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Washington Center for Pain Management Begins Enrollment in United States Stem Cell Therapy Study in Subjects With …

By Stem Cell Treatment

EDMONDS, Wash., March 14, 2012 /PRNewswire/ --Washington Center for Pain Management is participating in a nationwide FDA-cleared adult stem cell study testing novel treatment for chronic low back pain and has enrolled its first patient. The study will test the use of Mesenchymal Precursor Cells (MPCs) adult stem cells derived from bone marrow that will be directly injected into the lumbar disc. The minimally invasive procedure may offer an alternative to back surgery for eligible patients with chronic pain from degenerative discs.

An estimated 30 million people in the United States suffer from back pain. Degenerative disc disease is the most common cause of low-back pain, which develops with the gradual loss of a material called proteoglycan, which cushions the bones of the spine and enables normal motion.

Most patients with low-back pain respond to physical therapy and medications, but in advanced cases, artificial disc replacement or spinal fusion -- removal of the degenerated discs and the fusion of the bones of the spine -- is necessary. However, these surgeries often are not entirely effective.

"Millions of Americans are debilitated by chronic low back pain," says Dr Hyun Joong Hong MD, the lead investigator at The Washington Center for Pain Management. "This promising therapy is at the cutting edge of medical science and has the potential to create a paradigm shift in our approach to minimally invasive solutions to this disease."

Researchers will enroll approximately 100 study participants. About fifteen participants will be enrolled at The Washington Center for Pain Management and the rest at 11 other medical centers throughout the United States. The trial is scheduled to last for three years.

Washington Center for Pain Management is enrolling study participants suffering from moderate low-back pain for a minimum of six months and whose condition has not responded to other, conventional treatments.

Once enrolled, patients are randomly assigned to one of four treatment groups:

Patients will receive a single injection of their assigned test agent directly into the center of the target discs within their spine and will be monitored for safety. Patients will also be monitored using imaging to identify any changes in their disease condition or disease progression. Use of pain medications, self-reports of pain, subsequent surgical interventions and assessments of disability, quality of life, productivity and activity will be evaluated. Repair of the disc and reduction of chronic back pain will be assessed in each patient.

Promising results have been observed in prior research using animal models when stem cells were investigated for the repair of damaged spine discs. The cells were well tolerated in these study animals.

This study is sponsored by Mesoblast Limited, a world leader in the development of biologic products for the broad field of regenerative medicine. Mesoblast has the worldwide exclusive rights to a series of patents and technologies developed over more than 10 years relating to the identification, extraction, culture and uses of adult Mesenchymal Precursor Cells (MPCs). The MPCs are derived from young adult donors' bone marrow and are immune tolerant.

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Washington Center for Pain Management Begins Enrollment in United States Stem Cell Therapy Study in Subjects With ...

Gut Cells Could Be Used To Produce Insulin For Diabetes Patients

By Stem Cell Doctors

March 13, 2012

Columbia researchers have conducted a study that suggests cells inside intestines could be employed to make insulin for patients with type I diabetes. Previously, researchers considered stem cell transplants to be the only way to replace lost cells inpatients with type I diabetes. Such a discovery could also mean that these patients would be free from daily insulin injections as well.

Researchers have been conducting their work on mice and published their results in the journal Nature Genetics.

Type I diabetes is an autoimmune disease that destroys pancreas cells used for producing insulin. Once these cells go missing in the pancreas, patients with the disease have to inject themselves with insulin to keep their blood glucose levels in balance.

Scientists have long sought to combat the effects of type I diabetes by creating a cell that will do the work of the pancreas cells by releasing insulin into the blood stream when necessary. Researchers have been able to recreate these types of cells in the lab using stem cells. However, these cells are not yet appropriate for use in diabetes patients because they do not release insulin at the appropriate time. If glucose levels go unchecked and unbalanced, a patient could fall victim to hypoglycemia.

Doctors Chutima Talchai, PhD and Domenico Accili, MD and professor of medicine at Columbia University Medical Center conducted the study on progenitor cells in mice. Their research shows that these cells were able to create insulin-producing cells.

Progenitor cells are like stem cells in that they can be used to recreate other cells. However, they cannot divide and replicate cells indefinitely. Doctors Talchai and Accili used progenitor cells from the gastrointestinal tract, as they have been found to produce cells that can recreate serotonin, gastric inhibitory peptide, and other cells and hormones found in the bloodstream and GI tract.

