Heart-Attack-Patient-Receives-Adult-Stem-Cell-Therapy- – Video
30-05-2012 10:25
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Heart-Attack-Patient-Receives-Adult-Stem-Cell-Therapy- - Video
Gaborone could have stem cell storage facility this year
Gaborone could have stem cell storage facility this year
LAWRENCE SERETSE Correspondent
Speaking to Mmegi this week, Mngqibisa said Parliament was set to pave the way for the facility by means of legislation in July and that Cryo-Save intended approaching government about storing stem cells for every Motswana.
"Stem cells are the basic building blocks of our bodies and are often referred to as 'master cells,'" she said.
"And because stem cells have the potential to become almost any other cell in the body, stem cell therapies are the way of the future."
Stem cell treatment is applied to over 70 diseases and disorders, among them leukemia, lymphoma, blood cancers and bone marrow disorders like aplastic anaemia and sickle cell disease.
Mngqibisa said patients requiring a haemopoietic stem transplant will receive cells from one or three sources of bone marrow, circulating blood or umbilical cord blood.
"It is much easier to match transplant patients with immune naive cord blood stem cells than with the other sources of stem cells," she explained. "Umbilical cord blood stem cells are the most naive stem cells, hence they are best harvested from the baby at birth before they are exposed to infections and immune reactions."
She said transplant patients recovered better when they received stem cells from a related donor rather than from an unrelated donor. Brain tumors, lung cancer, plasma cell leukemia, anaemia and osteopetrosis.
Multiple sclerosis and diabetes can also help in tissue building like skin burn repairs. The newborn may be able to use his or her cord blood for some of the conditions on a long list, but not all. In some cases, a matching sibling stem cell would be the first choice.
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Gaborone could have stem cell storage facility this year
LA BioMed's Dr. Patricia Dickson researching treatments for neurodegenerative disorders
Public release date: 30-May-2012 [ | E-mail | Share ]
Contact: Diana Soltesz diana@dsmmedia.com 818-592-6747 Los Angeles Biomedical Research Institute at Harbor-UCLA Medical Center (LA BioMed)
LOS ANGELES (May 30, 2012) Patricia Dickson, M.D., principal investigator at The Los Angeles Biomedical Research Institute at Harbor-UCLA Medical Center (LA BioMed), is co-principal investigator of a project that was just awarded a $5.5 million grant from the California Institute for Regenerative Medicine (CIRM). The goal of the project is to develop a stem cell based therapy for the treatment of mucopolysaccharidosis I (MPS I), a fatal pediatric lysosomal storage disease that causes neurodegeneration as well as defects in other major organ systems. Dr. Dickson is working with lead investigator Philip H. Schwartz, Ph.D., senior scientist at the CHOC Children's Research Institute and managing director of the facility's National Human Neural Stem Cell Resource.
For nearly a decade, Dr. Dickson's research at LA BioMed has focused on enzyme replacement therapy for mucopolysaccharidosis, a group of metabolic disorders caused by the absence or malfunctioning of enzymes needed to break down molecules - called glycosaminoglycans - which help build bone, cartilage, connective tissue and other essential parts of the body. As part of this study, she and her colleagues will begin with proof-of-principle experiments for MPS I.
"Dr. Dickson has been at the forefront of mucopolysaccharidosis research for many years, working tirelessly to help develop therapies for MPS I," said David I. Meyer, Ph.D., president and CEO of LA BioMed. "We congratulate her on her continued success, and for her role in this project which could be an important breakthrough for children suffering from neurodegenerative disorders."
"The unique aspect of this research is that it uses a single donor for the transplantation of stem cells into the body and the brain, which allows the best treatment for both physical and neurological disease and avoids rejection of neural stem cell grafts by the host immune system," said Dr. Dickson. "Pediatric neurodegenerative diseases are generally neglected in stem cell research, but stand the greatest chance of success. The high probability of success, along with the need to alleviate suffering in children, is why we believe the first applications of stem cell therapies should be for these kids."
Dr. Schwartz, Dr. Dickson and project collaborators are working to address two critical issues in the development of a therapeutic candidate based on stem cells: that early intervention is not only required but is indeed possible in this patient population, and that the concept of immune tolerance is also required, where the immune system is trained to attack only real threats in the body but not the body's own cells or tissues.
