StemCell Therapy

IRVINE, Calif.--(BUSINESS WIRE)--

California Stem Cell, Inc. (CSC) announced today that well-known stem cell & regenerative medicine industry veteran Gregory A. Bonfiglio, J.D. has joined its Board of Directors.

Gregory Bonfiglio has over 25 years of experience working with technology companies, and was an early investor in the stem cell industry. He is Managing Partner of Proteus Venture Partners, an investment & advisory firm he founded in early 2006 to provide venture funding and strategic advisory services in the stem cell & regenerative medicine space. Mr. Bonfiglio is on the Boards of VistaGen Therapeutics and StemCyte, Inc.; he is the Chairman of the Board of the Centre for Commercialization of Regenerative Medicine (RM Translation Center in Toronto, Canada). In addition, Mr. Bonfiglio sits on the Advisory Board and Finance Committee of the International Society for Stem Cell Research (ISSCR); he is on the Commercialization Committee of the International Society for Cellular Therapy (ISCT).

Mr. Bonfiglio brings to CSC an extensive background in strategic consulting, having held partnership positions with various legal and venture firms, and having successfully led a team that took pioneering stem cell company Advanced Cell Technology public in early 2005. Were thrilled to welcome to our board someone with the breadth of industry experience that Greg has, and are very much looking forward to his participation in the continued growth of this Company, said COO Chris Airriess.

This appointment coincides with a ramp up of commercial product sales as well as advancements of CSCs active Phase II clinical trial in metastatic melanoma.

About California Stem Cell

California Stem Cell Inc. (CSC) is an Irvine, CA based company which has developed proprietary methods to generate human stem cell lines, expand them to clinically and commercially useful numbers, and differentiate them at extremely high purity using fully-defined, proprietary media and GMP processes. CSC is able to supply its human cell populations to companies and institutions worldwide for use in the development of therapies, efficacy screening or the creation of toxicity profiles for candidate drugs, and experimental research tools.

CSC is focused on the development of stem cell based therapies for spinal muscular atrophy (SMA), amyotrophic lateral sclerosis (ALS, or Lou Gehrigs Disease), and metastatic cancers.

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Industry Consultant Gregory Bonfiglio Joins California Stem Cell Board of Directors

DALLAS, May 15, 2012 /PRNewswire/ --

ReportsnReports.com announces a Flat 10% Discount on ALL market research reports by BioInformant WorldWide, LLC through June 20, 2012. Whether stem cells are to be studied functionally or based on source tissues, our database of reports on stem cells is sure to meet your research requirements.

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The stem cell research products market (excluding stem cell antibodies) was valued at $1.28 billion for the full year 2011 and is projected to increase to $2.10 billion by 2016. The total market for all types of stem cell products - including stem cell research products, stem cell antibodies, and stem cell therapies - was valued at $5.72 billion for the full year 2011. This report identifies, defines, and quantifies each market segment within the stem cell product industry.

This research helps you with data and analysis on rate of entrants to the cord blood banking industry, revenue distinctions among existing banks, effect of new entrants for existing competitors, leveraging global tactics for growth and more.

As of 2012, 510 cord blood banks are active in 97 countries around the world. This database contains nearly 7000 global cord blood industry contacts from top 15 countries and around 9 categories.

This market research report focuses on recent advances in MSC research applications, explores research priorities by market segment, highlights individual labs and end-users of MSC research products, explores the competitive environment for MSC research products, and provides 5-year growth and trend analysis.

This study explores the complex IP landscape affecting development of human embryonic stem cell products, providing clear guidance for companies that want to enter the product area.

Explore information on applications, application priorities, patents, projected 5-years market growth, Competitors covering suppliers of neural stem & progenitor cell products and their products offered, Specialty pharmaceutical companies in neural stem & progenitor cell therapies, Breakdown of stem cell research activity by cell type, Potential end-users of neural stem cell products, Product ideas & suggestions and more.

This report uses end-user surveys of expectant parents and technology-derived data to determine the factors involved in parental-decision making. More than 1,200 expectation parents in the U.S., Canada, Europe and other international regions answered a detailed survey between November 2008 and January 2009.

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Pluristem Therapeutics Ltd. (Nasdaq:PSTI; DAX: PJT: PLTR) today reported that the cardiac function in a diabetic-induced diastolic dysfunction in animals improved following PLacental eXpanded (PLX cells) administration.

The study was conducted as part of the European Commission's Seventh Framework Program (FP7) in collaboration with Prof. Doctor Carsten Tschope and his staff at the Charite Universitaetsmedizin Berlin, Berlin-Bradenburg Center for Regenerative Therapies (BCRT), Berlin, Germany.

Dr. Tschope said, "Currently, there are limited treatment options for diastolic dysfunction and even fewer options for diabetic induced diastolic dysfunction. This study holds promise that PLX cells might be able to inhibit diabetic induced diastolic dysfunction progression as well as possibly repair the existing damage, hypotheses that will be further explored in future studies."

Diabetes was induced in thirty-six mice resulting in the development of diastolic heart failure. After seven days, the animals received either PLX cells from two separate batches or placebo (12 subjects in each of the three groups). Ten mice were not treated (controls).

After three weeks, several cardiac parameters were assessed and found to be significantly improved following the treatment with PLX cells. Important measurements included the cardiac ejection fraction and the left ventricular (LV) relaxation time constant, believed to be the best index of LV diastolic function and a determination of the stiffness of the ventricle. Cardiac ejection fraction improved 19%, the left ventricular relaxation time constant fell 16% and stiffness of the ventricle fell 19%.

Administration of either batch of PLX cells also resulted in a significant anti-inflammatory effect.

