silver, Manuka honey, probiotics and fermented foods, echinacea, sunlight and vitamin D are all excellent options to try before resorting to drugs. Best of all, research has shown that bacteria do not tend to develop resistance to these types of treatments. The basic key to keeping your immune system healthy is making good lifestyle choices such as proper diet, stress management and exercise.

You Can Take Action to Help Save Antibiotics from Extinction

Avoiding antibiotic-resistance is but one of several good reasons to avoid meats and animal products from animals raised in concentrated animal feeding operations (CAFOs). This is in part why grass-fed pastured meat is the only type of meat I recommend. If you're regularly eating meat bought at your local grocery store, know that you're in all likelihood getting exposed to antibiotic-resistant bacteria and a low dose of antibiotics with every meal... and this low-dose exposure is what's allowing bacteria to adapt and develop such strong resistance.

The FDA's stance toward antibiotics in livestock feed is unconscionable in light of the harm it wreaks, and its weakness makes being proactive on a personal level all the more important. Quite simply, the FDA has been, and still is, supporting the profitability of large-scale factory farming at the expense of public health.

You can help yourself and your community by using antibiotics only when absolutely necessary and by purchasing organic, antibiotic-free meats and other foods from local farmers – not CAFOs. Even though the problem of antibiotic resistance needs to be stemmed through public policy on a nationwide level, the more people who get involved on a personal level to stop unnecessary antibiotic use the better. You can help on a larger scale, too, by telling the FDA we need a mandatory ban on sub-therapeutic doses of antibiotics for livestock—not weak, voluntary guidance.

FDA Deputy Commissioner and ex-Monsanto attorney Michael Taylor will leave quite a legacy behind. He's not only served Monsanto and the other pesticide producers quite well, he seems to carry the same sentiment over to the antiobiotic crisis. The FDA claims that a voluntary guideline "is the most efficient and effective way to change the use of these products in animal agriculture." It would appear that Taylor's concern for human health takes a very distant back seat to industry profits...

To make  your voice heard, please sign the Organic Consumer's Association's petition, calling for a mandatory ban on sub-therapeutic doses of antibiotics for livestock.

Related articles

• Long Overdue FDA Action on Agricultural Antibiotics Still Unlikely to Protect Your Health...
• Age of Antibiotics is Coming to an End
• Disturbing Truth about Factory Farms and Superbugs
• Do You Really Need Poo-in-a-Pill?
• United States to Ban Raw Meat Sales, Following Joint Agency Decision
• FDA Pertussis Vaccine Study Shatters Illusion of Vaccine-Induced Immunity

Age of Antibiotics is Coming to an End

Methicillin-resistant Staphylococcus aureus 10048 (Photo credit: Wikipedia)

By Dr. Mercola

Believing an antibiotic will cure your illness is taken for granted by most people nowadays, but that is rapidly changing. According to the experts, the age of antibiotic drugs is coming to an end. And the implications are dire.

There are two primary reasons for this drug demise.

1. First, many strains of bacteria are becoming resistant to even our strongest antibiotics and are causing deadly infections. The bacteria are evolving faster than we are.
2. Secondly, drug companies have all but abandoned the development of new antibiotics because of their poor profit margins.

The fact that the drug industry is showing no interest is itself an ominous sign! Big Pharma is much more interested in selling you drugs from which they can make a handsome profit, such as those marketed for cancer, heart disease, arthritis, diabetes, depression, Alzheimer’s and erectile dysfunction.

Experts have been warning about the implications of antibiotic resistance for years, but never before have their warnings been so emphatic. Dr. Arjun Srinivasan, associate director of the US Centers for Disease Control and Prevention (CDC), said to PBS Frontline:1

“For a long time, there have been newspaper stories and magazine articles that asked 'The end of antibiotics?’ Well, now I would say you can change the title to 'The end of antibiotics, period.'"

Nature has found a way around every antibiotic we’ve come up with, and we’re quickly running out of options. We now face the perfect storm to take us back to the pre-antibiotic age, and there is no comprehensive plan going forward. If our few remaining effective antibiotics fail, we can expect significant casualties.

Thankfully, there is a lot you can do to fend off infection naturally—and prevention is key, NOW more than ever!

Superbugs 23,000… Humans Zero

According to a landmark “Antibiotic Resistance Threat Report” published by the CDC2 earlier this year, 2 million American adults and children become infected with antibiotic-resistant bacteria each year, and at least 23,000 of them die as a direct result of those infections. Even more die from complications.

