Last November Marissa Cors, a patient advocate in the fight against Sickle Cell Disease (SCD), told the Stem Cellar “A stem cell cure will end generations of guilt, suffering, pain and early death. It will give SCD families relief from the financial, emotional and spiritual burden of caring someone living with SCD. It will give all of us an opportunity to have a normal life. Go to school, go to work, live with confidence.” With each passing month it seems we are getting closer to that day.
CIRM is funding four clinical trials targeting SCD and another project we are supporting has just been given the green light by the Food and Drug Administration to start a clinical trial. Clearly progress is being made.
Yesterday we got a chance to see that progress. We held a Zoom event featuring Marissa Cors and other key figures in the fight against SCD, CIRM Science Officer Dr. Ingrid Caras and Evie Junior. Evie is a pioneer in this struggle, having lived with sickle cell all his life but now hoping to live his life free of the disease. He is five months past a treatment that holds out the hope of eradicating the distorted blood cells that cause such devastation to people with the disease.
You can listen to his story, and hear about the other progress being made. Here’s a recording of the Zoom event.
The US Food and Drug Administration (FDA) has granted Investigational New Drug (IND) permission enabling Graphite Bio to test the investigational, potentially revolutionary gene editing therapy GPH101 developed under the supervision of Matthew Porteus, MD, PhD, in a clinical trial for people with sickle cell disease (SCD).
The California Institute for Regenerative Medicine (CIRM) has been supporting this project with a $5.2 million grant, enabling Dr. Porteus and his team at the Institute of Stem Cell Biology and Regenerative Medicine at Stanford University to conduct the preclinical manufacturing and safety studies required by the FDA.
“We congratulate the Graphite Bio team for obtaining the IND, a critical step in bringing the GPH101 gene therapy forward for Sickle Cell Disease,” says Dr. Maria T. Millan, CIRM’s President & CEO. “CIRM is committed to the national Cure Sickle Cell initiative and are delighted that this technology, the product of CIRM funded research conducted by Dr. Porteus at Stanford, is progressing to the next stage of development”
Sickle cell disease is caused by a genetic mutation that turns normally smooth, round red blood cells into rigid, sickle shaped cells. Those cells clump together, clogging up blood vessels, causing intense pain, damaging organs and increasing the risk of strokes and premature death. There are treatments that help control the damage, but the only cure is a bone marrow stem cell transplant, which can only happen if the patient has a stem cell donor (usually a close relative) who has matching bone marrow.
The investigational therapy GPH101 harnesses the power of CRISPR and natural DNA repair mechanisms to cut out the single mutation in the sickle globin gene and paste in the correct “code.” Correction of this mutation would reverse the defect and result in healthy non-sickling red blood cells.
CEDAR, a Phase 1/2, multi-center, open-label clinical study is designed to evaluate the safety, preliminary efficacy and pharmacodynamics of GPH101 in adult and adolescent patients with severe SCD.
For patient advocate Nancy Rene, the news is personal: “It’s always exciting to hear about the progress being made in sickle cell research. If successful it will mean that my grandson, and especially other young adults, can look forward to a life free of pain and organ damage. They can actually begin to plan their lives, thinking about careers and families. I want to thank Dr. Porteus and all of the scientists who are working so hard for people with sickle cell disease. This is wonderful news.”
CIRM has funded four clinical trials for Sickle Cell Disease using different approaches and has a unique partnership with the National Heart, Lung and Blood Institutes under the NIH “Cure Sickle Cell” initiative.
For Evie Junior, personal health and fitness have always been a top priority. During his childhood, he was active and played football, basketball, and baseball in the Bronx, New York. One would never guess that after playing these sports, some nights he experienced pain crises so severe that he was unable to walk. One would also be shocked to hear that he had to have his gallbladder and spleen removed as a child as well.
The health issues that Evie has faced all of his life are related to his diagnosis of sickle cell disease (SCD), a genetic, blood related disorder. SCD causes blood stem cells in the bone marrow, which make blood cells, to produce hard, “sickle” shaped red blood cells. These “sickle” shaped blood cells die early, causing there to be a lack of red blood cells to carry oxygen throughout the body. Due to their “sickle” shape, these cells also get stuck in blood vessels and block blood flow, resulting in excruciating bouts of pain that come on with no warning and can leave patients hospitalized for days.
SCD affects 100,000 people in the United States, the majority of whom are from the Black and Latinx communities, and millions more people around the world,. It can ultimately lead to strokes, organ damage, and early death.