Pluristem chairman and CEO Zami Alberman said, "As we demonstrated last week with the announcement that our cells successfully treated the seven year old patient suffering from aplastic bone marrow disease, our strategy is to develop a minimally invasive cell therapy solution that can be used to treat a wide range of life-threatening diseases. Our initial testing of a treatment for diastolic heart disease opens a new potential indication where our cells can be used and potentially positions Pluristem as a "first-line of defense" for diastolic dysfunction."

Pluristem's share price jumped 5.6% in pre-market trading on Nasdaq to $3.01, giving a market cap of $126.33 million. The share rose 10.6% on the TASE today to NIS 11.50.

Published by Globes [online], Israel business news - http://www.globes-online.com - on May 15, 2012

Copyright of Globes Publisher Itonut (1983) Ltd. 2012

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Pluristem trial finds stem cells improve cardiac dysfunction

What if your very own bone marrow stem cells, upgraded with more immune cells, could be used to increase your chances of survival after a heart attack? Sounds like the stuff of science fiction, but according to a study done by Timothy Henry, MD of the Minneapolis Heart Institute and colleagues, it may in fact be possible. The findings, which were presented at the Society for Cardiovascular Angiography, are considered preliminary until they are published in a peer-reviewed journal, but they are definitely promising.

"With stem cells, we've been successful with processes that improve blood flow," Henry told MedPage Today, and added that there is a significant number of class III heart failure patients who don't do well on medications or with devices.

"A therapy that would delay heart failure progression would be a major step forward," he said. "This small trial proved the intervention is safe and all the trends were in the right direction."

The next phase of the trial will begin in the summer. Stay tuned!

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Stem Cells May Help Heart Patients

By Chelsea Conaboy, Globe Staff

Researchers at the University of California, Los Angeles, and Advanced Cell Technology of Marlborough have become the first to publish a study involving the use of embryonic stem cells in humans.

The study, published online in the British medical journal The Lancet and involving just two patients, was designed to test the safety of injecting the cells into patients with degenerative eye conditions. In both patients, the cells behaved as expected after four months, with no safety concerns arising, the researchers reported today, and the patients reported improvement in their vision.

The study provides a boost for the beleaguered field of embryonic stem cell research but must be view cautiously, said Dr. George Q. Daley, director of the Stem Cell Transplantation Program at Childrens Hospital Boston and a faculty member at the Harvard Stem Cell Institute.

Were all enthusiastic to see actual trials of cells based on human embryonic stem cells, but it really is far too preliminary to conclude anything other than that more studies are warranted, he said. What we have to do is temper our hope with real skepticism.

The researchers injected one eye of each patient with specialized eye cells derived from embryonic stem cells, which promote the health of photoreceptors in the eye. One, an adult woman, had Stargardt disease, a form of inherited juvenile macular degeneration. The other had age-related macular degeneration.

Dr. Robert Lanza, an author of the study and chief scientific officer at Advanced Cell Technology, a publicly traded company that funded the research, said the fact that the patients both reported improvements in their vision was a bonus, though he acknowledged that some of the change could be attributed to the placebo effect, or the patients own expectation for improvement as a result of the study.

The patient with Stargardt disease could detect hand motion before the injection. Within two weeks afterward, she could count fingers, the study said. She also reported improvements in her ability to detect color with the injected eye. There was no change in her other eye, the study said. The other patient showed improvement in reading a vision chart.

In these advanced patients it would be hard to expect much improvement but were surprised, Lanza said.

The patients were the first two in a set of trials that will study the use of the cells in a total of 24 people. The researchers injected the first patient in a separate trial in Europe on Friday.

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Advanced Cell Technology reports positive early results from embryonic stem cell trial

Scottsdale, AZ (PRWEB) May 16, 2012

QualityStocks would like to highlight International Stem Cell Corporation, a publicly traded company focused on the therapeutic applications of human parthenogenetic stem cells (hpSCs) and the development and commercialization of cell-based research and cosmetic products. ISCO's core technology, parthenogenesis, results in the creation of pluripotent human stem cells from unfertilized oocytes (eggs).

In the companys news yesterday,

International Stem Cell Corp. announced that several of its leading scientists will be presenting experimental results from three of ISCOs pre-clinical therapeutic programs at the 15th Annual Meeting of American Society of Gene and Cell Therapy, in Philadelphia at 3:30 p.m. on Thursday, May 17th.

Firstly, the application of A9 dopaminergic neurons derived from human parthenogenetic stem cells (hpSC) for the treatment of Parkinsons disease. Demonstrating functional dopaminergic neurons in vivo represents an important milestone towards the goal of creating well characterized populations of cells that could be used to develop a treatment for Parkinsons.

Secondly, the differentiation of hpSC and embryonic stem cells into cornea-like constructs for use in transplantation therapy and the in vitro study of ocular drug absorption. There are approximately ten million people worldwide who are blind as a result of damage to their cornea. Generating human corneas from a pluripotent stem cell source should increase the likelihood that people will receive treatment in the future even in the absence of suitable tissue from eye banks.

Lastly, the in vivo and in vitro characterization of immature hepatocyte derived from hpSC. Such cells could be used to develop a treatment for individuals with a liver that has been damaged by disease or sufferers of genetic disorders that inhibit normal liver function. In both cases, implanting healthy hepatocyte cells could treat the underlying disease and prolong the life of the individual.

These results not only show the progress we have made in these important programs, but also demonstrate the broad application of human parthenogenetic stem cells in the development of treatments for incurable diseases, stated Dr. Ruslan Semechkin, Vice President of Research and Development.

About QualityStocks

QualityStocks, based in Scottsdale, Arizona, is a free service that collects data from hundreds of Small-Cap and Micro-Cap online Investment Newsletters into one Daily Newsletter Report. QualityStocks is dedicated to assisting emerging public companies with their investor communication efforts and connecting subscribers with companies that have huge potential to succeed in the short and long-term future.

