MADISON, Wis.--(BUSINESS WIRE)--Cellular Dynamics International (CDI), a FUJIFILM company and a leading developer and manufacturer of induced pluripotent stem cells (iPS), today announced it has signed a collaboration agreement with the Harvard Stem Cell Institute (HSCI), a novel network of stem cell scientists that extends from the University to its affiliated hospitals and the biomedical industry. The objective of the new partnership is to increase the availability of iPS cells and services to the HSCI network and the research community at large.

CDI is honored and excited to partner with Harvard Stem Cell Institute, one of the worlds most prestigious research organizations, said Dr. Bruce Novich, Division President-CNBD for FUJIFILM Holdings America Corporation and Executive Vice President and General Manager of Life Science Business Division for CDI. Our goal is to make iPS cells and technology more accessible so that researchers across disciplines and the various institutions of HSCI can better pursue the promise of stem cell science and regenerative medicine.

Under the terms of the agreement, CDI will collaborate with HSCIs iPS Core Facility by providing iPSC technology support to the stem cell community. In addition, CDI will offer critical iPSC technology elements which may accelerate iPSC based science, technology and applications.

About Cellular Dynamics International:

Cellular Dynamics International (CDI), a FUJIFILM company, is a leading developer and supplier of human cells used in drug discovery, toxicity testing, and regenerative medicine applications. Leveraging technology that can be used to create induced pluripotent stem cells (iPSCs) and differentiated tissue-specific cells from any individual, CDI is committed to advancing life science research and transforming the therapeutic development process in order to fundamentally improve human health. The companys inventoried iCell products and donor-specific MyCell Products are available in the quantity, quality, purity, and reproducibility required for drug and cell therapy development. For more information please visitwww.cellulardynamics.com.

About Fujifilm

FUJIFILM Holdings Corporation, Tokyo, Japan brings continuous innovation and leading-edge products to a broad spectrum of industries, including: healthcare, with medical systems, pharmaceuticals and cosmetics; graphic systems; highly functional materials, such as flat panel display materials; optical devices, such as broadcast and cinema lenses; digital imaging; and document products. These are based on a vast portfolio of chemical, mechanical, optical, electronic, software and production technologies. In the year ended March 31, 2016, the company had global revenues of $22.1 billion, at an exchange rate of 112.54 yen to the dollar. Fujifilm is committed to environmental stewardship and good corporate citizenship. For more information, please visit:www.fujifilmholdings.com.

All product and company names herein may be trademarks of their registered owners.

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Cellular Dynamics International Signs Collaboration Agreement with Harvard Stem Cell Institute - Business Wire (press release)

IPS Cell Therapy Comments Off on Cellular Dynamics International Signs Collaboration Agreement with Harvard Stem Cell Institute – Business Wire (press release) | April 20th, 2017

April 18, 2017 by Gian Galassi

A research team at University of Wisconsin School of Medicine and Public Health has treated its first patient in an innovative clinical trial using stem cells for the treatment of heart failure that develops after a heart attack.

The trial is taking place at University Hospital, one of three sites nationwide currently enrolling participants. The investigational CardiAMP therapy is designed to deliver a high dose of a patient's own bone-marrow cells directly to the point of cardiac injury to potentially stimulate the body's natural healing response.

The patient experience with the trial begins with a cell-potency screening test. Patients who qualify for therapy are scheduled for a bone-marrow aspiration. The bone marrow is then processed on-site and subsequently delivered directly to the damaged regions in a patient's heart in a minimally invasive procedure.

"Patients living with heart failure experience a variety of negative symptoms that can greatly impact their day-to-day life," said UW Health cardiologist Dr. Amish Raval, associate professor of medicine and one of the principal investigators for the trial. "By being at the forefront of research for this debilitating condition, we look forward to studying the potential of this cell therapy to impact a patient's exercise capacity and quality of life."

The primary outcome to be measured is the change in distance during a six-minute walk 12 months after the initial baseline measurement.

Heart failure commonly occurs after a heart attack, when the heart muscle is weakened and cannot pump enough blood to meet the body's needs for blood and oxygen. About 790,000 people in the U.S. have heart attacks each year. The number of adults living with heart failure increased from about 5.7 million (2009-2012) to about 6.5 million (2011-2014), and the number of adults diagnosed with heart failure is expected to dramatically rise by 46 percent by the year 2030, according to the American Heart Association (AHA).

The CardiAMP Heart Failure Trial is a phase III study of up to 260 patients at up to 40 centers nationwide. Phase III trials are conducted to measure effectiveness of the intervention, monitor side effects and gather information for future use of the procedure. Study subjects must be diagnosed with New York Heart Association (NYHA) Class II or III heart failure as a result of a previous heart attack.

Information about eligibility or enrollment in the trial is available at http://www.clinicaltrials.gov, or through a cardiologist.

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First participant treated in trial of stem-cell therapy for heart failure - Medical Xpress

Bone Marrow Stem Cells Comments Off on First participant treated in trial of stem-cell therapy for heart failure – Medical Xpress | April 18th, 2017

The prognosis was dire when Cheryl Grantham learned she had multiple myeloma, a rare form of cancer, in March 1999.

"I thought I'd be dead by Christmas," she said.

The best treatment to extend her life was a round of specialty high-dose chemotherapy, a course more potent than the normal chemotherapy prescribed to combat more common cancers.

Multiple myeloma is cancer of the plasma cells and the high-dose chemotherapy treatments fight it by destroying the cancerous cells in the bone marrow, where plasma originates. The treatments are intense enough that it can kill a patient. But it's one of the most effective ways to treat the cancer.

So doctors a few decades ago created a workaround using stem cells, extracting them from the patient's blood before administering the high-dose chemotherapy and then transplanting them back in to repair the damaged bone marrow after the chemo has been given.

Stem cells are given back to the patient like a blood transfusion, saidBrock Whittenberger, Grantham's doctor at Billings Clinic.

Billings Clinic has been using this stem cell approach with its myeloma cancer treatments for years, and Whittenberger has been the one performing procedure.

"What it's allowed us to do is successfully treat the cancer," he said. "There's a fairly rapid recovery."

Billings Clinic was recently accredited by the Foundation for the Accreditation of Cellular Therapy for its stem cell treatment.With the FACT accreditation, those treatments will be more accessible.

The accreditation also will make it easier for insurance companies to approve the procedure and will allow Billings Clinic to conduct trials on the stem cell treatment.

Billings Clinic is currently the only FACT-accredited center in Montana.

Grantham, who was an infusion nurse at the time of her diganosis, elected to have the treatment and has outlived her initial prognosis by almost two decades.

"I've been fine," she said. "I've been alive for 18 years."

Unexpectedly, the treatments helped her become a better nurse.

"It made me more empathetic," she said.

The stem cell treatment eradicates certain forms of lymphoma but it won't cure Grantham's cancer. At some point themultiple myeloma will return.

Until then, she visits with her doctor every three months for blood work and works to keep her focus on the now.

"With a diagnosis like that you have short-term goals," she said.

Her youngest son was in high school in 1999, and she was still working full time as a nurse. As much as she wanted to crawl under her covers and not face the reality of her cancer diagnosis, she had no choice but to move forward.

"It made me be normal," she said.

And it helped her focus on what was important in the moment. The Christmas before she began her treatments, she took her three sons to the Cayman Islands for the holidays.

