Archive for the ‘Bone Marrow Stem Cells’ Category

When you see Kelly Schneider and Alex Barr together, you'd think they go way back; they laugh at the same moments, seem to have inside jokes, and generally send off a vibe that they're old friends.

"Our families are both Middle Eastern, so we just have this connection. Weve just been gabbing and eating like we know each other," Schneider told Action News at her mother's house in Bloomfield Hills on Sunday.

It's where Barr and her mother came from the Boston area to meet Schneider and her family or the very first time in person, and to say thank you, since sharing something pretty personal back in August of 2018.

"I mean, she kind of is morphing into me now that she has my DNA. Thats how this works, right?" Schneider joked.

About a year earlier, in the summer of 2017 Barr, then in graduate school in the Boston area, learned she had Leukemia for the second time.

"It was just unreal. Like I couldnt even process it," Barr told Action News.

Barr didn't know it then, but Schneider had already signed up with Be The Match, and a national bone marrow registry, when she learned a close friend was diagnosed with cancer.

"We went and got tested and we donated blood. And unfortunately she did not survive. But after 4 or 5 months after she passed away, I got a call from Be The Match.

That call was on behalf of Barr, hoping Schneider might be willing to donate life-saving bone marrow.

Soon after, Schneider was getting treatment to donate stem cells from her bone marrow, to save Barr's life, who was still a stranger at the time.

All Schneider knew then was that her donation was going to help a 24-year-old from Michigan.

"How could you not? If someone needs it?" She said.

"When you hear bone marrow donation that sounds scary like theyre going to drill into your bone or something," Barr said, noting that it really wasn't as intense of a procedure as some people may think.

In this case, Schneider had to get a series of shots, the stem cells were collected, and then shipped to Boston for Barr, who is now in remission.

Its incredible. Like, I cant even describe. And I know that I would do the same," Barr said.

First, the two communicated communicated through the registry.

"We had been talking back and forth like online since September. I could tell that we would really hit it off," Barr told Action News.

Then, they decided to meet in person at Schneider's mother's house.

Not only do the two now share some of the same DNA, they keep finding other things they have in common.

Like a photo of Barr's cousin, which looks strikingly similar to Schneider.

I look like her! she said, pointing at the photo Barr brought with her.

For both Barr and Schneider, this full-circle experience is a reminder of how important the the Be The Match registry is, for the thousands of people waiting to find their life-saving donor, and just possibly, a life-long connection too.

Barr, who is now a healthy 26-year-old, is working in the health field. She works in the Hemostasis and Thrombosis Division at Beth Israel Deaconess Medical Center (BIDMC), hoping to help others who have been diagnosed with potentially terminal diseases.

Barr said her experience beating Leukemia inspired her to go into the medical field as a biologist to study diseases of the blood.

She is a currently also a volunteer with Be The Match, and conducts her own registry drives as living proof of how important the registry is and how bone marrow donations can save lives.

Click here to join the register or the learn more about the Be The Match.

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News Royal Oak native meets woman she saved with vital stem cell donation Jenn Schanz 11 - WXYZ

ANN ARBOR, MI They searched the world for a match.

Bennett Sevack needed a bone marrow transplant. He was diagnosed with myelodysplastic syndrome after treatment for chronic lymphocytic leukemia. But there was no match for the Ann Arbor resident in the international registry.

So, his family started making calls.

Doctors first tried his siblings and cousins. When that didnt work, his sisters, friends and family spent six weeks calling and sharing flyers with synagogues around the world to encourage people to join the bone marrow registry, hoping someone with Sevacks Sephardic and Ashkenazi Jewish background would be willing to donate.

By fall, a partial match was found in an Italian obstetrics hospital in an umbilical cord blood sample. Soon after, another cord blood match was found in the U.S. It was enough to perform a transplant.

Sevack has gained an intense appreciation for donors.

You can save somebodys life..." he said. Its a blessing to do.

Finding an acceptable bone marrow donor is a challenge in general, but its that much harder for people of color and patients of complex ethnic backgrounds like Sevack, according to health care providers and families whove embarked on far-reaching searches for a match.

A white person has a 77% shot at finding a matching donor, according to Be The Match, a widely used donor registry. A black persons chances are 23%. For people of mixed backgrounds, the search can become more complex.

Part of the issue is the relatively narrow population of donors in the registry. Another part is the science: Certain HLA types, the protein that needs to match in bone marrow transplants, are more unique to specific backgrounds.

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Sevacks transplant was completed in October 2019 more than three years after his initial diagnosis, and four months after getting news that he would definitely need a transplant.

He spent eight weeks healing from his transplant and two weeks healing from a bout of graft-versus-host disease in the hematology oncology clinic on the seventh floor of Ann Arbors C.S. Mott Childrens Hospital.

On the same floor, a 9-year-old Ann Arbor-area patient undergoing chemotherapy for acute myeloid leukemia is in the same predicament that Sevack once faced. She may need a bone marrow transplant as well, but a donor match her ethnic background is Cantonese, Hispanic and Caucasian has yet to be found in the registry.

The search

Genetics play a major role in finding a good match, said Mark Vander Lugt, a pediatric bone marrow transplant specialist at C.S. Mott working with the 9-year-old. People get four HLA types from each parent, meaning donors need to match in at least six spots, though sometimes a stronger match is required.

You get combinations that are hard to find in the registry because of that, Vander Lugt said.

Not everyone needs a transplant once theyre diagnosed. Doctors often treat blood cancers and related illnesses with chemotherapy first killing off the bad cells and waiting to see if healthy cells regenerate. If they dont, a transplant replaces the bone marrow, where blood stem cells are made.

Mothers breast cancer pushes Ypsilanti woman to get preventative mastectomy

The registry is so low on certain populations that some began taking matters into their own hands. Athena Asklipiadis founded Mixed Marrow, a nonprofit that conducts outreach to encourage multi-ethnic bone marrow and blood cell donations. She said the misconceptions of donation is one of the largest challenges in getting people registered. She started by reaching out to Facebook groups and college clubs on the West Coast, where she is based. Eventually, families began reaching out to her to help in the donor search.

People use this phrase, When theres a cure for cancer or If theres a cure for cancer, Asklipiadis said. But these are actual blood diseases and cancers that are curable. Theyre curable by the selflessness of a donor and thats the beautiful thing about it.

Sevacks sister Laurel Bernstein was part of the group of relatives and supporters who called synagogues in search of donors. She estimated they called hundreds of people and added more than 1,000 to the donor registry while searching for Sevacks match.

The nine of us all felt so energized by what happened, Bernstein said. "We had not finished calling the list, even though we got the match. We went through to the end of the list to help pay it forward, to help other people, to get that much more DNA into the database.

The transplant

For Sevack, it was umbilical cord blood that saved his life. DNA from the two samples created enough HLA type matches to begin the transplant.

Vander Lugt said the preferred transplant method is still donor transplants, because cord blood units are smaller and in more limited supply than donor cells.

Misconceptions of transplants are another roadblock. A bone marrow harvest in which a donor undergoes surgery to collect marrow from the hip is widely believed to be painful. But experts describe the process as a mild discomfort with a two-to-three day recovery time, instead.

And direct harvest is no longer the only method. Many hospitals also practice apheresis, which collects the peripheral blood that can generate new bone marrow through a process that looks like dialysis. Theres no surgery involved.

Choosing between the two collection processes is based on multiple factors, including the health of the patient undergoing general anesthesia and doctor and donor preference, Vander Lugt said.

The value

Fear of the unknown is what affected Sevack the most going into treatment. He said he had an anxiety breakdown the morning of his transplant, when he realized what was about to happen.

My heart was to the moon, Sevack said. I was fully dressed and every part of me was drenched. In about eight minutes I had gone through this journey of fear because the reality of what was going to come was upon me. (My wife) calmed me down, I changed my clothes and this journey began. Theres been plenty of times when Ive been scared to death.

Finding a transplant match taught his wife Phyllis Sevack the importance of facing each day separately. Fighting cancer was about healing every day making big battles smaller.

The reality of it hits all at once, Phyllis Sevack said. "I wouldnt want anybody to be afraid to go through it because it is every day take it day by day. And as soon as Bennett got over that hes not doing everything on one day, (he got better mentally).

Now at home, Bennett Sevack may take a year to fully heal. He looks forward to small improvements in his quality of life, like an expanded diet and doing his own grocery shopping at Meijer, he said.

Even the routine blood and platelet donations he received in treatment were invaluable to him. They saved his life.

Where to donate blood in Washtenaw County during shortage

Every day, theyd give me sacks of stuff that made me sick to think about it, Sevack said. It was someones donation that was given, that was literally giving me life. People who donate would do an amazing service to someone. You may not know who that is but its somebody.

Potential donors can begin the registration process by filling out a questionnaire about their medical history at bethematch.org. A cheek swab will confirm whether you meet the medical guidelines for donation. You may remain on the registry for years before a match is found. More information is available here.

Wolverines for Life and the Michigan Medicine Bone Marrow Transplant department are hosting a registration drive from 10:30 a.m. to 5 p.m. Tuesday, Feb. 18 at the Pierpoint Commons lobby, 2101 Bonisteel Blvd., Ann Arbor.

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Mixed ethnic backgrounds make it that much harder to find a bone marrow transplant - MLive.com

DALLAS It is more blessed to give than to receive. That's what a Bible verse says. And watching the smiles of a now healthy 8-year-old boy, that's what a recent bone marrow donor will gladly tell you too.

"I felt like the earth underneath my legs was pulled out and like I didn't know what to do," said Anitha Nagilla of Frisco of the 2017 chronic myeloid leukemia diagnosis for her then 6-year-old son Akshaj.

After chemotherapy and other treatments, he would need a bone marrow transplant to regenerate his immune system. But no one in his family, including his older sister, was a close enough match. Also, the likelihood of someone with Asian Indian heritage having a matched, available donor is only 41%.

The Nagilla family moved to north Texas from southern India 13 years ago.

WFAA

Every three minutes, someone is diagnosed with a blood cancer, like leukemia or lymphoma. For many patients, finding a bone marrow donor who is a match is their only chance for a cure. Finding a match can happen anywhere in the world at any time.

In nearby Colleyville, another immigrant, unknowingly, was about to help save the Akshaj's life.

WFAA

"Typical immigration story. Parents moved for a better life for their children and for themselves," said Dr. Prasanthi Ganesa, an oncologist who works at the Center for Cancer and Blood disorders in Fort Worth.

Dr. Ganesa moved to the U.S. as a 10-year-old child, also from southern India. She now works with adult cancer patients.

But as a medical student at Texas A&M, she and a group of friends decided to join the nationalBone Marrow Registry. The donation of blood, stem cells, and bone marrow can help people recover from a variety of cancer-related illnesses.

"At that time it was pretty simple," Dr. Ganesa said of joining the registry approximately 17 years ago. "You fill out some paperwork. It's a (saliva) swab and they have my information. So I've been on it, really not thinking about it, until I got the call. It was a surprise. It was a delightful surprise."

The surprise was that she was a match for a young boy, the same age as her own youngest child. After an outpatient procedure where marrow was extracted from a location on each hip, she went home, then back to work, and waited to hear what happened to whoever it was that received her donation.

Dr. Prasanthi Ganesa

Friday morning at Children's Medical Center in Dallas, she met him face to face.

In a meeting room all decorated for Valentine's Day, they celebrated what is also known as "National Donor Day."

"Hi buddy, how are you?" Dr. Ganesa said as she reached out to hug 8-year-old Akshaj Nagilla. "Oh my goodness," she said as they embraced.

"Definitely is on the list of one of my happiest proudest moments in my life," Dr. Ganesa said. "And Akshaj I have you to thank for that. You know what this means right? We're gonna have to be friends forever," she said as the audience of doctors, nurses, and family and friends laughed and applauded.

Being on the marrow registry is easy. All it takes is a swab of saliva. And minority donors are needed the most. Dr. Ganesa was one of two marrow donors for Akshaj. She supplied the first donation.

Akshaj initially recovered but relapsed in the fall of 2018, when he received a second transplant from a different donor, also of Asian Indian heritage. But his family credits the first donation with starting his long road to recovery.

"She being close here in Dallas is undoubtedly remarkable, in that it happened to our family," Anitha Nagilla said.

"She saved my son's life directly. But she saved some other lives as well in the family," Nagilla said of the impact on her entire extended family. "She is a lifesaver for others as well."

Friday morning at their first meeting, the Nagilla family presented Dr. Ganesa with a gold bracelet and a card with a personal message from Akshaj inside. "I'm doing good and wish you well always", he wrote.

"How wonderful is this," Dr. Ganesa said as they embraced again.