According to the Infectious Disease Society of America (IDSA), just one organism—methicillin resistant Staphylococcus aureus, better known as MRSA—kills more Americans each year than the combined total of emphysema, HIV/AIDS, Parkinson’s disease, and homicide.3

This death toll is really just an estimate, and the real number is likely much higher. The true extent of superbug infections remains unknown because no one is tracking them—at least not in the US.

Hospitals here are not required to report outbreaks of antibiotic-resistant bacteria, unlike in the EU where they are at least making efforts to track them. The US is in desperate need of a surveillance program for reporting and tracking this growing threat.4

What we’re seeing is the evolution of bacteria. Basically, microorganisms have learned to teach each other how to outsmart the best pharmaceutical drugs we have to offer, and they are definitely winning the battle.

The 18 Most-Dangerous Pathogens of 2013

The majority of the highly dangerous bacteria are in the Gram-negative category, because that variety has body armor that makes it extremely tough. Some forms are now exhibiting “panresistance”—meaning, resistance to absolutely every antibiotic in existence. In the CDC’s report “Antibiotic Resistance Threats in the United States, 2013,” the following 18 superbugs are identified as “urgent, serious and concerning threats” to humankind:5

Carbapenem-resistant Enterobacteriaceae (CRE): A family of Gram-negative bacteria that are prominent in your gut growing increasingly resistant to nearly all types of antibiotics

Drug-resistant Neisseria gonorrhoeae: The sexually transmitted disease gonorrhea is becoming increasingly resistant to the last type of antibiotics left to treat it, having already become resistant to less potent antibiotics. Strains of the disease that are resistant to the class of antibiotic drugs called cephalosporins have appeared in several countries.

Multidrug-resistant Acinetobacter: Appeared in the US after Iraq and Afghanistan war vets returned home. Tough enough to survive even on dry surfaces like dust particles, making it easy to pass from host to host, especially in hospital environments

Drug-resistant Campylobacter: Campylobacter is the fourth leading cause of foodborne illness in the US. Campylobacter bacteria are unique in that they secrete an exotoxin that is similar to cholera toxin.

Fluconazole-resistant Candida (a fungus)

Extended spectrum beta-lactamase producing Enterobacteriaceae (ESBLs): ESBLs are enzymes produced by certain types of bacteria, which renders the bacteria resistant to the antibiotics used to treat them. ESBL-producing E. Coli, for example, are resistant to penicillins and cephalosporins, and are becoming more frequent in urinary tract infections

Vancomycin-resistant Enterococcus (VRE): Increasingly common in hospital settings

Multidrug-resistant Pseudomonas aeruginosa: Linked to serious bloodstream infections and surgical wounds, can lead to pneumonia and other complications; some are resistant to nearly every family of antibiotic

Drug-resistant Non-typhoidal Salmonella and Salmonella Typhi

Drug-resistant Shigella: An infectious disease caused by Shigella bacteria

Clostridium Difficile (C. Diff): Can live in the gut without causing symptoms but attacks when your immune system is weakened; C. Diff is on the rise—infections increased by 400 percent between 2000 and 2007—and is becoming increasingly antibiotic-resistant

Methicillin-resistant and Vancomycin-resistant Staphylococcus Aureus (MRSA and VRSA): Gram-positive bacteria infecting about 80,000 people each year, can lead to sepsis and death. Increasing in communities, although decreasing in hospitals over the past decade; recent evidence points to factory-scale hog CAFOs as a primary source; MRSA is also a significant risk for your pets

Drug-resistant Streptococcus pneumoniae: A leading cause of pneumonia, bacteremia, sinusitis, and acute otitis media

Drug-resistant tuberculosis: Extensively resistant TB (XDR TB) has a 40 percent mortality rate and is on the rise worldwide; tuberculosis is one of the most infectious diseases because it’s so easily spread through the air when infected people cough or sneeze

Erythromycin-resistant Group A and Clindamycin-resistant Group B Streptococcus

Armed and Extremely Dangerous: NDM-1 and KPC

NDM-1, or “New Delhi metallo-beta-lactamase 1,’” is a bacterial gene that confers “super-resistance” to conventional antibiotics. This gene is carried by a rising number of bacteria and makes them virtually unstoppable. What makes NDM-1 such a force to be reckoned with is that it can easily be passed from one bacterium to another, like a kid sharing his lunch—turning your ordinary bacteria into superbacteria. NDM-1 has now reached 48 countries. In the US, the CDC identified 16 cases in 2012, and that number has already doubled for 2013. Another type of highly drug-resistant bacteria is KPC, or Klebsiella pneumoniaeCarbapenemase (KPC)-Producing bacteria. Both KPC and NDM-1 infections are highly lethal, causing death in about half of those diagnosed.