"Because everything was going to change," she said."You just do it."

And it's an attitude she still carries. Her youngest son, long graduated from high school, is now married. These days, she's hopeful he'll give her a grandchild.

"That's my goal now," she said, smiling.

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Billings Clinic accredited for using stem cell method to 'successfully treat' a rare cancer - Billings Gazette

Bone Marrow Stem Cells Comments Off on Billings Clinic accredited for using stem cell method to ‘successfully treat’ a rare cancer – Billings Gazette | April 17th, 2017

CHEYENNE Had it not been for a single bone marrow transplant, the Day of Giving would never have started.

Its a bone marrow transplant that saved founder Greta Morrows life, and what inspired her to launch a community charity event that encourages, among other things, the importance of donating blood, tissue, bone marrow and organs.

Greta is a prime example of somebody who is a survivor because of someone being on the bone marrow donation registry, said Caroline Veit, a longtime Day of Giving volunteer and a past president for the event. Its life saving. When somebody is at the end of their treatment options for blood cancer, a bone marrow transplant can be the key for their survival.

One of the most compelling reasons to sign up as a bone marrow donor at the Day of Giving now in its 12th year is not only is it capable of saving a life, but the process of actually donating is fairly straightforward, no different than giving blood something the Day of Giving also offers onsite.

Jamie Spradlin, a 22-year-old teacher at Hobbs Elementary School in Cheyenne, learned that fact firsthand late last year, when she was called on to donate bone marrow.

It was at a Relay for Life event about four years ago, they had a booth and they were explaining, Would you like to save a life; do you want to know how? And I was with a group and all of us signed up, Spradlin said. It had to have been October or November of last year when they called me and said Hey, youre actually a match for someone.

Many people who register as potential bone marrow donors never get such a call. Thats because unlike blood, which falls into one of four types plus a positive or negative Rh factor, a bone marrow can be much harder to find. Only about 30 percent of patients looking for a bone marrow match can even find one in their own family the rest have to hope a stranger in the national donor registry happens to match them, according to the nonprofit Institute for Justice.

Only about 2 percent of Americans belong to the national bone marrow registry, and at least 3,000 people die each year because they cannot find a matching donor. The odds are worse for minorities, since bone marrow type is based partly on ethnic background while Caucasians can find an unrelated donor 75 percent of the time, the percentage drops to the 40s for Hispanic and Asian patients, and 25 percent for African Americans.

What happens if you do turn out to be a match for someone?

First they asked if I was still interested in donating, and I said yes, so then they had to wait on the person I was donating to to make sure it would all work out, Spradlin said.

In December 2016, she had to take a physical to ensure she was healthy enough to donate. Be The Match, the national bone marrow registry, paid all the expenses of her testing as well as travel.

They let me choose where I went for the physical, and my sister lives in Florida, so I went to do it there, Spradlin said. A few days after that they called and said everything was great, so then I went back down to Florida for the actual donation.

The donation process takes nearly a week of preparation. Twice a day, for five days, Spradlin said she went to a clinic to receive shots that caused her bones to produce more marrow stem cells.

The first day wasnt bad, but as I continued to get them every day thats when I started noticing my back and knees getting sore, she said. You know when you go to the gym and the next day your muscles are sore? Its just like that, but with your bones.

But that was the only real discomfort, she said, and given the stakes, it wasnt a tough call to keep going. For the donation itself, Spradlin underwent a process known as apheresis, where blood is removed from the body, the marrow stem cells are separated out, and blood is then returned.

Its kind of like donating blood. They had a needle in each of my arms, she said. One needle takes out the blood, a machine separates the stem cells from the blood and then the other needle puts the blood back in your arm.

Two months after the donation, Spradlin got an email from Be The Match informing her the recipient of her bone marrow was doing well Spradlins bone marrow had taken root, and the recipients body was regaining its ability to produce healthy blood cells.

Due to confidentiality concerns, Spradlin still doesnt know whose life she saved. It wont be until a year has passed that Be The Match offers to introduce donors to recipients.

All they told me was that she was a female, 41 years old and had some type of blood cancer, Spradlin said. But even knowing just that much, she added, I would absolutely do it again. It was an easy process to save someones life, and I think its crazy not many people sign up to become donors because its not a hard process.

I mean, I got to see my sister twice in Florida and they paid for everything, she added. Frankly, I felt lucky I got to be this persons donor.

How to help

This years community-wide Day of Giving will be from 8 a.m. to 5 p.m. Friday, May 12, at the Kiwanis Community House in Lions Park. A youth event will take place there the day before, May 11, from 3:30-6:30 p.m.

There are seven ways to help on the Day of Giving:

Day of Giving sorts and delivers all donations to local agencies.

For more information, visitCheyenneDayofGiving.org.

James Chilton is the Wyoming Tribune Eagles local government reporter. He can be reached atjchilton@wyomingnews.comor 307-633-3182. Follow him on Twitter at @JournoJChilton.

To go directly to the Wyoming Tribune Eagle's website, click here.

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Cheyenne's Day of Giving provides an opportunity to save a life - Wyoming Business Report

Bone Marrow Stem Cells Comments Off on Cheyenne’s Day of Giving provides an opportunity to save a life – Wyoming Business Report | April 17th, 2017

Stem cells have been touted as treatments for everything from hair loss to heart disease.

But are those claims scientifically sound?

Research on the technology continues to look promising, but many of its human applications are still preliminary and their effectiveness anecdotal.

Samumed, a $12 billion biotech start-up based in San Diego, profiled this month in Business Insider, exemplifies both sides of the coin.

The company has promised a bevy of age-reversing cures, including regrowing hair, treating wrinkles, and regenerating cartilage in people with osteoarthritis

However, their research isnt conclusive.

None of their treatments have received government approval yet.

Read more: Rheumatoid arthritis and stem cell treatments

Its easy to get excited about all this research.

Samumed Is Trying to Create the Fountain of Youth, says one headline.

Samumed Aims to Reverse Aging with Eternal Youth Treatments, says another.

Combined with $300 million in investment funding, the company has more than just buzz going for it in the biotech industry.

Their treatment for androgenetic alopecia (hair loss) is currently in phase II trials.

Its program to help people with osteoarthritis regrow cartilage in their knees is in phase III.

In total, the company has seven drugs in phase II trials, with plans to expand into more areas of disease research this year.

However, Samumed has raised some eyebrows in the industry with its secrecy. Some skeptics have likened the company to Theranos, a biotech start-up that was valued at $9 billion before an investigation by the Wall Street Journal led to a shutdown of the companys labs.

Samumed has been more open about presenting their data to the public but not about the actual treatments.

We're basically telling everyone, here's proof that it works, Samumed Chief Executive Officer, Osman Kibar, told Business Insider. How it works you just need to wait a little longer because we want to build as much of a head start as we can.

Read more: Stem cell treatments for multiple sclerosis

Beyond the applications of stem cells at Samumed, the technology is also being used to treat some of the United States most widespread health issues.

New research from the American Heart Association this month demonstrated the effectiveness of implanted stem cells into the hearts of people with cardiomyopathy.

Although the sample size was small (only 27 people), scientists noted function and symptomatic improvements of heart functioning as well as less frequency of hospitalization and lower medical costs. They conclude that the stem cell procedure is a feasible treatment for cardiomyopathy, but they note that a larger clinical follow-up is needed for more conclusive results.