The usually shy 8-year-old also mustered up the courage to climb up to a podium and address the entire crowd, but mostly his message was for Dr. Ganesa.

"I am very thankful because I am still alive," he said.

"I just encourage everybody of Indian origin, of southeast Asian origin, any minority group to get yourself on the registry because it could save a life," Dr. Ganesa said.

"It feels really good to be able to say I gave a part of myself and I saved this person's life. I think it's the ultimate meaning of being a human being. We are here to love all serve all. And what an opportunity that I have had. So I am so grateful that I've had that opportunity," Dr. Ganesa said.

She says she feels like she received more than she gave. As she, her own two sons and the Nagilla family gathered for a group hug, her own extended family maybe just got a lot bigger too.

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8-year-old bone marrow recipient and donor celebrate in emotional reunion - WFAA.com

Brynn Niblock, FHSU junior in pre-med from Hoxie, swabs her cheek as part of the sign up for the Be the Match bone marrow registry Feb. 6 at Gross Memorial Coliseum.

By CRISTINA JANNEYHays Post

Usually Tiger basketball games are a time to have fun cheer the home team, eat some popcorn but students and community members at Feb. 6 game took a few minutes to stop and potentially save a life.

FHSU student health sponsored a Be the Match bone marrow registry drive.

Potential donors ages 18 to 44 answered a list of qualifying health questions on their smartphones and then swabbed their cheeks to be matched with a potential cancer sufferer in need of bone marrow transplants.

Kathy Pyke of Hays knows too the well the importance of the registry. Pyke was at Gross Memorial Coliseum the night of the drive as a volunteer handing out information to potential donors.

Her husband, Tom, was diagnosed with leukemia on March 1, 2014. Family members were tested, and they were not matches. Doctors were also unable to find a bone marrow match on the national registry. There were 6.2 million people in the registry at the time.

In lieu of a bone marrow transplant, Pyke was given donated umbilical cord blood.

Initially the treatment improved Pyke's condition. However, he ultimately died as a result of the disease on Feb. 12, 2015 at the age of 62.

Kathy said the family was rocked by Tom's illness. He was playing golf and went fishing the week before he was diagnosed with cancer.

Kathy said she wishes she could be on the registry to help another family, but her age prevents her from doing so.

"Not only for my husband," she said of the importance of the registry. "I did pray there had been a match. We stayed at the Hope Lodge that was run by the American Cancer Society in Kansas City. There were 45 apartments there and everyone there has someone who has cancer plus a caregiver in it. You just see so many lives being touched. ...

"If this is something that can help somebody, it is just an easy thing to do."

Kathy said she had a good friend who had a family member sign up for the registry, and he was able to donate to someone who had cancer in England.

Pyke said she would also like to see more hospitals participate in the cord blood bank, which is what helped her husband. At the time of Tom's illness, HaysMed was not participating in the umbilical cord blood bank.

Michelle Toogood, BSN, RN, supervisor of Hays Meds Women's andInfant Care Center/NICU, said parents wishing to participate in cord blood donation should initiate the process prior to delivery. HaysMed staff will then aid in the collection of the specimen.

"I just can't express how much people need to do this," Pyke said of signing up for the registry. "It is just so easy to swab test and they could potentially save more than one person's life. It is so easy to do and so important."

If you are identified as a match to someone suffering from cancer, you would be contacted through the registry and asked if you are willing to donate,Amanda McCord, RN at the FHSU student health center.

"Finding the perfect match is essential for people who are fighting this type of cancer," McCord said. "The closer the match the better their chances of remission and beating whatever cancer they are fighting."

There are over 70 diseases that can be treated by bone marrow transplants, according to Be the Match.

Physicians will usually look for matches among relatives first, but only 70 percent of the time are matches made from family members, McCord said.

Statistics also indicate minority patients are less likely to find matches than Caucasian patients. Be the Match is trying to boost minority participation as there are fewer minority participants in the registry at this time, McCord said.

Donating bone marrow is a little bit different for every donor, McCord said.

Most give through a Peripheral Blood Stem Cell (PBSC) donation. A machine draws blood from one arm, extracts the cells it needs, and returns the remaining blood through your other arm, according to the Be the Match website.

Others give through a marrow donation. Liquid marrow is withdrawn from the back of your pelvic bone with a needle. In this case, youll receive anesthesia and feel no pain during the procedure, the Be the Match website said.

According to Be the Match,PBSC donors may experience headaches or body aches several days before collection, but these disappear shortly after donation. Most donors feel completely recovered within a few weeks.

If you missed the Be the Match event at FHSU last week, you can contact Be the Match though its website, and the organization will send you the cheek swab kit to sign up for the registry.

The Be the Match website also has information on the donation process and a link to make monetary donations to the Be the Match program.

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FHSU partners with Be the Match for bone marrow registry event - hays Post

WHEN student Hayden Ryals saw a call for blood stem cell donors, she didn't think twice about signing up.

But she was shocked when she received a call just a year later, asking for her help to save a one-year-old girl's life.

6

Hayden, now 27, from Alabama, had the operation and instantly felt bonded to little Skye.

And two years later, the pair met for the first time, when Skye was invited to be a flower girl at Hayden's wedding.

Speaking exclusively to Fabulous Digital, Hayden tells her story...

Since I was about 16, I have always given blood. It seemed like such a small thing to do to help people. Donating only takes 10 minutes.

6

Then I went to University in Auburn, Alabama. I was walking to a lecture one day and saw a stall from Be the Match. I wandered over to see what they were about.

The lady at the stall told me they were looking for bone marrow donors. I just needed a swab in my cheek, so they would have my tissue, and then I would be put on the register. You only get called if you're a match.

I happily said yes, it only took two minutes, and didnt think much more about it.

Almost a year to the day later, in April 2016, I got a phone call. It was from Be the Match.

When I spoke to her mum Talia, it was emotional. 'Youve saved my daughters life,' she said through tears

"You have been matched with a one-year-old little girl," I was told.

At first I thought it was a mistake, surely I wouldnt be able to do something so big? But it was true, she needed me to save her life.

I had been feeling so down in life, wondering what I was supposed to be doing, I felt a surge of joy at being able to help someone.

6

I found out the little girl, Skye Savren-McCormick, wasdiagnosed withjuvenile myelomonocytic leukemia, a rare and aggressive form of blood cancer. She lived in California, miles away from me.

I immediately knew I wanted to help her.

I sent her parents a letter, through a co-ordinator, telling them I wouldnt back out.

They already felt like family to me. It was strange how connected I felt to a little girl I had never met.

6

In July 2016, we did the transfer. I went to a hospital three hours away in Birmingham Alabama and was put under general anaesthetic for an hour.

They put a hollow needle into my hip bone to extract my bone marrow. It really wasnt bad, and I didnt feel much pain afterwards.

I was told Skye responded well, but had to wait a year to contact Skye's parents.

When I eventually spoke to her mum Talia, it was emotional. "Youve saved my daughters life," she said through tears.

6

Around this time, I started dating my childhood friend Adrian Ryals, now 34. He was in the US Air Force, and was posted to Korea for a year in 2017.

Just before he left, Adrian popped the question. Delighted, we set a wedding date for June 2018.

In March 2018, I sent Skye a birthday present and asked if she would consider being my flower girl.

Becoming a blood stem cell donor

Every 20 minutes, someone is diagnosed with blood cancer in the UK.

For many, blood stem cell donation is their only chance of survival.

It's difficult to find a match, because of the millions of different stem cell combinations, so the DKMS are constantly on the look out for donors.

To become a blood stem cell donor, you just need to request a kit and do a five-minute cheek swab at home.

You can check your eligibility, and request a kit, here.

The odds are you may never be called upon.

Most blood stem cells are collected through a needle in the arm, just like giving blood.

Bone marrow collection involves stem cells being collected from the back of the hip under general anaesthetic. It takes one to two hours and most donors return to normal activities within a week. This method is only used in 10% of cases.

I knew it was a big ask, she lived a six-hour flight away, but she was so special to me.

If there was a chance she could come, I wanted her at my wedding.

Skye still lived in hospital at the time and had never flown. But in May 2018, the doctor gave her the green light to be able to come to the wedding.

6

Talia, Skye and her dad Todd flew down the Thursday before the wedding.

As we arrived at the church where we were having the rehearsal, they were already there waiting.

I was breathless and speechless to finally meet this little human, and know I was fortunate enough to have been able to help her.

I just ran up to her, got on my knees and gave her a big hug. She wasnt shy with me, as we had spoken on the phone a few times before.

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Skye didnt really understand what I had done for her, but she knew I was somebody special.

I was so honoured to have Skye be my flower girl, it made the wedding even more beautiful. I feel so lucky to have her in my life.

Earlier this week, we reported on a mother-of-the-bride who demanded her ginger bridesmaid dyed her hair for the wedding - because it "clashed" with her hair.

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Bride saves babys life by donating her bone marrow then meets her for the first time as a flower girl at he - The Sun

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Market Definition: Global Stem Cell Banking Market

Stem cells are cells which have self-renewing abilities and segregation into numerous cell lineages. Stem cells are found in all human beings from an early stage to the end stage. The stem cell banking process includes the storage of stem cells from different sources and they are being used for research and clinical purposes. The goal of stem cell banking is that if any persons tissue is badly damaged the stem cell therapy is the cure for that. Skin transplants, brain cell transplantations are some of the treatments which are cured by stem cell technique.

Explore Key Industry Insights In 60 Tables And 220 Figures From The 350 Pages Of Report, Global Stem Cell Banking MarketBy Source (Placental Stem Cells (PSCs), Human Embryo-Derived Stem Cells (hESCs), Bone Marrow-Derived Stem Cells (BMSCs), o Dental Pulp-Derived Stem Cells (DPSCS), Adipose Tissue-Derived Stem Cells (ADSCs) and Other Stem Cell Sources), By Application (Personalized Storage, Clinical, Research), Service Type (Sample Collection and Transportation, Sample Processing, Sample Analysis, Sample Preservation and Storage), Geography (North America, Europe, Asia Pacific, Latin America and The Middle East and Africa) Industry Trends and Forecast to 2026.

The global Stem Cell Banking market report covers scope and product overview to define key terms and offers detailed information about market dynamics to the readers. This is followed by a regional outlook and segmental analysis. The report also consists of the facts and key values of the global Stem Cell Banking market, in terms of sales and volume, revenue and its growth rate.

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Segmentation: Global Stem Cell Banking Market

By Source

By Application

Research

By Service Type

Competitive Analysis: Global Stem Cell Banking Market

The global Stem Cell Banking market is highly fragmented and the major players have used various strategies such as product (software) launches, agreements, joint ventures, partnerships, acquisitions, and others to increase their footprints in this market. The report includes market shares of Stem Cell Banking market for global, Europe, North America, Asia Pacific and South America.

Research Methodology: Global Stem Cell Banking Market

Data collection and base year analysis is done using data collection modules with large sample sizes. The market data is analysed and forecasted using market statistical and coherent models. Also market share analysis and key trend analysis are the major success factors in the market report. To know more please request an analyst call or can drop down your enquiry.

The key research methodology used by DBMR research team is data triangulation which involves data mining, analysis of the impact of data variables on the market, and primary (industry expert) validation. Apart from this, other data models include Vendor Positioning Grid, Market Time Line Analysis, Market Overview and Guide, Company Positioning Grid, Company Market Share Analysis, Standards of Measurement, Top to Bottom Analysis and Vendor Share Analysis. To know more about the research methodology, drop in an inquiry to speak to our industry experts.

Primary Respondents

Demand Side: Doctors, Surgeons, Medical Consultants, Nurses, Hospital Buyers, Group Purchasing Organizations, Associations, Insurers, Medical Payers, Healthcare Authorities, Universities, Technological Writers, Scientists, Promoters, and Investors among others.

Supply Side: Product Managers, Marketing Managers, C-Level Executives, Distributors, Market Intelligence, and Regulatory Affairs Managers among others.

Reasons to Purchase this Report

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Research Methodology: Global Stem Cell Banking Market

Data collection and base year analysis is done using data collection modules with large sample sizes. The market data is analysed and forecasted using market statistical and coherent models. Also market share analysis and key trend analysis are the major success factors in the market report. To know more please request an analyst call or can drop down your enquiry.

The key research methodology used by DBMR research team is data triangulation which involves data mining, analysis of the impact of data variables on the market, and primary (industry expert) validation. Apart from this, other data models include Vendor Positioning Grid, Market Time Line Analysis, Market Overview and Guide, Company Positioning Grid, Company Market Share Analysis, Standards of Measurement, Top to Bottom Analysis and Vendor Share Analysis. To know more about the research methodology, drop in an inquiry to speak to our industry experts.