How the Modern Food System has Created an Unbeatable “Army” of  Superbugs

Antibiotic overuse and inappropriate use bears a heavy responsibility for creating the superbug crisis we are facing today. According to Dr. Srinivasan, as much as half of all antibiotics used in clinics and hospitals “are either unneeded or patients are getting the wrong drugs to treat their infections.”1

The pervasive misuse of antibiotics by the agriculture industry is particularly reprehensible. Agriculture accounts for about 80 percent of all antibiotics used in the US. 24.6 million pounds of antibiotics are administered to livestock in the US every year for purposes other than treating disease, such as making the animals grow bigger faster. In other parts of the world, such as the EU, adding antibiotics to animal feed to accelerate growth has been banned for years. The antibiotic residues in meat and dairy, as well as the resistant bacteria, are passed on to you in the foods you eat. Eighty different antibiotics are allowed in cows’ milk. According to the CDC, 22 percent of antibiotic-resistant illness in humans is in fact linked to food. In the words of Dr. Srinivasan:

“The more you use an antibiotic, the more you expose a bacteria to an antibiotic, the greater the likelihood that resistance to that antibiotic is going to develop. So the more antibiotics we put into people, we put into the environment, we put into livestock, the more opportunities we create for these bacteria to become resistant.”

Unfortunately, the US Food and Drug Administration (FDA) has again reneged on its plan to withdraw approval of penicillin and tetracycline antibiotics for use in food-producing animal feed. By bowing to industry pressure, the FDA is allowing an unsafe practice to continue at the expense of your health.

Another contributing factor is the genetic engineering of our foods. As Jeffrey Smith explained at the recent GMO Summit, it’s possible that GMOs from food can transfer genetic material to your normal gut bacteria, conferring antibiotic resistance and turning them into superbugs. GMOs have been scientifically proven to activate and deactivate hundreds if not thousands of genes. We have no idea about the gravity of this risk, as no one has yet studied it.

Is Tainted Meat the “New Normal”?

Previous research suggests you have a 50/50 chance of buying meat tainted with drug-resistant bacteria when you buy meat from your local grocery store. But it may be even worse. Using data collected by the federal agency called NARMS (National Antimicrobial Resistance Monitoring System), the Environmental Working Group (EWG) found antibiotic-resistant bacteria in 81 percent of ground turkey, 69 percent of pork chops, 55 percent of ground beef, and 39 percent of raw chicken parts purchased in stores in 2011.

EWG nutritionist and the report's lead researcher, Dawn Undurraga, issued the following warning to the public:6

“Consumers should be very concerned that antibiotic-resistant bacteria are now common in the meat aisles of most American supermarkets... These organisms can cause foodborne illnesses and other infections. Worse, they spread antibiotic-resistance, which threatens to bring on a post-antibiotic era where important medicines critical to treating people could become ineffective.”

Recalls, Recalls, and More Recalls

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You would expect this widespread contamination of the food supply to make a lot of people sick—and that is exactly what we’re seeing. With so much contaminated food, it isn’t surprising that food recalls are an increasingly frequent segment on the nightly news. An ongoing outbreak of “Salmonella Heidelberg” has already sickened at least 472 people this year, who consumed tainted Foster Farms chicken from three central California processing plants. People have fallen ill across 20 states, from Washington State to Puerto Rico.7 Forty-two percent have required hospitalization, which is an uncommonly high rate due to the virulence of this strain.8 Why is it so virulent?

The Salmonella bacteria cultured from the ill were found to be resistant to combinations of the following antibiotics: ampicillin, chloramphenicol, gentamicin, kanamycin, streptomycin, sulfisoxazole, and tetracycline. The CDC warned, "Antimicrobial resistance may increase the risk of hospitalization or possible treatment failure in infected individuals."9

Big Pharma is Washing its Hands of the Crisis it Helped to Create

The drug industry has all but abandoned antibiotics research because these “wonder drugs” of the last half-century are becoming ineffective—and Big Pharma knows it. The “antibiotic bubble” has burst.10 According to Paul Stoffels, head of Johnson & Johnson:10

"The market for a new antibiotic is very small, the rewards are not there and so the capital is not flowing. In cancer, people pay $30,000, $50,000 or $80,000 (per patient) for a drug, but for an antibiotic it is likely to be only a few hundred dollars."