The doctors found their results by controlling a specific gene that has been found to decide what a cell will be, Foxo1. When this gene was flipped off, the progenitor cells began to produce insulin on their own.

These cells could be dangerous if they did not release the right amount of insulin at the right time, but researchers found that these cells did just that.

The insulin-producing progenitor cells used in the mice effectively regulated glucose levels and produced insulin in sufficient quantity.

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Gut Cells Could Be Used To Produce Insulin For Diabetes Patients

Gut Cells Turned To Insulin Factories – New Type l Diabetes Treatment

By Stem Cell Medical Center

Editor's Choice Academic Journal Main Category: Diabetes Article Date: 13 Mar 2012 - 12:00 PDT

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The study was carried out by Chutima Talchai, Ph.D, a New York Stem Cell Foundation-Druckenmiller Fellow, and Domenico Accili, M.D., professor of medicine at Columbia University Medical Center.

Type 1 diabetes is an autoimmune disease that kills cells in the pancreas which produce insulin, resulting in high levels of glucose in the blood. As the pancreas is unable to replace these cells, individuals suffering with the disease must inject insulin into themselves in order to manage their blood sugar. Patients must also monitor their sugar levels numerous times a day, as blood glucose that is too low or too high can be fatal.

For scientists researching type 1 diabetes, one of the leading goals is to replace lost insulin-producing cells with new cells that release insulin into the bloodstream as needed. Even though researchers are able to generate these cells in the laboratory from embryonic stem cells, they are not suitable for transplant in patients as they do not release insulin appropriately in response to sugar levels, potentially resulting in a deadly condition called hypoglycemia.

In the intestine of mice, the researchers found that certain gastrointestinal progenitor cells are able to generate insulin-producing cells.

Usually, progenitor cells are responsible for generating a vast range of cells, such as gastric inhibitory peptide, cells that produce serotonin, as well as other hormones secreted into the GI tract and bloodstream.

The researchers discovered that when they switched off Foxo1 (a gene known to contribute in cell fate decisions), the progenitor cells also generated cells that produced insulin. In addition, the team found that although more cells were produced when Foxo1 was switched off early in development, they were also produced when the Foxo1 was switched off in adult mice.

Dr. Accili, explained:

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Gut Cells Turned To Insulin Factories - New Type l Diabetes Treatment

TEDMED 2012 Conference Offers $2 Million in Scholarships to Health and Medicine Leaders and Innovators; Free National …

By Uncategorized

WASHINGTON, March 13, 2012 /PRNewswire/ -- TEDMED, http://www.TEDMED.com, the annual gathering where science, medical and technology leaders focus on "imagination, innovation and inspiration" to advance the art of health and medicine, today announced two new programs that will vastly increase the size and scope of its audience.

TEDMED is the world's only TED-licensed event focused solely on innovation and breakthrough thinking across all of health and medicine. It will be held at the John F. Kennedy Center for the Performing Arts in Washington, D.C., April 10 - 13.

Speakers, attendee-Delegates and participants will range from biologists (Dr. E.O. Wilson) and writers (Ben Goldacre), to physicists (Albert-Laszlo Barabasi) and public health leaders like the director of the National Institutes of Health (Dr. Francis Collins). Topics to be explored by TEDMED speakers will include neuroscience, microbiology, surgery, oncology, stem cell therapy, bad science, Alzheimer's, robotics, game science, wearable tech, disease evolution, patient choice, virtual anatomy models, the nature of imagination, and dozens more.

For the first time this year, TEDMED will offer a free simulcast, TEDMEDLive, to teaching hospitals, medical schools, research institutions, university life science departments, state and federal government agencies, health-oriented corporations and non-profits across the nation. Participants, forecasted at more than 50,000, will be able to view a high-definition live stream of each presentation and performance. Using the TEDMED Connect mobile app, remote participants can also ask questions of the speakers in real time, which may be answered directly from the TEDMED stage.

Over 2,000 TEDMEDLive simulcast locations will participate, including institutions such as: Case Western Reserve University, Harvard University, University of California (Davis and Irvine), University of Pennsylvania, University of Washington, University of Virginia, Tulane University, Vanderbilt University and Yale University.