Customization of the Report

All segmentation provided above in this report is represented at country level.

All products covered in the market, product volume and average selling prices will be included as customizable options which may incur no or minimal additional cost (depends on customization)

Table of Content: Global Stem Cell Banking Market

Continued..

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Stem Cell Banking Market 2020-Global Leading Players, Industry Updates, Future Growth, Business Prospects, Forthcoming Developments and Future...

The youngest children diagnosed with cancer are just one day old. The most frequent type of cancer diagnosed is leukemia, ETV's current affairs show "Aktuaalne kaamera" reported.

"Leukemia is a disease of hematopoietic stem cells; hematopoietic stem cells are the cells which derive from all the cells that circulate in our blood - red blood cells, thrombocytes, white blood cells. Every one of them has a function and if they're not present, they're not able to fill the function," Ain Kaare, Head of the Department of Hematology and Bone Marrow Transplantation in University of Tartu said.

Kaare said that what helps children to cope with cancers is hope and optimism, and they are able to enjoy it, when they are feeling good.

These courageous children make an effort over years in order to get better. Kaare noted that there are children in the clinic who have undergone hematopoietic stem cell transplantation three times in a row, which often adults don't survive.

"In my work office, I have a picture on a wall by a boy who was five at the time, where he has written that "doctor Kaare is my friend". In the picture, there was I with a bag in my hand and in that bag there were supposed to be the hematopoietic stem cells that we transplanted to him," Kaare said.

Kaili Lellep, president of the Estonian Association of Parents of Children with Cancer (Vhihaigete laste vanemate liit) said that a child with a cancer needs a supportive parent around all the time to comfort them and explain everything if necessary, and to get their thoughts away from their illness. Children with cancer often stay in hospital for months.

On Saturday, golden ribbons and the golden light on Tallinn's TV tower and at Tallinn's Children Hospital (Tallinna lastehaigla) sent a message to hospital wards and homes alike, that seriously ill children are not alone and are being thought of, hoping that tomorrow they will be better. The golden ribbon is well-known all over the world.

"This ribbon symbolises support for children with cancer and support for the suffering of children with cancer," Lellep said.

--

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50 children diagnosed with cancer in Estonia every year - ERR News

Global Cord stem cell banking market is estimated to reach USD 13.8 billion by 2026 registering a healthy CAGR of 22.4%. The increasing number of parents storing their childs cord blood, acceptance of stem cell therapeutics, high applicability of stem cells are key driver to the market.

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Few of the major market competitors currently working in the globalcord stem cell banking marketareCBR Systems, Inc., Cordlife, Cells4Life Group LLP, Cryo-Cell International, Inc., Cryo-Save AG, Lifecell, StemCyte India Therapeutics Pvt. Ltd, Viacord, SMART CELLS PLUS., Cryoviva India, Global Cord Blood Corporation, National Cord Blood Program, Vita 34, ReeLabs Pvt. Ltd., Regrow Biosciences Pvt. Ltd. , ACROBiosystems., Americord Registry LLC., New York Blood Center, Maze Cord Blood, GoodCell., AABB, Stem Cell Cryobank, New England Cryogenic Center, Inc. among others

The data and information included in this Global Cord Stem Cell banking business report helps businesses take sound decisions and plan about the advertising and sales promotion strategy more successfully. This Cord Stem Cell banking market research report is generated by taking into account a range of objectives of market research that are vital for the clients success. This report also includes strategic profiling of key players in the market, systematic analysis of their core competencies, and draws a competitive landscape for the Healthcare industry. The Global Cord Stem Cell banking business report includes market shares for global, Europe, North America, Asia Pacific and South America.

Market Definition: Global Cord Stem Cell Banking Market

Cord stem cells banking is nothing but the storing of the cord blood cell contained in the umbilical cord and placenta of a newborn child. This cord blood contains the stem cells which can be used in future to treat disease such as leukemia, thalassemia, autoimmune diseases, and inherited metabolic disorders, and few others.

Segmentation: Global Cord Stem Cell Banking Market

Cord Stem Cell banking Market : By Storage Type

Cord Stem Cell banking Market : By Product Type

Cord Stem Cell banking Market : By Service Type

Cord Stem Cell banking Market : By Indication

Cord Stem Cell banking Market : By Source

Cord Stem Cell banking Market : By Geography

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Key Developments in the Cord Stem Cell banking Market:

Cord Stem Cell banking Market : Drivers

Cord Stem Cell banking Market : Restraint

Competitive Analysis: Global Cord Stem Cell Banking Market

Global cord stem cell banking market is highly fragmented and the major players have used various strategies such as new product launches, expansions, agreements, joint ventures, partnerships, acquisitions and others to increase their footprints in this market. The report includes market shares of cord stem cell banking market for Global, Europe, North America, Asia Pacific, South America and Middle East & Africa.

Key benefits of buying the Cord Stem Cell banking Market Report:

This Cord Stem Cell banking Market report will enable both of the sides in market be an established firm or a relative new entrant. It helps the established firms to know about the moves which are being performed by their competitors and also helps the new entrants by educating them about the market situations and the industry trends. This Cord Stem Cell banking Market report is quite fruitful in helping to understand the market definition and all the aspects of the market including the CAGR value and key profiles.

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Cord Stem Cell banking Market 2020-2026 Booming With Healthy CAGR || Key Players Cryo-Save AG, Lifecell, StemCyte India Therapeutics Pvt. Ltd,...

NEW YORK, Feb. 13, 2020 /PRNewswire/ --Actinium Pharmaceuticals, Inc. (NYSE AMERICAN: ATNM) ("Actinium") announced today that presentations from its targeted conditioning portfolio have been accepted for presentation at the 2020 Transplantation & Cellular Therapy (TCT) Meetings, which brings together thousands of transplant professionals from over 500 transplant centers worldwide. TCT is being held February 19-23, 2020 at the Marriott World Center in Orlando, Florida. Notably, data from the pivotal Phase 3 SIERRA trial of Iomab-B have been selected for an oral presentation.

"We are excited that Iomab-B and the SIERRA trial have once again been selected as an oral presentation at TCT," said Dr. Mark Berger, Chief Medical Officer of Actinium. "We look forward to highlighting the potential benefit that Iomab-B can provide to a patient population with active disease who are otherwise ineligible for BMT. We are confident these findings will be received with great enthusiasm. TCT, which assembles leading transplant physicians from top centers in the United States and worldwide, is the ideal venue to showcase the extremely encouraging findings from the SIERRA trial thus far. In addition, our other conference activities are expected to provide significant exposure for this important trial and invaluable interactions with BMT thought leaders. Through the SIERRA trial, we aspire to change the treatment paradigm for older patients with relapsed or refractory AML to make potentially curative BMT via Iomab-B the standard of care for this patient population that continues to have poor outcomes."

Actinium's TCT Presentations:

Late Breaking Oral Presentation:

Poster Presentation:

About the SIERRA TrialThe SIERRA trial (Study ofIomab-B inElderlyRelapse/RefractoryAcute Myeloid Leukemia) is the only randomized Phase 3 trial that offers BMT (Bone Marrow Transplant) as an option for older patients with active, relapsed or refractory AML or acute myeloid leukemia. BMT is the only potentially curative treatment option for older patients with active relapsed or refractory AML and there is no standard of care for this indication other than salvage therapies. Iomab-B is an ARC (Antibody Radiation-Conjugate) comprised of the anti-CD45 antibody apamistamab and the radioisotope I-131 (Iodine-131). The 20 active SIERRA trial sites in the U.S. and Canada represent many of the leading bone marrow transplant centers by volume. For more information, visit http://www.sierratrial.com.

About Transplantation & Cellular Therapy Meetings (TCT) TCT, formerly known as the BMT Tandem Meetings, are the combined annual meetings of the American Society for Blood and Marrow Transplantation (ASBMT) and the Center for International Blood & Marrow Transplant Research (CIBMTR).Each year the conference brings together several thousand investigators, clinicians, researchers, nurses and other allied health professionals from over 500 transplant centers from over 50 countries around a full scientific program focused on bone marrow transplant and cellular therapies.

About Actinium Pharmaceuticals, Inc. (NYSE: ATNM)Actinium Pharmaceuticals, Inc. is a clinical-stage biopharmaceutical company developing ARCs or Antibody Radiation-Conjugates, which combine the targeting ability of antibodies with the cell killing ability of radiation. Actinium's lead application for our ARCs is targeted conditioning, which is intended to selectively deplete a patient's disease or cancer cells and certain immune cells prior to a BMT or Bone Marrow Transplant, Gene Therapy or Adoptive Cell Therapy (ACT) such as CAR-T to enable engraftment of these transplanted cells with minimal toxicities. With our ARC approach, we seek to improve patient outcomes and access to these potentially curative treatments by eliminating or reducing the non-targeted chemotherapy that is used for conditioning in standard practice currently. Our lead product candidate, I-131 apamistamab (Iomab-B) is being studied in the ongoing pivotal Phase 3Study ofIomab-B inElderlyRelapsed orRefractoryAcute Myeloid Leukemia (SIERRA) trial for BMT conditioning. The SIERRA trial is over fifty percent enrolled and promising single-agent, feasibility and safety data has been highlighted at ASH, TCT, ASCO and SOHO annual meetings. I-131 apamistamab will also be studied as a targeted conditioning agent in a Phase 1/2 anti-HIV stem cell gene therapy with UC Davis and is expected to be studied with a CAR-T therapy in 2020. In addition, we are developing a multi-disease, multi-target pipeline of clinical-stage ARCs targeting the antigens CD45 and CD33 for targeted conditioning and as a therapeutic either in combination with other therapeutic modalities or as a single agent for patients with a broad range of hematologic malignancies including acute myeloid leukemia, myelodysplastic syndrome and multiple myeloma. Ongoing combination trials include our CD33 alpha ARC, Actimab-A, in combination with the salvage chemotherapy CLAG-M and the Bcl-2 targeted therapy venetoclax. Underpinning our clinical programs is our proprietary AWE (Antibody Warhead Enabling) technology platform. This is where our intellectual property portfolio of over 100 patents, know-how, collective research and expertise in the field are being leveraged to construct and study novel ARCs and ARC combinations to bolster our pipeline for strategic purposes. Our AWE technology platform is currently being utilized in a collaborative research partnership with Astellas Pharma, Inc. Website: https://www.actiniumpharma.com/

Forward-Looking Statements for Actinium Pharmaceuticals, Inc.

This press release may contain projections or other "forward-looking statements" within the meaning of the "safe-harbor" provisions of the private securities litigation reform act of 1995 regarding future events or the future financial performance of the Company which the Company undertakes no obligation to update. These statements are based on management's current expectations and are subject to risks and uncertainties that may cause actual results to differ materially from the anticipated or estimated future results, including the risks and uncertainties associated with preliminary study results varying from final results, estimates of potential markets for drugs under development, clinical trials, actions by the FDA and other governmental agencies, regulatory clearances, responses to regulatory matters, the market demand for and acceptance of Actinium's products and services, performance of clinical research organizations and other risks detailed from time to time in Actinium's filings with the Securities and Exchange Commission (the "SEC"), including without limitation its most recent annual report on form 10-K, subsequent quarterly reports on Forms 10-Q and Forms 8-K, each as amended and supplemented from time to time.

Contacts:

Investors:Hans Vitzthum LifeSci Advisors, LLCHans@LifeSciAdvisors.com(617) 535-7743

Media:Alisa Steinberg, Director, IR & Corp Commsasteinberg@actiniumpharma.com(646) 237-4087

SOURCE Actinium Pharmaceuticals, Inc.

http://www.actiniumpharma.com/

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Actinium to Highlight Targeted Conditioning Portfolio at 2020 Transplantation & Cellular Therapy Annual Meeting; Phase 3 SIERRA Trial Preliminary...

There are two different types of stem cell transplants:

To understand these treatments, it helps to know about bone marrow and stem cells.

Bone marrow is part of our immune system which protects us from infection and disease. It is found inside our bones, mainly in the hip bone and the breast bone. The bone marrow is where stem cells are made.

Stem cells are blood cells at the earliest stage of development. All our blood cells develop from stem cells in the bone marrow. Stem cells stay inside the bone marrow and when they are fully developed they go into the bloodstream.

Blood cells do not live long. The bone marrow normally makes millions of new blood cells every day to replace blood cells as they are needed.

There are three main types of blood cells:

There are two main types of white blood cell. These are called neutrophils and lymphocytes. Neutrophils are the most common. You will hear your doctor or nurse talk about your neutrophil count during your treatment.

Read more:
What are stem cells and bone marrow? - Macmillan Cancer ...