Developing a new drug can take a decade of clinical trials and reportedly cost between $800 million to one billion dollars.11 Not only are antibiotics relatively inexpensive for you, but you are only required to take one for a week or two, which limits profits for the manufacturer. Why put money into a cheap drug that is only taken for a couple of weeks when they can focus their efforts on expensive drugs that people will believe they need to take for the rest of their lives? I guess, for the drug industry, antibiotics now fall into the “Why Bother” category.

Rather than being guided by improved patient outcomes, the industry is wholly guided by its endless quest for profits. According to the ISDA, the number of new systemic antibiotics approved by the FDA has plunged from 16 between 1983 and 1987 to JUST TWO in the past five years.9 Only four pharmaceutical companies are still working on developing new antibiotics. In terms of fighting gram-negative superbugs, there were only seven antibiotics in an advanced stage of development as of early 2013—and one belongs to a drug company that recently filed for bankruptcy.10

Visions of a Post Antibiotic-Apocalypse

Medicine has very few options when the antibiotic pipeline completely dries up.  Hospitals are already resorting to some very unsavory treatments, resurrecting old drugs that were abandoned for good reasons.

For example, they have resurrected a toxic bug-killing chemical called Colistin12 (first introduced in 1952 and known to cause kidney damage) as a last-ditch effort to treat multidrug-resistant Gram-negative infections. Then there is the strategy of cutting off (or cutting out) the infected body part, which sometimes has to be performed several times, a few inches at a time as the infection migrates further into the patient’s body.

The bottom line is, if ALL antibiotics fail, it will in effect mark an end to modern medicine as we know it—and we are quickly heading in that direction.

Common illnesses such as bronchitis or strep throat may turn into deadly sepsis. Surgeries previously considered low risk or “routine,” such as hip replacements, might suddenly be too risky without antibiotics. And complex surgeries like organ transplants would essentially not be survivable.

So What’s the Solution?

The impending superbug crisis has a three-prong solution:

1. Better infection prevention, with a focus on strengthening your immune system naturally
2. More responsible use of antibiotics for people and animals, with a return to biodynamic farming and a complete overhaul of our food system
3. Innovative new approaches to the treatment of infections from all branches of science, natural as well as allopathic

There are some promising new avenues of study that may result in fresh ways to fight superbugs. For example, Dutch scientists have discovered a way to deactivate antibiotics with a blast of ultraviolet light before bacteria have a chance to adapt, and before the antibiotics can damage your good bacteria.13

And British scientists have discovered how bacteria talk to each other through “quorum signaling” and are investigating ways of disrupting this process in order to render them incapable of causing an infection. They believe this may lead to a new line of anti-infectives that do not kill bacteria, but instead block their ability to cause disease.14 But the basic strategy that you have at your disposal right now is prevention, prevention, prevention—it’s much easier to prevent an infection than to halt one already in progress.

Avoiding antibiotic-resistance is but one of several good reasons to avoid meats and animal products from animals raised in confined animal feeding operations (CAFO’s). This is in part why grass-fed pastured meat is the ONLY type of meat I recommend. If you’re regularly eating meat bought at your local grocery store, know that you’re in all likelihood getting a low dose of antibiotics with every meal... and this low-dose exposure is what’s allowing bacteria to adapt and develop such strong resistance.

What You Can Do Now

Fortunately, Mother Nature gives us a cornucopia of botanicals that put antibiotic drugs to shame in the battle against pathogenic microbes. Natural compounds with antimicrobial activity such as garlic, cinnamon, oregano extract, colloidal silver, Manuka honey, probiotics and fermented foods, echinacea, sunlight and vitamin D are all excellent options to try before resorting to drugs. Best of all, research has shown that bacteria do not tend to develop resistance to these types of treatments. Perhaps nature is smarter than most would like to think.

The basic key to keeping your immune system healthy is making good lifestyle choices such as proper diet, stress management and exercise.

Remember, opt for clean, whole foods (animal and plant based), organically raised without antibiotics and preferably locally sourced. Antibiotics simply aren’t  needed when healthy animals are raised properly. One chicken farmer has demonstrated that even large-scale animal farms can manage without routine administration of antibiotic drugs by using an herbal remedy of oregano oil and cinnamon instead!

By taking control of your own health and building a strong immune system, you’ll minimize your risk of acquiring an antibiotic-resistant infection.

 http://articles.mercola.com/sites/articles/archive/2013/11/09/antibiotic-drugs.aspx  Link back to Mercola.com website for more information.

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