Another new TEDMED initiative is the Front-Line Scholarship Program, which offers up to $2 million in half- and full-fee scholarships to those leaders and innovators who are on the front lines of health and medicine. It assists those who would both contribute to the TEDMED conference as attendees, and would greatly benefit from joining the conference in Washington, D.C. in person as a Delegate. The Front-Line Scholarship Program is underwritten by the TEDMED Patron Fund, whose major contributors include Humana and The California Endowment.

"TEDMED is for everyone who is passionate about the future of health and medicine," said Jay Walker, curator of TEDMED."Accordingly, TEDMED is committed to bringing even more expertise and perspective to the table for a national discussion of health and medicine, regardless of ability to pay through our Front-Line Scholarship program. Front-Line Scholarships will permit the broadest possible group of healthcare providers, first responders and other contributors to attend so they can share even more ideas that will save lives."

More than 1,200 TEDMED onsite attendees including researchers, physicians, technologists and policy experts will foster cross-disciplinary collaboration and learning at the Kennedy Center this April. Institutions of excellence represented by speakers and attendees will include The American Cancer Society, The American Red Cross, Biodigital Systems, The Boulis Laboratory, Brandeis University, Brigham and Women's Hospital, The California Institute of Technology, Center for Complex Network Research, The Centers for Disease Control and Prevention, Duke University, Emory University, Harvard University, mc10, Methodist Institute for Technology, Innovation, and Education, The National Institutes of Health, New York University, Penn State University, Quest Diagnostics, The Center for Alzheimer Research and Treatment, Reuters Health, Children's Hospital Boston, The U.S. Department of Health and Human Services, and the Young Professionals Chronic Disease Network.

TEDMED Speaker List (as of 3/12/2012)

Additional speakers will be announced prior to the conference start date.

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TEDMED 2012 Conference Offers $2 Million in Scholarships to Health and Medicine Leaders and Innovators; Free National ...

StemCells, Inc. Reports Fourth Quarter and Year End 2011 Financial Results and Provides Business Update

By Stem Cell Treatment

NEWARK, Calif., March 13, 2012 (GLOBE NEWSWIRE) -- StemCells, Inc. (Nasdaq:STEM - News), a leading stem cell company developing and commercializing novel cell-based therapeutics and tools for use in stem cell-based research and drug discovery, today reported financial results for the fourth quarter and year ended December 31, 2011 and provided a business update.

"The StemCells team made significant progress in 2011 with regard to two critical goals for the Company, namely accelerating and broadening our HuCNS-SC neural stem cell clinical trial agenda for diseases of, and injuries to, the central nervous system, while at the same time reducing our operating cash burn. We are now uniquely positioned as the only stem cell company pursuing clinical trials for disorders of all three organs of the CNS, the brain, spinal cord and eye," said Martin McGlynn, President and CEO of StemCells, Inc. "We have strong preclinical data underlying all our clinical trials, much of which has already been published in peer-reviewed journals, but we realize that the true test of our proprietary cell-based technology will be in the clinic. In this regard, I am pleased to confirm StemCells remains on track to report safety and efficacy data from our recently completed Phase I Pelizeaus-Merzbacher disease trial at the European Leukodystrophy Association meeting to be held in Paris, March 31-April 1. We are confident that executing our clinical trial agenda, while controlling our cash burn, is the best way to build lasting shareholder value."

Fourth Quarter and Recent Business Highlights

Therapeutic Product Development

Tools and Technologies Programs

Other Business Activities

Fourth Quarter 2011 Financial Results

For the fourth quarter of 2011, the Company reported a net loss of $7,212,000, or $(0.47) per share, compared with a net loss of $8,957,000, or $(0.70) per share, for the fourth quarter of 2010. Loss from operations in the fourth quarter of 2011 was $7,313,000, which was 5% lower when compared to the $7,706,000 loss from operations in the fourth quarter of 2010. Included in net loss and loss from operations in the fourth quarter of 2011 is a charge of $655,000 for the write-off of an acquired intangible asset.

Total revenue during the fourth quarter of 2011 was $541,000, compared to $699,000 in the same period of 2010. The decrease of 23% from 2010 to 2011 was due to both lower product sales and lower licensing and grant revenues. Total revenues in the fourth quarter of 2010 were higher due to a particularly strong quarter in our SC Proven business as well as the receipt of a milestone payment under a licensing agreement of approximately $438,000 in 2010.