To date, there is still a significant unmet medical need to better impact and prevent the neurodegenerative processes in this disease. If successful in MPS I, this technique can be expanded to help treat other neurodegenerative disorders due to lysosomal storage.
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LA BioMed's Dr. Patricia Dickson researching treatments for neurodegenerative disorders
Stem Cell Therapy: Healing Force of the future – Video
29-05-2012 11:48 In this episode of Breakthrough Medicine, experts from the University of Miami's Interdisciplinary Stem Cell Institute (ISCI) use adult stem cells to repair organs and save lives. In this episode of Breakthrough Medicine, experts from the University of Miami's Interdisciplinary Stem Cell Institute (ISCI) use adult stem cells to repair organs and save lives. A heart attack victim receives his own stem cells in hopes of repairing his damaged heart muscle, and after all other methods have failed, patients with chronic wounds turn to a revolutionary study that heals broken skin. Can you be saved by your own cells? Watch to find out how unlocking the powers of adult stem cells is changing medicine.
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Stem Cell Therapy: Healing Force of the future - Video
UCI researcher wins large research grant
A UC Irvine stem cell researcher won a $4.8-million grant to fund research toward a treatment for multiple sclerosis.
The California Institute for Regenerative Medicine awarded immunologist Thomas Lane, of the campus' Sue and Bill Gross Stem Cell Research Center, an Early Transitional Award last week to create a new line of neural stem cells to treat multiple sclerosis, according to a UCI press release.
"I am delighted that [the California Institute] has chosen to support our efforts to advance a novel stem cell-based therapy for multiple sclerosis," Peter Donovan, director of the research center, said in the release.
Lane is collaborating with Jeanne Loring, director of the Center for Regenerative Medicine at the Scripps Research Institute in La Jolla, and Claude Bernard, a multiple sclerosis researcher at Monash University in Australia.
The research project "really embodies what [the California Institute] is all about, which is bringing science together to treat horrible diseases like multiple sclerosis," said Lane, who is a professor of molecular biology and biochemistry.
Multiple sclerosis is a central nervous system disease that causes inflammation and a loss of myelin, a fatty tissue that insulates and protects nerve cells.
The three are working on a stem cell treatment that will stop myelin loss while promoting the growth of new myelin to mend damaged nerves.
Loring creates the neural stem cells, said Lane, while he is testing the therapeutic effects the cells have on multiple sclerosis cells in animals.
The stem cells are already having a positive effect and the scientists are trying to understand why. They hope to identify the cells that have the most promise before going to clinical trials.
"I really want to thank the [California Institute] for allowing, and for funding, us," Lane said.
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UCI researcher wins large research grant
Stemedica Stem Cells Approved for Clinical Trials in Mexico for Chronic Heart Failure
SAN DIEGO, May 29, 2012 (GLOBE NEWSWIRE) -- via PRWEB - Stemedica Cell Technologies, Inc. announced today that its strategic partner in Mexico, Grupo Angeles Health Services, has received approval from Mexico's regulatory agency, COFEPRIS, for a Phase I/II single-blind randomized clinical trial for chronic heart failure. COFEPRIS is the Mexican equivalent of the United States FDA. The clinical trial, to be conducted at multiple hospital sites throughout Mexico, will utilize Stemedica's adult allogeneic ischemia tolerant mesenchymal stem cells (itMSC) delivered via intravenous infusion. The trial will involve three safety cohorts at different dosages, followed by a larger group being treated with the maximum safe dosage. The COFEPRIS approval is the second approval for the use of Stemedica's itMSCs. COFEPRIS approved Stemedica's itMSCs in 2010 for a clinical trial for ischemic stroke. These two trials are the only allogeneic stem cell studies approved by COFEPRIS.
Grupo Angeles is a Mexican company that is 100% integrated into the national healthcare development effort. The company is comprised of 24 state-of-the-art hospitals totaling more than 2,000 beds and 200 operating rooms. Eleven thousand Groupo Angeles physicians annually treat nearly five million patients a year. Of these, more than two million are seen as in-patients. In just over two decades, Groupo Angeles has radically transformed the practice of private medicine in Mexico and contributed decisively to reform in the country's health system. Grupo Angeles hospitals conduct an estimated 100 clinical trials annually, primarily with major global pharmaceutical and medical device companies.
"We are pleased that we will be working with the largest and most prestigious private medical institution in Mexico to study Stemedica's product for this indication. If successful, our stem cells may provide a treatment option for the millions of patients, both in Mexico and internationally, who suffer from this condition," said Maynard Howe, PhD, CEO of Stemedica Cell Technologies, Inc.
Roberto Simon, MD, CEO of Grupo Angeles Health Services, noted, "We are proud to be the first organization to bring regulatory-approved allogeneic stem cell treatment to the people of Mexico. We envision that this type of treatment may well become a standard for improving cardiac status for chronic heart failure patients and are pleased to be partnering with Stemedica, one of the leading companies in the field of regenerative medicine."
Nikolai Tankovich, MD, PhD, President and Chief Medical Officer of Stemedica commented, "For the more than five million North Americans who suffer from chronic heart failure, this is an important trial. Our ischemia tolerant mesenchymal stem cells hold the potential to improve ejection fraction--the amount of blood pumped with each heart beat--and therefore, dramatically improve quality of life."
For more information about Stemedica please contact Dave McGuigan at dmcguigan(at)stemedica(dot)com. For more information about Grupo Angeles and the chronic heart failure trial please contact Paulo Yberri at pyberri(at)angelesehealth(dot)com.
About Stemedica Cell Technologies, Inc. Stemedica Cell Technologies, Inc.(http://www.stemedica.com) is a specialty bio-pharmaceutical company committed to the manufacturing and development of best-in-class allogeneic adult stem cells and stem cell factors for use by approved research institutions and hospitals for pre-clinical and clinical (human) trials. The company is a government licensed manufacturer of clinical grade stem cells and is approved by the FDA for its clinical trials for ischemic stroke. Stemedica is currently developing regulatory pathways for a number of medical indications using adult allogeneic stem cells. The Company is headquartered in San Diego, California.
This article was originally distributed on PRWeb. For the original version including any supplementary images or video, visit http://www.prweb.com/releases/stemedica-clinical-trial/chronic-heart-failure/prweb9550806.htm
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Stemedica Stem Cells Approved for Clinical Trials in Mexico for Chronic Heart Failure
Osiris Receives Medicare Reimbursement Codes for Grafix®
COLUMBIA, Md.--(BUSINESS WIRE)--
Osiris Therapeutics, Inc. (OSIR), the leading stem cell company focused on developing and commercializing products to treat medical conditions in inflammatory, cardiovascular, orthopedic, and wound healing markets, announced today that it has received transitional pass-through status from the Center for Medicare & Medicaid Services (CMS), with C-Codes being designated for Grafix. Further, the product has been assigned pass-through status under Medicare's outpatient prospective payment system (OPPS), effective July 1, 2012. These codes will assist in facilitating reimbursement when Grafix products are used to treat Medicare patients with acute and chronic wounds in the hospital outpatient department and ambulatory surgical center settings.
We are very pleased with CMS, and their decision to assign pass-through codes for our Grafix line of Biosurgery products, said Frank Czworka, Executive Director, Wound Care of Osiris Therapeutics. This step will allow more Medicare patients and their providers to have greater access to these next-generation regenerative medicine products."
CMS also issued a preliminary positive decision for the assignment of permanent Healthcare Common Procedure Coding System (HCPCS) Q-codes for Grafix. If the decision is made permanent, it is anticipated that the Q-codes would be available starting in January 2013. The assignment of unique Q-codes will assist in facilitating reimbursement in the physician office setting, offering additional access for Medicare patients.
Non-healing wounds remain a serious unmet medical need and result in over 100,000 amputations each year in the United States alone. Current treatment options include growth factors and bioengineered dressings. However, when chronic wounds fail to respond to current standards of care, new advances are needed. Research shows that mesenchymal stem cells (MSCs) in normal skin play a critical role in the wound healing process. Grafix is the only commercially available product that provides viable, endogenous MSCs together with growth factors and an optimal tissue matrix, making it well suited to promote active dermal healing.
About Grafix
Grafix is a three-dimensional cellular matrix designed for application directly to acute and chronic wounds, including diabetic foot ulcers and burns. Flexible, conforming and immune neutral, this cellular repair matrix provides a rich source of viable, mesenchymal stem cells (MSCs) and growth factors directly to the site of the wound, while the matrix protects the area from inflammation, scarring, and infection. Grafix is manufactured using a unique proprietary process that preserves the matrix, cells and growth factors needed for successful healing.
About Osiris Therapeutics
Osiris Therapeutics, Inc. is the leading stem cell company, having developed the worlds first approved stem cell drug, Prochymal. The company is focused on developing and marketing products to treat medical conditions in inflammatory, cardiovascular, orthopedic and wound healing markets. Osiris currently markets Prochymal for pediatric refractory GvHD in Canada, Grafix for burns and chronic wounds, and Ovation for orthopedic applications. The companys pipeline of internally developed biologic drug candidates under evaluation includes Prochymal for inflammatory, autoimmune and cardiovascular indications, as well as Chondrogen for arthritis in the knee. Osiris is a fully integrated company with capabilities in research, development, manufacturing and distribution of stem cell products. Osiris has developed an extensive intellectual property portfolio to protect the company's technology, including 48 U.S. and 144 foreign patents.
Osiris, Prochymal, Grafix and Ovation are registered trademarks of Osiris Therapeutics, Inc. More information can be found on the company's website, http://www.Osiris.com. (OSIRG)
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Osiris Receives Medicare Reimbursement Codes for Grafix®
Scotland opens stem cell research center and bio-medical incubator
EDINBURGH, Scotland, May 29, 2012 /PRNewswire/ -- Research into conditions such as multiple sclerosis and heart and liver disease will benefit from multi-million dollar stem cell research and life sciences facilities opened yesterday by HRH, the Princess Royal.
The Princess Royal is to unveil plaques this afternoon at the $85 million Scottish Centre for Regenerative Medicine (SCRM) and $38 million bio-incubator facility, Nine, in Edinburgh.
The University of Edinburgh's Scottish Centre for Regenerative Medicine will carry out cutting-edge stem cell research to help find therapies for patients with conditions such as multiple sclerosis, Parkinson's disease, motor neurone disease, and heart and liver diseases.
The centre is the first large-scale, purpose-built facility of its kind and provides accommodation for up to 250 stem cell scientists. The centre, funded by the University of Edinburgh, Scottish Enterprise, the Medical Research Council (MRC) and the British Heart Foundation through its Mending Broken Hearts Appeal, was opened by the Princess Royal in her role as Chancellor of the University. It includes the most up-to-date facilities in the UK, which meet the highest guidelines, to manufacture stem cell lines that could be used for patient therapies.
Nine, which has been jointly funded by Scottish Enterprise and the UK Government's Department for Business, Innovation and Skills, provides 85,000 square feet of laboratory and office space for both established biotechnology companies and start-up ventures. These could include potential spin-out companies from the University of Edinburgh.
Both buildings form a major investment in research at Edinburgh BioQuarter, which is in the city's Little France area and encompasses the Royal Infirmary of Edinburgh and the University of Edinburgh's Queen's Medical Research Institute and Chancellor's Building.
Professor Charles french-Constant, Director of the Medical Research Council Centre for Regenerative Medicine at the SCRM and Chair of Medical Neurology at the University of Edinburgh, said: "Recent research into stem cells has heralded the beginning of a revolution in modern medicine. The Scottish Centre for Regenerative Medicine's great strength lies in bringing world-class clinicians and scientists to work together, encouraging the translation of laboratory discoveries into treatments for patients. The research will help in finding treatments for devastating conditions, for which there are currently no cures."
Jim McFarlane, Managing Director of Operations at Scottish Enterprise said: "Scotland has a distinguished history in developing breakthroughs in medical science and we believe that, collectively, the concentration of world-class research and facilities at Edinburgh BioQuarter will provide a breeding ground conducive to new medical discoveries that will continue that tradition for centuries to come and have a significant impact on the Scottish economy.
