Tag Archives: CAR T-Cell Therapy

FDA to ramp up cell and gene therapy activity as tidal wave of new products approaches

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FDA to ramp up cell and gene therapy activity as tidal wave of new products approaches

In a statement, Commissioner Scott Gottlieb said the agency anticipates more than 200 cell and gene therapy INDs per year by 2020, and 10-20 approvals annually by 2025.

The Food and Drug Administration plans to add 50 new staffers to its clinical review group for cell and gene therapies as it anticipates a surge in new products entering the clinic and the market over the next several years.

In a statement Tuesday, FDA Commissioner Scott Gottlieb said that by next year, the agency will receive on an annual basis more than 200 Investigational New Drug applications – used by companies to get regulatory approval to start clinical trials – and approving 10-20 cell and gene products per year by 2025.

“The activity reflects a turning point in the development of these technologies and their application to human health,” Gottlieb’s statement read. “It’s similar to the period marking an acceleration in the development of antibody drugs in the late 1990s, and the mainstreaming of monoclonal antibodies as the backbone of modern treatment regimens.”

That picture stands in stark contrast to the current roster of approved cell and gene therapies. Those consist of two CAR-T cell therapies for blood cancers – Novartis’s Kymriah (tisagenlecleucel) and Gilead Sciences’ Yescarta (axicabtagene ciloleucel) – and one gene therapy, Spark Therapeutics’ Luxturna (voretigene neparvovec-rzyl), for a rare, inherited form of blindness.

For the application review of Kymriah’s initial approval in August 2017, for acute lymphoblastic leukemia in children and young adults, the agency convened the Oncologic Drugs Advisory Committee, a panel of outside experts who offer advice on approvals when the agency requests it. But it did not do so for Yescarta’s approval two months later for diffuse large B-cell lymphoma in adults, nor did it for Kymriah in DLBCL – the relative ease of the latter approvals indicating the agency had quickly become more comfortable approving the then-unprecedented cell therapies.

But Gottlieb noted there are now more than 800 active INDs for cell and gene therapies on file with the FDA. In a panel discussion at last week’s Biotech Showcase in San Francisco, which coincides with the annual J.P. Morgan Healthcare Conference, Iovance Biotherapeutics CEO Maria Fardis noted that competition in CAR-T therapy is heating up at clinical trial centers, making it harder to recruit patients. She was speaking in the context of CAR-Ts for solid tumors, which remain a much less well-established area of the field than blood cancers. Other types of cell therapies are in development as well, including T-cell receptors and tumor-infiltrating lymphocytes, respectively also known as TCRs and TILs.

Of course, the announcement took place against the background of the ongoing government shutdown. As a result, the FDA is currently only able to perform activities covered by user fees paid before the impasse, but is unable to perform many activities for which user fees had not yet been paid.

Several cell and gene therapy products are expected to reach the market in the near term. Celgene anticipates two CAR-T filings: bb2121 in multiple myeloma; and lisocabtagene maraleucel, which it acquired when it bought Juno Therapeutics last year. Both therapies were touted as near-term opportunities in Bristol-Myers Squibb’s recent $74 billion acquisition of Celgene. Separately, bluebird also anticipates approval in the US by next year for LentiGlobin for transfusion-dependent beta-thalassemia. BioMarin Pharmaceutical also anticipates filing for approval of valoctocogene roxaparvovec in hemophilia A.

 

Gene therapies save lives, but how to pay for them?

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http://www.sandiegouniontribune.com/business/biotech/sd-me-drug-price-20171005-story.html

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Stem cell and gene therapies for cancer and other diseases used to be considered exotic. But stunning successes are fast moving them into the medical mainstream.

While only a few of these therapies have yet been approved, many more are being tested experimentally. In addition to treating otherwise fatal cancers, they may relieve sickle cell disease, restore failing hearts and even cure HIV infection.

And with mainstream success comes a mainstream worry: How will patients pay for these expensive treatments? Or to look at it another way, how much is it worth to save a life?

Drug company representatives discussed these issues Wednesday at Cell & Gene Meeting on the Mesa, an annual event in La Jolla devoted to stem cell and gene therapy.

At the end of August, drug giant Novartis marked a milestone by receiving U.S. approval for a blood cancer treatment made from the patient’s own genetically modified immune cells. The treatment, Kymriah, has rescued children and young adults who were gravely ill with acute lymphoblastic leukemia and placed them into remission.

Kymriah costs $475,000. But Novartis made an unusual guarantee: If patients don’t respond in a month, the company won’t charge for it.