In the past week, Newsweek reported on miracle stem cell treatments for burn victims that will promote healing without scars.

Stat News wrote about research on stem cells in mice that could potentially help cure Parkinsons disease.

Read more: Unproved stem cell treatments offer hope and risk

Some researchers in the industry are somewhat measured in their optimism of the technologys human applications.

I want to make sure that we provide a real cautionary note, especially to those individuals and those institutions that tout stem cells as the panacea for any ill, Dr. Cato Laurencin, director of the Institute for Regenerative Engineering at the University of Connecticut, told Healthline.

Laurencin, a medical practitioner at the forefront of stem cell technology, is a firm believer in the benefits of the treatment, but also remains skeptical of some of the claims associated with it.

Much of the evidence is still preliminary or anecdotal, and when people operate on information that is preliminary or anecdotal, there is the possibility for harm, he said.

His work in regenerative engineering a term he coined several years ago looks at the healing properties of implanted stem cells in the human body.

In research published this month, Laurencin and his team concluded that stem cells effectively improved healing to torn rotator cuff tendons in rats.

Rotator cuff tendon tears are a relatively common injury in humans and can be difficult to treat.

Unlike other tendons in the body, the rotator cuff tendon is unable to heal itself, said Laurencin.

Once it is torn, it is liable to be reinjured again and again.

However, the research released this month is about more than just applying stem cells to a certain kind of injury, its about how the stem cells are applied.

Read more: Scientists use 3-D environment to speed up growth of stem cells

Laurencin describes his field as an evolution of earlier work from 30 years ago in tissue engineering: a convergence of bringing together new technologies to create new science and new possibilities.

In this case, nanotechnology is at the heart of this stem cell operation.

Currently there are a variety of ways that stem cells can be implanted into a subject, including injections and bone marrow transplants.

For his research, Laurencin and his team used biomaterial based fiber matrices a nanomaterial conducive to growing and attaching stem cells to implant into the wounded area.

The results are promising, but Laurencin and his team will have to continue working with animals for some time before the process can be applied to humans.

The key is in understanding that stem cells have the potential for more than just regrowing damaged parts of the body.

The way we commonly think about a stem cell is it becoming a new tissue. But were also understanding that the stem cell itself can secrete biological factors that help regeneration occur. Thats what we think is happening here, said Laurencin.

His research into stem cells as a medicinal element in the body could have far reaching implications for all kinds of wound therapy.

Despite his measured approach, Laurencin is still willing to hypothesize about the excitement that the future of the field undoubtedly holds with proper time, funding, and research.

There are newts and salamanders that can regenerate a limb, he told Healthline.

How do we harness the cues that are taking place in these types of animals, and can we utilize what weve learned from these types of animals in humans?

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Stem Cell Research Advancing Rapidly - Healthline

Bone Marrow Stem Cells Comments Off on Stem Cell Research Advancing Rapidly – Healthline | April 16th, 2017

A quick glance at your calendar will reveal that we're now in 2017. 2017, you may recall, is the year when contraversial surgeon Sergio Canavero has promised to perform the world's first human head transplant.

But just how feasible is a human head transplant? Is it the stuff of science fiction, or does it have a basis in current sceintific thinking? Read on for everything you need to know about 2017 most alarming scientific development.

A human head transplant is exactly what it sounds like taking one living head and putting it onto a new body.

But actually, thats a little misleading. In real terms, its a body transplant, as the head will be gaining a new body to control. However, as the term whole body transplant is already used to mean transferring the brain between bodies, calling it a head transplant makes it clear that the whole head is to be switched, brain included.

Until recently, a head transplant seemed totally implausible, but the Italian scientist Dr Sergio Canavero believes its possible, and intends to conduct the first surgery in 2017.

Canavero outlines the procedure in detail here, but these are the basics of the process. Remember: dont try this at home, kids.

The donor body and the head to be attached are first cooled down to 12-15C to ensure that the cells last longer than a few minutes without oxygen. The tissue around the neck is then cut, with the major blood vessels linked with tiny tubes. The spinal cord on each party is then severed cleanly with an extremely sharp blade.

"Post coma, Canavero believes the patient would immediately be able to move, feel their face and even speak with the same voice."

At this point, the head is ready to be moved, and the two ends of the spinal cord are fused using a chemical called polyethylene glycol, encouraging the cells to mesh. This chemical has been shown to prompt the growth of spinal cord nerves in animals, although Canavero suggests that introducing stem cells or olfactory ensheathing cells into the spinal cord could also be tried.

After the muscles and blood supply are successfully connected, the patient is kept in a coma for a month to limit movement of the newly fused neck, while electrodes stimulate the spinal cord to strengthen its new connections.

Following the coma, Canavero anticipates that the patient would immediately be able to move, feel their face and even speak with the same voice. He believes physiotherapy would allow the patient to walk within a year.

He explains his suggested methods in the TED talk below.

Sceptical would be a nice way of putting it. Horrified would, in most cases, be more accurate.

Dr Hunt Batjer has attracted headlines for being particularly blunt: I would not wish this on anyone. I would not allow anyone to do it to me as there are a lot of things worse than death.

Dr Jerry Silver witnessed the 1970s monkey head transplant experiment more on which later and describes the procedure as bad science, adding that just to do the experiments is unethical. This is a particular blow to Canavero, as he states that Silvers own work in reconnecting rats spinal cords should give hope to the human head transplant. Silver dismisses this: To sever a head and even contemplate the possibility of gluing axons back properly across the lesion to their neighbours is pure and utter fantasy in my opinion.

Dr Chad Gordon, professor of plastic and reconstructive surgery and neurological surgery at Johns Hopkins University, agrees that Canaveros claims are scientifically implausible. He told BuzzFeed: Theres no way hes going to hook up somebodys brain to someones spinal cord and have them be functional.

On the conservative side, were about 100 years away from being able to figure this out, he continued. If hes saying two, and hes promising a living, breathing, talking, moving human being? Hes lying.

Dr Paul Myers, associate professor of biology at the University of Minnesota at Morris, puts it even more explicitly: This procedure will not work... Try it with monkeys first. But he cant: the result would be, at best, a shambling horror, an animal driven mad with pain and terror, crippled and whimpering, and a poor advertisement for his experiment. And most likely what hed have is a collection of corpses that suffered briefly before expiring.

Others wonder whether Canavero might simply be enjoying the limelight with a PR stunt, including Dr Arthur Caplan, director of ethics at the NYU Langone Medical Centre. Describing the doctor as nuts, he explained to CNN: Their bodies would end up being overwhelmed with different pathways and chemistry than theyre used to, and theyd go crazy.

"We'll probably see a head on a robot before we see it on [another] body," he told Live Science.

Dr John Adler of Stanford University's school of medicine is slightly more optimistic... but not much more. "Conceptually, much of this could work, but the most favourable outcome will be little more than a Christopher Reeve level of function," he told Newsweek.

Canavero is aware of this criticism, claiming that silently hes received a lot of support from the medical community. Of Dr Batjers comments that the surgery would be a fate worse than death, Canavero is scathing. Hes a vascular surgeon. A vascular surgeon of the brain, yes, but he knows nothing, he argued. How can you say such a thing? Its incredible.