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QualityStocks News - International Stem Cell Scientists to Present Pre-Clinical Research Results at Gene and Cell ...

THOUSAND OAKS, Calif., May 16, 2012 /PRNewswire/ --Amgen (AMGN) today announced updated results from a Phase 2 study that showed treatment with blinatumomab (AMG 103) helped achieve a high-rate of complete response (CR) in 72 percent of adult patients with relapsed or refractory B-precursor acute lymphoblastic leukemia (ALL) treated in the study. Blinatumomab is the first of a new class of agents called bi-specific T cell engagers (BiTE) antibodies, designed to harness the body's cell-destroying T cells to kill cancer cells. Blinatumomab targets cells expressing CD19, a protein found on the surface of B-cell derived leukemias and lymphomas, such as ALL. Full results of the study will be presented during an oral abstract session at the 48th Annual Meeting of the American Society of Clinical Oncology (ASCO) on June 4 (Abstract Number 6500, 8:00 a.m. - 8:15 a.m. CDT, E354a).

In this Phase 2 single-arm dose-ranging trial, 26 of the 36 patients treated with blinatumomab across all of the tested doses and schedules achieved a CR with partial hematologic recovery (CRh*). All but two patients achieved a molecular response, meaning there was no evidence of leukemic cells by polymerase chain reaction. No treatment related deaths or serious adverse events (AEs) were reported in the study.

At the time of the analysis, median survival was 9.0 (8.2, 15.8) months with a median follow-up period of 10.7 months. In the group of patients who received the selected dose, median survival was 8.5 months. The median duration of response in the 26 patients who responded to treatment was 8.9 months.

"For these patients with limited treatment options, the remission rate observed in the trial is a vast improvement over the current standard of care," said Professor Max Topp, Department of Internal Medicine II, University of Wuerzburg and chair of the study. "These results also represent significant progress in our research of immunotherapies; a new approach to fighting cancer that we believe could make a real difference for patients."

For patients who received the selected dose and schedule, the most common adverse events were grade one or two and included pyrexia (70 percent), headache (39 percent), tremor (30 percent) and fatigue (30 percent). These were most frequently seen at the onset of treatment in cycle one. Reversible central nervous system events led to treatment interruptions in six patients with two patients permanently discontinuing treatment. Cytokine release syndrome led to treatment interruption in two patients.

In addition to the results from this study, data from studies of 12 Amgen investigational molecules and marketed products will be presented at the ASCO Annual Meeting. These include results from studies of the immunotherapy talimogene laherparepvec, pipeline molecules such asrilotumumab (AMG 102) and AMG 386, and marketed products. A complete listing of Amgen abstracts of interest can be found at http://www.amgen.com/media/amgen_asco_2012.html. Abstracts are available online at http://www.asco.org.

Phase 2 Study DesignThis Phase 2 dose-ranging study evaluated the efficacy, safety and tolerability of blinatumomab in adult patients with B-precursor ALL who had relapsed following treatment with standard front-line chemotherapy or allogeneic stem cell transplant. Patients received blinatumomab for 28 days followed by two weeks off therapy over a six week treatment cycle, for up to five treatment cycles. Patients received a continuous intravenous infusion of blinatumomab at an initial dose of five or 15 micrograms per meter squared per day, ranging up to 30 micrograms for the remainder of the treatment. The primary endpoint of the study was the rate of CR/CRh*. Secondary endpoints included molecular response rate, duration of response and overall survival. As of April 13, 2012, all 36 patients were evaluable for efficacy and safety.

About BlinatumomabBlinatumomab (AMG 103) is a bispecific T cell engager (BiTE) antibody designed to direct the body's cell-destroying T cells against target cells expressing CD19, a protein found on the surface of B-cell derived leukemias and lymphomas. The modified antibodies are designed to engage two different targets simultaneously, thereby juxtaposing T cells to cancer cells. Blinatumomab is the first of the BiTE antibodies and Amgen has received orphan drug designation from the U.S. Food and Drug Administration for the treatment of ALL, chronic lymphocytic leukemia (CLL), hairy cell leukemia, prolymphocytic leukemia and indolent B cell lymphoma and from the European Medicines Agency for the treatment of indolent B cell lymphoma, ALL, CLL and mantle cell leukemia (MCL).

About ALLAcute lymphoblastic leukemia (ALL) is an aggressive cancer of the blood and bone marrow the spongy tissue inside bones where blood cells are made. The disease progresses rapidly and affects immature blood cells, rather than mature ones.(1) Worldwide, ALL accounts for more than 12 percent of leukemia. Of the 42,000 people diagnosed worldwide, 31,000 will die from the disease.(2)Patients with ALL have abnormal white blood cells (lymphocytes) that crowd out healthy white blood cells, red blood cells and platelets, leading to infection, anemia (fatigue), easy bleeding and serious side effects.(3,4)

AboutAmgenAmgen discovers, develops, manufactures and delivers innovative human therapeutics. A biotechnology pioneer since 1980, Amgen was one of the first companies to realize the new science's promise by bringing safe, effective medicines from lab to manufacturing plant to patient. Amgen therapeutics have changed the practice of medicine, helping millions of people around the world in the fight against cancer, kidney disease, rheumatoid arthritis, bone disease and other serious illnesses. With a deep and broad pipeline of potential new medicines, Amgen remains committed to advancing science to dramatically improve people's lives. To learn more about our pioneering science and vital medicines, visit http://www.amgen.com/. Follow us on http://twitter.com/amgen.

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Amgen's BiTE® Antibody Blinatumomab (AMG 103) Achieved High Rate of Complete Response in Adult Patients With Relapsed ...