NEW YORK, Feb. 11, 2020 (GLOBE NEWSWIRE) -- BrainStorm Cell Therapeutics, Inc., (NASDAQ:BCLI), a leading developer of adult stem cell therapies for neurodegenerative diseases, today announced that the Company recently held a high level meeting with the U.S. Food and Drug Administration (FDA) to discuss potential NurOwn regulatory pathways for approval in ALS. Repeated intrathecal administration of NurOwn (autologous MSC-NTF cells) is currently being evaluated in a fully enrolled Phase 3 pivotal trial in ALS (NCT03280056).

In the planned meeting with senior Center for Biologics Evaluation and Research (CBER) leadership and several leading U.S. ALS experts, the FDA confirmed that the fully enrolled Phase 3 ALS trial is collecting relevant data critical to the assessment of NurOwn efficacy. The FDA indicated that they will look at the "totality of the evidence" in the expected Phase 3 clinical trial data. Furthermore, based on their detailed data assessment, they are committed to work collaboratively with BrainStorm to identify a regulatory pathway forward, including opportunities to expedite statistical review of data from the Phase 3 trial.

Both the FDA and BrainStorm acknowledged the urgent unmet need and the shared goal of moving much needed therapies for ALS forward as quickly as possible.

This is a key turning point in ourworktowardprovidingALSpatientswith a potential new therapy,said ChaimLebovits, President and CEO ofBrainStorm. We commend the FDA foritscommitmentto the ALS communityandtofacilitating the development, and we ultimately hope, the approvalofNurOwn.The entire BrainStorm team is grateful for the ongoing and conscientious collaboration in the quest to beat ALS.

Ralph Kern, MD, MHSc, Chief Operating Officer and Chief Medical Officer, stated, The entire team at BrainStorm has collectively worked to ensure that we conduct the finest, science-based clinical trials. We had the opportunity to communicate with Senior Leadership at the FDA and discuss how we can work together to navigate the approval process forward along a novel pathway. We appreciate their willingness and receptiveness to consider innovative approaches as we all seek to better serve the urgent unmet medical needs of the ALS community.

Brian Wallach, Co-Founder of I AM ALS stated: There is nothing more important to those living with ALS than having access to therapies that effectively combat this fatal disease. We have been working with BrainStorm for months now because we believe that NurOwn is a potentially transformative therapy in this fight. We were privileged to represent the patient voice at this meeting and are truly grateful to the company and the FDA for this critical agreement. This is a truly important moment of hope and we look forward to seeing both the Phase III data and the hopeful approval of NurOwn as soon as is possible.

About NurOwnNurOwn (autologous MSC-NTF cells) represent a promising investigational approach to targeting disease pathways important in neurodegenerative disorders. MSC-NTF cells are produced from autologous, bone marrow-derived mesenchymal stem cells (MSCs) that have been expanded and differentiated ex vivo. MSCs are converted into MSC-NTF cells by growing them under patented conditions that induce the cells to secrete high levels of neurotrophic factors. Autologous MSC-NTF cells can effectively deliver multiple NTFs and immunomodulatory cytokines directly to the site of damage to elicit a desired biological effect and ultimately slow or stabilize disease progression. NurOwn is currently being evaluated in a Phase 3 ALS randomized placebo-controlled trial and in a Phase 2 open-label multicenter trial in Progressive MS.

About BrainStorm Cell Therapeutics Inc.BrainStorm Cell Therapeutics Inc.is a leading developer of innovative autologous adult stem cell therapeutics for debilitating neurodegenerative diseases. The Company holds the rights to clinical development and commercialization of the NurOwnCellular Therapeutic Technology Platform used to produce autologous MSC-NTF cells through an exclusive, worldwide licensing agreement as well as through its own patents, patent applications and proprietary know-how. Autologous MSC-NTF cells have received Orphan Drug status designation from theU.S. Food and Drug Administration(U.S.FDA) and theEuropean Medicines Agency(EMA) in ALS. BrainStorm has fully enrolled the Phase 3 pivotal trial in ALS (NCT03280056), investigating repeat-administration of autologous MSC-NTF cells at six sites in the U.S., supported by a grant from theCalifornia Institute for Regenerative Medicine(CIRM CLIN2-0989). The pivotal study is intended to support a BLA filing for U.S.FDAapproval of autologous MSC-NTF cells in ALS. BrainStorm received U.S.FDAclearance to initiate a Phase 2 open-label multi-center trial of repeat intrathecal dosing of MSC-NTF cells in Progressive Multiple Sclerosis (NCT03799718) inDecember 2018and has been enrolling clinical trial participants sinceMarch 2019. For more information, visit the company'swebsite.

Safe-Harbor Statement

Statements in this announcement other than historical data and information, including statements regarding future clinical trial enrollment and data, constitute "forward-looking statements" and involve risks and uncertainties that could causeBrainStorm Cell Therapeutics Inc.'sactual results to differ materially from those stated or implied by such forward-looking statements. Terms and phrases such as "may", "should", "would", "could", "will", "expect", "likely", "believe", "plan", "estimate", "predict", "potential", and similar terms and phrases are intended to identify these forward-looking statements. The potential risks and uncertainties include, without limitation, BrainStorms need to raise additional capital, BrainStorms ability to continue as a going concern, regulatory approval of BrainStorms NurOwn treatment candidate, the success of BrainStorms product development programs and research, regulatory and personnel issues, development of a global market for our services, the ability to secure and maintain research institutions to conduct our clinical trials, the ability to generate significant revenue, the ability of BrainStorms NurOwn treatment candidate to achieve broad acceptance as a treatment option for ALS or other neurodegenerative diseases, BrainStorms ability to manufacture and commercialize the NurOwn treatment candidate, obtaining patents that provide meaningful protection, competition and market developments, BrainStorms ability to protect our intellectual property from infringement by third parties, heath reform legislation, demand for our services, currency exchange rates and product liability claims and litigation,; and other factors detailed in BrainStorm's annual report on Form 10-K and quarterly reports on Form 10-Q available athttp://www.sec.gov. These factors should be considered carefully, and readers should not place undue reliance on BrainStorm's forward-looking statements. The forward-looking statements contained in this press release are based on the beliefs, expectations and opinions of management as of the date of this press release. We do not assume any obligation to update forward-looking statements to reflect actual results or assumptions if circumstances or management's beliefs, expectations or opinions should change, unless otherwise required by law. Although we believe that the expectations reflected in the forward-looking statements are reasonable, we cannot guarantee future results, levels of activity, performance or achievements.

CONTACTS

Corporate:Uri YablonkaChief Business OfficerBrainStorm Cell Therapeutics Inc.Phone: 646-666-3188uri@brainstorm-cell.com

Media:Sean LeousWestwicke/ICR PRPhone: +1.646.677.1839sean.leous@icrinc.com

Or

Katie Gallagher | Account Director, PR and MarketingLaVoieHealthScience Strategic CommunicationsO: 617-374-8800 x109M: 617-792-3937kgallagher@lavoiehealthscience.com

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BrainStorm Cell Therapeutics and FDA Agree to Potential NurOwn Regulatory Pathway for Approval in ALS - GlobeNewswire

Bone marrow aspiration and trephine biopsy are usually performed on the back of the hipbone, or posterior iliac crest. An aspirate can also be obtained from the sternum (breastbone). For the sternal aspirate, the patient lies on their back, with a pillow under the shoulder to raise the chest. A trephine biopsy should never be performed on the sternum, due to the risk of injury to blood vessels, lungs or the heart.

The need to selectively isolate and concentrate selective cells, such as mononuclear cells, allogeneic cancer cells, T cells and others, is driving the market. Over 30,000 bone marrow transplants occur every year. The explosive growth of stem cells therapies represents the largest growth opportunity for bone marrow processing systems.

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Europe and North America spearheaded the market as of 2018, by contributing over 74.0% to the overall revenue. Majority of stem cell transplants are conducted in Europe, and it is one of the major factors contributing to the lucrative share in the cell harvesting system market.

In 2018, North America dominated the research landscape as more than 54.0% of stem cell clinical trials were conducted in this region. The region also accounts for the second largest number of stem cell transplantation, which is further driving the demand for harvesting in the region.

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Asia Pacific is anticipated to witness lucrative growth over the forecast period, owing to rising incidence of chronic diseases and increasing demand for stem cell transplantation along with stem cell-based therapy. Japan and China are the biggest markets for harvesting systems in Asia Pacific. Emerging countries such as Mexico, South Korea, and South Africa are also expected to report lucrative growth over the forecast period. Growing investment by government bodies on stem cell-based research and increase in aging population can be attributed to the increasing demand for these therapies in these countries.

Major players operating in the global bone marrow processing systems market are ThermoGenesis (Cesca Therapeutics inc.), RegenMed Systems Inc., MK Alliance Inc., Fresenius Kabi AG, Harvest Technologies (Terumo BCT), Arthrex, Inc. and others.

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Bone Marrow Processing Systems Market Status and Trend: Top Key Players, Industry Dynamics, And Regional Scope 2025 - Med News Ledger

Press Release

Gosselies, Belgium, 11February 2020, 7am CET BONE THERAPEUTICS (Euronext Brussels and Paris: BOTHE), the leading biotech company focused on the development of innovative cell and biological therapies to address high unmet medical needs in orthopaedics and bone diseases, announces that the Company will today present at the Annual Meeting of the Orthopaedic Research Society (ORS), in Phoenix (Arizona), USA.

The Annual ORS Meeting is the yearly summit organised by the international Orthopaedic Research Society, gathering scientists, clinicians and entrepreneurs to advance musculoskeletal research and orthopaedic care. In the oral presentation, Bone Therapeutics will highlight additional preclinical in vitro and in vivo results demonstrating the potent osteogenic properties of its allogeneic bone-forming cell therapy platform, ALLOB, to promote bone-formation and improve fracture healing in relevant models.

ALLOB is the Companys allogeneic product that consists of human bone-forming cells derived from cultured bone marrow mesenchymal stem cells of healthy adult donors, and is manufactured through a proprietary, scalable production process. ALLOB successfully completed two Phase II studies in two indications and the Company has started the CTA submission procedure with the regulatory authorities in Europe to start the PhaseIIb clinical trial in patients with difficult-to-heal tibial fractures.

Presentation Details:

Title: ALLOB, A Ready-to-use and Injectable Cryopreserved Allogenic Cell Therapy Product Derived from Bone Marrow Mesenchymal Stem Cells, Displays Potent Osteoinductive and Osteogenic Properties, Leading to Enhanced Bone Fracture HealingSpeaker: Sandra Pietri, PhD Associate Director R&D, Bone TherapeuticsSession: Podium Session 58 Bone Cell Signaling and TreatmentsDate: Tuesday, 11 February 2020Time: 8:00am 9:00am MST (4pm 5 pm CET)Location: Room West 301D, Phoenix Convention Center, Phoenix, Arizona, USA

About Bone Therapeutics

Bone Therapeutics is a leading biotech company focused on the development of innovative products to address high unmet needs in orthopedics and bone diseases. The Company has a broad, diversified portfolio of bone cell therapies and an innovative biological product in later-stage clinical development, which target markets with large unmet medical needs and limited innovation.

Bone Therapeutics is developing an off-the-shelf protein solution, JTA-004, which is entering Phase III development for the treatment of pain in knee osteoarthritis. Positive Phase IIb efficacy results in patients with knee osteoarthritis showed a statistically significant improvement in pain relief compared to a leading viscosupplement. The clinical trial application (CTA) to start the pivotal Phase III program has been submitted to the regulatory authorities in Europe and the trial is expected to start in Q1 2020.

Bone Therapeutics other core technology is based on its cutting-edge allogeneic cell therapy platform (ALLOB) which can be stored at the point of use in the hospital, and uses a unique, proprietary approach to bone regeneration, which turns undifferentiated stem cells from healthy donors into bone-forming cells. These cells can be administered via a minimally invasive procedure, avoiding the need for invasive surgery, and are produced via a proprietary, scalable cutting-edge manufacturing process. Following the promising Phase IIa efficacy and safety results for ALLOB, the Company has started the CTA submission procedure with the regulatory authorities in Europe to start the Phase IIb clinical trial with ALLOB in patients with difficult-to-heal fractures, using its optimized production process.

The ALLOB platform technology has multiple applications and will continue to be evaluated in other indications including spinal fusion, osteotomy and maxillofacial and dental applications.

Bone Therapeutics cell therapy products are manufactured to the highest GMP (Good Manufacturing Practices) standards and are protected by a broad IP (Intellectual Property) portfolio covering ten patent families as well as knowhow. The Company is based in the BioPark in Gosselies, Belgium. Further information is available at http://www.bonetherapeutics.com.