"The world is moving, the critics are dwindling. Of course, there will always be critics. Science teaches us that when you propose something groundbreaking, you must be confronted by criticism. If no critics really step forward, you are saying nothing special," he told Medical News Today.

No-one has ever attempted a human head transplant before, and attempts on animals have to put it charitably had limited success.

Image: from Motherboard, uploaded under fair use from a 1959 issue of Life

The photo above really does show a dog with two heads and its not a fake. This was the work of Soviet scientist Vladimir Demikhov, and for four days the hybrid of two dogs lived as normally as such a scientific horror could be expected to. Then they died.

Demikhov tried the experiment more than 24 times, but was unable to find a way of avoiding the dogs dying shortly after surgery. Although the results are horrifying to see, Demikhovs research did pave the way for human organ transplants.

"For four days this hybrid of two dogs lived as normally as such a scientific horror could be expected to. Then they died."

But back to the topic of head transplants. The first time a straight swap was successful, was by Dr Robert White, in an experiment on a rhesus monkey in 1970. I feel the need to qualify the word successful with quotation marks, because although the monkey did live, he didnt live very long. Eight days, to be exact, and as the spinal cord wasnt attached to its new body, the monkey was paralysed for its remaining days. However, it could indeed see, hear, smell and taste before the body rejected the foreign head.

According to Canavero in his paper on human head transplants, the monkey lived eight days and was, by all measures, normal, having suffered no complications. However, Dr Jerry Silver who worked in the same lab as Dr White has more haunting memories. He toldCBS: I remember that the head would wake up, the facial expressions looked like terrible pain and confusion and anxiety in the animal. The head will stay alive, but not very long. It was just awful. I dont think it should ever be done again.

More recently, Chinese doctor Xiaoping Ren claims to have conducted head transplants on more than 1,000 mice. The Wall Street Journal reports to have witnessed a mouse with a new head moving, breathing, looking around and drinking. But, crucially, none of these mice have lived longer than a few minutes.

Still, Dr Rens studies continue, and the latest reports are said to be promising, offering a possible answer to the risk of severe blood loss (or brain ischemia) during transplantation. The experimental method that we have described can allow for long-term survival, and thus assessment of transplant rejection and central nervous system recovery, bringing us one step closer to AHBR in man, the researchers wrote.

Ren himself has not ruled out taking part in the first human head transplant operation, according to the Daily Mail. "A human head transplant will be a new frontier in science. Some people say it is the last frontier in medicine. It is a very sensitive and very controversial subject but if we can translate it to clinical practice, we can save a lot of lives," he said.

"Many people say a head transplant is not ethical. But what is the essence of a person? A person is the brain not the body. The body is just an organ," he added.

In January 2016, Canavero told New Scientist that a head transplant had been successfully completed on a monkey in China, although details were sparse. "The monkey fully survived the procedure without any neurological injury of whatever kind," he said, although the article notes that the monkey only kept alive for 20 hours after the surgery for "ethical reasons," limiting its use as a comparison somewhat.

In September 2016, Canavero revealeda further trial of the head transplant on dogs.New Scientisthas seen video footage of a dog appearing to walk three weeks after its spinal cord was severed, with Canavero claiming that the outcome is the result of the same techniques he plans to use on Spiridonov next year.

However, speaking to a number of scientists for their view on the new evidence, New Scientistcould find few sceptics converted. "These papers do not support moving forward in humans," said Jerry Silver a neuroscientist at Cape Western Reserve University in Ohio.

"The dog is a case report, and you cant learn very much from a single animal without controls. They claim they cut the cervical cord 90 per cent but theres no evidence of that in the paper, just some crude pictures," added Silver.

You could say so, though Canavero doesn't see it quite like that. In fact, controversially he sees it more as a failure of other types of medicine, telling Medical News Today, "It will be about curing incurable neurological disorders for which other treatments have failed big time, so gene therapy,stem cells- they all just came to nothing. We have failed despite billions of dollars being poured into this sort of research."

"So actually, head transplant or body transplant, whatever your angle is, is actually a failure of medicine. It is not a brilliant success, a brilliant advancement to medical science. When you just haven't tackled biology, you don't know how to treat genes, you don't really understand, and you really need to resort to a body transplant, it means that you've failed. So this must not be construed as a success of medical research," he added.

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Human head transplant: Sergio Canavero considers the UK as the venue for 2017's most talked about operation - Alphr

Spinal Cord Stem Cells Comments Off on Human head transplant: Sergio Canavero considers the UK as the venue for 2017’s most talked about operation – Alphr | April 14th, 2017

Eight young Otago people have won awards in the 2017 New Zealand Youth Awards.

The awards recognise young New Zealanders who have achieved outstanding results and given back to their communities, as well as those who have made a significant contribution to the support of young people.

Kelly Young (20) and Jo Mohan (19), both of Dunedin, won a Change Maker Cultural Award for co-founding the University of Otago Students Without Borders Club, which helps refugees integrate into the Dunedin community.

Damon Lillis (21), of Dunedin, won a Working for Youth Award for his work on the board of the Playhouse Children's Theatre and has directed several plays which helps young people to increase their confidence and self-esteem.

He also co-ordinates the Aspire programme which helps young people from low decile schools find out more about University life.

Bokyong Mun (20), of Dunedin, also won a Working for Youth Award for her support and development of the United Nations Youth Council.

Fawzan Dinnunhan (24), of Dunedin, won a Giving Back Award for his contribution to research and improving a number of key IT platforms for the Spinal Cord Society - a non-profit organisation that studies the use of stem cells as a cure for type-1 diabetes.

Leo Munro-Heward (16), of Wanaka, also won a Giving Back Award for his establishment of the Queer Straight Alliance in Wanaka, which aims to raise awareness and support.

Holly Robinson (22), of Dunedin, won a Youth with Disability Award for representing New Zealand as the flag bearer in the opening ceremony for the Rio 2016 Paralympic Games.

She also broke the world record for the F46 javelin, and placed second overall.

Casey Davies-Bell (23), of Dunedin, won a Leadership Award for establishing Global Energy Impact Assessment (Geia) Ltd - a New Zealand based start-up company which aims to accelerate New Zealand's transition towards a sustainable future.

Youth Minister Nikki Kaye said about 190 nominations from around the country were received, and 50 were given awards at a ceremony in Parliament last night.

''The calibre of the award winners in the new Youth Enterprise category was outstanding, with the recipients including a number of under-20-year-olds who have founded successful businesses which have achieved significant social or business impact, both locally and internationally,'' she said.

''It's particularly encouraging to see the way these young leaders and entrepreneurs have embraced new technology and social media, to develop innovative new approaches to achieve their business or social vision.

''When you look at the drive, skills, compassion and integrity evident in the winners across all the categories, it's clear that our young people have enormous talent and potential, and the future of our country is in safe hands.''

john.lewis@odt.co.nz

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Eight from Otago receive NZ youth awards - Otago Daily Times

Spinal Cord Stem Cells Comments Off on Eight from Otago receive NZ youth awards – Otago Daily Times | April 11th, 2017

First bone marrow stem cell transplantations performed in Armenia

YEREVAN, APRIL 10, ARMENPRESS. The first two stem cell transplantations of bone marrow in Armenia were performed in the Yolyan Hematology Center by Professor Dr. NicolausKrger, head of the transplantation department of Hamburgs Eppendorf Clinic and the Yolyan Hematology Clinics team.