May 15, 2012

A New York Stem Cell Foundation (NYSCF) scientist has shown in new research that human embryonic stem cells can be used to grow bone tissue grafts for use in research and potential medical applications.

Dr. Darja Marolt, an investigator at the NYSCF, is the lead author of the study, which was published this week in the online edition of the Proceedings of the National Academy of Sciences (PNAS).

It is the first example of using bone cell progenitors derived from human embryonic stem cells to grow compact bone tissue in quantities large enough to repair centimeter-sized defects. When implanted in mice and studied over time, the implanted bone tissue supported blood vessel in-growth, and continued development of normal bone structure, without demonstrating any incidence of tumor growth.

This is a significant step forward in using pluripotent stem cells to repair and replace bone tissue in patients, noted the researchers. Bone replacement therapies are relevant in treating patients with a variety of conditions, wounds, birth defects, or other traumatic injuries.

Dr. Marolt conducted this research as a post-doctoral NYSCF Druckenmiller Fellow at Columbia University in the laboratory of Dr. Gordana Vunjak-Novakovic. Since conducting this work, Marolt has continued to build upon the research, developing bone grafts from induced pluripotent stem (iPS) cells.

IPS cells are similar to embryonic stem cells in that they can also give rise to nearly any type of cell in the body, but iPS cells are produced from adult cells and as such are individualized to each patient. Marolt hopes that by using iPS cells to engineer tissue, she can develop personalized bone grafts that will avoid immune rejection and other implant complications.

The New York Stem Cell Foundation conducts cutting-edge translational stem cell research in its laboratory in New York City and supports research by stem cell scientists at other leading institutions around the world.

Source: RedOrbit Staff & Wire Reports

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Human Embryonic Stem Cells Used To Grow Bone Tissue

Regenerative medicine startup Juventas Therapeutics has begun enrollment in a phase 2a trial of critical limb ischemia patients.

The Cleveland-based company, which recently secured an important investment from Takeda Pharmaceuticals, is planning to enroll 48 patients and complete enrollment early next year, CEO Rahul Aras said.

Juventas technology, called JVS-100, works by recruiting stem cells from the bone marrow to create new blood vessels. Its based on Stromal Cell-Derived Factor-1 (SDF-1), a naturally produced molecule that attempts to repair the heart immediately following a heart attack.

Critical limb ischemia (CLI) patients are enrolling at several U.S. hospitals, as well as three in India. CLI is a severe obstruction of the arteries that greatly decreases blood flow to the extremities.

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CLI has become a very exciting clinical opportunity, Aras said. Its becoming a growing area of interest for a number of biotech and pharma companies.

Other companies pursuing CLI treatment include Aastrom Biosciences, Arteriocyte and Biomet.

Among the top advantages of Juventas CLI therapy is its simplicity and cost-effectiveness, Aras said. Patients can be injected with the companys therapeutic in an easy procedure at a physician office, and the approach doesnt require bone marrow aspiration to obtain patients own stem cells or complex cell processing as some competing therapeutics do.

Juventas also has a phase 2 trial underway to investigate its therapy with heart failure patients.

The company is expected to shortly announce a series B round of investment, which includes the funding from Takeda, that totals around $20 million or $25 million.

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Regenerative medicine company begins enrollment in critical limb ischemia trial

Public release date: 16-May-2012 [ | E-mail | Share ]

Contact: Cathia Falvey cfalvey@liebertpub.com 914-740-2100 Mary Ann Liebert, Inc./Genetic Engineering News

New Rochelle, NY, May 16, 2012The inaugural issue of BioResearch Open Access, a new bimonthly peer-reviewed open access journal, was released today by Mary Ann Liebert, Inc., publishers. The Journal provides a new rapid-publication forum for a broad range of scientific topics including but not limited to molecular and cellular biology, tissue engineering and biomaterials, regenerative medicine, stem cells, gene therapy, systems biology, genetics, biochemistry, virology, microbiology, and neuroscience. The first issue is available on the BioResearch Open Access website at http://www.liebertpub.com/biores.

The premier issue includes research papers and a brief report from the U.S., U.K., Germany, and Korea on diverse topics such as tissue engineering, stem cells, HIV, and genetics. Forthcoming papers for the second issue include genetics, xenotransplantation, nuclear transfer, and cardiac research.

The Journal is under the leadership of Editor-in-Chief Jane Taylor, PhD, Senior Research Fellow, MRC Centre for Regenerative Medicine, University of Edinburgh, and seasoned journal editors as Section Editors, including James M. Wilson, MD, PhD, University of Pennsylvania; Antonios G. Mikos, PhD, Rice University; Professor Sir Ian Wilmut, OBE FRS FRSE, University of Edinburgh; Peter C. Johnson, MD, Scintellix, LLC, Raleigh, NC; Aubrey D.N.J. de Grey, PhD, SENS Foundation, Cambridge, UK; Alan J. Russell, PhD, Carnegie Mellon University; Thomas Hope, PhD, Northwestern University; Ganes C. Sen, PhD, Cleveland Clinic Foundation; Bruce A. Sullenger, PhD, Duke University Medical Center; Graham C. Parker, PhD, Wayne State University School of Medicine; Carol Shoshkes Reiss, PhD, New York University; Stephen C. Ekker, PhD, Mayo Clinic, Rochester, MN; John B. West, MD, PhD, University of California, San Diego; David L. Woodland, PhD, Chief Scientific Officer, Keystone Symposia on Molecular and Cellular Biology; Stephen Higgs, PhD, Kansas State University; Eugene Kolker, PhD, Seattle Children's Hospital; and Domenico Grasso, PhD, PE, DEE, University of Vermont.

