FDA balances costs, patient safety in the biologics and personalized medicine revolution
Will it get it right or damage the 'miracle' industry?

FDA

A National Center for Toxicological Research scientist conducting a mass spectrometry experiment. The unique scientific research expertise of NCTR is critical in supporting FDA product centers and their regulatory science roles.

Article Highlights

  • Sometimes what you see is not all you get – that’s certainly the case with the emerging era of biologics

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  • Expense and patient safety present two major challenges to biologics.

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  • Biologics are essential to public health.

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Sometimes what you see is not all you get. Just ask Nancy Pelosi, the House minority leader who two years ago uttered the now infamous words, “We have to pass the (Patient Protection and Affordable Health Care Act) so that you can find out what is in it….” Whether or not you support healthcare reform, the implementation of any vast, complex legislation can result in unintended consequences.

That’s certainly the case when it comes to the emerging era of biologics—a new class of treatments made from living organisms. Most therapeutic drugs are made up of simple molecules mixed together. In contrast, “biologic drugs” are made from far more complex human or animal proteins. Rather than treating the disease’s consequences, biologics work by blocking diseases early in their development, in the immune system, and can be individually tailored to the person taking the medicine—a revolutionary turn along the windy road toward our personalized medicine future.

A few biologics, such as vaccines and insulin, have been around for decades. But a slew of research breakthroughs has led to remarkable therapies that combat difficult-to-treat diseases like rheumatoid arthritis, ankylosing spondylitis, psoriatic arthritis and psoriasis. The importance of biologics to public health cannot be overstated. Search “biologics” and “miracle” in Google and you come up with more than two million entries.

So what are the issues? Expense and patient safety.

Let’s address the cost issue first, as that’s the way the debate is often framed by advocacy groups. A year’s worth of the breast cancer-fighting biologic antibody Herceptin, for example, can cost more than $40,000. One year’s supply of Cerezyme, which is used to treat the rare disorder known as Gaucher disease, may run upwards of $150,000. Advocacy groups claim consumers could save almost a $1 billion a year if we had cheaper, generic-type biologics known as biosimilars.

Congress helped create the United States generic drug market in 1984 with the passage of the Hatch-Waxman Act. It established a regulatory structure to bring lower cost drugs to market at the end of the patent exclusivity period. But biologic medicines were barely in existence back then, so they were not included.

As part of its cost reduction focus, Congress embedded into the health care bill the Biologics Price Competition and Innovation Act (BPCIA). It was designed to speed up the introduction of biosimilars.  How we get from here to there is the issue.

The pharmaceutical industry notes that the steep cost of developing an innovator biologic ($1.2 billion) and the lengthy time it takes a manufacturer to jump through the research, clinical testing and approval process (roughly ten years) warrants strong patent and patient protections. The American Association of Retired People (AARP) and other advocacy groups challenge those R&D figures. But there is no question that developing these treatments is costly, with many failures leading to a relative handful of well-rewarded successes. For better or worse, time and expense are the reality of the drug development model in a tightly regulated environment.

The politics of biologics

In the wake of the recent Supreme Court ruling on health  care reform, the way is now cleared for the Food and Drug Administration to develop and implement what is called a “biosimilar pathway.” The debate is not just over the patent exclusivity—it’s set at twelve years—but on patient protection. Because biologics are created using DNA technology, rather than a uniform chemical reaction with a predictable outcome as are traditional drugs, their risks are significant and often unpredictable. How can the government ensure that biosimilars are as safe and as effective as the original innovator drug?

In anticipation of the prickly challenges in regulating biosimilars, the FDA issued guidance documents, and asked for public comments. According to Dr. Janet Woodcock, director of the agency’s Center for Drug Evaluation and Research, the guidelines are “an innovative approach to supporting the development of biosimilars at every step of the process.” But the details are not fully fleshed out, and all sides are firing.

The most heated debate revolves around the question of “scientific equivalency”— how can the FDA best ensure the quality of biosimilars and patient health. As the agency has noted, the pathway detailed in Hatch-Waxman does not work well here. Generic chemical drugs and biologics are not created equal.

The relationship of size to complexity is, well, complex. Small molecule drugs are generally synthesized using chemical reactions. That makes creating generics relatively easy. Most generics, made up of simple molecules, contain the same active pharmaceutical ingredient as the original chemical drug product. Americans annually consume an estimated 130 million tablets of hydrocodone combined with acetaminophen—the country’s most popular generic drug. It is bioequivalent to Vicodin, whose patent on the easy-to-formulate drug expired years ago. For chemical drug products, measuring how similar is similar is relatively easy making it easier to copy.

Biologic medicines, by contrast are typically produced within engineered cells. Rather than taken orally, they are injected in the bloodstream. In sum, the production of generic versions of biologics is less predictable than producing simple generics. For example, somatropin (human growth hormone), which is a small biologic, can contain 10 to 1000 times more atoms than a simple drug. And while some small biologics might more easily be reproducible, not all biologics are created equal. Large biologics—antibodies, such as Herceptin—are a diverse mixture of molecules that can contain 250 to 25,000 more atoms.

Compounding the complexity, even biologics that appear chemically the same have unique structural fingerprints as a result of the way protein structure assumes its functional shape, a process known as “folding.” Because biosimilars are so difficult to develop, they sometimes don’t work as effectively as the innovator biologic drug. Biosimilars can also cause serious side effects if not clinically evaluated and regulated carefully. Because of these very real differences, pharmaceutical companies maintain that the approved pathway should ensure that each newly formulated biosimilar works in the same, safe and effective way as the drug it would then be competing with.

What’s in a name?

The naming of biosimilar drugs is also at issue. Consider, again Herceptin. It’s not clear under the law whether a biosimilar version would be called “biosimilar trastuzumab”, or as a number of industry, patient groups and doctors would prefer, a new name altogether.

Their argument has merit. It is critical to signal to consumers, doctors and the medical establishment that complex biologic substitutes can never be identical to the original innovator drug.  In other words, biological similarity does not automatically mean they are equally as effective or have identical side effects. To underscore these concerns, industry organizations BIO and PhARMA recently issued a rare joint letter to FDA Commissioner Margaret Hamburg strongly supporting the use of unique names for all biosimilars products.

The AARP and other advocacy groups push back, claiming that a  ‘new name’ rule is little more than a brazen maneuver by large biotech firms to impose a de facto “post patent” monopoly—at great cost to consumers and the government. This fierce debate also puts the issue of biotech innovation in play. The United States is emerging as the worldwide incubator of biologics. International Medication Systems (IMF) predicts that spending on biosimilars could top $2.5 billion by 2012.

The demand for biologics is growing. The conversation is now expanding from a focus on the exciting and dramatic scientific developments to the prickly political question of potentially pot-holed regulatory pathways in the US, the European Union, Japan, China and the rest of the world. Which country will strike the right balance between cost savings and patient protection? Will the US remain innovation central?

It’s clear the FDA needs to mandate robust oversight, including clinical testing for biosimilars. It should seriously consider unique product names, labels and codes as a means to track and trace these advanced medicines to ensure that the biosimilar medicine performs on par with the well-tested original biologics. Yes, we need a far smoother pathway to cost-saving biosimilars, but regulators also need to provide research focused drug companies with enough incentives to embark on the risk and expensive journey necessary to develop groundbreaking drugs. It’s important that the FDA review process take a science centered and patient focused approach.

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