Professor Smbat Daghbashyan, head of the Armenian transplantation doctors team, told reporters the transplantation passed successfully.

The patients, who trusted her health to the doctors, is a woman from Artsakh, who had to travel abroad for undergoing the same surgery. The second patient is a man, who had a repetition of the disease after chemotherapy, he said, adding that 60 patients annually need stem cell transplantation in Armenia.

We will continue cooperation with our colleagues from Hamburg. The patient who had to receive the transplantation in Hamburg, can get it here the same way. We will perform transplantations in 7-10 patients during this year, since this a gradual process, he said.

Dr. NicolausKrger congratulated the Armenian doctors in introducing the new treatment method in Armenia.

This method is considered to be innovative in the world and is used for treating cancerous diseases, he said.

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First bone marrow stem cell transplantations performed in Armenia - Armenpress.am

Bone Marrow Stem Cells Comments Off on First bone marrow stem cell transplantations performed in Armenia – Armenpress.am | April 11th, 2017

Over recent years, I have seen a growing interest in stem cells and a particular preparation called Platelet Rich Plasma (PRP). Many famous athletes including Tiger Woods have received PRP for various musculoskeletal problems and some have credited it with their accelerated healing and more rapid return to play.

PRP is plasma, the liquid part of blood, concentrated with many more platelets than typically found there. Platelets are known for their importance in clotting blood, but they also contain hundreds of proteins called growth factors. These are responsible for the cascade of events naturally involved in tissue repair. Your own innate stem cells are attracted to the site of injury and play a critical role in the healing process.

Typically, PRP is isolated from your own blood, drawn in the office while you wait. The highly concentrated growth factors are then delivered back into the body at the site of interest. PRP injections have been used for musculoskeletal problems such as sprained knees, osteoarthritis, and chronic tendon injuries. Previously, these types of conditions were treated with medications, physical therapy, and surgery, but PRP recipients commonly report less pain and stronger, more stable joints. It may even promote new cartilage formation in aging joints enabling you to put off joint replacement surgery.

PRP can also be very effective in treating chronic tendon injuries, especially tennis elbow, a common injury of the tendons on the outside of the elbow. Previously, cortisone injections were commonly used, but we know steroids will ultimately weaken tendons and promote rupture. In contrast, now PRP treatments lead to stronger tendons.

Promoting healing after tendon surgery is another use for PRP. For example, an athlete with a completely torn heel cord may require surgery to repair the tendon. Healing of the torn tendon can potentially be improved by treating the injured area with PRP during surgery. With a shorter recovery time, less chronic pain and stronger tissue, you can see why athletes love PRP!

More recently, PRP is being used extensively in aesthetic medicine to keep us looking younger and to promote hair growth. In the same ways the growth factors in PRP facilitate tissue repair from injury or surgery, they also regenerate aging skin. PRP injected into the facial skin has been called the vampire facial made famous by some Hollywood stars.

Today we use a more advanced technique called micro-needling. The PRP is layered across your face and delivered to the skin using a handheld device called a Micropen. This device has 12 tiny micro-needles that drive the PRP in, calling in the tissue repair team to get to work! The result is accelerated collagen production with new, thicker, stronger collagen. The procedure is well tolerated and done in the office while you are awake. It takes less than a couple of hours to complete and usually two to three treatments are recommended spaced four to six weeks apart. The collagen repair process can take four to six weeks, we expect to see the full results blossom over the course of months and continue to improve over a year.

The best thing about PRP Micropen Facelift is that theres not serious downtime like you get with laser resurfacing or surgery. Plus, unlike dermal fillers, which will fade in months, these results will continue to improve over the year. Most commonly we treat faces, but the procedure is safe to use all over the body including necks, chests, hands, and even eye lids. It is also quite helpful for minimizing and fading stretch marks.

If you have any questions or want to learn more about PRP for musculoskeletal or skin rejuvenation, please plan to attend our free interactive community lecture on this topic at the Coronado Library Winn Room from 6-7PM on Thursday 04/06/2017!

Lauren Mathewson, ND is Board certified in naturopathic medicine and Patrick Yassini, MD is board certified in family medicine, integrative and holistic medicine. They practice at Peak Health Group, 131 Orange Avenue, #100, Coronado, Calif.; the office number is (619) 522-4005.

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Now You Can Harness Your Own Stem Cells - Coronado Eagle ... - Coronado Eagle and Journal

Skin Stem Cells Comments Off on Now You Can Harness Your Own Stem Cells – Coronado Eagle … – Coronado Eagle and Journal | April 11th, 2017

Science Daily

Time-lapse video reveals cells essential for 'birth' of blood stem cells Science Daily The findings offer clues for making blood-forming stem cells in the laboratory that may ultimately help improve access to bone marrow transplantation. "The research will likely open new avenues of investigation in stem cell biology and blood ... and more »

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Time-lapse video reveals cells essential for 'birth' of blood stem cells - Science Daily

Bone Marrow Stem Cells Comments Off on Time-lapse video reveals cells essential for ‘birth’ of blood stem cells – Science Daily | April 10th, 2017

Science Daily

Stem cell drug screen yields potential alternative to statins Science Daily Next, they generated induced pluripotent stem cells from these skin cells. Stem cells continually double their numbers while in culture. This meant that a sample of converted skin cells from a single patient with FH provided a renewable source of liver ...

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Stem cell drug screen yields potential alternative to statins - Science Daily

Skin Stem Cells Comments Off on Stem cell drug screen yields potential alternative to statins – Science Daily | April 10th, 2017

Scientists at the Medical University of South Carolina (MUSC) have found that a class of heart failure drugs might decrease low-density lipoprotein (LDL) cholesterol levels in patients who do not respond to statins. In a study appearing in the April 6, 2017 issue ofCell Stem Cell, cardiac glycosides reduced levels of a precursor of LDL in liver-like cells, and patients taking cardiac glycosides for heart failure had low LDL.

Not everyone with high LDL cholesterol responds to statins. Statins increase levels of a cell surface receptor that removes LDL cholesterol from the bloodstream. However, statins do not work in patients with familial hypercholesterolemia (FH), who have a rare mutation in that receptor. FH patients have very high cholesterol and die of cardiovascular disease by their forties. The existing drugs for FH can cause fatty liver disease, and the best treatment is a liver transplant.

Stephen A. Duncan, D. Phil., SmartStateTMChair of Regenerative Medicine at MUSC, and his colleagues, including Max A. Cayo, Ph.D., an MSTP student at the Medical College of Wisconsin, developed a drug screen to identify an alternative to statins. They focused on apolipoprotein B (ApoB), a molecule that liver cells use to make LDL and which is normal in patients with FH. Drugs that decrease ApoB could potentially lower cholesterol independently of the LDL receptor in FH patients and also in patients with other forms of high cholesterol.

FH was a perfect model for testing alternatives to statins. Yet the rarity of FH meant these liver cells were scarce. Duncan's group obtained skin cells from a patient with the rare disorder from the Next Generation Genetic Association Studies consortium of the National Heart, Lung, and Blood Institute, which studies genetic mutations linked to cardiovascular diseases. Next, they generated induced pluripotent stem cells from these skin cells. Stem cells continually double their numbers while in culture. This meant that a sample of converted skin cells from a single patient with FH provided a renewable source of liver-like cells that retained the mutation.