Growing up with SCD inspired Evie to become an emergency medical technician, where he would be able to help patients treat their pain en route to the hospital, in much the same way he has managed his own pain crises for his whole life. Unfortunately as time passed, Evie’s pain crises became harder and harder to manage.
Then in July 2019, Evie decided to enroll in a CIRM funded clinical trial for a stem cell gene therapy to treat SCD. The therapy, developed by Dr. Don Kohn at UCLA, is intended to correct the genetic mutation in a patient’s blood stem cells to allow them to produce healthy red blood cells. Dr. Kohn has already applied the same concept to successfully treat several genetic immune system deficiencies in two other CIRM funded trials, including a cure for a form of Severe Combined Immunodeficiency, also known as bubble baby disease, as well as X-Linked Chronic Granulomatous Disease.
After some delays related to the coronavirus pandemic, Evie finally received an infusion of his own blood stem cells that had been genetically modified to overcome the mutation that causes SCD in July 2020.
Although the results are still very preliminary, so far they look very promising. Three months after his treatment, blood tests indicated that 70% of Evie’s blood stem cells had the new corrected gene. The UCLA team estimates that a 20% correction would be enough to prevent future sickle cell complications. What is also encouraging is that Evie hasn’t had a pain crisis since undergoing the treatment.
In a press release from UCLA, Dr. Kohn discusses that he is cautiously optimistic about these results.
“It’s too early to declare victory, but it’s looking quite promising at this point. Once we’re at six months to a year, if it looks like it does now, I’ll feel very comfortable that he’s likely to have a permanent benefit.”
In the same press release, Evie talks about what a cure would mean for his future and his life going forward.
“I want to be present in my kids’ lives, so I’ve always said I’m not going to have kids unless I can get this cured. But if this works, it means I could start a family one day.”
You can learn more about Evie’s story and the remarkable CIRM funded work at UCLA by watching the video below.
Marissa Cors has lived with Sickle Cell Disease (SCD) for more than 40 years. The co-founder of The Sickle Cell Experience Live, an online platform designed to bring more awareness to Sickle Cell Disease around the world, says it’s hard, knowing that at any moment you may have to put your life on hold to cope with another attack of excruciating pain.
“It is incredibly frustrating to have a disease that is constantly disrupting and interfering with your life. The daily pain and fatigue make it difficult to have a normal life. You may be experiencing manageable pain one minute and then a crisis will hit – knocking you to the ground with horrible pain and requiring pain management and hospitalization. It makes going to school or having a job or even a normal adult relationship near impossible.”
SCD is an inherited disease caused by a single gene mutation resulting in abnormal hemoglobin, which causes red blood cells to ‘sickle’ in shape. Sickling of red blood cells clogs blood vessels and leads to progressive organ damage, pain crises, reduced quality of life, and early death.
The disease affects around 100,000 Americans, mostly Black Americans but also members of the Latinx community. Marissa says coping with it is more than just a medical struggle. “Born into the cycle of fatigue, pain and fear. Depending on a healthcare system filled with institutionalized bias and racism. It is a life that is difficult on all facets.”
CIRM is committed to trying find new treatments, and even a cure for SCD. That’s why the CIRM Board recently awarded $8,333,581 to Dr. David Williams at Boston Children’s Hospital to conduct a gene therapy clinical trial for sickle cell disease. This is the second project that is part of an agreement between CIRM and the National Heart, Lung, and Blood Institute (NHLBI), part of the National Institutes of Health, to co-fund cell and gene therapy programs under the NHLBI’s “Cure Sickle Cell” Initiative. The goal of this agreement is to markedly accelerate clinical development of cell and gene therapies to cure SCD.
In recent years we have made impressive strides in developing new approaches to treating sickle cell disease,” says Dr. Maria T. Millan, President & CEO of CIRM. “But we still have work to do. That’s why this partnership, this research is so important. It reflects our commitment to pushing ahead as fast as we can to find a treatment, a cure, that will help all the people battling the disease here in the U.S. and the estimated 20 million worldwide.”
The team will take a patient’s own blood stem cells and insert a novel engineered gene to silence abnormal hemoglobin and induce normal fetal hemoglobin expression. The modified blood stem cells will then be reintroduced back into the patient. The goal of this therapy is to aid in the production of normal shaped red blood cells, thereby reducing the severity of the disease.
