Turning the corner with the FDA and NIH; CIRM creates new collaborations to advance stem cell research

FDAThis blog is part of the Month of CIRM series on the Stem Cellar

A lot can change in a couple of years. Just take our relationship with the US Food and Drug Administration (FDA).

When we were putting together our Strategic Plan in 2015 we did a survey of key players and stakeholders at CIRM – Board members, researchers, patient advocates etc. – and a whopping 70 percent of them listed the FDA as the biggest impediment for the development of stem cell treatments.

As one stakeholder told us at the time:

“Is perfect becoming the enemy of better? One recent treatment touted by the FDA as a regulatory success had such a high clinical development hurdle placed on it that by the time it was finally approved the standard of care had evolved. When it was finally approved, five years later, its market potential had significantly eroded and the product failed commercially.”

Changing the conversation

To overcome these hurdles we set a goal of changing the regulatory landscape, finding a way to make the system faster and more efficient, but without reducing the emphasis on the safety of patients. One of the ways we did this was by launching our “Stem Cell Champions” campaign to engage patients, patient advocates, the public and everyone else who supports stem cell research to press for change at the FDA. We also worked with other organizations to help get the 21st Century Cures Act passed.

21 century cures

Today the regulatory landscape looks quite different than it did just a few years ago. Thanks to the 21st Century Cures Act the FDA has created expedited pathways for stem cell therapies that show promise. One of those is called the Regenerative Medicine Advanced Therapy (RMAT) designation, which gives projects that show they are both safe and effective in early-stage clinical trials the possibility of an accelerated review by the FDA. Of the first projects given RMAT designation, three were CIRM-funded projects (Humacyte, jCyte and Asterias)

Partnering with the NIH

Our work has also paved the way for a closer relationship with the National Institutes of Health (NIH), which is looking at CIRM as a model for advancing the field of regenerative medicine.

In recent years we have created a number of innovations including introducing CIRM 2.0, which dramatically improved our ability to fund the most promising research, making it faster, easier and more predictable for researchers to apply. We also created the Stem Cell Center  to make it easier to move the most promising research out of the lab and into clinical trials, and to give researchers the support they need to help make those trials successful. To address the need for high-quality stem cell clinical trials we created the CIRM Alpha Stem Cell Clinic Network. This is a network of leading medical centers around the state that specialize in delivering stem cell therapies, sharing best practices and creating new ways of making it as easy as possible for patients to get the care they need.

The NIH looked at these innovations and liked them. So much so they invited CIRM to come to Washington DC and talk about them. It was a great opportunity so, of course, we said yes. We expected them to carve out a few hours for us to chat. Instead they blocked out a day and a half and brought in the heads of their different divisions to hear what we had to say.

A model for the future

We hope the meeting is, to paraphrase Humphrey Bogart at the end of Casablanca, “the start of a beautiful friendship.” We are already seeing signs that it’s not just a passing whim. In July the NIH held a workshop that focused on what will it take to make genome editing technologies, like CRISPR, a clinical reality. Francis Collins, NIH Director, invited CIRM to be part of the workshop that included thought leaders from academia, industry and patients advocates. The workshop ended with a recommendation that the NIH should consider building a center of excellence in gene editing and transplantation, based on the CIRM model (my emphasis).  This would bring together a multidisciplinary disease team including, process development, cGMP manufacturing, regulatory and clinical development for Investigational New Drug (IND) filing and conducting clinical trials, all under one roof.

dr_collins

Dr. Francis Collins, Director of the NIH

In preparation, the NIH visited the CIRM-funded Stem Cell Center at the City of Hope to explore ways to develop this collaboration. And the NIH has already begun implementing these suggestions starting with a treatment targeting sickle cell disease.

There are no guarantees in science. But we know that if you spend all your time banging your head against a door all you get is a headache. Today it feels like the FDA has opened the door and that, together with the NIH, they are more open to collaborating with organizations like CIRM. We have removed the headache, and created the possibility that by working together we truly can accelerate stem cell research and deliver the therapies that so many patients desperately need.

 

 

 

 

 

 

CIRM Alpha Clinics Network charts a new course for delivering stem cell treatments

Sometimes it feels like finding a cure is the easy part; getting it past all the hurdles it must overcome to be able to reach patients is just as big a challenge. Fortunately, a lot of rather brilliant minds are hard at work to find the most effective ways of doing just that.

Last week, at the grandly titled Second Annual Symposium of the CIRM Alpha Stem Cell Clinics Network, some of those minds gathered to talk about the issues around bringing stem cell therapies to the people who need them, the patients.

The goal of the Alpha Clinics Network is to accelerate the development and delivery of stem cell treatments to patients. In doing that one of the big issues that has to be addressed is cost; how much do you charge for a treatment that can change someone’s life, even save their life? For example, medications that can cure Hepatitis C cost more than $80,000. So how much would a treatment cost that can cure a disease like Severe Combined Immunodeficiency (SCID)? CIRM-funded researchers have come up with a cure for SCID, but this is a rare disease that affects between 40 – 100 newborns every year, so the huge cost of developing this would fall on a small number of patients.