Story continues

Contacts

Bone Therapeutics SAMiguel Forte, MD, PhD, Chief Executive OfficerJean-Luc Vandebroek, Chief Financial OfficerTel: +32 (0) 71 12 10 00investorrelations@bonetherapeutics.com

International Media Enquiries:Consilium Strategic CommunicationsMarieke VermeerschTel: +44 (0) 20 3709 5701bonetherapeutics@consilium-comms.com

For French Media and Investor Enquiries:NewCap Investor Relations & Financial CommunicationsPierre Laurent, Louis-Victor Delouvrier and Arthur RouillTel: + 33 (0)1 44 71 94 94bone@newcap.eu

Certain statements, beliefs and opinions in this press release are forward-looking, which reflect the Company or, as appropriate, the Company directors` current expectations and projections about future events. By their nature, forward-looking statements involve a number of risks, uncertainties and assumptions that could cause actual results or events to differ materially from those expressed or implied by the forward-looking statements. These risks, uncertainties and assumptions could adversely affect the outcome and financial effects of the plans and events described herein. A multitude of factors including, but not limited to, changes in demand, competition and technology, can cause actual events, performance or results to differ significantly from any anticipated development. Forward looking statements contained in this press release regarding past trends or activities should not be taken as a representation that such trends or activities will continue in the future. As a result, the Company expressly disclaims any obligation or undertaking to release any update or revisions to any forward-looking statements in this press release as a result of any change in expectations or any change in events, conditions, assumptions or circumstances on which these forward-looking statements are based. Neither the Company nor its advisers or representatives nor any of its subsidiary undertakings or any such person`s officers or employees guarantees that the assumptions underlying such forward-looking statements are free from errors nor does either accept any responsibility for the future accuracy of the forward-looking statements contained in this press release or the actual occurrence of the forecasted developments. You should not place undue reliance on forward-looking statements, which speak only as of the date of this press release.

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Bone Therapeutics to present preclinical data on the osteogenic properties of ALLOB in bone repair at the Annual Meeting of the Orthopaedic Research...

'This is the beginning of my new life'

I thought my cancer diagnosis was a death sentence, said Lynnette Williams-Briggs, 60, of Seaford, Delaware, who was diagnosed with advanced B-cell lymphoma in 2018.

Briggs cancer is now in complete remission thanks to successful chimeric antigen receptor CAR-T cell therapy she received in August atChristianaCaresHelen F. Graham Cancer Center & Research InstitutesBone Marrow and Stem Cell Transplant Program.

I can breathe again. This is the beginning of my new life, Williams-Briggs said following the treatment that restored her hope for a second chance at life.

She was the first patient to receive CAR-T cell therapy in Delaware. A second patient was treated in December 2019, and doctors are preparing several more patients for CAR-T cell transplants in coming weeks.

The U.S. Food and Drug Administration has approved CAR-T cell therapy to treat patients like Williams-Briggs with highly resistant, B-cell blood cancers, for whom other available options have failed.

CAR-T cell therapy is only available at select cancer centers with specialized expertise in cellular therapies that are recognized for quality by the Foundation for the Accreditation of Cellular Therapy.

The Graham Cancer Centers Bone Marrow and Stem Cell Transplant Program is the only one in Delaware that is certified to treat adult patients with advanced B-cell lymphomas and children and young adults (to age 25) with acute lymphoblastic leukemia, using an FDA-approved drug.

CAR-T cell therapy is highly personalized medicine that attempts to use the bodys natural defenses to fight against cancer. The transplant team extracts millions of T cells, from the patients bloodstream, using a specialized blood filtration process called leukapheresis. The collected T cells are flash-frozen and sent to a lab for reprogramming, and then later infused back into the patient using a process similar to a blood transfusion.

The therapy is considered a living drug with potential benefits that could last for years.

When we first met Ms. Williams-Briggs, her cancer had progressed rapidly despite a third round of chemotherapy, so we knew we had to move quickly, said Graham Cancer Center Hematologist Peter Abdelmessieh, D.O. He worked closely with the bone marrow/stem cell transplant team and Graham Cancer Center leadership over the course of just eight months to develop the CAR-T cell therapy program.

It was truly a team effort to bring CAR-T cell therapy to our community so quickly, Dr. Abdelmessieh said.

CAR-T cell therapy has been extremely effective for many patients like Williams-Briggs, whose PET scan at 90 days confirmed her remission.

The supercharged T cells Williams-Briggs received were genetically modified in the lab to sprout new surface tools that improve their ability to recognize, latch onto and destroy other cells (including cancer cells) that express a specific antigen called CD19. These reprogrammed cells continue to multiply in the body after treatment, remaining on guard to seek and destroy any new cancers that might develop.

With continued success in increasing numbers of patients, it is conceivable that in the not too distant future, CAR-T cell therapy could become the new standard of care, replacing chemotherapy and stem cell transplants for many cancers, Dr. Abdelmessieh said.

The extended recovery period for CAR-T cell therapy is generally two to three months. After the infusion, patients may spend up to three weeks in the hospital to monitor treatment response and any side effects.

During the first 30 days after leaving the hospital, patients are required to remain close to the treatment center for regular follow-up care.

The ability to offer potentially life-saving CAR-T cell therapy is one more reason our patients need not travel further than the Graham Cancer Center for state-of-the-science cancer treatment, said Nicholas J. Petrelli, M.D., Bank of America medical director of the Helen F. Graham Cancer Center & Research Institute.

The Bone Marrow and Stem Cell Transplant Program is an outstanding example of how well our clinical teams work together to drive innovation in patient care.

Although patients normally do not experience the side effects associated with chemotherapy, such as nausea, vomiting or hair loss, CAR-T cell therapy is not without risks. A common side effect, which Williams-Briggs also experienced, is cytokine release syndrome. This is an inflammatory condition that causes flu-like symptoms that may be mild or severe.

The transplant team responded quickly to manage her symptoms while she received expert care on the Bone Marrow Transplant and Oncology unit at Christiana Hospital.

From the moment I first met with my transplant team, I felt like I was part of one big loving family that extended beyond my own loved ones, Williams-Briggs said.

Dr. Abdelmessieh and my ChristianaCare family gave me hope to keep fighting when I really didnt think I would make it. I would have driven anywhere to get life-saving treatment, but I am thankful that I did not have to. I found my miracle closer to home.

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First CAR-T cell cancer therapy patient in Delaware - Dover Post

A research team featuring an expert from City University of Hong Kong (CityU) has developed a novel dual approach for the first time for concurrently rejuvenating both the cardiac muscle and vasculature of the heart by utilising two types of stem cells. The results give hope for a new treatment for repairing myocardial infarction (MI) heart.

Dr Ban Ki-won, Assistant Professor of the Department of Biomedical Sciences and his research team, including researchers from Konkuk University, The Catholic University of Korea, Pohang University of Science and Technology and T&R Biofab in South Korea, have conducted the first study of two distinct stem cell effects for cardiac repair. The two major types of stem cells employed are human bone marrow derived mesenchymal stem cells (hMSCs) and cardiomyocytes derived from human induced pluripotent stem cells (hiPSC-CMs). The research findings have been published in Nature Communications in a paper titled Dual stem cell therapy synergistically improves cardiac function and vascular regeneration following myocardial infarction.

Both cardiac muscles and vasculatures are severely damaged following MI, and so the therapeutic strategies should focus on comprehensive repair of both at the same time. But the current strategies only focus on either one, Dr Ban said.

Dr Ban said that, with limited therapeutic options for severe MI and advanced heart failure, a heart transplant was the last resort. However, such an operation is very risky, costly and subject to limited supply of suitable donors. Therefore, stem cell-based therapy has emerged as a promising therapeutic option.

In the study, the hiPSC-CMs were injected directly into the border zone of the rats heart, while the hMSCs-loaded patch was implanted on top of the infarct area, like a bandage. The results showed that this dual approach led to a significant improvement of cardiac function and an enhancement of vessel formation on a MI heart.

We believe this novel dual approach can potentially provide translational and clinical benefit to the field of cardiac regeneration. Based on the same principle, the protocol may also be utilised for repairing other organs including the brain, liver and pancreas in which multiple types of stem cells co-exist, Dr Ban added.

The research team is working on follow-up studies in larger animal models such as pigs. The patent application for this research result has been submitted.

Read more:
First dual stem cell therapy jointly developed by City University of Hong Kong brings new hope for cardiac repair - QS WOW News

NEW YORK, Feb. 11, 2020 (GLOBE NEWSWIRE) -- BrainStorm Cell Therapeutics, Inc., (BCLI), a leading developer of adult stem cell therapies for neurodegenerative diseases, today announced that the Company recently held a high level meeting with the U.S. Food and Drug Administration (FDA) to discuss potential NurOwn regulatory pathways for approval in ALS. Repeated intrathecal administration of NurOwn (autologous MSC-NTF cells) is currently being evaluated in a fully enrolled Phase 3 pivotal trial in ALS (NCT03280056).

In the planned meeting with senior Center for Biologics Evaluation and Research (CBER) leadership and several leading U.S. ALS experts, the FDA confirmed that the fully enrolled Phase 3 ALS trial is collecting relevant data critical to the assessment of NurOwn efficacy. The FDA indicated that they will look at the "totality of the evidence" in the expected Phase 3 clinical trial data. Furthermore, based on their detailed data assessment, they are committed to work collaboratively with BrainStorm to identify a regulatory pathway forward, including opportunities to expedite statistical review of data from the Phase 3 trial.

Both the FDA and BrainStorm acknowledged the urgent unmet need and the shared goal of moving much needed therapies for ALS forward as quickly as possible.

This is a key turning point in ourworktowardprovidingALSpatientswith a potential new therapy,said ChaimLebovits, President and CEO ofBrainStorm. We commend the FDA foritscommitmentto the ALS communityandtofacilitating the development, and we ultimately hope, the approvalofNurOwn.The entire BrainStorm team is grateful for the ongoing and conscientious collaboration in the quest to beat ALS.

Ralph Kern, MD, MHSc, Chief Operating Officer and Chief Medical Officer, stated, The entire team at BrainStorm has collectively worked to ensure that we conduct the finest, science-based clinical trials. We had the opportunity to communicate with Senior Leadership at the FDA and discuss how we can work together to navigate the approval process forward along a novel pathway. We appreciate their willingness and receptiveness to consider innovative approaches as we all seek to better serve the urgent unmet medical needs of the ALS community.

Brian Wallach, Co-Founder of I AM ALS stated: There is nothing more important to those living with ALS than having access to therapies that effectively combat this fatal disease. We have been working with BrainStorm for months now because we believe that NurOwn is a potentially transformative therapy in this fight. We were privileged to represent the patient voice at this meeting and are truly grateful to the company and the FDA for this critical agreement. This is a truly important moment of hope and we look forward to seeing both the Phase III data and the hopeful approval of NurOwn as soon as is possible.

About NurOwnNurOwn (autologous MSC-NTF cells) represent a promising investigational approach to targeting disease pathways important in neurodegenerative disorders. MSC-NTF cells are produced from autologous, bone marrow-derived mesenchymal stem cells (MSCs) that have been expanded and differentiated ex vivo. MSCs are converted into MSC-NTF cells by growing them under patented conditions that induce the cells to secrete high levels of neurotrophic factors. Autologous MSC-NTF cells can effectively deliver multiple NTFs and immunomodulatory cytokines directly to the site of damage to elicit a desired biological effect and ultimately slow or stabilize disease progression. NurOwn is currently being evaluated in a Phase 3 ALS randomized placebo-controlled trial and in a Phase 2 open-label multicenter trial in Progressive MS.

About BrainStorm Cell Therapeutics Inc.BrainStorm Cell Therapeutics Inc.is a leading developer of innovative autologous adult stem cell therapeutics for debilitating neurodegenerative diseases. The Company holds the rights to clinical development and commercialization of the NurOwnCellular Therapeutic Technology Platform used to produce autologous MSC-NTF cells through an exclusive, worldwide licensing agreement as well as through its own patents, patent applications and proprietary know-how. Autologous MSC-NTF cells have received Orphan Drug status designation from theU.S. Food and Drug Administration(U.S.FDA) and theEuropean Medicines Agency(EMA) in ALS. BrainStorm has fully enrolled the Phase 3 pivotal trial in ALS (NCT03280056), investigating repeat-administration of autologous MSC-NTF cells at six sites in the U.S., supported by a grant from theCalifornia Institute for Regenerative Medicine(CIRM CLIN2-0989). The pivotal study is intended to support a BLA filing for U.S.FDAapproval of autologous MSC-NTF cells in ALS. BrainStorm received U.S.FDAclearance to initiate a Phase 2 open-label multi-center trial of repeat intrathecal dosing of MSC-NTF cells in Progressive Multiple Sclerosis (NCT03799718) inDecember 2018and has been enrolling clinical trial participants sinceMarch 2019. For more information, visit the company'swebsite.