For Marissa, anything that helps make life easier will be welcome not just for people with SCD but their families and the whole community. “A stem cell cure will end generations of guilt, suffering, pain and early death. It will give SCD families relief from the financial, emotional and spiritual burden of caring someone living with SCD. It will give all of us an opportunity to have a normal life. Go to school, go to work, live with confidence.”
There are some people who, when you think of them, always bring a smile to your face. Dr. Bert Lubin was one of those people. Sadly, we lost Bert to brain cancer two days ago. But the impact he had, not just as an advocate for stem cell research but as a pioneer in sickle cell disease research and a champion for children’s health, will live on.
Bert had a number of official titles but probably the one he was most proud of was President & CEO of Children’s Hospital Oakland (now UCSF Benioff Children’s Hospital Oakland). But it wasn’t the title that he cared about, it was the opportunity it gave him to make a difference in the life of children in Oakland, to create a program to find new treatments and cures for a life-threatening disease. And he has made a difference.
As I started to write this tribute to Bert, I thought about who I should ask for a quote. And then I realized I had the perfect person. Bert himself. I was fortunate enough to interview him in December 2018, when he decided to step down after eight years on the CIRM Board. As always, he had his own positive spin on that, saying: “I don’t see myself leaving. I’m just repurposing what is my role in CIRM. I’m recycling and reinventing.”
And Bert was always full of invention.
He grew up in Bellevue, a small town outside Pittsburgh, PA. His parents ran a fruit and vegetable market there and, growing up, Bert often worked in the store. It wasn’t something he enjoyed but he said he learned some valuable lessons.
“I think what happened in my childhood is that I learned how to sell. I am a salesman. I hated working in that store, I hated it, but I liked the communication with people, they trusted me, I could sell things and they were good things. Like Christmas. I’m Jewish, we were the only Jews in that community, and at Christmas we sold Christmas trees, but the trees were sometimes crooked and they were $2.99 a tree so I convinced families that I could go to their house and set the tree so it looked straight and I helped them decorate it and they loved it.”
He said, thinking back on his life it’s almost as if there were a plan, even if he wasn’t aware of it.
“I started thinking about that more recently, I started wondering how did this even happen? I’m not a religious person but it’s almost like there’s some fate. How did I get there? It’s not that I planned it that way and it’s certainly not that my parents planned it because I was the first in my family to go to high school let alone college. My parents, when I went to medical school and then decided I wanted to spend more time in an academic direction, they were upset. They wanted me to go into practice in a community that I grew up in and be economically secure and not be on the fringe in what an academic life is like.”
And then, fate stepped in and brought him to the San Francisco Bay Area.
“What happened was, I was at the University of Pennsylvania having trained at Boston Children’s and Philadelphia Children’s, where I had started a sickle cell disease program, and was asked to look at a job in southern California to start a sickle cell program there. So, I flew to San Francisco because a lot of people I’d studied with were now working at UCSF and I thought it would be fun to see them before going down to southern California. They took me out to dinner and showed me around and I said this place is beautiful, I can play tennis out here all year round, there’s lots of music – I love jazz – and they said ‘you know Bert, have you looked at Oakland Children’s hospital? We want to start a sickle cell program center, but the patients are all in Oakland and the patient population that would be served is in Oakland. But if you came out to the Bay Area we could partner with you to start that program.
“So, when I walked in the door here (at Oakland) and said ‘I want to create this northern California sickle cell center with UC’ the staff that was here said ‘you know we’re not a research hospital, we are a community based hospital’. I said, ‘I’m not saying you shouldn’t be that but I’m trying to create an opportunity here’ and they said to me ‘as long as you don’t ask for any money you can go and do whatever you want’.
‘They recognized that I had this fire in me to really create something that was novel. And the warmth and community commitment from this place is something that attracted me and then allowed me to build on that.
“For example, when I became the director of the research program we had $500,000 in NIH grants and when I left we had $60 million. We just grew. Why did we grow? Because we cared about the faculty and the community. We had a lovely facility, which was actually the home of the Black Panther party. It was the Black Panthers who started screening for sickle cell on street corners here in Oakland, and they were the start of the national sickle cell act so there’s a history here and I like that history.
“Then I got a sense of the opportunities that stem cell therapies would have for a variety of things, certainly including sickle cell disease, and I thought if there’s a chance to be on the CIRM Board, as an advocate for that sickle cell community, I think I’d be a good spokesperson. So, I applied. I just thought this was an exciting opportunity.