The Journal welcomes basic science and translational research in the form of original research articles, comprehensive review articles, mini-reviews, rapid communications, brief reports, technical reports, hypothesis articles, perspectives, and letters to the editor. All articles in BioResearch Open Access will be published online within 4 weeks of acceptance. Articles will be fully open access and posted on PubMedCentral. All articles submitted through July 15, 2012 will be made open access without article processing charges. BioResearch Open Access is fully NIH-, HHMI-, and Wellcome Trust compliant.

"BioResearch Open Access is a fully refereed multidisciplinary journal and provides all the checks and balances that rigorous peer review ensures," says Mary Ann Liebert, president of Mary Ann Liebert, Inc., publishers. "An outstanding editorial team comprised of experienced journal editors guarantees the integrity of the Journal."

###

About the Publisher

Mary Ann Liebert, Inc., publishers is a privately held, fully integrated media company known for establishing authoritative peer-reviewed journals in many promising areas of science and biomedical research, including Tissue Engineering, Human Gene Therapy, Nucleic Acid Therapeutics, Stem Cells and Development, Viral Immunology, DNA and Cell Biology, and Antioxidants & Redox Signaling. Its biotechnology trade magazine, Genetic Engineering & Biotechnology News (GEN), was the first in its field and is today the industry's most widely read publication worldwide. A complete list of the firm's 70 journals, books, and newsmagazines is available on the Mary Ann Liebert, Inc. website at http://www.liebertpub.com.

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Premier issue of BioResearch Open Access launched by Mary Ann Liebert Inc. publishers

EXTON, Pa.--(BUSINESS WIRE)--

Fibrocell Science, Inc. (OTCBB: FCSC.OB - News) announced today that it has signed an exclusive license agreement with The Regents of the University of California, under which it acquired the rights to commercially apply discoveries resulting from the scientific collaboration between the University of California, Los Angeles (UCLA) and Fibrocell Science, Inc. This is the second collaboration between Fibrocell Science and UCLA. As part of the existing agreement, using Fibrocell Sciences proprietary technology, UCLA researchers discovered rare stem cells and cell types with regenerative properties within adult human skin. These breakthrough research findings were recently published in the inaugural issue of BioResearch Open Access (May 2, 2012). The new license agreement sets the stage for the continuation of the collaboration and the development of future clinical research programs that may lead to new personalized therapies or diagnostic tools for a variety of diseases and conditions.

Fibrocell Science is looking forward to advancing and continuing our successful, long term relationship with The Regents of the University of California and UCLA. Already, our scientific collaboration with UCLA has produced exciting results that point to outstanding possibilities in the field of personalized, regenerative medicine, said David Pernock, Fibrocell Science Chairman and CEO.

The license agreement pertains to research led by James A. Byrne, Ph.D., an Assistant Professor in UCLAs Department of Molecular and Medical Pharmacology at the Eli and Edythe Broad Center of Regenerative Medicine and Stem Cell Research. His recent research published in BioResearch Open Access was related to two subtypes of cells: SSEA3-expressing regeneration-associated (SERA) cells, which may play a role in the regeneration of human tissue in response to injury, and adult mesenchymal stem cells (MSCs), which are under investigation by many independent researchers for their ability to differentiate into cells that can form bone, fat and cartilage. Finding these specialized cells within skin cell cultures is important because rather than undergoing a surgical organ or tissue transplantation to replace diseased or destroyed tissue, patients may one day be able to benefit from procedures by which stem cells are extracted from their skin, differentiated into specific cell types and re-implanted into their bodies to exert a therapeutic effect. Research in this area is ongoing.

The license agreement went into effect onMay 3, 2012and unless terminated earlier, is in effect until the last-to-expire licensed patent. As part of the ongoing collaboration with Fibrocell Science, Dr. Byrne will continue to lead the investigational team at UCLA and in his role as a scientific advisor to the company.

Fibrocell Science has also signed a sponsored research agreement with the Massachusetts Institute of Technology (MIT) to progress the research currently underway at UCLA. Under the agreement, MIT researchers will investigate viable techniques to maintain the same subpopulations of dermal cells, produce clinically meaningful quantities and deliver them to the body. The research will be led by Professor Daniel Anderson, PhD, who has a dual appointment in the Department of Chemical Engineering and the Harvard-MIT Division of Health Sciences & Technology. The sponsored research agreement with MIT also went into effect on May 3, 2012 and will end on June 30, 2015, unless the agreement is extended in the future.

About Fibrocell Science, Inc. Technology

Fibrocell Science has developed an innovative technology to isolate, purify and multiply a patients own fibroblast cells (a type of skin cell that makes collagen) for injection. Initially, this patented, proprietary technology was applied for use via the companys first product on the market, LAVIV (azficel T). The technology is also being used by Dr. Byrne and his research team at UCLA to study the composition of skin tissue samples to identify, isolate, purify and multiply specialized cell types as reported in BioResearch Open Access.

About Fibrocell Science, Inc.

Fibrocell Science, Inc. (OTCBB:FCSC.OB) is an autologous cellular therapeutic company focused on the development of innovative products for aesthetic, medical and scientific applications. Fibrocell Science is committed to advancing the scientific, medical and commercial potential of autologous skin and tissue, as well as its innovative cellular processing technology and manufacturing excellence. For additional information, please visit http://www.fibrocellscience.com.

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Fibrocell Science, Inc. Announces Exclusive License Agreement with UCLA on Dermal Cell Research to Advance the ...

SEBASTIAN Toby, a 6-year-old golden retriever, loves to run and play catch. And Oreo, a 12-year-old border collie mix, also is a bundle of energy.

Movement for both dogs got easier about a month ago when they received a revolutionary stem cell treatment at the Highlands Animal Hospital.

Veterinarian Marcus Kramer performed the successful transplant procedures, which were developed by Kentucky-based MediVet-America.