The team treated their liver-like cells with the SPECTRUM drug library, a collection of 2300 pharmaceuticals, many of which have reached clinical trials. In a surprising finding, all nine cardiac glycosides in the library, some once widely prescribed for heart failure, reduced ApoB levels in liver-like cells from the patient with FH, ranging from 29 percent (ouabain) to 38 percent (digoxin) to 73 percent (gitoxin). In further tests, they also lowered ApoB levels in human hepatocytes and reduced them by 30 percent in mice engineered to grow normal human livers without the FH mutation at doses eight times below their toxicity thresholds. Molecular tests revealed that glycosides shorten the lifetime of the ApoB molecule, in part by increasing how quickly it is degraded.

As everyone needs ApoB to make LDL cholesterol, this was proof that cardiac glycosides could potentially also work in patients with other forms of high cholesterol. To find out, the team combed through more than five thousand records of patients prescribed cardiac glycosides for heart failure who also had LDL cholesterol records. On average, LDL cholesterol levels were lower in those taking a cardiac glycoside (reduction of 9 mg/dL) or a statin (reduction of 14 mg/dL) than in those not taking any drug. No difference in LDL cholesterol levels was noted between those taking an angiotensin-converting enzyme inhibitor, another heart failure drug with no known role in cholesterol production, and those not taking any drug. Duncan's team also found patients who had LDL measurements recorded both before and after being prescribed a cardiac glycoside. LDL cholesterol dropped in 16 out of 21 patients and by an average of nearly 26 points, which was similar to the 32-point drop seen in a matching group of patients prescribed statins.

This study contains the first evidence to date that cardiac glycosides could potentially reduce LDL cholesterol independently of the LDL receptor, where statins act, by promoting ApoB degradation.

It is not clear from this study whether cardiac glycosides decrease LDL cholesterol in patients who do not have heart failure or at what dose they should be used. The cardiac glycosides have narrow ranges of efficacy for the treatment of heart failure, above which they can be toxic. However, they could offer inexpensive, life-saving options for patients with FH. Digoxin, the cardiac glycoside most commonly prescribed for heart failure, costs less than one dollar per day. Additionally, a cardiac glycoside in a low dose could conceivably provide an added benefit to patients already taking a statin. Finally, using stem cell-based screens of drugs that are already on the market is an innovative way to investigate treatments for rare liver diseases.

"There are so few livers available for transplant," says Duncan. "Having the stem cell model where we make liver cells in the culture dish opens up a possibility of using this not only to investigate a disease, but also as a way to discover drugs that could fix a disease."

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Stem Cell Drug Screen Yields Potential Alternative to Statins - R & D Magazine

Skin Stem Cells Comments Off on Stem Cell Drug Screen Yields Potential Alternative to Statins – R & D Magazine | April 8th, 2017

Eddie Marks is the pioneer in the University of Delaware Department of Medical Laboratory Sciences. Hes the first Ph.D. graduate in program history.

Having completed a professional masters degree in business/biotechnology at UD, Marks jumped at the opportunity of a fledging Ph.D. in the medical sciences program. Of course, Marks was interested in the programs core courses like statistics, immunology and physiology, but the department also granted the aspiring researcher a great deal of independence.

There is a lot of freedom to be able to choose, which is what I really liked coming in, explained Marks, who researches how adult bone narrow stem cells can treat heart attacks. I took a biology ethics course and a materials science course, which, by learning some of the engineering, really helped to further my research.

With a microbiology background, Marks was used to growing cells and working under a microscope, which eased his translation into the field. He was motivated by his adviser Arun Kumar, who also took an interdisciplinary route. Kumar took an organic chemistry background and applied it to nanomedicine. As a masters students, Marks was tapped to work on a stem cell project with Kumar. He took the preliminary data and worked on turning the stem cells into tissue types.

But research is far from Marks only talent. Elsevier Health reached out to Kumar about a book on thymosins, a protein class with diverse biological activities. Kumar and Marks had used one of these thymosin proteins specific to the heart thymosin beta-4 to turn stem cells into heart tissue. So the pair drafted a book chapter on how this protein helps heal our most vital internal organ.

We looked at [the proteins] role in development as the heart is growing, its natural effects after a heart attack, how the protein gets released and how we and other researchers use it to attempt to heal the heart after certain cardiac events, said Marks.

Earlier this month, Marks successfully defended his dissertation Adult Human Bone Marrow Mesenchymal Stem Celled Primed for the Repair of Damaged Cardiac Tissue after Myocardial Infarction. Half of the numbered chapters of the dissertation were published or are currently under review in scientific journals. Each of the six chapters of the dissertation is a paper to be published.

With his Ph.D. in hand, Marks is headed to private industry, which could mean consulting or science writing.

I want to be client-facing and help an array of companies.

Combining the time spent on the masters and Ph.D. program, Marks completed the two degrees in only five and a half years. Around the country, the typical student finishes similar programs between six and eight years time. He credits the department for the unique program design and streamlined process.

The department is very connected to the hospital [Christiana Care] and has a good reputation at the University, said Marks. The faculty knows every group from biology to engineering to the Life Science Research Facility and down to STAR Campus. There are connections everywhere. My dissertation committee had incredibly varied areas of expertise and that would not happen without Medical Laboratory Sciences.

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First Ph.D. recipient - UDaily

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Image courtesy UP Health System - Marquette.

Image courtesy UP Health System - Marquette.

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April 4, 2017 - MARQUETTE - UP Health System Marquette will host a bone marrow registry drive on April 12th, 2017 on the 3rd floor of the North Entrance to the hospital.

Every four minutes, someone is diagnosed with a blood cancer in the US. For thousands of patients with leukemia or other blood diseases like sickle cell anemia, a marrow transplant is their only hope.

Joining the bone marrow registry takes roughly 10 minutes of paperwork and a cheek swab. Only 1 in 430 registry members go on to donate.

If you match with a patient in need, you will receive a phone call asking to donate. Donation is always voluntary. Surgery is not always required for bone marrow donation; almost 80% of donors donate their blood stem cells in a non-surgical procedure that is very similar to donating plasma.

Please note that UP Health System - Marquette is not affiliated with the National Marrow Donor Program or the Be The Match organization. Our presence here will be to help facilitate and educate those interested in joining the Be The Match registry.

Be The Match is operated by the National Marrow Donor Program (NMDP) which manages the largest and most diverse marrow registry in the world, working to save lives through transplant.

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Bone Marrow Registration Drive to be held at UP Health System - UPMatters.com

Bone Marrow Stem Cells Comments Off on Bone Marrow Registration Drive to be held at UP Health System – UPMatters.com | April 4th, 2017

Three Bangladeshis suffering from a highly debilitating muscular dystrophy, who arrived in Mumbai on Sunday have begun their treatment at a Navi Mumbai spine clinic.

Abdus, Rahinul and Shorab aged 24, 14 and 8 respectively were diagnosed with this crippling disease at the time of their birth.

They arrived on Sunday evening and we started the treatment on Monday, said Avantika Patil, spokesperson NeuroGen Brain and Spine Institute in Seawoods, Navi Mumbai, who is treating them for free.