“I thought it was a natural fit for me to add some value, I only want to be on something where I think I add value.”
Bert added value to everything he did. And everyone he met felt valued by him. He was a mentor to so many people, young physicians and nurses, students starting out on their careers. And he was a friend to those in need.
He was an extraordinary man and we are grateful that we were able to call him a colleague, and a friend, for as long as we did.
When Burt stepped down from Children’s his colleagues put together this video about his life and times. It seems appropriate to share it again and remind ourselves of the gift that he was to everyone fortunate enough to know him.
Today the governing Board of the California Institute for Regenerative Medicine (CIRM) approved new clinical trials for COVID-19 and sickle cell disease (SCD) and two earlier stage projects to develop therapies for COVID-19.
Dr. Michael Mathay, of the University of California at San Francisco, was awarded $750,000 for a clinical trial testing the use of Mesenchymal Stromal Cells for respiratory failure from Acute Respiratory Distress Syndrome (ARDS). In ARDS, patients’ lungs fill up with fluid and are unable to supply their body with adequate amounts of oxygen. It is a life-threatening condition and a major cause of acute respiratory failure. This will be a double-blind, randomized, placebo-controlled trial with an emphasis on treating patients from under-served communities.
This award will allow Dr. Matthay to expand his current Phase 2 trial to additional underserved communities through the UC Davis site.
“Dr. Matthay indicated in his public comments that 12 patients with COVID-related ARDS have already been enrolled in San Francisco and this funding will allow him to enroll more patients suffering from COVID- associated severe lung injury,” says Dr. Maria T. Millan, CIRM’s President & CEO. “CIRM, in addition to the NIH and the Department of Defense, has supported Dr. Matthay’s work in ARDS and this additional funding will allow him to enroll more COVID-19 patients into this Phase 2 blinded randomized controlled trial and expand the trial to 120 patients.”
The Board also approved two early stage research projects targeting COVID-19.
Dr. Stuart Lipton at Scripps Research Institute was awarded $150,000 to develop a drug that is both anti-viral and protects the brain against coronavirus-related damage.
Justin Ichida at the University of Southern California was also awarded $150,00 to determine if a drug called a kinase inhibitor can protect stem cells in the lungs, which are selectively infected and killed by the novel coronavirus.
“COVID-19 attacks so many parts of the body, including the lungs and the brain, that it is important for us to develop approaches that help protect and repair these vital organs,” says Dr. Millan. “These teams are extremely experienced and highly renowned, and we are hopeful the work they do will provide answers that will help patients battling the virus.”
The Board also awarded Dr. Pierre Caudrelier from ExcellThera $2 million to conduct a clinical trial to treat sickle cell disease patients
SCD is an inherited blood disorder caused by a single gene mutation that results in the production of “sickle” shaped red blood cells. It affects an estimated 100,000 people, mostly African American, in the US and can lead to multiple organ damage as well as reduced quality of life and life expectancy. Although blood stem cell transplantation can cure SCD fewer than 20% of patients have access to this option due to issues with donor matching and availability.
Dr. Caudrelier is using umbilical cord stem cells from healthy donors, which could help solve the issue of matching and availability. In order to generate enough blood stem cells for transplantation, Dr. Caudrelier will be using a small molecule to expand these blood stem cells. These cells would then be transplanted into twelve children and young adults with SCD and the treatment would be monitored for safety and to see if it is helping the patients.
“CIRM is committed to finding a cure for sickle cell disease, the most common inherited blood disorder in the U.S. that results in unpredictable pain crisis, end organ damage, shortened life expectancy and financial hardship for our often-underserved black community” says Dr. Millan. “That’s why we have committed tens of millions of dollars to fund scientifically sound, innovative approaches to treat sickle cell disease. We are pleased to be able to support this cell therapy program in addition to the gene therapy approaches we are supporting in partnership with the National Heart, Lung and Blood Institute of the NIH.”
Patient Advocates play an important role in everything we do at the stem cell agency, helping inform all the decisions we make. So it was gratifying to hear from one of our Advocates par excellence, Adrienne Shapiro, about her support for our Board’s decision to borrow $4.2 million from our Sickle Cell Cure fund to invest in rapid research for COVID-19. The money will be repaid but it’s clear from Adrienne’s email that she thinks the Board’s action is one that stands to benefit all of us.