Total operating expenses in the fourth quarter of 2011 were $7,807,000, compared to $8,341,000 in the fourth quarter of 2010. Excluding the impairment of the intangible asset, which is included as an operating expense, total operating expenses in the fourth quarter of 2011 were $7,152,000, or 14% lower than the same period in 2010. In the fourth quarter of 2011, research and development expenses totaled $4,834,000, or 18% less than in the same period of 2010, while selling, general and administrative expenses totaled $2,290,000, or 8% lower. The significant reduction in operating expenses was primarily attributable to the Company's cost containment efforts, including the reduction in force effected in May 2011.

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StemCells, Inc. Reports Fourth Quarter and Year End 2011 Financial Results and Provides Business Update

Stem Cell Therapy at Newkirk Family Veterinarians – Hunter’s Story – Video

By Uncategorized

12-03-2012 17:41 Dr.Mark Newkirk is once again on the cutting edge of medicine. Newkirk Family Veterinarians now offer STEM CELL THERAPY for pets. Dr. Mark Newkirk combines traditional medicine and surgery with Holistic Alternatives to access the best of both worlds. As a Veterinarian, Dr. Newkirk has been serving Southern New Jersey for over 25 years. He is extensively trained in medicine and surgery and also is skilled in the care of exotic pets such as reptiles and birds. Dr. Newkirk is also one of only 5 doctors in the country currently undergoing training by the nationally renowned Dr. Martin Goldstein, the author of "The Nature of Animal Healing", and founder of immuno-augmentative therapy for animals, a true alternative cancer therapy. Dr. Newkirk is a member of American Holistic Veterinary Medical Society, the American Veterinary Medical Association, New Jersey Veterinary Medical Association and the Colorado Veterinary Medical Association. For more information check out Stem Cell Therapy on The Animal Planet's dogs 101 http://www.youtube.com

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Stem Cell Therapy at Newkirk Family Veterinarians - Hunter's Story - Video

Biostem U.S., Corp. Appoints Thomas Prendergast to SAMBA

By Stem Cell Medical Center

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Posted March 12, 2012

Thomas W. Prendergast

Cardiothoracic Surgeon Specializes in Heart Transplantation

CLEARWATER, FL -- Biostem U.S., Corporation (OTCQB: BOSM) (PINKSHEETS: BOSM) (Biostem, the Company), a fully reporting public company in the stem cell regenerative medicine sciences sector, announced today the addition of cardiothoracic surgeon Thomas W. Prendergast, M.D. to its Scientific and Medical Board of Advisors (SAMBA).

Biostem CEO, Dwight Brunoehler stated, "The Company is now positioned for growth and international expansion. Adding a world class team of clinical, laboratory, and regulatory experts for our Scientific and Medical Board of Advisors to guide our pursuits is essential. Dr. Prendergast brings a wealth of experience not only in the scientific aspects of stem cell use in regenerative medicine, but also in forging research and international economic development opportunities."

Dr. Prendergast is a busy clinical cardiothoracic surgeon, who performs 200-250 open-heart operations and 5 to 15 heart transplants each year. He is deeply involved in numerous clinical and research activities associated with stem cells and heart repair. He is presently Director of Cardiac Transplantation at Robert Wood Johnson University Hospital in New Brunswick, New Jersey where he holds an Associate Professorship of Surgery at the University of Medicine and Dentistry of New Jersey. In addition to being an active participant in stem cell research program development and teaching medical students and residents, his other interests include medical research funding and humanitarian development of programs for Disabled American Veterans.

Dr. Prendergast received his undergraduate degrees in biophysics and Psychology, as well as his medical degree, at Pennsylvania State University. His general surgery residency was for five years at the University of Massachusetts Medical School. His cardiothoracic surgery training was at the University of Southern California School of Medicine, including the Los Angeles County Medical Center. Subsequent fellowship training included pediatric cardiac surgery at Children's Hospital of LA, along with thoracic transplant fellowships at University of Southern California in Los Angeles and at Temple University Hospital in Philadelphia. He spent three years at the University of Kansas establishing thoracic transplant programs until returning to Temple University Hospital as one of their staff heart and lung transplant surgeons. Subsequent to his time at Temple, he joined up with Newark Beth Israel/St. Barnabas Hospitals, where he assumed directorship as the Chief of Cardiac Transpla ntation and Mechanical Assistance.