Both dogs had been in significant pain with a restricted range of motion, as shown on X-rays.

"It's made a big difference," said Kramer. "The really amazing thing is that they both healed so quickly. Both dogs had problems with their hips and were suffering from osteoarthritis. Just 30-days later, they are able to walk and run again."

Adult animal stem cell technology uses the pet's own regenerative healing power to treat dogs, cats and horses suffering from arthritis, hip dysplasia and tendon, ligament and cartilage injuries. Under anesthesia, Kramer removed about 40 grams of fat from each dog and separated the stem cells from the fat. He then activated the stem cells under an LED light, and injected them back into the dogs.

Stem cell therapy allows an animal to get off pain and anti-inflammatory drugs, Kramer said. MediVet-America's therapy is done entirely at the animal hospital in about three hours, and costs about $1,800 for dogs and $2,400 for horses. That compares to thousands of dollars that pet owners could expect to pay for medication over a pet's lifetime.

Erica Kent, a spokesman for MediVet-America, said using the LED light is integral to the patented-process, because the light helps to awaken stem cells and makes them more active. The three-color light stimulates millions of dormant cells to initiate repair from the moment the cells are injected into the animal's body, according to the MediVet-America website.

The company is also offering a program that allows pet owners to bank stem cells when animals are younger to use if their pet develops illnesses like arthritis in old age.

STEM CELL THERAPY

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Sebastian veterinarian performs stem cell treatment for pets

EXTON, Pa.--(BUSINESS WIRE)--

Fibrocell Science, Inc. (OTCBB:FCSC.OB) announced today the formation of the Clinical Investigations for Dermal Mesenchymally-Obtained Derivatives (CIDMOD) Initiative (www.CIDMOD.org) in collaboration with researchers from a number of different universities across the U.S. The CIDMOD Initiative will facilitate the collaboration of scientists, clinical researchers and private entities, including Fibrocell, to secure funding that will advance clinical research programs that may one day lead to new personalized cell therapies or diagnostic tools for a variety of diseases and conditions. The group will also submit grant requests to the California Institute of Regenerative Medicine (CIRM) and seek additional funding for the development of clinical research programs that use Fibrocells deep knowledge and expertise in cell isolation, purification and expansion via use of its proprietary technology.

Fibrocell Science is excited to support the CIDMOD Initiative. We believe the future work conducted by the Initiatives members will positively impact Fibrocells overall stem cell research strategy and significantly impact the future of personalized medicine, said David Pernock, Chairman and CEO of Fibrocell Science, Inc.

Co-directors of the CIDMOD Initiative include:

About Fibrocell Science Technology

Fibrocell Science has developed an innovative technology to isolate, purify and multiply a patients own fibroblast cells (a type of skin cell that makes collagen) for injection. Initially, this patented, proprietary technology was applied for use via the companys first product on the market, LAVIV (azficel T). The technology is also being used to study the composition of skin tissue samples to identify, isolate, purify and multiply specialized dermal cell types, such as mesenchymal stem cells (MSCs) and SSEA3-expressing regeneration-associated (SERA) cells. SERA cells may play a role in the regeneration of human skin in response to injury, and MSCs are being investigated for their ability to differentiate into cells that can form bone, cartilage and fat. Finding these specialized cells within skin cell cultures is important because rather than undergoing a surgical organ or tissue transplantation to replace diseased or destroyed tissue, patients may one day be able to benefit from procedures by which stem cells are extracted from their skin, differentiated into specific cell types, and re-implanted into their bodies to exert a therapeutic effect.

About Fibrocell Science, Inc.

Fibrocell Science, Inc. (OTCBB:FCSC.OB) is an autologous cellular therapeutic company focused on the development of innovative products for aesthetic, medical and scientific applications. Fibrocell Science is committed to advancing the scientific, medical and commercial potential of autologous skin and tissue, as well as its innovative cellular processing technology and manufacturing excellence. For additional information, please visit http://www.fibrocellscience.com.

Forward-Looking Statements

All statements in this press release that are not based on historical fact are "forward-looking statements" within the meaning of the Private Securities Litigation Reform Act of 1995 and the provisions 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 include, without limitation, whether the Initiative will be successful in securing funding, and whether future work conducted by the Initiatives members will positively impact Fibrocells overall stem cell research strategy and significantly impact the future of personalized medicine. While management has based any forward-looking statements contained herein on its current expectations, the information on which such expectations were based may change. These forward-looking statements rely on a number of assumptions concerning future events and are subject to a number of risks, uncertainties, and other factors, many of which are outside of the Company's control, that could cause actual results to materially differ from such statements. Such risks, uncertainties, and other factors include, but are not necessarily limited to, those set forth under Item 1A "Risk Factors" in the Company's Annual Report on Form 10-K for the year ended December 31, 2011, as updated in "Item 1A. Risk Factors" in the Company's Quarterly Reports on Form 10-Q filed since the annual report. The Company operates in a highly competitive and rapidly changing environment, thus new or unforeseen risks may arise. Accordingly, investors should not place any reliance on forward-looking statements as a prediction of actual results. The Company disclaims any intention to, and undertakes no obligation to, update or revise any forward-looking statements. Readers are also urged to carefully review and consider the other various disclosures in the Company's public filings with the SEC.

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Fibrocell Science, Inc. and Top University Investigators Form Scientific Initiative to Assist in Securing Grant ...

Animal stem cell regenerative therapy is the newest service at the Animal Hospital of Tiffin.

"We are the official first site for the therapy in Ohio," said veterinarian Bob McClung.

The technology uses an adult animal's stem cells to heal itself.

Veterinarian Mike Brothers performed the surgery Monday on his dog, Tucker, a 2-year-old labrador retriever. It was the second surgery performed at the clinic.