Last Friday the CIRM Board voted to borrow $4.2 million dollars from the Sickle Cell Stem Cell Cure’s budget to fund Covid-19 research. The loan will be paid back at the end of the year from funds that are returned to the CIRM budget from projects that did not use them. At first I thought “that makes sense, if the money is not being used …” then I thought how wonderful it was that the SCD budget was there and could be used for Covid-19 research.
Wonderful because Covid-19 is a great threat to the SCD community. Sickle cell patients are at risk of dying from the virus as many have no spleens, are immune-compromised and suffer from weakened lung function due to damage from sickling red blood cells and low oxygen levels.
Wonderful because CIRM sponsored the first large clinical stem cell trials for a cure to SCD. Their funding and commitment to finding a universal cure for SCD opened what feels like a flood gate of research for a cure and new treatments.
Wonderful because it gives CIRM an opportunity to show the world what a government organization — that is committed to tackling complex medical problems — can accomplish using efficient, inclusive, responsible and agile methodologies.
I am eager to see what happens. We all hope that new treatments and even a cure will be found soon. If it does not come from CIRM funding we know that whatever is proven using these funds will help future researchers and patients.
After all: the SCD community is living proof that science done well leads to a world with less suffering
This year the most widely read blog was actually one we wrote back in 2018. It’s the transcript of a Facebook Live: “Ask the Stem Cell Team” event about strokes and stroke recovery. Because stroke is the third leading cause of death and disability in the US it’s probably no surprise this blog has lasting power. So many people are hoping that stem cells will help them recover from a stroke.
But of the blogs that we wrote and posted this year there’s a really interesting mix of topics.
The most read 2019 blog was about a potential breakthrough in the search for a treatment for type 1 diabetes (T1D). Two researchers at UC San Francisco, Dr. Matthias Hebrok and Dr. Gopika Nair developed a new method of replacing the insulin-producing cells in the pancreas that are destroyed by type 1 diabetes.
Dr. Hebrok described it as a big advance saying: “We can now generate insulin-producing cells that look and act a lot like the pancreatic beta cells you and I have in our bodies. This is a critical step towards our goal of creating cells that could be transplanted into patients with diabetes.”
It’s not too surprising a blog about type 1 diabetes was at the top. This condition affects around 1.25 million Americans, a huge audience for any potential breakthrough. However, the blog that was the second most read is the exact opposite. It is about a rare disease called cystinosis. How rare? Well, there are only around 500 children and young adults in the US, and just 2,000 worldwide diagnosed with this condition.
It might be rare but its impact is devastating. A genetic mutation means children with this condition lack the ability to clear an amino acid – cysteine – from their body. The buildup of cysteine leads to damage to the kidneys, eyes, liver, muscles, pancreas and brain.
UC San Diego researcher Dr. Stephanie Cherqui and her team are taking the patient’s own blood stem cells and, in the lab, genetically re-engineering them to correct the mutation, then returning the cells to the patient. It’s hoped this will create a new, healthy blood system free of the disease.
Dr. Cherqui says if it works, this could help not just people with cystinosis but a wide array of other disorders: “We were thrilled that the stem cells and gene therapy worked so well to prevent tissue degeneration in the mouse model of cystinosis. This discovery opened new perspectives in regenerative medicine and in the application to other genetic disorders. Our findings may deliver a completely new paradigm for the treatment of a wide assortment of diseases including kidney and other genetic disorders.”
The third most read blog was about another rare disease, but one that has been getting a lot of media attention this past year. Sickle cell disease affects around 100,000 Americans, mostly African Americans. In November the Food and Drug Administration (FDA) approved Oxbryta, a new therapy that reduces the likelihood of blood cells becoming sickle shaped and clumping together – causing blockages in blood vessels.
But our blog focused on a stem cell approach that aims to cure the disease altogether. In many ways the researchers in this story are using a very similar approach to the one Dr. Cherqui is using for cystinosis. Genetically correcting the mutation that causes the problem, creating a new, healthy blood system free of the sickle shaped blood cells.
Two other blogs deserve honorable mentions here as well. The first is the story of James O’Brien who lost the sight in his right eye when he was 18 years old and now, 25 years later, has had it restored thanks to stem cells.
The fifth most popular blog of the year was another one about type 1 diabetes. This piece focused on the news that the CIRM Board had awarded more than $11 million to Dr. Peter Stock at UC San Francisco for a clinical trial for T1D. His approach is transplanting donor pancreatic islets and parathyroid glands into patients, hoping this will restore the person’s ability to create their own insulin and control the disease.