However, these arrangements, like the therapies themselves, are so new that federal regulators are hesitant, said Pascal Touchon, a senior vice president with Novartis Oncology.

“The system is not organized for that,” Touchon said at a morning panel. “So when you ask for the first time whether we can do that, the answer is no. That’s the starting point.”

Novartis eventually reached agreement with the Centers for Medicare and Medicaid Services, or CMS.

The challenge now is to make general rules for such therapies, instead of making rules case-by-case, said Bob Azelby, chief commercial officer of Juno Therapeutics. Juno is developing a cancer immune therapy similar to Novartis’.

“They’re getting value for the dollars they’re spending,” Azelby said of CMS.

Cell & Gene Meeting in La Jolla began more than a decade ago as a purely scientific conference on stem cells. But it has grown as stem cell technology has been augmented with gene therapy, the delivery of disease-fighting genes.

Genetically modifying stem cells provides a virtually unlimited source of cells with useful properties. These could fight cancer, or perhaps correct a disease caused by a faulty gene.

Many of these therapies, such as Kymriah, are made from a patient’s own cells, collected, modified, grown and re-infused into the body. Such custom-made treatments are extremely expensive. They belong to a class of treatments called CAR T cell therapy.

Bluebird Bio, also represented on the panel, is developing its own version of CAR T cell therapy, in its case for another blood cancer called multiple myeloma.

In addition, Bluebird is developing gene therapies for a rare disease called cerebral adrenoleukodystrophy, and the blood disorders sickle cell disease and beta-thalassemia.

“For Bluebird … it’s ultimately putting together a value story, that allows for a dialogue” about pay-for-performance, said Jeffrey Walsh, chief financial and strategy officer.

Vericel, which grows replacement skin from a burn patient’s own skin cells, also makes such a value pitch, said Nick Colangelo, president and CEO.

“When we treat a catastrophic burn patient, an order of our skin grafts can cost a couple hundred thousand dollars,” Colangelo said. “But it’s a one-time treatment.”

Moreover, treated patients have nearly a 90 percent survival rate, he said.

“That clearly is a product that has a lot of value,” Colangelo said.

Besides helping patients and the companies that make successful therapies, treatments like Kymriah also benefit companies that supply their research tools. One of them is Thermo Fisher Scientific, which had an early collaboration with Carl June, the physician who pioneered the therapy at the University of Pennsylvania.

Thermo Fisher supplied its Dynabeads, microscopic magnetic beads that attach to specified cells using an antibody linker, said Mark Stevenson, the company’s chief operating officer.

“They help extract and amplify the cells prior to the therapy … to actually enrich the cells that you want to pull out, also that you’re able to develop and expand the correct CAR T cells,” Stevenson said. “And for Novartis we scaled up that therapy to make a successful launch.”

“It’s a very exciting time for cell therapy,” Stevenson said. “We’ve been involved in it for 10 years and we’re finally seeing the benefits coming to patients.”

Cancer immunotherapy is moving fast. Here’s what you need to know.

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https://www.washingtonpost.com/news/to-your-health/wp/2016/09/28/cancer-immunotherapy-is-moving-fast-heres-what-you-need-to-know-now/?_hsenc=p2ANqtz-90GFt-2pDEeiq7Ku9hLdsslR1XHDgKpjVctG0o9kL7exd66VU__9Dx29EN9MGPnc53jtuSofaZSJj3dQKQj8BU9lhksQ&_hsmi=35091656&utm_campaign=KHN%3A%20Daily%20Health%20Policy%20Report&utm_content=35091656&utm_medium=email&utm_source=hs_email

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The idea of using the body’s immune system to fight cancer has been around for a century, but only in the past half a dozen years have dramatic breakthroughs begun rocking the medical world.

“That’s when the tsunami came,” says Drew Pardoll, director of the Bloomberg-Kimmel Institute for Cancer Immunology at Johns Hopkins University, and those advances are spawning hundreds of clinical trials nationwide, plus generating intense interest from patients, physicians and investors.

Many cancer researchers compare the progress to medical milestones such as the discovery of penicillin or the development of chemotherapy. Over the next decade, the growth in the field will be “exponential,” predicts Philip Greenberg, head of the immunology program at the Fred Hutchinson Cancer Research Center. “Making something better is enormously different than making something work that doesn’t work.”

At the same time, researchers remember the past anti-cancer efforts that fizzled after initially showing promise. That explains the consensus sentiment at this week’s international immunotherapy conference in New York: Turning science into cures will take years of perseverance against daunting hurdles.

Here’s a primer about new treatments and how they work: