Category Archives: Stem Cell Research

A beautiful, fresh face, Sabrina Cohen can stun you with her charm.

But she is far more. This 24-year-old, who has spent 10 years in a wheelchair as a result of a car accident, is battling to raise money for research and therapies that may eventually reverse paralysis and treat central nervous system impairments.

A native of Miami Beach, she is one of five leaders being honored by the Palm Beach-based Genetic Policy Institute at its eighth annual World Stem Cell Summit Dec. 4 at the Palm Beach County Convention Center in West Palm Beach. She is receiving the Inspirational Award.

This award brings a lot of meaning to my life and the path I have chosen to follow, she says of her founding of the nonprofit Sabrina Cohen Foundation.

This provides a platform for my foundation to inspire others and to share my hope for (stem cell) regeneration.

Other honorees include CBS 60 Minutes for its hard-hitting programs on unproven stem cell treatments; Susan Solomon, CEO of the New York Stem Cell Foundation; Alliance for Regenerative Medicine; and the Nebraska Coalition for Lifesaving Cures.

We recognize the dedicated individuals and organizations that positively impact the cause of stem-cell advancement aimed at finding cures and alleviating human suffering, said Bernard Siegel, executive director of GPI.

Through their positive actions, our honorees have moved the regenerative medicine needle, bringing closer the day when patients will be safely treated through these innovative technologies.

Previous Stem Cell Action awardees have included Maryland Governor Martin OMalley, Research!America, Juvenile Diabetes Research Foundation, Michael J. Fox, Robert Klein, Sherry Lansing, Palm Beacher A. Alfred Taubman and the National Association of Biology Teachers.

This year, panels will address advancing treatments for specific diseases and conditions including cancer, diabetes, HIV/AIDS, cardiovascular disease, spinal cord injury, paralysis, multiple sclerosis, ALS, Parkinsons, eye diseases and others.

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Stem-cell advocacy ‘moved the needle’

ScienceDaily (Oct. 1, 2012) A novel therapy in the early stages of development at Virginia Commonwealth University Massey Cancer Center shows promise in providing lasting protection against the progression of multiple myeloma following a stem cell transplant by making the cancer cells easier targets for the immune system.

Outlined in the British Journal of Hematology, the Phase II clinical trial was led by Amir Toor, M.D., hematologist-oncologist in the Bone Marrow Transplant Program and research member of the Developmental Therapeutics program at VCU Massey Cancer Center. The multi-phased therapy first treats patients with a combination of the drugs azacitidine and lenalidomide. Azacitidine forces the cancer cells to express proteins called cancer testis antigens (CTA) that immune system cells called T-cell lymphocytes recognize as foreign. The lenalidomide then boosts the production of T-cell lymphocytes. Using a process called autologous lymphocyte infusion (ALI), the T-cell lymphocytes are then extracted from the patient and given back to them after they undergo a stem cell transplant to restore the stem cells' normal function. Now able to recognize the cancer cells as foreign, the T-cell lymphocytes can potentially protect against a recurrence of multiple myeloma following the stem cell transplant.

"Every cell in the body expresses proteins on their surface that immune system cells scan like a barcode in order to determine whether the cells are normal or if they are foreign. Because multiple myeloma cells are spawned from bone marrow, immune system cells cannot distinguish them from normal healthy cells," says Toor. "Azacitidine essentially changes the barcode on the multiple myeloma cells, causing the immune system cells to attack them," says Toor.

The goal of the trial was to determine whether it was safe, and even possible, to administer the two drugs in combination with an ALI. In total, 14 patients successfully completed the investigational drug therapy. Thirteen of the participants successfully completed the investigational therapy and underwent a stem cell transplant. Four patients had a complete response, meaning no trace of multiple myeloma was detected, and five patients had a very good partial response in which the level of abnormal proteins in their blood decreased by 90 percent.

In order to determine whether the azacitidine caused an increased expression of CTA in the multiple myeloma cells, Toor collaborated with Masoud Manjili, D.V.M., Ph.D., assistant professor of microbiology and immunology at VCU Massey, to conduct laboratory analyses on bone marrow biopsies taken from trial participants before and after treatments. Each patient tested showed an over-expression of multiple CTA, indicating the treatment was successful at forcing the cancer cells to produce these "targets" for the immune system.

"We designed this therapy in a way that could be replicated, fairly inexpensively, at any facility equipped to perform a stem cell transplant," says Toor. "We plan to continue to explore the possibilities of immunotherapies in multiple myeloma patients in search for more effective therapies for this very hard-to-treat disease."

In addition to Manjili, Toor collaborated with John McCarty, M.D., director of the Bone Marrow Transplant Program at VCU Massey, and Harold Chung, M.D., William Clark, M.D., Catherine Roberts, Ph.D., and Allison Hazlett, also all from Massey's Bone Marrow Transplant Program; Kyle Payne, Maciej Kmieciak, Ph.D., from Massey and the Department of Microbiology and Immunology at VCU School of Medicine; Roy Sabo, Ph.D., from VCU Department of Biostatistics and the Developmental Therapeutics program at Massey; and David Williams, M.D., Ph.D., from the Department of Pathology at VCU School of Medicine, co-director of the Tissue and Data Acquisition and Analysis Core and research member of the Developmental Therapeutics program at Massey.

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Immune system harnessed to improve stem cell transplant outcomes

Qatar Biomedical Research Institute (QBRI), a member of Qatar Foundation for Education, Science and Community Development, has been represented at the worlds largest stem cell conference. A three-member delegation from QBRI attended the International Society of Stem Cell Research (ISSCR) conference recently to gain international exposure for the institutes new stem cell centre, and to recruit scientists and post-doctoral researchers for its stem cell programme. Dr Mohamed Emara, who heads a research programme in stem cell at QBRI, attended the scientific sessions and led recruiting efforts at the conference, held in Yokohama, Japan. Marketing staff members Cherryl Madrelejo and Bradley Steffens manned the QBRI exhibition booth. The stand attracted more than 700 visitors, 110 of whom were interested in working with QBRI and provided their personal details to the institutes delegates. Dr Abdelali Haoudi, acting executive director of QBRI, said the delegation carried the message of Qatar National Vision 2030 to the most prestigious stem cell conference in the world, and returned with a significant number of viable candidates for the open positions within QBRI. Each year, the International Society of Stem Cell Research conference showcases the most up-to-date discoveries made in various stem cell research labs around the world, he explained. Now, the global community of stem cell researchers knows that a world-class stem cell research centre has been established in Doha as part of Qatars commitment to move from a carbon-based economy to a knowledge-based economy. Dr Emara stated that the interest in Qatar and QBRI surpassed all expectations and he had several side discussions with scientists in the field, including the current and previous presidents of ISSCR, all of whom are very excited about the initiation of the stem cell research programme in Qatar. They are looking forward to our active participation in stem cell research and our contributions to the field. In addition, many of them are very interested in scientific collaboration. In terms of recruitment, we conducted several initial employment interviews during the conference, and have received dozens of CVs since we returned to Doha. QBRIs participation in the ISSCR conference has helped jumpstart human capacity-building in the area of stem cell research that is vital to the future of Qatar. Dr Emara attributes the success of the QBRI participation in the conference to the co-ordination between QBRI team members to achieve all their goals in the areas of science, recruitment, networking, and publicity. All the aims behind attending that conference were completely achieved, he said. According to marketing analyst Cherryl Madrelejo, 54% of the delegates who left contact information with QBRI are interested in employment either as scientists or as post-doctoral researchers. A further 17% are keen to collaborate with QBRI on stem cell research projects from their own laboratories in Japan, Australia, South Korea, the UK, the US, and elsewhere. Bradley Steffens, marketing consulting for health sciences at QBRI, recalled that the QBRI booth was filled with delegates right up until the announcement that the exhibit was over. Interested delegates continued to visit the QBRI booth on the last day while other exhibitors were closing their booths and packing up their displays, he added.

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QBRI team attends stem cell research conference

SAN DIEGO, Calif., Oct. 2, 2012 (GLOBE NEWSWIRE) -- via PRWEB - Stemedica Cell Technologies, Inc., a leader in adult allogeneic stem cell manufacturing, research and development, announced today that the U.S. Food and Drug Administration (FDA) approved its application for an Investigational New Drug (IND) to assess the clinical effects of Stemedyne-MSC (Stemedica's human bone marrow-derived ischemia tolerant mesenchymal cells) in subjects with a myocardial infarct. The Phase IIa double-blinded randomized clinical trial will study approximately forty (40) patients. All patients will initially receive standard care including percutaneous transluminal coronary angioplasty (PTCA) and stenting and, upon completion, will be randomized to receive Stemedyne-MSC intravenously or placebo.

The clinical trial will address the prevalence of cardiovascular disease estimated to carry a global disease burden in excess of $400 billion each year. More than one million patients undergo PTCA and stenting in the Untied States annually; another 800,000 have the procedures each year in Europe.

Nabil Dib, M.D., MSc., F.A.C.C., Director of Cardiovascular Research at Mercy Gilbert and Chandler Regional Medical Centers, and an Associate Professor of Medicine and Director of Clinical Cardiovascular Cell Therapy at the University of California, San Diego, will serve as the principal investigator of the FDA-approved study. Dr. Nib commented, "We've learned from bench top research that not all stem cells are created equally. We believe that the ischemic tolerance of Stemedica's MSCs and the robustness of their protein array will translate into significant patient benefits post myocardial infarction."

Stemedica's interest in this indication was triggered by a successful randomized study in acute myocardial infarction conducted by the National Scientific Medical Center (NSMC) in Astana, Kazakhstan using Stemedyne-MSCs. The study was conducted under clinical protocol and in compliance with the ICH-E6 (Good Clinical Practice) guidelines and local laws. All patients signed an informed consent. Nineteen (19) patients in this study received Stemedyne-MSCs after PTCA and stenting. Administration of Stemedyne-MSC resulted in a statistically-significant decrease in inflammation as judged by the level of C-reactive protein, significant decrease in end-systolic and end-diastolic volume of left ventricle, as well as significant increase in the left ventricular ejection fraction (LVEF) from 38.4% to 54.7% at 6 months post administration, bringing this parameter to a normal range for healthy individuals (50-65%).

Professor Daniyar Jumaniyazov, M.D. Ph.D., principal investigator of the NSMC study commented, "The stem cell transplantation was safe and the procedure was well tolerated. No product-related adverse events were reported. Treatment of patients in this study resulted in improvement of overall and local contractive myocardium functions and also normalization of systolic and diastolic filling of the left ventricle as compared to the control group. Based upon the safety and efficacy results, we will soon conduct a Phase III myocardial infarct clinical trial at the NSMC with Stemedica's ischemia tolerant mesenchymal stem cells."

Lev Verkh, Ph.D., Stemedica Chief Regulatory and Clinical Development Officer commented, "Stemedica's FDA submission included data from the NSMC clinical trial, the results of which were also reported at the annual American College of Cardiology meeting in April, 2012. These results contrasted with reports, at the same conference, of minimal improvement in studies with autologous stem cells. In addition to the United States sites, the study will be duplicated at leading hospitals in Europe, Asia and the Middle East." With regard to the spectrum of stem cell treatment for cardiovascular disease, Dr. Verkh noted that, "Stemedyne-MSC has been approved for the treatment of chronic heart failure at Hospital Angeles, Tijuana, Mexico by COFEPRIS (the Mexican equivalent of the FDA)."

Jackie See, M.D., F.A.C.C., founder of interventional cardiology at the University of California, Irvine, noted, "In the days and weeks following a myocardial infarction we may have the ability to intervene with stem cells to minimize scarring, enhance the amount of functional heart tissue, and restore the microcirculation. Stemedica's ischemia tolerant mesenchymal stem cells are ideal for this purpose. I can foresee the day when all coronary stenting is accompanied by stem cell injection. It is not unreasonable to postulate that the anti-inflammatory and anti-fibrotic effects of the mesenchymal stem cells may have an impact on the incidence of restenosis, a common condition caused by blockage of the stents."

The Stemedyne-MSC product is uniquely manufactured to contain increased amounts of the important growth factors that combat ischemic damage. According to Nikolai Tankovich, M.D., Ph.D., President and Chief Medical Officer of Stemedica, "Our ischemia tolerant MSCs secrete increased amounts of vascular endothelial growth factor (VEGF), which is necessary for new blood vessel development and stromal cell-derived factor (SDF), which is responsible for rescuing dying cells. Stemedyne-MSCs also demonstrate significantly higher migratory abilities. As a company we are unique in our unparalleled scalability, with our master bank at two passages and the cells that go into patients having only been expanded four times. We have the ability to treat more than 500,000 patients with cells created from a single organ donation."

Stemedyne-MSC is one of the three adult allogeneic stem cell products developed by the Company. Other products include Stemedyne-NSC neural human stem cells and Stemedyne-RPE, retinal progenitor epithelial cells available in early 2013. All Stemedica products are unique in their ability to tolerate ischemic conditions.

About Stemedica Cell Technologies, Inc. http://www.stemedica.com

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FDA Approves Stemedica Phase II Clinical Trial for Acute Myocardial Infarction With Ischemia Tolerant Mesenchymal Stem ...

SAN DIEGO--(BUSINESS WIRE)--

Medistem Inc (Pink Sheets:MEDS) announced today the initiation of a collaboration with Superview Biotechnology Co. Ltd, a subsidiary of Yinhuan Holding Co from Yixing, China. The joint work will be aimed at using proprietary stem cell lines developed by Medistem for screening of monoclonal antibodies for therapeutic activity in the area of regenerative medicine. As part of the collaboration, the two companies will evaluate various candidates jointly, as well as apply for grants and share research data.

To date, the majority of stem cell companies are focusing on the stem cell itself being a product. By collaborating with Superview Biotechnology, we aim to assess the feasibility of developing antibodies that can modulate the activity of stem cells that already exist in the body, said Thomas Ichim, CEO of Medistem. This approach not only provides methods of activating stem cells but also allows for the development of stem cell adjuvant therapies that could be used to resurrect stem cell candidates that failed in clinical trials.

Superview Biotechnology has developed proprietary methods of rapidly generating monoclonal antibodies to esoteric protein targets. Medistem has a history of success in the area of stem cells, being the only company to take a stem cell product from discovery to FDA clearance in the short span of 4 years.

One of the significant driving forces behind our company is to develop innovative targets for our monoclonal antibodies. Although monoclonal antibodies have generated sales of billions of dollars in areas ranging from rheumatoid arthritis, to cancer, to preventing blindness, we feel that the potential of this therapeutic tool is only beginning to be recognized, said Jiong Wu, CEO of Superview Biotechnology. Our opinion is that the barriers to entry for monoclonal antibody-based therapies modulating endogenous stem cells is lower than stem cell based therapies. We are eager to work with the Medistem team at exploring this hypothesis.

A joint grant is expected to be filed with the National Natural Science Foundation of China to support part of the proposed collaboration by end of October, 2012.

Cautionary Statement

This press release does not constitute an offer to sell or a solicitation of an offer to buy any of our securities. This press release may contain certain forward-looking statements within the meaning of Section 27A of the Securities Act of 1933, as amended, and Section 21E of the Securities Exchange Act of 1934, as amended. Forward-looking statements are inherently subject to risks and uncertainties, some of which cannot be predicted or quantified. Future events and actual results could differ materially from those set forth in, contemplated by, or underlying the forward-looking information. Factors which may cause actual results to differ from our forward-looking statements are discussed in our Form 10-K for the year ended December 31, 2007 as filed with the Securities and Exchange Commission.

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Medistem and Superview Biotechnology Co. Ltd. Initiate Collaboration on Therapeutics Development Using Antibody and ...

Newswise An experimental treatment for blindness, developed from a patients skin cells, improved the vision of blind mice in a study conducted by Columbia ophthalmologists and stem cell researchers.

The findings suggest that induced pluripotent stem (iPS) cells which are derived from adult human skin cells but have embryonic properties could soon be used to restore vision in people with macular degeneration and other diseases that affect the eyes retina.

With eye diseases, I think were getting close to a scenario where a patients own skin cells are used to replace retina cells destroyed by disease or degeneration, says the studys principal investigator, Stephen Tsang, MD, PhD, associate professor of ophthalmology and pathology & cell biology. Its often said that iPS transplantation will be important in the practice of medicine in some distant future, but our paper suggests the future is almost here.

The advent of human iPS cells in 2007 was greeted with excitement from scientists who hailed the development as a way to avoid the ethical complications of embryonic stem cells and create patient-specific stem cells. Like embryonic stem cells, iPS cells can develop into any type of cell. Thousands of different iPS cell lines from patients and healthy donors have been created in the last few years, but they are almost always used in research or drug screening.

No iPS cells have been transplanted into people, but many ophthalmologists say the eye is the ideal testing ground for iPS therapies.

The eye is a transparent and accessible part of the central nervous system, and thats a big advantage. We can put cells into the eye and monitor them every day with routine non-invasive clinical exams, Tsang says. And in the event of serious complications, removing the eye is not a life-threatening event.

In Tsangs new preclinical iPS study, human iPS cells derived from the skin cells of a 53-year-old donor were first transformed with a cocktail of growth factors into cells in the retina that lie underneath the eyes light-sensing cells.

The primary job of the retina cells is to nourish the light-sensing cells and protect the fragile cells from excess light, heat, and cellular debris. If the retina cells die which happens in macular degeneration and retinitis pigmentosa the photoreceptor cells degenerate and the patient loses vision. Macular degeneration is a leading cause of vision loss in the elderly, and it is estimated that 30 percent of people will have some form of macular degeneration by age 75. Macular degeneration currently affects 7 million Americans and its incidence is expected to double by 2020.

In their study, the researchers injected the iPS-derived retina cells into the right eyes of 34 mice that had a genetic mutation that caused their retina cells to degenerate.

In many animals, the human cells assimilated into mouse retina without disruption and functioned as normal retina cells well into the animals old age. Control mice that got injections of saline or inactive cells showed no improvement in retina tests.

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Stem Cells Improve Visual Function in Blind Mice

NOKOMIS, Fla.--(BUSINESS WIRE)--

As part of Rainbow Coral Corp.s mission to deliver effective new cures for traumatic brain injury, the company is investigating promising research on the potential of stem cell therapy to improve the lives of millions suffering from the affliction.

Scientists within the U.S. medical community have begun to see positive results from the treatment of patients with traumatic brain injury (TBI) through the use of stem cells. Significant improvements are seen between three to six months after treatment in brain injury patients.

RBCC is working hard to capitalize on the growing demand for effective treatments for TBI, Parkinsons and other neurological health issues. RBCC is continuing discussions with the license holders for a NASA-developed bioreactor that assists in the expansion of adult stem cells. Such treatments could give RBCC access to markets in excess of $100 billion.

Rainbow BioSciences is dedicated to developing new medical and research technology innovations to compete alongside companies such as Amgen Inc. (NASDAQ:AMGN),Cell Therapeutics, Inc. (CTIC), Abbott Laboratories (NYSE:ABT) andAffymax, Inc.(NASDAQ:AFFY).

For more information on Rainbow BioSciences, please visit http://www.rainbowbiosciences.com/investors.

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About Rainbow BioSciences

Rainbow BioSciences is a division ofRainbow Coral Corp.(OTCBB:RBCC). The company continually seeks out new partnerships with biotechnology developers to deliver profitable new medical technologies and innovations. For more information on our growth-oriented business initiatives, please visit our website at [www.rainbowbiosciences.com]. For investment information and performance data on the company, please visitwww.RainbowBioSciences.com/investors.

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RBCC: Could Stem Cells Hold the Key to Treating Traumatic Brain Injuries?

Newswise CAMBRIDGE, Mass. (October 1, 2012) Three Members of the Whitehead Institute faculty are poised to play significant roles in the establishment of a new stem cell research center based at Skolkovo Institute of Science and Technology (Skolkovo Tech) in suburban Moscow.

Whitehead Founding Member Rudolf Jaenisch, and Members Richard Young and Peter Reddien, will contribute their research, educational, and entrepreneurial expertise to the Skolkovo Center for Stem Cell Research (SCSCR). The center is among the first of three core research facilities to be created at Skolkovo Tech, a private graduate research university in Skolkovo, Russia, established in 2011 in collaboration with Massachusetts Institute of Technology.

Skolkovo Techs research centersknown as Centers for Research, Education, and Innovation (CREIs) are intended to advance scientific understanding in a particular field, develop cutting-edge technologies for potential commercialization, attract world-class scientists to Skolkovo, and train the next generations of promising students. CREIs are international partnerships consisting of researchers from at least three universities or research institutes: Skolkovo Tech, a Russian university or institute, and a non-Russian university. As part of SCSCR, the Whitehead scientists will join a team under the direction of Peter Lansdorp, Director of the European Research Institute for the Biology of Aging at University of Groningen Medical Center UMCG in the Netherlands.

This is a very promising experiment, Lansdorp says. By stimulating international collaboration, it is certain to advance stem cell science while at the same time helping Russian studentstrained by leading stem cell scientists from Whitehead Institute and the Netherlandsto become productive scientists in Moscow."

Within SCSCR, Lansdorp, Jaenisch, Young, Reddien and others will tackle some of the most fundamental challenges to the development of stem-cell-based therapeutics, including optimizing methods for cellular reprogramming, pluripotent stem cell differentiation, and the identification of gene networks involved in stem cell regulation and regeneration.

Although funding details for the stem cell center are not yet final, Skolkovo officials say that a typical CREI receives about $10 million worth of funding, depending on the scope of each research program.

Skolkovos research centers are unique in their synergy between scientific knowledge and practical application, which originates through various institutes working together in a new way, says Skolkovo Tech President Edward Crawley. Russian researchers gain access to cutting edge technologies and the opportunity to integrate into the world's scientific community, our international partners will benefit from the academic knowledge and new ideas produced within Russian institutes, and Skolkovo Tech will attract the world's best scientists to create its educational and research programs.

Written by Matt Fearer

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Whitehead Members to Help Establish International Stem Cell Research Center

IRVINE, CA--(Marketwire - Oct 1, 2012) - Oct. 3 marks International Stem Cell Awareness Day, a global celebration where leading scientists, researchers and supporters will acknowledge the scientific advances of stem cell research and its ability to potentially treat a variety of diseases and injuries in the 21st century. This dedicated community is committed to unlocking the potential of stem cells and has made significant strides since the discovery of a method to grow human stem cells less than 15 years ago.

"This is a critical and historic time for stem cell research," said Peter Donovan, Ph.D., director, Sue & Bill Gross Stem Cell Research Center, UC Irvine. "We're literally on the brink of developing new treatments for some of the world's most devastating diseases and injuries. The act of simply raising awareness about this research is one of the best things people can do to help accelerate the process. This event is a great opportunity for everyone to help spread the word and build momentum through a timely mass effort."

Scientists at UC Irvine and other research facilities around the globe continue to work diligently to develop therapies to treat life threatening and debilitating conditions such as Alzheimer's disease, multiple sclerosis, macular degeneration, cancer, Huntington's disease, Parkinson's disease, brain disorders and paralysis caused by spinal cord injuries. These efforts continue to give hope to millions who suffer from these devastating conditions by offering revolutionary treatments and potential cures.

There are several research programs taking place at the Sue & Bill Gross Stem Cell Research Center at UC Irvine that continue to break down barriers and open doors to new treatments for major diseases and injuries:

Spinal Cord and Traumatic Brain Injuries: Neurobiologist Hans Keirstead, Ph.D., as well as husband and wife scientists Aileen Anderson, Ph.D., and Brian Cummings, Ph.D., are conducting stem cell studies to develop treatments for the more than 1.3 million Americans who suffer from spinal cord injuries. Their advancements have led to the world's first clinical trial of human neural stem cell-based therapy for chronic spinal cord injuries (Anderson/Cummings) and the first FDA approved clinical trials using embryonic stem cells (Keirstead). Their research is significant because no drug or other forms of treatment have been able to restore function for those suffering from paralysis. In addition, Cummings and Anderson are applying their stem research to traumatic brain injury, a leading cause of death and disability worldwide, especially in children and young adults.

Alzheimer's Disease: An estimated 35 million people worldwide suffer from Alzheimer's disease, five million of whom live in the U.S. Frank LaFerla, Ph.D., director of UC Irvine's Institute for Memory Impairments and Neurological Disorders, and Matthew Blurton-Jones, Ph.D., of the Sue & Bill Gross Stem Cell Research Center, UC Irvine, have shown for the first time that neural stem cells can rescue memory in mice with advanced Alzheimer's disease, raising hope for a potential treatment in humans. Their work is expected to move to clinical trials in less than five years.

Huntington's Disease: Huntington's disease is a degenerative and ultimately fatal brain disorder that takes away a person's ability to walk, talk and reason. It affects about 30,000 people in the U.S. with another 200,000 or more likely to inherit the disorder. Leslie Thompson, Ph.D., and her team of researchers are currently investigating new stem cell lines and techniques to support the area of the brain that is susceptible to the disease with the hope of developing a cure for future generations.

Macular Degeneration, Retinitis Pigmentosa and Inherited Blindness: Henry Klassen, M.D., Ph.D. has focused his stem cell research on regenerating damaged retinal tissue to restore sight to people suffering from retinitis pigmentosa (an inherited form of degenerative eye disease) and macular degeneration which usually affects older people and leads to loss of vision. Macular degeneration affects millions of Americans. His work hopes to find cures and treatments for corneal and retinal eye disease.

New Website Helps Spread the Word Online To commemorate International Stem Cell Awareness Day and encourage support of stem cell research, an interactive website has been created. Advocates are asked to visit http://www.StemCellsOfferHope.com and share online a wide range of key facts, downloadable images and links to other valuable resources within their social networks.

International Stem Cell Awareness Day Events at UC Irvine The Sue & Bill Gross Stem Cell Research Center at UC Irvine will celebrate International Stem Cell Awareness Day by hosting three special events. An open house will take place on Oct. 1 for high school students. A UC Irvine student, faculty and staff open house will take place on Oct. 2. Finally, an all-day science symposium on Oct. 3 will feature a "Meet the Scientist" interactive forum. The forum and symposium are open to all UC Irvine scientists, clinicians, graduate students, post-docs and members of the community. To RSVP for any these events or for more information, include the name of the event in the subject line and email stemcell@research.uci.edu.

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World Renowned Scientists and Advocates to Celebrate and Shine Light on Stem Cell Breakthroughs

HOUSTON, Oct. 1, 2012 /PRNewswire/ --The Houston Stem Cell Summit will host an extraordinary lineup of keynote speakers who represent the most accomplished stem cell scientists, clinicians and entrepreneurs in the United States. Joining these distinguished speakers will be Governor of Texas, Rick Perry, consistent champion of adult stem cell therapies.

(Logo: http://photos.prnewswire.com/prnh/20120831/NY66463LOGO )

The Houston Stem Cell Summit will be held October 26 27 in its namesake city and will highlight the latest therapeutic research regarding the use of adult stem and progenitor cell therapies. The Summit will also provide a forum for entrepreneurs to discuss their latest efforts to commercialize stem cell therapies, and to debate and discuss FDA and other legal and regulatory issues impacting stem cell research and commercialization.

Opening Keynote Address October 26, 2012 Arnold I. Caplan, PhD, Professor of Biology and Professor of General Medical Sciences (Oncology) Case Western Reserve University

Dr. Caplan has helped shape the direction and focus of adult stem cell research and commercialization. Virtually every adult stem cell company and literally tens of thousands of research papers are based on Dr. Caplan's original and ground breaking research. Professor Caplan is considered to be the "father" of the mesenchymal stem cell and first described this progenitor cell in his landmark paper; "Mesenchymal stem cells", Journal of Orthopaedic Research 1991;9(5):641-650. Since that foundational study, Dr. Caplan has published over 360 manuscripts and articles in peer reviewed journals. Dr. Caplan has been Chief Scientific Officer at OrthoCyte Corporation since 2010. In addition, Dr. Caplan co-founded Cell Targeting Inc. and has served as President of Skeletech, Inc. as its founder. He is the recipient of several honors and awards from the orthopedic research community. Dr. Caplan holds a Ph. D. from Johns Hopkins University Medical School and a B.S. in chemistry from the Illinois Institute of Technology.

Summit Keynote Address October 26, 2012 Texas Governor Rick Perry

Governor Perry is the 47th and current Governor of Texas. Governor Perry has long championed the role of medical technologies in building the future of not only Texas, but also the United States. In many ways, his strong advocacy on behalf of research and advanced medical technologies is one of his strongest and as yet underappreciated legacies. In addition to his service to the state of Texas, Governor Perry has also served as Chairman of the Republican Governors Association in 2008 and again in 2011. Despite a rigorous schedule, particularly in the teeth of this election season, Governor Perry has graciously made time to speak and encourage the researchers, patients, companies and physicians who form the fabric and future of the stem cell therapy community.

Texas Medical Center Keynote Address, October 27, 2012 James T. Willerson, MD

Over the course of his career, Dr. James T. Willerson has served as a medical, scientific and administrative leader for each of the major institutions that are the foundation of the Texas Medical Center. Dr. Willerson is currently President and Medical Director, Director of Cardiology Research, and Co-Director of the Cullen Cardiovascular Research Laboratories at Texas Heart Institute (THI). Dr. Willerson was appointed President-Elect of THI in 2004 and became President and Medical Director in 2008. He is also an adjunct professor of Medicine at Baylor College of Medicine and at The University of Texas MD Anderson Cancer Center. He is the former chief of Cardiology at St. Luke's Episcopal Hospital and the former chief of Medical Services at Memorial Hermann Hospital.

Dr. Willerson has served as a visiting professor and invited lecturer at more than 170 institutions.

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Houston Stem Cell Summit Announces Extraordinary Lineup of Keynote Speakers