"Already, Nine has secured its first tenants and is attracting significant interest from potential occupiers from Scotland's life sciences sector.The official opening of the bio-incubator facility marks a major milestone in cementing Scotland's global reputation for excellence in commercialization of medical research."
Edinburgh BioQuarter is a joint venture between NHS Lothian, Scottish Enterprise, the University of Edinburgh and Alexandria Real Estate Equities, to boost developments in life sciences. This includes assisting the formation of spin-out companies from NHS and University of Edinburgh research, as well as encouraging partnerships with the bio-pharmaceutical industry.
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Scotland opens stem cell research center and bio-medical incubator
Biostem Appoints Philip A. Lowry, MD as Chairman of Its Scientific and Medical Board of Advisors
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Posted May 29, 2012
Philip A. Lowry
Highly Recognized Bone Marrow Stem Cell Transplant Specialist Added to Existing Member Expertise in Maternal Fetal Medicine, Cardiology, and Pathology
CLEARWATER, FL -- Biostem U.S., Corporation, (OTCQB: HAIR) (PINKSHEETS: HAIR) a stem cell regenerative medicine sciences company, announced that Philip A. Lowry, MD, has been appointed as the Chairman of its Scientific and Medical Board of Advisors (SAMBA).
According to Biostem CEO, Dwight Brunoehler, "As Chairman, Dr. Lowry will work with a team drawn from a cross-section of medical specialties. His combination of research, academic and community practice experience make him the perfect individual to coordinate and lead the outstanding group of physicians that makes up our SAMBA. As a group, The SAMBA will guide the company to maintain the highest ethical standards in every effort, while seeking and developing new cutting edge technology based on stem cell use. I am privileged to work with Dr. Lowry, once again."
Dr. Lowry stated, "Dwight is an innovative businessman with an eye on cutting-edge stem cell technology. His history in the industry speaks for itself. I like the plan at Biostem and look forward to working with everyone involved."
Dr. Philip A. Lowry received his undergraduate degree from Harvard College before going on to the Yale University School of Medicine. His completed his internal medicine residency at the University of Virginia then pursued fellowship training in hematology and oncology there as well. During fellowship training and subsequently at the University of Massachusetts, he worked in the laboratory of Dr. Peter Quesenberry working on in vitro and in vivo studies of mouse and human stem cell biology.
Dr. Lowry twice served on the faculty at the University of Massachusetts Medical Center from 1992-1996 and from 2004-2009 as an assistant and then associate clinical professor of medicine establishing the bone marrow/stem cell transplantation program there, serving as medical director of the Cryopreservation Lab supporting the transplant program, helping to develop a cord blood banking program, and teaching and coordinating the second year medical school course in hematology and oncology. Dr. Lowry additionally has ten years experience in the community practice of hematology and oncology. In 2010, Dr. Lowry became chief of hematology/oncology for the Guthrie Health System, a three-hospital tertiary care system serving northern Pennsylvania and southern New York State. He is charged with developing a cutting-edge cancer program that can project into a traditionally rural health care delivery system.
Dr. Lowry has also maintained a career-long interest in regenerative medicine springing from his research and practice experience in stem cell biology. His new role positions him to foster further development of that field. As part of a horizontally and vertically integrated multi-specialty team, he is closely allied with colleagues in cardiology, neurology/neurosurgery, and orthopedics among others with whom he hopes to stimulate the expansion of regenerative techniques.
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Biostem Appoints Philip A. Lowry, MD as Chairman of Its Scientific and Medical Board of Advisors
Actium Research and McMaster University Collaborate to Commercialize Stem Cell Technologies
Arrangement pairs one of Canada's most successful biotech executive teams with academic discovery engine to address the need for better drugs targeting cancer stem cells and regenerative medicine.
TORONTO/HAMILTON, May 29, 2012 /CNW/ - Actium Research Inc., ("Actium" or the "Company") Toronto, and McMaster University ("McMaster"), Hamilton, have entered into a landmark collaboration covering McMaster's proprietary adult human stem cell lines, cancer stem cells and the directed differentiation platform developed by Dr. Mick Bhatia and his team at the McMaster Stem Cell and Cancer Research Institute ("The Stem Cell Institute"). Together these technologies and the expertise at The Stem Cell Institute provide leading edge tools for drug discovery and better treatments for serious illnesses.