2019 was certainly a busy year for CIRM. We are hoping that 2020 will prove equally busy and give us many new advances to write about. You will find them all here, on The Stem Cellar.
There are a growing number of predatory clinics in California and around the US, offering unproven stem cell therapies. For patients seeking a legitimate therapy it can often be hard finding a reliable clinic, one offering treatments based on the rigorous science required in a clinical trial sanctioned by the US Food and Drug Administration (FDA). That’s one of the reasons why the California Institute for Regenerative Medicine (CIRM) created the CIRM Alpha Stem Cell Clinic Network and we are delighted the clinics have now been chosen as a Core program of the American Society of Hematology (ASH) Sickle Cell Disease (SCD) Collaborative Trials Network.
The Alpha Clinics are a network of top California medical centers that specialize in delivering stem cell clinical trials to patients. It consists of five leading medical centers throughout California: City of Hope, University of California (UC) San Diego, UC Irvine & UC Los Angeles, UC Davis and UC San Francisco.
The mission of the ASH Research Collaborative SCD Clinical Trials Network is to improve outcomes for individuals with Sickle Cell Disease by promoting innovation in therapy development and clinical trial research.
“The key to finding a cure for this crippling disease, and finding it quickly, is to work together”, says Maria T. Millan, MD, President & CEO of CIRM. “That’s why we are delighted to be chosen as a core program for the ASH Sickle Cell Disease Clinical Trials Network. This partnership means we can share data and information about best practices to help us improve the quality of the research being done and the clinical care we can offer patients. We already have 23 clinical stage therapies in cell and gene therapy, including two clinical trials targeting SCD, so we feel we have a lot to bring to the partnership in terms of experience and expertise.”
Sickle Cell disease is a life-threatening blood disorder that affects 100,000 people, mostly African Americans, in the US. It is caused by a single genetic mutation that results in the production of “sickle” shaped red blood cells that can block blood vessels causing intense pain, recurrent hospitalization, multi-organ damage and strokes.
“We hear a lot about the moonshot for curing cancer, but a moonshot for curing sickle cell disease should also be possible. Sickle cell disease was the first genetic disease that was discovered, and wouldn’t it be great if it is also one of the first ones we can cure in everyone?”
It is hoped that creating this network of clinical trial sites across the US will better serve an historically under-served population.
Establishing links and educational materials across these sites can increase patient engagement and recruitment
Standardizing resources across the network can ensure efficiency and coordination
Improving the training of clinical research staff can promote patient safety and trust and increase research quality
The CIRM Alpha Clinics Network has a proven track record of creating a faster, more streamlined approach in running clinical trials. It has developed the tools and systems to simultaneously launch clinical trials at multiple sites; created model non-disclosure agreements to make it easier for clinical trial sponsors to sign up; created a system to enable one Institutional Review Board (IRB) to approve a trial to be carried out at multiple sites rather than requiring each site to have its own IRB approval; developed best practices to quickly share experience and expertise across the network; and set up a database of over 20 million Californians to improve patient recruitment.
An Executive Summary prepared for the Western States Sickle Cell Disease Clinical Trials Network said: “the ASCC provides a formidable clinical trial unit uniquely qualified to deliver the next generation of cell and gene therapy products for SCD.”
There’s a lot of
fiction, a lot of misinformation surrounding stem cells and stem cell research.
There are claims that are not based on solid science and clinics that are
offering so-called “treatments” that are unproven, even dangerous for patients.
Now you have a chance to talk to the experts in the field and get solid answers
from them about what’s working, what’s not, and how you can find a therapy that
might be appropriate for you.
Do you have
questions about the latest in research using stem cells to help people
recovering from a stroke? We’ll have someone who can answer them.
Want to know if stem
cells can help people battling cancer? Or what’s happening in finding a stem
cell treatment for diabetes or sickle cell disease, even autism, Alzheimer’s or
Parkinson’s disease? We’ll have experts to answers those.
This is all
happening in a special Facebook Live “Ask the Stem Cell Team” event on Thursday,
December 12th from 10.30am to 11.30amPDT. To take part
all you have to do is tune in on the day and post a question or you can send us
one ahead of time at email@example.com
We will do our best
to answer as many of them as we can during the Facebook Live event, and those
we don’t have time to get to we’ll answer in a blog at a later date.