They are undergoing an autologous bone marrow derived stem cell treatment. Stem cells are taken from the bone marrow in their hip bone, treated in our lab and then injected into to the patients again. We will provide a combination of stem cell therapy and neuro-rehabilitation which will also includes yoga and speech therapy sessions, Patil explained.

While the hospital is not willing to say what kind of progress can be expected in these particular cases, they revealed that in one case, a bed-ridden patient was able to walk slowly after six years of treatment.

In January, fruit seller Tofazzal Hossain sparked a rare debate about euthanasia in conservative Bangladesh in January when he pleaded with the authorities to allow his grandson and two sons to die.

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Stem cell treatment begins for dystrophy patients from Bangladesh - Daily News & Analysis

Bone Marrow Stem Cells Comments Off on Stem cell treatment begins for dystrophy patients from Bangladesh – Daily News & Analysis | April 4th, 2017

Dodgers left-hander Rich Hill put some distance between himself and his spring of discontent Friday night, while Angels right-hander Garrett Richards put the finishing touches on his spring time of renewal.

Hill allowed four hits in 3 2/3 scoreless innings in a 3-1 exhibition victory at Angel Stadium, striking out two and walking one, a marked contrast from the 8.03 earned-run average he posted in five Cactus League starts, when he walked 14 and struck out 13 in 12 1/3 innings.

Hill said he was not particularly worried about his spring numbers. After all, he posted an 11.25 ERA last spring, then a 2.12 ERA during the season. Still, he was pleased with his performance Friday.

Everything is going in the right direction, he said. Today was a good outing, a good way to finish up spring training.

He said his curve and slider were the sharpest they had been all spring.

It was pretty weak contact throughout the game, he said. I think thats an indication of how the ball is coming out of your hand.

Richards allowed one run and two hits in four innings, striking out three and walking one in a 57-pitch tuneup for his regular-season debut Wednesday in Oakland.

His only blemish was a 1-and-1 slider that Justin Turner lined over the left-field wall in the fourth for a solo home run, giving the Dodgers third baseman, who is batting .385, a team-leading four homers and 16 runs batted in for the spring.

That Richards will open the season in the rotation is something of a miracle considering his setback last spring. He tore the ulnar collateral ligament in his right elbow in May and seemed headed for Tommy John ligament-replacement surgery.

Instead, he opted for stem-cell therapy, in which stem cells from his own bone marrow were injected into his elbow. A procedure that didnt work for teammate Andrew Heaney worked for Richards, who pitched in the instructional league last fall and has looked strong this spring, his fastball clocked in the 96-mph range.

I just feel very blessed, very thankful, for my teammates, who stood by me the whole time, for our training staff and doctors, Richards said. Everybody did such a great job with me, and I really appreciate it. Its been a long time, and Ive got to watch a lot of baseball, so its good to be out there competing again.

Richards said any doubts about the integrity of his elbow were eliminated in the instructional league. He had to overcome a similar mental hurdle in the spring of 2015 when he returned from major left-knee surgery.

I feel normal, Richards said. My body is finally feeling complete again. Im over the knee, my arm feels good.

Richards only concession to the elbow injury will be a pitch limit that the Angels hope to keep at around 100. A workhorse by nature, Richards threw 118 pitches and 115 pitches in consecutive April games last season.

I dont think well see 110-pitch outings from Garrett, but theres nothing to say he wont pitch deep into games, Angels Manager Mike Scioscia said. I think the extremes with Garret are something well avoid. Early in the season, were not going to see him throw 115 pitches. It just doesnt make sense.

The Dodgers were encouraged by Hills command Friday night, when he walked one of 16 batters after walking 14 of 58 batters in Arizona. He struck out Albert Pujols looking at a looping curve to end the first. He pitched out of a two-on, two-out jam in the second and retired the side in order in the third.

Left fielder Andrew Toles helped Hill with a running, lunging catch of Jefry Martes drive to the wall in the fourth, and Hill finished his night by striking out Danny Espinosa looking at a full-count curve.

The Dodgers scored twice off Angels reliever Kirby Yates in the eighth when Erick Mejia and Franklin Gutierrez led off with doubles and Cody Bellinger hit a two-out RBI double.

Angels right-hander Blake Parker may have solidified a bullpen spot when he struck out the side in the ninth, extending his consecutive strikeout string to 17 batters.

Dodgers closer Kenley Jansen struck out two of three in the fifth, and probable Angels closer Cam Bedrosian retired the side in order in the seventh, giving him nine scoreless innings this spring.

mike.digiovanna@latimes.com

Follow Mike DiGiovanna on Twitter @MikeDiGiovanna

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Some restoration drama at the Big A as Dodgers top Angels, 3-1 - Los Angeles Times

Bone Marrow Stem Cells Comments Off on Some restoration drama at the Big A as Dodgers top Angels, 3-1 – Los Angeles Times | April 1st, 2017

JEROMESVILLE Heidi Steiber was 27 years old when she was diagnosed with Multiple Sclerosis.

MS is an unpredictable, often disabling disease of the central nervous system that disrupts the flow of information within the brain, and between the brain and body, according to the NationalMultiple SclerosisSociety.

"I've experienced various symptoms," Steiber said. "Loss of vision, my left and right hands and left leg don't work very well."

MS is a progressive ailment, Steiber added, which means the damage the disease causes can not be corrected.

Now, 15 years later, the 42-year-old Steiber is hoping to raise enough money to spend a month in Puebla, Mexico to undergo a hematopoietic stem cell transplant.

HSCT is a transplant of multipotent hematopoietic stem cells, usually derived from bone marrow, peripheral blood, or umbilical cord blood.

Steiber applied for a similar program in Chicago, but was turned away because they wanted to research MS patients who have had the disease for 10 or less years.

The treatment will cost $55,000 and will keep Steiber in isolation for a month, she said. The treatment will destroy her immune system after her stem cells are taken from her marrow. After the immune system is removed the stem cells will be replaced into her body. She hopes to make her appointment on June 19 at Clinica Ruiz

"It's like Heidi 2.0 or Heidi rebooted," she joked.

She is using a crowd sourcing website to gather donations. So far, she has been excited by the results in one month, raising $32,000 of the $70,000 she is looking for to pay for her treatments and the following recovery. Steiber said her insurance will not contribute to the medical expenses.

"People have been extremely generous. One of my donators did a matching donation, so I raised $3,000 in a day-and-a-half.

Steiber, now residing in Raleigh, North Carolina, will be heading back to her hometown of Jeromesville to the American Legion for a benefit dinner, May 13. It will run from 3 p.m. to 10 p.m.

"You know the expression, it takes a village? That's the village they were talking about Jeromesville," the Hillsdale High graduate said. "It's amazing to have people coming together for you."

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Hillsdale grad looks for medical help in Mexico, local support to get there - Richland Source

Bone Marrow Stem Cells Comments Off on Hillsdale grad looks for medical help in Mexico, local support to get there – Richland Source | March 31st, 2017

Adelaide woman Kate Rafertys son just started school, her daughter is two.

She doesnt like to speak about it with her doctors, but she may not get the chance to see them grow up.

Ms Raferty has a severe form of Leukaemia, which relapsed early in 2017.

She needs a life-saving bone marrow transplant a simple one-day procedure for the donor but of the millions of registered donors around the world, none are a match.