Actium is a drug discovery and development company targeting two types of stem cells; cancer stem cells to improve survival and health outcomes and normal tissue stem cells to promote healing and address the need for cure in chronic diseases. Actium was founded by Dr. David Young and Helen Findlay. Dr. Bhatia joined as the scientific founder in 2012. The team will put their experience with managing drug discovery platforms, development pathways and product pipelines to work to build Actium into a leading biotech company.
Previously, Dr. David Young and Ms Helen Findlay were uniquely successful in creating ARIUS Research Inc. ("ARIUS"), a public biotech company, trading on the TSX, specializing in the discovery and development of therapeutic cancer antibodies based entirely on technology developed in its own research labs. ARIUS' FunctionFIRST technology was partnered with leading companies such as Takeda Pharmaceuticals, Japan's largest drug company, Genentech, the leader in cancer antibodies, and Protein Design Labs, a pioneer in antibody humanization. These and other partnerships represented over $400 million of value. ARIUS was a singular financial success story in Canada. The sale of the company to Roche in 2008 generated a five times return on capital, cash on cash, representing the largest return to date for investors in a Canadian biotech company. More importantly, the company created the first specific cancer stem cell drug to enter human clinical trials. The company was well recognized for its accomplishments: it was named as a top 50 company by the TSX Venture Exchange in 2005, a top 10 company by Ottawa Life Sciences Council in 2006, and Biotech Company of the Year by BioteCanada in 2009.
"After we founded Actium we were presented with many interesting technologies looking for commercialization support." said David Young, Actium CEO. "Ontario has a wealth of great researchers and I think with Dr. Mick Bhatia's leadership and the support from the community, the Stem Cell Institute at McMaster stands at the forefront. Much has been written about Canada's commercialization gap and desperate need to move our research from the bench into the clinic so that we benefit from medical innovation both as patients and as a society. The federal government placed a lot of emphasis on addressing this gap in the most recent budget and our agreement with McMaster represents a great example of academia working with the private sector to achieve these goals. Actium is pleased to join the other companies and groups working to see Ontario's medical research advanced to provide our physicians with new tools to achieve better outcomes."
McMaster University is committed to creating collaborations that help accelerate the pace intellectual property is transferred from its labs and to the marketplace, where it will have the greatest impact.
"This specific initiative will assist us in doing just that," said Mo Elbestawi, McMaster Vice-President, Research and International Affairs. "These discoveries from Dr. Bhatia's lab show great promise and we're delighted with his efforts to commercialize the results of his research, from which many will benefit."
Initially, Actium will develop anti-cancer stem cell drugs that are directed against a newly identified cancer stem cell marker in leukemia and breast cancer. Cancer stem cells are a unique group of cells within a tumor that do not respond to conventional therapies and may be responsible for cancers that spread or that return after treatment. The company will also work through research agreements with McMaster and The Stem Cell Institute to identify drugs that cause "normal" stem cells to become specialized as different tissue types to promote healing. In addition, the Actium strategy includes accessing technologies that expand drug development capabilities or fill pipeline gaps. The overall development strategy is guided by principles of pipeline management where projects compete with each other for resources, and allocations are made according to success-based performance metrics. "This is the most efficient way to allocate resources to the compounds with the best chances of becoming breakthrough drugs. In this horse race the winners go on to the next race until a champion is crowned", said Dr. Bhatia, Actium Chief Scientific Officer.
About McMaster University and the McMaster Industry Liaison Office
McMaster University, one of four Canadian universities listed among the Top 100 universities in the world, is renowned for its innovation in both learning and discovery. With a research income of more than $395 million, McMaster ranks second in research intensity among Canadian universities. It is home to more than 23,000 students, 1,300 faculty members, and 70 world-class research centres and institutes. Through the McMaster Industry Liaison Office, the University facilitates the commercialization efforts of its faculty by connecting them to the marketplace.
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Actium Research and McMaster University Collaborate to Commercialize Stem Cell Technologies