Regarding his appointment to the Biostem U.S. Scientific and Medical Board of Advisors, Dr. Prendergast said, "I am looking forward with excitement to working again with Dwight at Biostem. The expansion plan is sound, well paced, and will afford improved quality of life opportunities to many people around the world."

About Biostem U.S., Corporation

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Biostem U.S., Corp. Appoints Thomas Prendergast to SAMBA

BrainStorm Cell Therapeutics Expands Pipeline with the Initiation of a Study for Multiple Sclerosis

By Stem Cell Medical Center

NEW YORK & PETACH TIKVAH, ISRAEL--(BUSINESS WIRE)--

BrainStorm Cell Therapeutics Inc. (OTCBB: BCLI.OB - News), a developer of adult stem cell technologies and CNS therapeutics, announces plans to initiate a preclinical study assessing the efficacy of its NurOwn stem cell technology in patients with Multiple Sclerosis (MS). Positive proof-of-concept results for MS have been confirmed in a set of in-vitro and in-vivo experiments, and the Company is working to advance MS into preclinical development in Q2 2012.

Based on initial promising pre-clinical data published by the Company's Chief Scientist, Prof. Daniel Offen of Tel Aviv University, BrainStorm has decided to explore MS as an additional indication for its NurOwn technology. The Company will draw plans to initiate pre-clinical safety trials, after which it will seek a leading medical center specializing in MS for clinical trials.

We have been focused on growing our pipeline of indications using our NurOwn stem-cell technology, commented Dr. Adrian Harel, Acting CEO of BrainStorm Cell Therapeutics. As we continue our ongoing trials to evaluate the safety, tolerability and therapeutic effects of NurOwn in ALS patients, we have determined through positive preliminary animal data that MS will be the next indication to pursue using our technology.

About NurOwn BrainStorms core technology, NurOwn, is based on the scientific achievements of Professor Eldad Melamed, former Head of Neurology, Rabin Medical Center, and Tel-Aviv University, and Professor Daniel Offen, Head of the Neuroscience Laboratory, Felsenstein Medical Research Center at the Tel-Aviv University.

The NurOwn technology processes adult human mesenchymal stem cells that are present in bone marrow and are capable of self-renewal as well as differentiation into many cell types. The research team is among the first to have successfully achieved the in-vitro differentiation of adult bone marrow cells (animal and human) into cells capable of releasing neurotrophic factors, such as glial-derived neurotrophic factor (GDNF), by means of a specific differentiation-inducing culture medium.

About Multiple Sclerosis (MS) Multiple sclerosis (MS) is believed to be an autoimmune disorder that affects the central nervous system (CNS). Autoimmune means that the bodys immune system mistakenly attacks its own tissue, in this case, the tissues of the CNS. With MS, autoimmune damage to neurons disrupts the bodys ability to send and receive signals, thus causing MS-related symptoms. Symptoms may vary due to the location and extent of the damage. Worldwide, MS may affect more than 2 million individuals, including approximately 400,000 people in the United States.

About BrainStorm Cell Therapeutics Inc. BrainStorm Cell Therapeutics Inc. is a biotechnology company engaged in the development of adult stem cell therapeutic products derived from autologous bone marrow cells and intended for the treatment of neurodegenerative diseases. The Company holds the rights to develop and commercialize its NurOwn technology through an exclusive, worldwide licensing agreement with Ramot, the technology transfer company of Tel-Aviv University. For more information, visit the companys website at http://www.brainstorm-cell.com.

Safe Harbor Statement Statements in this announcement other than historical data and information constitute "forward-looking statements" and involve risks and uncertainties that could cause BrainStorm Cell Therapeutics Inc.'s actual results to differ materially from those stated or implied by such forward-looking statements. The potential risks and uncertainties include risks associated with BrainStorm's limited operating history, history of losses; minimal working capital, dependence on its license to Ramot's technology; ability to adequately protect the technology; dependence on key executives and on its scientific consultants; ability to obtain required regulatory approvals; and other factors detailed in BrainStorm's annual report on Form 10-K and quarterly reports on Form 10-Q available at http://www.sec.gov. The Company does not undertake any obligation to update forward-looking statements made by us.

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BrainStorm Cell Therapeutics Expands Pipeline with the Initiation of a Study for Multiple Sclerosis