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Safe-Harbor Statement

Statements in this announcement other than historical data and information, including statements regarding future clinical trial enrollment and data, constitute "forward-looking statements" and involve risks and uncertainties that could causeBrainStorm Cell Therapeutics Inc.'sactual results to differ materially from those stated or implied by such forward-looking statements. Terms and phrases such as "may", "should", "would", "could", "will", "expect", "likely", "believe", "plan", "estimate", "predict", "potential", and similar terms and phrases are intended to identify these forward-looking statements. The potential risks and uncertainties include, without limitation, BrainStorms need to raise additional capital, BrainStorms ability to continue as a going concern, regulatory approval of BrainStorms NurOwn treatment candidate, the success of BrainStorms product development programs and research, regulatory and personnel issues, development of a global market for our services, the ability to secure and maintain research institutions to conduct our clinical trials, the ability to generate significant revenue, the ability of BrainStorms NurOwn treatment candidate to achieve broad acceptance as a treatment option for ALS or other neurodegenerative diseases, BrainStorms ability to manufacture and commercialize the NurOwn treatment candidate, obtaining patents that provide meaningful protection, competition and market developments, BrainStorms ability to protect our intellectual property from infringement by third parties, heath reform legislation, demand for our services, currency exchange rates and product liability claims and litigation,; and other factors detailed in BrainStorm's annual report on Form 10-K and quarterly reports on Form 10-Q available athttp://www.sec.gov. These factors should be considered carefully, and readers should not place undue reliance on BrainStorm's forward-looking statements. The forward-looking statements contained in this press release are based on the beliefs, expectations and opinions of management as of the date of this press release. We do not assume any obligation to update forward-looking statements to reflect actual results or assumptions if circumstances or management's beliefs, expectations or opinions should change, unless otherwise required by law. Although we believe that the expectations reflected in the forward-looking statements are reasonable, we cannot guarantee future results, levels of activity, performance or achievements.

CONTACTS

Corporate:Uri YablonkaChief Business OfficerBrainStorm Cell Therapeutics Inc.Phone: 646-666-3188uri@brainstorm-cell.com

Media:Sean LeousWestwicke/ICR PRPhone: +1.646.677.1839sean.leous@icrinc.com

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Katie Gallagher | Account Director, PR and MarketingLaVoieHealthScience Strategic CommunicationsO: 617-374-8800 x109M: 617-792-3937kgallagher@lavoiehealthscience.com

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BrainStorm Cell Therapeutics and FDA Agree to Potential NurOwn Regulatory Pathway for Approval in ALS - Yahoo Finance

Methionine is an amino acid found in meat, eggs, and dairy. Its absorbed by T-cells that are part of our immune system. Those cells are also believed to be the immune cells that attack our myelin, creating the nerve damage that results in multiple sclerosis.

In this study, mice eating less methionine had a reduced number of a certain type of T-cell, which led to a delay in disease onset and progression. The researchers believe reducing methionine intake can actually dampen the immune cells that cause disease, leading to better outcomes.

Changing a persons diet to reduce the amount of methionine (amino acid found in food) could delay the development and progression of inflammatory and autoimmune disorders, including multiple sclerosis (MS).

That finding was described in the study Methionine Metabolism Shapes T Helper Cell Responses through Regulation of Epigenetic Reprogramming, published recently in the journal Cell Metabolism.

Click here to read the full story.

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Unlike hematopoietic stem cell transplants, in which stem cells are removed from a patients bone marrow and later infused back into the bloodstream, mesenchymal stem cell transplants (MSCT) collect those stem cells from the patients spinal column and return them there. This study concludes that MSCT is safe and that cells delivered into the spinal cord produced a significantly slower disease progression rate than did cells delivered into the bloodstream.

Transplanting patients ownmesenchymal stem cellsis a safe therapeutic approach and can delay disease progression in people with MS, a meta-analysis review shows.

The study also showed that cells transplanted to the spinal cord (intrathecal injection) were associated with significantly slower disease progression rates, compared to cells delivered into the bloodstream.

Click here to read the full story.

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Why do neurologists often use spinal taps when determining whether someone has MS? This study provides one of the reasons.

People with MS have a more diverse set of immune cells in their cerebrospinal fluid (CSF), the fluid that bathes the central nervous system, but no such diversity is seen in their blood, a study reports. Instead, MS causes changes in the activation of immune cells in the blood.

The distinct set of immune cells in MS patients CSF shows enrichment of pro-inflammatory cells that promote disease severity in MS mouse models.

Click here to read the full story.

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Heres encouraging news about a possible treatment that can lower the number of brain lesions in someone with MS. Keep in mind this is only a Phase 2 trial. A Phase 3 trial isnt expected until later this year. However, a news release from research sponsor Sanofisays, This molecule may be the first B-cell-targeted MS therapy that not only inhibits the peripheral immune system, but also crosses the blood-brain barrier to suppress immune cells that have migrated into the brain.

The experimental BTK inhibitor SAR442168 showed an acceptable safety profile and met its primary endpoint a significant reduction in the number of new lesions visible on a brain imaging scan in a Phase 2 trial in people with MS, study results show.

SAR442168, formerly known as PRN2246, is an oral, small molecule being co-developed by Principia Biopharmaand Sanofi Genzyme. It works by inhibiting Brutons tyrosine kinase (BTK), a protein important for the proliferation of immune cells, particularly B-cells. By blocking BTK, it is expected that SAR442168 can reduce inflammation that damages the nervous system in people with MS.

Click here to read the full story.

Did you know that some of my columns from The MS Wire are now available as audio briefings? You can listen to them here.

***

Note: Multiple Sclerosis News Today is strictly a news and information website about the disease. It does not provide medical advice, diagnosis, or treatment. This content is not intended to be a substitute for professional medical advice, diagnosis, or treatment. Always seek the advice of your physician or other qualified health provider with any questions you may have regarding a medical condition. Never disregard professional medical advice or delay in seeking it because of something you have read on this website. The opinions expressed in this column are not those of Multiple Sclerosis News Today or its parent company, BioNews Services, and are intended to spark discussion about issues pertaining to multiple sclerosis.

Ed Tobias is a retired broadcast journalist. Most of his 40+ year career was spent as a manager with the Associated Press in Washington, DC. Tobias was diagnosed with Multiple Sclerosis in 1980 but he continued to work, full-time, meeting interesting people and traveling to interesting places, until retiring at the end of 2012.

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MS News that Caught My Eye Last Week: Methionine, MSCT, Spinal... - Multiple Sclerosis News Today

Research into alternative stem cell sources has identified urine derived renal progenitor cells (UdRPCs) as a possible option for use in regenerative kidney therapies in the future.

Scientists have demonstrated their protocol for the reproducible isolation of kidney stem cells from human urine. These urine derived renal progenitor cells (UdRPCs) could be used to provide easier access to stem cells for regenerative kidney therapies and modelling diseases for R&D.

A shortage of donor organs and the risks and pain associated with bone marrow stem cell extractions and third trimester amniotic fluid collection have encouraged researchers to find alternative sources of stem cells. According to scientists, several laboratories have indicated urine could be an alternative source, at least for kidney stem cells, so the researchers from Heinrich Heine University-Duesseldorf (HHU) Germany,set out to complete a comprehensive molecular and cellular analysis of these cells.

UdRPCs should be considered as the choice of renal stem cells for facilitating the study of nephrogenesis, nephrotoxicity, disease modelling and drug development

Their study, published in Scientific Reports, revealed that UdRPCs isolated from ten individuals express both markers typically seen in bone marrow-derived mesenchymal stem cells (MSCs) and renal stem cells. The renal stem cell markers, according to the paper, allow UdRPCs to be differentiated into cell types present in the kidney, eg, podocytes and the proximal and distal tubules. The study also showed that these progenitor cells have similar properties to amniotic fluid-derived stem cells (AFCs).

Wasco Wruck, bioinformatician and co-author of the study, said: It is amazing that these valuable cells can be isolated from urine and comparing all the genes expressed in UdRPCs with that derived from kidney biopies we could confirm their renal and renal progenitor cell properties and origin.

According to Martina Bohndorf, a study co-author, UdRPCs can also be easily and efficiently reprogrammed into induced pluripotent stem cells using a non-viral integration-free and safe method.

Dr James Adjaye, study senior author and professor at the Institute for Stem Cell Research and Regenerative Medicine (ISRM) in the medical faculty of HHU, revealed that one of the most promising options in the near future is the use of transplantable renal stem cells (UdRPCs) for treatment of kidney diseases as a complementary option to kidney organs. He concluded that human UdRPCs should be considered as the choice of renal stem cells for facilitating the study of nephrogenesis, nephrotoxicity, disease modelling and drug development.

Read more:
Kidney stem cells isolated from urine could be regenerative therapies - Drug Target Review

Anemia also known as iron-poor blood is a condition that develops when either the blood doesn't have enough red blood cells or the concentration of hemoglobin in red blood cells is very low. Hemoglobin is the iron-containing protein in red blood cells that carries oxygen from the lungs to the rest of the body. When there are fewer red blood cells than normal or low levels of hemoglobin, the body doesn't get enough oxygen-rich blood for healthy functioning, which is what causes the symptoms of anemia.

Anemia is the most common blood disorder in the United States, affecting nearly 3 million Americans, according to the Centers for Disease Control and Prevention (CDC).

The term anemia is a broad one that represents several hundred different conditions some of them mild and treatable, others that are quite serious, said Dr. Nancy Berliner, chief of hematology at Brigham and Women's Hospital in Boston. There are three reasons that people are anemic, Berliner said: Either their body can't make enough red blood cells, something is destroying the red blood cells faster than their body can make news ones or blood loss (from menstrual periods, colon polyps or a stomach ulcer, for example) is greater than blood cell production.

There are more than 400 different types of anemia, according to the Pacific Heart, Lung & Blood Institute. Here are a few of the more common and better understood types:

Iron-deficiency anemia: The most common form of anemia is caused by low-iron levels in the body. Humans need iron to make hemoglobin, and most of that iron comes from dietary sources. Iron-deficiency anemia can result from a poor diet or from blood loss through menstruation, surgery or internal bleeding.

Pregnancy also increases the body's need for iron because more blood is needed to supply oxygen to the developing fetus, which may quickly drain the body's available iron stores, leading to a deficit. Problems absorbing iron from food because of Crohn's disease or celiac disease can also result in anemia.

Vitamin deficiency anemia: Besides iron, the body also needs two different B-vitamins folate and B12 to make enough red blood cells. Not consuming enough B12 or folate in the diet or an inability to absorb enough of these vitamins can lead to deficient red blood cell production.

Sickle cell anemia or sickle cell disease (SDC): This inherited disease causes red blood cells to become crescent-shaped rather than round. Abnormally shaped red cells can break apart easily and clog small blood vessels, resulting in a shortage of red blood cells and episodes of pain, according to the Mayo Clinic. People become chronically anemic because the sickle-shaped red cells are not pliable and can't get through blood vessels to deliver oxygen, Berliner said.

SDC occurs most often in people from parts of the world where malaria is or was common, according to the CDC; the sickle cell trait may provide protection against severe forms of malaria. In the U.S., SDC affects an estimated 100,000 Americans.

Thalassemia: Thalassemia is an inherited blood disorder that results in lower-than-normal levels of hemoglobin. This type of anemia is caused by genetic mutations in one or more of the genes that control the production of hemoglobin, according to the National Heart, Lung & Blood Institute (NHLBI).

Aplastic anemia: Aplastic anemia is a rare, life-threatening condition that develops when bone marrow stops making enough new blood cells, including red cells, white cells and platelets.

Aplastic anemia may be caused by radiation and chemotherapy treatments, which can damage stem cells in bone marrow that produce blood cells. Some medications, exposure to toxic chemicals like pesticides, viral infections and autoimmune disorders can also affect bone marrow and slow blood cell production.

Hemolytic anemias: This disorder causes red blood cells to be destroyed faster than bone marrow can replace them. Hemolytic anemias may be caused by infections, leaky heart valves, autoimmune disorders or inherited abnormalities in red blood cells, according to the American Society of Hematology.

Anemia of inflammation: Also called anemia of chronic disease, anemia of inflammation commonly occurs in people with chronic conditions that cause inflammation. This includes people with infections, rheumatoid arthritis, inflammatory bowel disease, chronic kidney disease, HIV/AIDS and certain cancers, according to the National Institute of Diabetes and Digestive and Kidney Diseases.