Brothers said his dog's joint problems are hereditary and he's had problems since he was a puppy.

"What we've been able to do is slow down the arthritis," Brothers said. The cause of the degeneration will continue, but the fatty tissue removed from the dog can be used for future treatments.

From a piece of fatty tissue of the size removed from Tucker, McClung estimated $3.2 billion stem cells were harvested.

Each injection uses about 90 million cells, so there will be enough of the material for future treatments.

"We have basically 2 billion cells to bank," he said. "We use cryo-preservation."

In the freezing process, the cells are gradually cooled to prevent damage and stored in liquid nitrogen at temperatures of minus 80 to minus 90 degrees Fahrenheit.

Original post:
Vet undertakes stem cell surgery

Cell surface protein blows potent cells cover; targeted drug works in preclinical tests

Newswise HOUSTON Breast cancer stem cells wear a cell surface protein that is part nametag and part bulls eye, identifying them as potent tumor-generating cells and flagging their vulnerability to a drug, researchers at The University of Texas MD Anderson Cancer Center report online in Journal of Clinical Investigation.

Weve discovered a single marker for breast cancer stem cells and also found that its targetable with a small molecule drug that inhibits an enzyme crucial to its synthesis, said co-senior author Michael Andreeff, M.D., Ph.D., professor in MD Andersons Departments of Leukemia and Stem Cell Transplantation and Cellular Therapy.

Andreeff and colleagues are refining the drug as a potential targeted therapy for breast cancer stem cells, which are thought to be crucial to therapy resistance, disease progression and spread to other organs.

Its been difficult to identify cancer stem cells in solid tumors, Andreeff said. And nobody has managed to target these cells very well.

The marker is the cell surface protein ganglioside GD2. The drug is triptolide, an experimental drug that Andreeff has used in preclinical leukemia research. The team found triptolide blocks expression of GD3 synthase, which is essential to GD2production.

Triptolide stymied cancer growth in cell line experiments and resulted in smaller tumors and prolonged survival in mouse experiments. Drug development for human trials probably will take several years.

Cancer stem cells are similar to normal stem cells

Research in several types of cancer has shown cancer stem cells are a small subpopulation of cancer cells that are capable of long-term self-renewal and generation of new tumors. More recent research shows they resist treatment and promote metastasis.

Cancer stem cells are similar to normal stem cells that renew specialized tissues. The breast cancer findings grew out of Andreeffs long-term research in mesenchymal stem cells, which can divide into one copy of themselves and one differentiated copy of a bone, muscle, fat or cartilage cell.

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Scientists Discover Marker to Identify, Attack Breast Cancer Stem Cells

WOONSOCKET, R.I., May 16, 2012 /PRNewswire/ --MultiCell Technologies, Inc. (MCET.OB) is pleased to announce representatives from the Company will present preclinical research findings for MCT-465 and MCT-485 at CIMT 2012 (http://meeting.cimt.eu), Europe's largest meeting dedicated to cancer immunotherapy research and development. CIMT 2012 will be held in May 23-25 in Mainz, Germany. The title of the poster presentation is: "Sharply discordant biological properties of synthetic noncoding dsRNA of different size: Translational opportunities in cancer."The poster presentation in the Enhancing Immunity session of the conference (poster number 078) will be made by Dr. Simona Bot, a consultant to the Company. The Company will present its findings during Poster Session I held on May 23rd, from 3:00-4:30 PM, and Poster Session II held on May 24th from 4:00-5:30 PM.

About MCT-465 and MCT-485

MCT-465 and MCT-485 are the first of a family of prospective cancer therapeutics based on the use of our patented TLR3 signaling technology. MCT-465 and MCT 485 are in preclinical development, and are being investigated as prospective treatments for primary liver cancer and triple negative breast cancer.

The immune system is composed of two synergistic elements: the innate immune system and the adaptive immune system. Stimulation of the innate immune system through key receptors, plays a critical role in triggering the adaptive immune response stimulating T and B cells to produce antibodies. In cancer, this integrated defense system does not work well, resulting in suboptimal activation of innate immunity and thus, late or inefficient adaptive immunity. The innate immune system is composed of a family of ten receptor molecules, the Toll-like Receptors (TLR1-TLR10), which act as sentries to identify invaders and signal the alarm to mobilize the body's array of immune defenses.

Within the tumor lesion, there may be infiltrating monocytes, dendritic cells and leukocytes in general, that have the capability to mobilize an adaptive or innate immune response but they are either silent or immune suppressive in the absence of select immune interventions. Such infiltrating non-cancerous immune cells may express TLR3, other TLRs, RIG-I and/or MDA-5. In addition, within tumor lesions, there may be cancerous cells or stromal cells or cancer stem cells which express TLR3, other TLRs, RIG-I and MDA-5 (representing RNA-sensing molecules).

Cancer stem cells are thought to play a role in a tumor's resistance to therapy. While significant progress has been made in developing cancer therapies that result in cytoreduction and thus tumor regression, the control of cancer over a longer interval and especially of metastatic disease, remains a key goal. Cancer stem cells are believed to be responsible for cancer relapse by being less sensitive to conventional therapies.

MultiCell owns exclusive rights to two issued U.S. patents (6,872,389 and 6,129,911), one U.S. patent application (U.S. 2006/0019387A1), and several corresponding issued and pending foreign patents and patent applications related to the isolation and differentiation of liver stem cells. The role of liver stem cells in the carcinogenic process has recently led to a new hypothesis that hepatocellular carcinoma arises by maturation arrest of liver stem cells.

Double stranded RNA provides a therapeutic avenue for cancer treatment through (a) activating intra-tumoral leukocytes, abrogating their immune suppressive activity and/or (b) interacting with cancerous cells and directly inducing apoptosis, or indirectly through mobilization of immune effector mechanisms.