It was a bit hard to absorb because everything happened so fast when I was first diagnosed, she told SBS.

They focused on my sister being a match, and that took weeks to work out that she wasn't a match.

Only about 30 per cent of patients are able to find a match within their family - the chance of a single sibling being a match is 25 per cent.

At about the same time, they told me there wasn't a match worldwide, but never really worked out or advised why, MsRaferty said.

The likely reason is as uncomfortable one Ms Rafertys mother is Hungarian and her father is a white Australian.

The unique background is an inherent part of what makes Kate Raferty who she is, but it may have doomed her chances of finding a donor.

Bone marrow transplants require a partial genetic match relating to an array of genes known as the HLA system - family members are the best chance of a match, but failing that it's likely a donor will have to be found from people with a similar ethnic background.

People like us who have migrated to Australia, or are children of those who migrated and help make up multicultural Australia, have one of the worst chances of finding a match, Ms Rafertysaid.

Paul Berghoffer, Operations Manager with the Bone Marrow Donor Centre, says that while donor matching is based on a range of factors, a HLA match is critical - it's the system which your immune defences use to distinguish your own cells from foreign cells.

You inherit half of your HLA type from your mother and half from your father, and because it is an entirely inherited trait, we find there are HLA clusters within particular ethnic groups," he said.

Within Australia's 170,000-strong donor pool, northwest Europeans are probably over-represented, he said.

The challenge for donor registries in Australia and around the world is to build genetically diverse registries that are reflective of those who need help."

While factors vary case to case, those with a mixed genetic background, such as Kate Raferty, can have even rarer HLA types.

Looking at the law of averages, its definitely more challenging for people of mixed backgrounds to find a HLA match," he said.

"Given there are roughly 29 million donors registered world-wide, the fact that people still can't find a match just stands to show how variable HLA types are."

The answer, he says, is recruitment focused onethnic minorities and people with mixed backgrounds.

Kate Raferty and her husband and children, Christmas 2014.

In her desperation to stay alive to see her children grow up, Ms Raferty has taken to social media to raise awareness and increase donor registration.

Our cure is out there in someone else in the world, we just need them to register, she said.

The Raferty family isnt the only one looking.

Tania in South Australia has a mixed Balkan background.

Baby Ruby in the UK has a mixed Latin American background.

Six-month-oldAustin in the UKis of mixed Polish background.

Five-year-old Valerie in the UK has an African background.

Each family is desperate to find a match, andthey work with each other as part of an international drive to increase the genetic diversity of registered donors.

I am determined, determined to ask each and every one of you to help to save people like my son by signing up to become a stem cell donor for patients in need, said baby Austins father, Lewis.

Some campaigns have signed up thousands of extra donors, and turned up matches for multiple other patients.

Because people are often unaware of the diversity of their own genetic make-up, their campaigns target people very broadly.

My mum is from Hungary but thinks her grandma was from Czechoslovakia, Ms Rafferty said.

Possibly also any bordering country might share the same tissue types.

While doctors have toldMsRafterty her chances of finding a match are slim, she remains optimistic.

Others have found their matches by campaigning like this, but sadly others have died in their search, she said.

Enrolled in a drug trial and receiving blood cord transplants, she now has some extra time with her children, but she says her only hope of a cure is a transplant.

Someone with mixed Jewish-Chinese heritage just found their match, she said, so we live in hope.

You can join Australian Bone Marrow Donor Registry if you are aged between 18 and 45 years, in good health and meet the eligibility criteria. Joining the registry requires a blood test. If you are found to be a match, donating can be done through a blood donation or a relatively simple day procedure.

Find out more from the Australian Bone Marrow Donor Registry. To register call 13 14 95.

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Why mixed-race minorities struggle to find life-saving transplant matches - SBS

Bone Marrow Stem Cells Comments Off on Why mixed-race minorities struggle to find life-saving transplant matches – SBS | March 31st, 2017

KAMLOOPS My curiosity was sparked when I read that a stem cell centre was opening in Kamloops (Kamloops This Week, March 21, 2017).

So I went to the location of the centre at 470 Columbia St only to find a parking lot. Thinking that the address might be wrong, I searched the directory of the medical building next door and found that no stem cell centre was listed.

The Stem Cell Centers website lists Kamloops as the only one in Canada. Dr. Richard Brownlee is named as the surgeon with more information coming soon.

Stem cell therapy, says the website, can help with orthopedic or pain management, ophthalmological conditions, cardiac or pulmonary conditions, neurological conditions, and auto-immune diseases, among many other conditions and disease that results in damaged tissue.

One of the ophthalmological conditions they treat is macular degeneration. If your vision is fading due to macular degeneration, you know its time to seek help. Our non-invasive Stem Cell Therapy treatment might be the solution for you.

I wanted get Dr. Brownlees reaction to news that an unproven stem cell treatment had resulted in blindness according to the New England Journal of Medicine as reported in the Globe and Mail, March 20, 2017.

This week, the New England Journal of Medicine (NEJM) reported on three individuals who went blind after receiving an unproven stem cell treatment at a Florida clinic. The patients paid thousands of dollars for what they thought was a clinical trial on the use of stem cells to treat macular degeneration.

The writer of the Globe and Mail article, Timothy Caulfield, Research Chair of the in Health Law and Policy at the University of Alberta, doesnt name the Florida clinic.

The Stem Cell Centers website refers optimistically to treatment for macular degeneration at a Florida clinic, although apparently not theirs since no Florida clinic appears on their list. It tells of how Doug Oliver suffered from macular degeneration before stem cells were extracted from his hip bone and injected them into his eyes. Almost immediately, Olivers eyesight started to improve. I began weeping, he said.

Caulfield encourages caution. Health science gets a lot of attention in the popular press. People love hearing about breakthroughs, paradigm shifts and emerging cures. The problem is, these stories are almost always misleading. It can also help to legitimize the marketing of unproven therapies.

Reports from the Stem Cell Centers own website are cautionary as well. It quotes an abstract from a study done by the Southern California College of Optometry on how stem cells might ultimately be used to restore the entire visual pathway.

The promise of stem cell research is phenomenal. Scientific American (Jan., 2017) reports that brains can be grown in a lab dish from stem cells taken from skin. These samples can be used to research brain disorders ranging from schizophrenia to Alzheimer's disease, and to explore why only some babies develop brain-shrinking microcephaly after exposure to the Zika virus.

However, Dr. George Daley, dean of Harvard Medical School, concludes that there are only a handful of clinical applications available and they are for skin and blood-related ailments.

Practice, it seems, has not yet matched the promise of stem cell research.

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Stem cell centre coming to Kamloops? | CFJC Today - CFJC Today Kamloops

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Researchers turn to the vascular system of plants to solve a major bioengineering problem blocking the regeneration ... Science Daily ... to establish a vascular system that delivers blood deep into the developing tissue. Researchers have now successfully turned to plants, culturing beating human heart cells on spinach leaves that were stripped of plant cells. ... "The spinach leaf ... and more »

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Researchers turn to the vascular system of plants to solve a major bioengineering problem blocking the regeneration ... - Science Daily

Cardiac Stem Cells Comments Off on Researchers turn to the vascular system of plants to solve a major bioengineering problem blocking the regeneration … – Science Daily | March 27th, 2017