When a person has a disease or infection that causes inflammation, the immune system responds in a way that changes how the body works, resulting in anemia. For example, inflammation suppresses the availability of iron, so the body may not use and store the mineral normally for healthy red blood cell production, Berliner said. Inflammation may also stop the kidneys from producing a hormone that promotes red blood cell production.

The risk for anemia is higher in people with a poor diet, intestinal disorders, chronic diseases and infections. Women who are menstruating or pregnant are also prone to the disorder.

The risk of anemia increases with age, and about 10% to 12% of people over 65 are anemic, Berliner said. But the condition is not a normal part of aging, so the cause should be investigated when it's diagnosed, she said. Older adults may develop anemia from chronic diseases, such as cancer, or iron-deficiency anemia from abnormal bleeding.

According to NHLBI, the following types of people have an increased risk of developing anemia:

Mild forms of anemia may not cause any symptoms. When signs and symptoms of anemia do occur, they may include the following, according to the NHLBI:

The first test used to diagnose anemia is a complete blood count, which measures different parts and features of the blood: It shows the number and average size of red blood cells, as well as the amount of hemoglobin. A lower-than-normal red blood cell count or low levels of hemoglobin indicate anemia is present.

If more testing is needed to determine the type of anemia, a blood sample can be examined under a microscope to check for abnormalities in the size and shape of the red cells, white cells and platelets.

Related: This man's taste buds disappeared because of a blood condition

The treatment of anemia depends on the specific type of anemia, Berliner said, and anemias caused by nutritional deficiencies respond well to changes in diet. People with iron-deficiency anemia may need to take supplemental iron for several months or longer to replenish blood levels of the mineral. Some people, especially pregnant women, may find it hard to take iron because it causes side effects, such as an upset stomach or constipation, Berliner said.

For vitamin-deficiency anemias, treatment with B12 or folate from supplements (or a B12 shot) and foods, can improve levels of these nutrients in the blood, Berliner said.

Serious problems, such as aplastic anemia, which involves bone marrow failure, may be treated with medications and blood transfusions. Severe forms of thalassemia might need frequent blood transfusions.

Treatment for sickle cell anemia may include pain medications, blood transfusions or a bone marrow transplant.

Additional resources:

This article is for informational purposes only, and is not meant to offer medical advice.

See the article here:
Anemia: Causes, symptoms and treatment - Livescience.com

Mesoblast Tenders Completed Biologics License Application

Mesoblast Limited (MESO) announced that it has filed a completed Biologics License Application (BLA) with the United States Food and Drug Administration for its lead allogeneic cell therapy Ryoncil. The therapy is aimed at treating children with steroid-refractory acute graft versus host disease (SR-aGVHD).

Mesoblast submitted the final module of its rolling BLA submission on January 31, 2020. This module covers various aspects related to manufacturing and quality control. The drug candidate currently has Fast Track designation assigned to it and on the basis of this tag, the company is now seeking the FDA to carry out Priority Review of its BLA.

Subject to the approval of the therapy, the company is looking to launch it in the US markets in 2020. CEO Dr. Silviu Itescu said, "This is a major corporate milestone for Mesoblast." The company is expected to use the insights gained from its Temcell product in Japan for the marketing of Ryoncil.

Acute Graft versus Host disease affects nearly 50 percent of patients given an allogeneic Bone Marrow transplant. It is estimated that nearly 30,000 patients undergo bone marrow transplants worldwide. The mortality rate for patients suffering from actual GVHD is close to 90 percent. Currently, there is no FDA approved treatment for this in the United States for children under 12.

Ryoncil has been tested on 309 children suffering from SR-aGVHD during three different studies. It was employed as salvage therapy on 241 children with SR-aGVHD (80% Grade C/D) who failed institutional standard of care. It has also been tested as first line therapy for an open label Phase 3 trial in 55 children with SR-aGVHD. RYONCIL, is an investigational therapy comprising culture-expanded mesenchymal stem cells. These stem cells are taken from the bone marrow of an unrelated donor. The drug is administered to patients as intravenous infusions.

Mesoblast specializes in developing allogeneic cellular medicines. The company uses its proprietary cell therapy technology platform for research and development purpose. It has strong drug pipeline with products such as Remestemcel-L, Revascor, MPC-06-ID and MPC-300-IV. Revascor and MPC-06-ID have completed patient enrollment for its Phase 3 trials. The former drug candidate is aimed at treating advanced chronic heart failure while the latter is targeted at treating chronic low back pain caused by degenerative disc disease. The companys Temcell and Alofisel drugs are already approved in Japan and Europe, respectively.

Mesoblast has posted strong operative results as well. The company had reported 46 percent growth in its revenue during the first quarter of 2020. Mesoblast ended the quarter with $34.5 million in cash while its pro forma cash in hand stood at $100 million. The company also reported its strategic partnership with Grunenthal, which entitles Mesoblast to receive up to $150 million in upfront and milestone payments. The collaboration will also result in commercialization milestone payments. Such milestone payments have the potential to cross $1 billion mark.

Mesoblast stock has performed strongly in the market. The stock has charted over 200 percent in the past 12 months. Currently, it is trading close to its 52-week high of $10.88 and has potential to maintain its positive trajectory as the company forges ahead with its research and development activities and marketing efforts.

Waters Corporation (WAT) reported its fourth-quarter earnings and provided guidance for 2020. The company registered $716 million in revenue for the fourth quarter, in line with the revenue of $715 million it had reported for the corresponding quarter of the previous year. Its GAAP diluted earnings per share stood at $3.12 per share, up from $2.46 on year-on-year basis.

For the full fiscal year 2019, the companys revenue stood at $2.4 billion, down 1 percent from $2.42 billion in revenue it had earned in fiscal year 2018. The EPS for the fiscal year stood at $8.69, up from $7.65 for the previous year. The non GAAP EPS also increased from $8.29 to $8.99 for fiscal year 2019.

The company reported that its sales in both the pharmaceuticals and industrial market declined by 1 percent. However, its sales into the government and academic market grew 8 percent. Chris OConnell, Chairman and Chief Executive Officer of Waters Corporation, said, We were encouraged by the increasing impact in the fourth quarter of our new products launched during 2019.

While its full-year and fourth-quarter numbers were strong, the company provided rather lackluster guidance for fiscal year 2020. Waters Corporation expects its full-year revenue to increase by 1 percent to 3 percent. Its non GAAP EPS will likely remain between $9.15 and $9.40, lower than consensus estimate of $1.75. For its first quarter, Waters Corporations non GAAP EPS for the first quarter is expected to be in the range of $1.55 and $1.65. The consensus estimate for non GAAP EPS guidance was at $1.75.

EyePoint Pharmaceuticals (EYPT) reported its new exclusive licensing deal with Equinox Science. The deal involves the development of vorolanib for treating wet age-related macular degeneration, retinal vein occlusion and diabetic retinopathy. Vorolanib is a tyrosine kinase inhibitor.

EyePoint elaborated that its drug candidate EYP 1901, which incorporates vorolanib, uses a miniaturized, sustained release and injectable intravitreal drug delivery system offering six months duration. The company has used its bioerodible Durasert technology for this purpose. EyePoint is optimistic about the combination of vorolanib with Durasert technology for delivering superior results.

Under the terms of the agreement, EyePoint will take care of development and global commercialization of the treatment. However, the global commercialization will exclude China, Hong Kong, Taiwan and Macau regions. For this purpose, EyePoint will pay $1 million to Equinox Science as upfront payment. It will also pay development and regulatory milestones and post commercialization royalties.

EyePoint recently concluded a positive Type B pre investigational New Drug meeting with the FDA. The meeting clarified the pathway for a Phase 1 clinical trial. The company expects to present the data from Phase 1 trial during the second half of 2021. Nancy Lurker, President and Chief Executive Officer of EyePoint Pharmaceuticals, said, We are encouraged by the potential of vorolanib, as it demonstrated a promising Phase 1 and Phase 2 efficacy signal in prior human wAMD studies as an oral therapy and in preclinical animal studies as intravitreal EYP-1901.

EyePoint is a biopharma company specializing in developing novel ophthalmic products. The company currently has two products available in the market which are Dexycu and Yutiqu. The former is the first approved intraocular treatment for postoperative inflammation while the latter is a three-year treatment of chronic non-infectious uveitis affecting the posterior segment of the eye.

Thanks for reading. At the Total Pharma Tracker, we do more than follow biotech news. Using our IOMachine, our team of analysts work to be ahead of the curve.

That means that when the catalyst comes that will make or break a stock, weve positioned ourselves for success. And we share that positioning and all the analysis behind it with our members.

Disclosure: I am/we are long MESO. I wrote this article myself, and it expresses my own opinions. I am not receiving compensation for it (other than from Seeking Alpha). I have no business relationship with any company whose stock is mentioned in this article.

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Mesoblast Submits BLA, And Other News: The Good, Bad And Ugly Of Biopharma - Seeking Alpha

Stem Cell Therapy Market: Snapshot

Of late, there has been an increasing awareness regarding the therapeutic potential of stem cells for management of diseases which is boosting the growth of the stem cell therapy market. The development of advanced genome based cell analysis techniques, identification of new stem cell lines, increasing investments in research and development as well as infrastructure development for the processing and banking of stem cell are encouraging the growth of the global stem cell therapy market.

To know Untapped Opportunities in the MarketCLICK HERE NOW

One of the key factors boosting the growth of this market is the limitations of traditional organ transplantation such as the risk of infection, rejection, and immunosuppression risk. Another drawback of conventional organ transplantation is that doctors have to depend on organ donors completely. All these issues can be eliminated, by the application of stem cell therapy. Another factor which is helping the growth in this market is the growing pipeline and development of drugs for emerging applications. Increased research studies aiming to widen the scope of stem cell will also fuel the growth of the market. Scientists are constantly engaged in trying to find out novel methods for creating human stem cells in response to the growing demand for stem cell production to be used for disease management.

It is estimated that the dermatology application will contribute significantly the growth of the global stem cell therapy market. This is because stem cell therapy can help decrease the after effects of general treatments for burns such as infections, scars, and adhesion. The increasing number of patients suffering from diabetes and growing cases of trauma surgery will fuel the adoption of stem cell therapy in the dermatology segment.

Global Stem Cell Therapy Market: Overview

Also called regenerative medicine, stem cell therapy encourages the reparative response of damaged, diseased, or dysfunctional tissue via the use of stem cells and their derivatives. Replacing the practice of organ transplantations, stem cell therapies have eliminated the dependence on availability of donors. Bone marrow transplant is perhaps the most commonly employed stem cell therapy.

Osteoarthritis, cerebral palsy, heart failure, multiple sclerosis and even hearing loss could be treated using stem cell therapies. Doctors have successfully performed stem cell transplants that significantly aid patients fight cancers such as leukemia and other blood-related diseases.

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Global Stem Cell Therapy Market: Key Trends

The key factors influencing the growth of the global stem cell therapy market are increasing funds in the development of new stem lines, the advent of advanced genomic procedures used in stem cell analysis, and greater emphasis on human embryonic stem cells. As the traditional organ transplantations are associated with limitations such as infection, rejection, and immunosuppression along with high reliance on organ donors, the demand for stem cell therapy is likely to soar. The growing deployment of stem cells in the treatment of wounds and damaged skin, scarring, and grafts is another prominent catalyst of the market.

On the contrary, inadequate infrastructural facilities coupled with ethical issues related to embryonic stem cells might impede the growth of the market. However, the ongoing research for the manipulation of stem cells from cord blood cells, bone marrow, and skin for the treatment of ailments including cardiovascular and diabetes will open up new doors for the advancement of the market.

Global Stem Cell Therapy Market: Market Potential

A number of new studies, research projects, and development of novel therapies have come forth in the global market for stem cell therapy. Several of these treatments are in the pipeline, while many others have received approvals by regulatory bodies.

In March 2017, Belgian biotech company TiGenix announced that its cardiac stem cell therapy, AlloCSC-01 has successfully reached its phase I/II with positive results. Subsequently, it has been approved by the U.S. FDA. If this therapy is well- received by the market, nearly 1.9 million AMI patients could be treated through this stem cell therapy.

Another significant development is the granting of a patent to Israel-based Kadimastem Ltd. for its novel stem-cell based technology to be used in the treatment of multiple sclerosis (MS) and other similar conditions of the nervous system. The companys technology used for producing supporting cells in the central nervous system, taken from human stem cells such as myelin-producing cells is also covered in the patent.