MCT-465 is a high molecular weight synthetic dsRNA (polyA:polyU, of 70bps) with immune enhancing properties. The mechanism of action of MCT-465 is pleiotropic and mediated by RNA sensors such as TLR3, 7/8, MDA-5 and RIG-I - expressed by antigen presenting cells and select cases, by tumor cells:

Prior studies with similar compounds support a strong immune enhancing effect of MCT-465, consisting in generation of Tc immunity against tumors, when administered as a companion to a vaccine. This raises the possibility that MCT-465 is an effective adjunctive therapy to any small molecule targeted therapy (such as tyrosine kinase inhibitors - TKIs) that results in release of endogenous tumor antigen while interfering minimally with the immune competence.

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MultiCell Technologies Announces Positive Preclinical Results for MCT-465 and MCT-485 in Primary Liver Cancer In Vitro ...

16 May 2012

Angel Biotechnology Holdings plc

("Angel" or "the Company")

Angel signs new contract with ReNeuron to provide GMP (KOSDAQ: 018290.KQ - news) cell manufacturing services for completion of stroke clinical trial

Angel Biotechnology Holdings plc, (AIM:ABH), the biopharmaceutical contract manufacturer, has signed a new contract with ReNeuron Group (Berlin: RQE.BE - news) plc (AIM:RENE) to perform GMP manufacturing services in support of the final part of the PISCES Phase 1 clinical trial of its ReN001 stem cell therapy for stroke; the value of the contract was not disclosed.

Dr Stewart White, Acting CEO, Angel Biotechnology (Berlin: A3G.BE - news) said: "Angel is very proud to be providing ReNeuron with additional manufacturing support to complete this ground breaking Phase 1 clinical trial. This contract is further recognition of the strong partnership between Angel and ReNeuron, and also reaffirms both companies commitment to provide solutions for a real clinical need."

For further information:

Angel Biotechnology Holdings plc

Lorna Peers, Finance Director +44 (0) 131 445 6077

Stewart White, Acting CEO/Commercial Director http://www.angelbio.com

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Angel Biotechnology - Angel signs new contract with ReNeuron

About 67 million people are expected to have the disease by 2030, he said.

"This is a crisis that's going to get worse," he said.

The local chapter of the Arthritis Foundation will host the 2012 Arthritis Walk on Saturday at the University of Tulsa.

Klippel said prevention is a key part of the foundation's message.

People need walkable cities, parks and biking and jogging lanes available to them if they are going to stay healthy and avoid chronic diseases such as arthritis.

Maintaining a healthy weight is also important to avoiding the disease, he said.

Research into inherited forms of arthritis is ongoing, and researchers also are looking at the use of stem cells to treat the disease, Klippel said.

"The biotech industry is going to be really, really important as we move forward," he said.

The Arthritis Foundation continues to raise awareness of the disease and some of the health access problems that keep people, particularly those in minority populations, from treating it properly, Klippel said.

"There are a lot of people in this country, like Native Americans, that aren't getting the care they need for their arthritis," he said.

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Tulsa Arthritis walk set for Saturday

Kolkata, May 15:

Stem cell banking companies are looking at aggressive marketing initiatives to move into the mass market segment. Direct marketing to customers and reduction in price tag for storing umbilical cord blood are on the cards.

The umbilical cord blood and cord tissue are one of the richest sources of stem cells and have potential to treat over 75 serious ailments.

The average cost for storing these for a period of 21 years ranges between Rs 75,000 and Rs 90,000 in India.

According to Chennai-based Life Cell, high price points and lack of proper marketing have limited the penetration of cord blood banking in India. Affordability is the key factor in India.

Only when the prices come down will we see more customers opting for the service. We are working on it (bringing down prices), Mr Mayur Abhaya Srisrimal, Executive Director Life Cell, told Business Line.

Stem cell bankers have already rolled out easy finance options such as EMIs to make the services attractive. CordLife, for instance, offers EMI facility for 12-24 months.

This has helped boost our sales. We have been acquiring 350-400 clients each month, said Managing Director, Mr Meghnath Roy Chowdhury.

Finance, however, is not the only stumbling block. Cord blood bankers have, so far, been depending largely on hospital network for signing up clients. Bangalore-based Ms Deepa Shankar, who is expecting and is due for delivery in June, recently opted for Life Cell services through the hospital.

It's not a sustainable approach. We need to get into direct marketing for pushing up volumes growth, Mr Srisrimal points out. To strike a cord with the would-be mothers, the company has roped in Lisa Ray as brand ambassador. Ms Ray was cured of multiple myeloma courtesy stem cell therapy.

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Stem cell banking firms to deploy marketing initiatives to boost sales

Veterinarians hope a new medical procedure can treat a 25-year-old chimpanzee with a torn ACL, or anterior cruciate ligament, at the "Save the Chimps" in Florida.

The procedure involves injecting the chimp with her own stem cells.

"With chimps we don't want to do a lot of surgical work, put hardware in their knee, they tend to pull out that sort of thing," said Veterinarian Linda Gregard, M.D.

Dr. Darrell Nazareth with the Florida Veterinary League has been using stem cells to treat dogs with arthritis for the past two years, but this is his first chimp.

"We're not using embryonic stem cells, we're not taking embryos and taking their stem cells from there. We're just using the patient's own tissue," said Dr. Nazareth.

The technology harnesses the bodies own ability to heal itself and doctors hope it could find wider use in humans.

After injecting two billion stem cells into Angie's knee, doctors will find out in the next two to three weeks if the stem cell therapy treatment was successful.

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Stem cell therapy to treat a chimp's torn ACL may prove beneficial for humans