The same approach that is curing SCID could also lead to a cure for sickle cell disease, something that affects around 100,000 people in the US, most of them African Americans. Because we are adding more people to the pool that can be treated by a therapy does that mean the cost of the treatment should go down, or will it stay the same to increase profits?

Jennifer Malin, United Healthcare

Jennifer Malin from United Healthcare did a terrific job of walking us through the questions that have to be answered when trying to decide how much to charge for a drug. She also explored the thorny issue of who should pay; patients, insurance companies, the state? As she pointed out, it’s no use having a cure if it’s priced so high that no one can afford it.

Joseph Alvarnas, the Director of Value-based Analytics at City of Hope – where the conference was held – said that in every decision we make about stem cell therapies we “must be mindful of economic reality and inequality” to ensure that these treatments are available to all, and not just the rich.

“Remember, the decisions we make now will influence not just the lives of those with us today but also the lives of all those to come.”

Of course long before you even have to face the question of who will pay for it, you must have a treatment to pay for. Getting a therapy through the regulatory process is challenging at the best of times. Add to that the fact that many researchers have little experience navigating those tricky waters and you can understand why it takes more than eight years on average for a cell therapy to go from a good idea to a clinical trial (in contrast it takes just 3.2 years for a more traditional medication to get into a clinical trial).

Sunil Kadim, QuintilesIMS

Sunil Kadam from QuintilesIMS talked about the skills and expertise needed to navigate the regulatory pathway. QuintilesIMS partners with CIRM to run the Stem Cell Center, which helps researchers apply for and then run a clinical trial, providing the guidance that is essential to keeping even the most promising research on track.

But, as always, at the heart of every conference, are the patients and patient advocates. They provided the inspiration and a powerful reminder of why we all do what we do; to help find treatments and cures for patients in need.

The Alpha Clinic Network is only a few years old but is already running 35 different clinical trials involving hundreds of patients. The goal of the conference was to discuss lessons learned and share best practices so that number of trials and patients can continue to increase.

The CIRM Board is also doing its part to pick up the pace, approving funding for up to two more Alpha Clinic sites.  The deadline to apply to be one of our new Alpha Clinics sites is May 15th, and you can learn more about how to apply on our funding page.

Since joining CIRM I have been to many conferences but this was, in my opinion, the best one I have ever intended. It brought together people from every part of the field to give the most complete vision for where we are, and where we are headed. The talks were engaging, and inspiring.

Kristin Macdonald was left legally blind by retinitis pigmentosa, a rare vision-destroying disease. A few years ago she became the first person to be treated with a CIRM-funded therapy aimed to restoring some vision. She says it is helping, that for years she lived in a world of darkness and, while she still can’t see clearly, now she can see light. She says coming out of the darkness and into the light has changed her world.

Kristin Macdonald

In the years to come the Alpha Clinics Network hopes to be able to do the same, and much more, for many more people in need.

To read more about the Alpha Clinics Meeting, check out our Twitter Moments.

License to heal: UC Davis deal looks to advance stem cell treatment for bone loss and arthritis

Nancy Lane

Wei Yao and Nancy Lane of UC Davis: Photo courtesy UC Davis

There are many challenges in taking even the most promising stem cell treatment and turning it into a commercial product approved by the Food and Drug Administration (FDA). One of the biggest is expertise. The scientists who develop the therapy may be brilliant in the lab but have little experience or expertise in successfully getting their work through a clinical trial and ultimately to market.

That’s why a team at U.C. Davis has just signed a deal with a startup company to help them move a promising stem cell treatment for arthritis, osteoporosis and fractures out of the lab and into people.

The licensing agreement combines the business acumen of Regenerative Arthritis and Bone Medicine (RABOME) with the scientific chops of the UC Davis team, led by Nancy Lane and Wei Yao.

They plan to test a hybrid molecule called RAB-001 which has shown promise in helping direct mesenchymal stem cells (MSCs) – these are cells typically found in the bone marrow and fat tissue – to help stimulate bone growth and increase existing bone mass and strength. This can help heal people suffering from conditions like osteoporosis or hard to heal fractures. RAB-001 has also shown promise in reducing inflammation and so could prove helpful in treating people with inflammatory arthritis.

Overcoming problems

In a news article on the UC Davis website, Wei Yao, said RAB-001 seems to solve a problem that has long puzzled researchers:

“There are many stem cells, even in elderly people, but they do not readily migrate to bone.  Finding a molecule that attaches to stem cells and guides them to the targets we need provides a real breakthrough.”

The UC Davis team already has approval to begin a Phase 1 clinical trial to test this approach on people with osteonecrosis, a disease caused by reduced blood flow to bones. CIRM is funding this work.

The RABOME team also hopes to test RAB-001 in clinical trials for healing broken bones, osteoporosis and inflammatory arthritis.

CIRM solution

To help other researchers overcome these same regulatory hurdles in developing stem cell therapies CIRM created the Stem Cell Center with QuintilesIMS, a leading integrated information and technology-enabled healthcare service provider that has deep experience and therapeutic expertise. The Stem Cell Center will help researchers overcome the challenges of manufacturing and testing treatments to meet FDA standards, and then running a clinical trial to test that therapy in people.