Global Stem Cell Therapy Market: Regional Outlook

The global market for stem cell therapy can be segmented into Asia Pacific, North America, Latin America, Europe, and the Middle East and Africa. North America emerged as the leading regional market, triggered by the rising incidence of chronic health conditions and government support. Europe also displays significant growth potential, as the benefits of this therapy are increasingly acknowledged.

Asia Pacific is slated for maximum growth, thanks to the massive patient pool, bulk of investments in stem cell therapy projects, and the increasing recognition of growth opportunities in countries such as China, Japan, and India by the leading market players.

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Global Stem Cell Therapy Market: Competitive Analysis

Several firms are adopting strategies such as mergers and acquisitions, collaborations, and partnerships, apart from product development with a view to attain a strong foothold in the global market for stem cell therapy.

Some of the major companies operating in the global market for stem cell therapy are RTI Surgical, Inc., MEDIPOST Co., Ltd., Osiris Therapeutics, Inc., NuVasive, Inc., Pharmicell Co., Ltd., Anterogen Co., Ltd., JCR Pharmaceuticals Co., Ltd., and Holostem Terapie Avanzate S.r.l.

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Stem Cell Therapy Market Trends and Growth, Outlook, Research, Trends and Forecast to 2025 - Instant Tech News

Latest Research Report on Stem Cell Treatments Market size | Industry Segment by Applications (Nerve Diseases, Immunological Diseases, Musculoskeletal Disorders, Cardiovascular Diseases, Gastrointestinal Diseases and Other), by Type (Adipose Tissue-Derived Mesenchymal Stem Cells, Bone Marrow-Derived Mesenchymal Stem Cells, Cord Blood/Embryonic Stem Cells and Other Cell Sources), Regional Outlook, Market Demand, Latest Trends, Stem Cell Treatments Industry Growth, Share & Revenue by Manufacturers, Company Profiles, Forecasts 2025.Analyzes current market size and upcoming 5 years growth of this industry.

New research report to its expanding repository. The research report, titled Stem Cell Treatments Market, mainly includes a detailed segmentation of this sector, which is expected to generate massive returns by the end of the forecast period, thus showing an appreciable rate of growth over the coming years on an annual basis. The research study also looks specifically at the need for Stem Cell Treatments Market.

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The study includes the profiles of key players in the Stem Cell Treatments market with a significant global and/or regional presence. The Stem Cell Treatments market competition by Top Manufacturers Covers:

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The report contains the profiles of various prominent players in the Global Stem Cell Treatments Market. Different strategies implemented by these vendors have been analyzed and studied to gain a competitive edge, create unique product portfolios and increase their market share. The study also sheds light on major global industry vendors. Such essential vendors consist of both new and well-known players. Besides, the business report contains important data relating to the launch of new products on the market, specific licenses, domestic scenarios and the strategies of the organization implemented on the market.

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Stem Cell Treatments Market to Exhibit Impressive Growth of CAGR during the per - News by aeresearch

Jack Chieh and Yinnie Wong with their baby boy, born last Friday (Chinese New Year). The couple donate her baby's cord blood to the cord blood bank at B.C. Womens Hospital & Health Centre.Handout

Yinnie Wong and Jack Chiehs six-pound, 13-ounce baby boy as yet unnamed was born on an auspicious day, Jan. 24, Chinese New Year, and hes already doing good in the world.

Everyone was really happy, it is supposed to be a lucky day, said Wong.

Although the birth was a planned C-section, Wong had no control over the date hospital administrators chose for the birth. What she did have control over was the choice to donate her babys cord blood to the cord blood bank at B.C. Womens Hospital & Health Centre, which has just celebrated its fifth anniversary.

Cord blood is blood that is taken from the umbilical cord and placenta immediately after the birth of a healthy infant. Cord blood is rich in stem cells, and can be used to treat over 80 diseases, including leukemia.

According to Canadian Blood Services, ethnically diverse donors are especially needed because although Stats Canada data shows 67.7 per cent of Canadians consider their ethnic origin to be diverse, only 31 per cent of Canadians with blood in Canadas stem-cell registry are from ethnically diverse backgrounds.

Crystal Nguyen, 20, is a former B.C. Childrens Hospital patient whose life was saved by a stem-cell transplant from donated cord blood. Nguyen was first diagnosed with acute myeloid leukemia at age 12. After chemo, she went into remission for almost three years. Then the cancer returned. She was told she needed a bone-marrow transplant.

Crystal Nguyen, now 20, was first diagnosed with acute myeloid leukemia at age 12. She found a stem-cell match for a needed bone-marrow transplant through the international cord blood bank.Handout

When I relapsed I was very confused, it was kind of surreal. The main thing about being told I needed the bone-marrow stem-cell transplant was confusion, fear and anxiety.

Nguyen is of Vietnamese descent and needed a match to survive. No one in her family was a match, nor was there a stem-cell match in the Canadian cord blood bank, but a match was found thanks to the Canadian Blood Services partnerships with 47 international blood banks.

I was told it came through the international cord blood bank from somewhere very far away, said Nguyen, who has been in remission since the transplant.

When she learned the stem-cell transplant had been successful, Nguyen, who is now studying to become a pediatric oncology nurse, said it felt too good to be true.

There was a lot of happiness, joy, excitement. Donating cord blood is such a simple way to save a life.

Although cord blood can be collected and stored for a fee by private companies and reserved for the donor familys use, cord blood donated through Canadian Blood Services is available free to the public whoever needs the match.

Wong didnt hesitate when her son was born. I felt like I wanted to do it if it helps someone in the public, and if it could save lives I would have been very happy to help another child, said Wong, who is a nurse at B.C. Womens hospital.

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Chinese New Year babys B.C. family gives gift of life in cord-blood donation - Vancouver Sun

WARSAW (AFP) Submerged in liquid nitrogen vapour at a temperature of minus 175 degrees Celsius, hundreds of thousands of stem cells from all over Europe bide their time in large steel barrels on the outskirts of Warsaw.

Present in blood drawn from the umbilical cord of a newborn baby, stem cells can help cure serious blood-related illnesses like leukaemia and lymphoma, as well as genetic conditions and immune system deficits.

Polish umbilical cord blood bank PBKM/FamiCord became the industrys leader in Europe after Swiss firm Cryo-Save went bankrupt early last year.

It is also the fifth largest in the world, according to its management, after two companies in the United States (US), a Chinese firm and one based in Singapore.

Since the first cord blood transplant was performed in France in 1988, the sector has significantly progressed, fuelling hopes.

Mum-of-two Teresa Przeborowska has firsthand experience.

At five-years-old, her son Michal was diagnosed with lymphoblastic leukaemia and needed a bone marrow transplant, the entrepreneur from northern Poland said.

The most compatible donor was his younger sister, Magdalena.

When she was born, her parents had a bag of her cord blood stored at PBKM.

More than three years later, doctors injected his sisters stem cells into Michals bloodstream. It was not quite enough for Michals needs but nicely supplemented harvested bone marrow.

As a result, Michal, who is nine, is now flourishing, both intellectually and physically, his mum told AFP.

A cord blood transplant has become an alternative to a bone marrow transplant when there is no donor available, with a lower risk of complications.

Stem cells taken from umbilical cord blood are like those taken from bone marrow, capable of producing all blood cells: red cells, platelets and immune system cells.

When used, stem cells are first concentrated, then injected into the patient. Once transfused, they produce new cells of every kind.

At the PBKM laboratory, each container holds up to 10,000 blood bags. Safe and secure, they wait to be used in the future, its Head Krzysztof Machaj, said.

The bank holds around 440,000 samples, not including those from Cryo-Save, he said.

If the need arises, the blood will be ready to use without the whole process of looking for a compatible donor and running blood tests, the biologist told AFP.

For families who have paid an initial nearly EUR600 (USD675) and then an annual EUR120 euros to have the blood taken from their newborns umbilical cords preserved for around 20 years, it is a kind of health insurance promising faster and more effective treatment if illness strikes.

But researchers also warn against unrealistic expectations.

Bone marrow pioneer in Poland Haematologist Wieslaw Jedrzejczak describes promoters of the treatment as sellers of hope, who make promises that are either impossible to realise in the near future or downright impossible to realise at all for biological reasons.

He compares them to makers of beauty products who swear their cream will rejuvenate the client by 20 years.

Various researches is being done on the possibility of using the stem cells to treat other diseases, notably nervous disorders. But the EuroStemCell scientist network warns that the research is not yet conclusive.

There is a list of almost 80 diseases for which stem cells could prove beneficial, US Haematologist Roger Mrowiec, who heads the clinical laboratory of the cord blood programme Vitalant in New Jersey, told AFP.

But given the present state of medicine, they are effective only for around a dozen of them, like leukaemia or cerebral palsy, he said.

Its not true, as its written sometimes, that we can already use them to fight Parkinsons disease or Alzheimers disease or diabetes.

EuroStemCell also cautions against private blood banks that advertise services to parents suggesting they should pay to freeze their childs cord blood in case its needed later in life.

Studies show it is highly unlikely that the cord blood will ever be used for their child, the network said.

It also pointed out that there could be a risk of the childs cells not being useable anyway without reintroducing the same illness.

Some countries, such as Belgium and France, are cautious and ban the storage of cord blood for private purposes. Most European Union (EU) countries however permit it while imposing strict controls.

In the early 2000s, Swiss company Cryo-Save enjoyed rapid growth.

Greeks, Hungarians, Italians, Spaniards and Swiss stored blood from their newborns with the company for 20 years on payment of UER2,500 euros upfront.

When the firm was forced to close in early 2019, clients were left wondering where their stem cells would end up.

Under a kind of back-up agreement, the samples of some 250,000 European families were transferred for storage at PBKM.

The Polish firm, founded in 2002 with PLN2million (around EUR450,000, USD525,000), has also grown quickly.

Present under the FamiCord brand in several countries, PBKM has some 35 per cent of the European market, excluding Cryo-Save assets.

Over the last 15 months, outside investors have contributed EUR63 million to the firm, PBKMs Chief Executive Jakub Baran told AFP.

But the company has not escaped controversy: the Polityka weekly recently published a critical investigative report on several private clinics that offer what was described as expensive treatment involving stem cells held by PBKM.

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Europe's guardian of stem cells and hopes, real and unrealistic - Borneo Bulletin Online

SAN ANTONIO, Feb. 3, 2020 /PRNewswire/ -- SASpine is now offering cutting edge Stem Cell Treatments to patients. For the past several years Dr. Steven Cyr, Mayo Clinic Trained Spine Surgeon, has been researching the benefits of stem cells in the treatment of multiple medical conditions including spinal disorders, specifically, conditions which involve spinal cord injury, degenerative disc disease, herniated discs, and as a supplement to enhance the success of Spinal fusions when treating instability, deformity, and fractures of the spine.

Steven J. Cyr, M.D., is a spine surgeon who has gained a reputation for surgical excellence in Texas, throughout the nation, and abroad.

Dr. Steven Cyr has been treating patients using growth factors and stem cells contained in amniotic tissue and bone marrow aspirate to provide a potential for improved success with fusion procedures, when treating herniated discs, and for arthritic or damaged joints, with remarkable success. "The goal of any medical intervention is to yield improved outcomes with the ideal result of returning a patient to normal function, when possible," states Dr Cyr. He went on to elaborate that there are times when only a structural solution can solve problems related to spinal disorders, but even in that scenario, the use of stem cells or growth factors derived from stem cell products can possibly improve the success of surgical procedures. "I have patients previously unable to jog or run return to normal function and athletic ability after injections of growth factors and stem cell products into the knee joints, hip joints, and shoulder joints," he said. "This includes high-level athletes, professional dancers, and the average weekend warrior."

There may be promise in treating patients with spinal cord injury as well. SASpine CEO, LeAnn Cyr, states, "There are reports of patients gaining significant neurological improvement after being treated with stem cells." Dr Cyr continues, "Most patients with spinal cord injuries resulting from trauma also have mechanical pressure on the nerves that result either from bone fragments or disc material compressing the spinal cord that needs to be removed along with surgical stabilization of the spinal bones. There's significant potential that stem cells bring to the equation when treating these types of patients, and I am excited about the potential that these products offer to the host of treatments to address spinal conditions and arthritic joints."

For more information about SASpine's Stem Cell Treatment Program, visit http://www.saspine.com or call (210) 487-7463 in San Antonio or (832) 919-7990 in Houston.

Related Linkswww.facebook.com/saspinewww.instagram.com/surgical.associates.in.spine

If you've been living with back pain, you're not alone. Here at SASpine, we have experienced spine specialists who are committed to improving your quality of life. (PRNewsfoto/SASpine)

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SASpine to offer Stem Cell Therapy - Yahoo Finance