Category Archives: Stem Cell Treatment


BrainStorm Deferring Shareholders Conference Call in Anticipation of Upcoming Developments

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

BrainStorm Cell Therapeutics Inc. (BCLI), a leading developer of adult stem cell technologies for neurodegenerative diseases, announced that it is deferring its shareholders conference call scheduled for December 11, 2012, in anticipation of significant positive company developments likely to be released shortly. The company will announce the re-scheduled conference call date as soon as senior management is authorized to discuss these developments.

About BrainStorm Cell Therapeutics

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. Terms and phrases such as may, should, would, could, will, expect, likely, believe, plan, estimate, predict, potential, and similar terms and phrases are intended to identify these forward-looking statements. The potential risks and uncertainties include, without limitation, 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. These factors should be considered carefully, and readers should not place undue reliance on BrainStorms forward-looking statements. The forward-looking statements contained in this press release are based on the beliefs, expectations and opinions of management as of the date of this press release. We do not assume any obligation to update forward-looking statements to reflect actual results or assumptions if circumstances or managements beliefs, expectations or opinions should change, unless otherwise required by law. Although we believe that the expectations reflected in the forward-looking statements are reasonable, we cannot guarantee future results, levels of activity, performance or achievements.

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BrainStorm Deferring Shareholders Conference Call in Anticipation of Upcoming Developments

New Research Shows Significant Improvement in Survival for Patients Receiving Unrelated Blood Stem Cell Transplants

ATLANTA--(BUSINESS WIRE)--

Survival rates have increased significantly over the past decade among patients with leukemia and other life-threatening diseases who received blood stem cell transplants from donors outside of their families, according to new research1.

Results of the recent study presented at the 54th Annual Meeting of the American Society of Hematology in Atlanta showed that the one-year survival rate for all unrelated transplant patients improved 12 to 13 percent between 2000 and 2009, and a large percentage of patients maintained improvements through their three-year follow-up.

The retrospective cohort study analyzed outcomes for more than 15,000 unrelated transplant patients and was led by the National Marrow Donor Program (NMDP) and its research arm, the Center for International Blood and Marrow Transplant Research (CIBMTR). The significant improvements are correlated with reduced treatment-related mortality, and in certain populations, fewer disease relapses.

Such a remarkable improvement in outcomes demonstrates that unrelated transplantation is a good option for the 70 percent of patients who need a transplant, but dont have a suitable matching donor within their family, said Navneet Majhail, M.D., lead author of the study and medical director at the NMDP. This is good news for these patients, and should reassure physicians about the safety and efficacy of referring a patient for an unrelated transplantation.

In fact, the study again confirmed that those patients who received transplants earlier in their disease fared far better than those with advanced disease, emphasizing the importance of earlier referrals by physicians.

The data confirms that physicians working with patients who are fighting a blood cancer should consider unrelated transplantation as a standard therapy, continued Dr. Majhail. Multiple factors have likely contributed to this dramatic improvement in survival, including advances in HLA tissue typing, better supportive care, less intensive conditioning regimens, new medications to treat post-transplant complication and a growing, diverse registry of volunteer bone marrow donors.

The NMDPs Be The Match Registry today includes more than 10 million potential bone marrow donors, compared to 3.5 million in 2000.

The transplantation community has gained enormous knowledge over the past decade, evidenced by the significant improvements in patient survival, said Jeffrey W. Chell, M.D., chief executive officer of the NMDP. Unrelated blood stem cell transplantation is no longer a last resort for patients battling life-threatening blood cancers.

About the National Marrow Donor Program(NMDP)

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New Research Shows Significant Improvement in Survival for Patients Receiving Unrelated Blood Stem Cell Transplants

Bioheart in Partnership With NorthStar on Physician Training in Stem Cell Techniques

SUNRISE, FL--(Marketwire - Dec 10, 2012) - Bioheart Inc. ( OTCQB : BHRT ) previouslyannounced that it is working with NorthStar Biotech to help promote regenerative medicine.NorthStar has announced that it will subsidize physicians to participate in the Ageless Regenerative Institute stem cell training program.The fully accredited CME training program includes a didactic lecture series followed by hands-on clinical training for physicians to learn to isolate stem cells for immediate use in their patients.The Ageless Regenerative Institute has successfully trained over 200 physicians and these physicians are utilizing both adipose and bone marrow derived stem cells as well as platelet rich plasma for orthopedics, aesthetics and other degenerative diseases.

With the new NorthStar/Bioheart program, this select group of physicians have the opportunity to receive full funding for the training and join a network of physicians who will offer in-clinic stem cell therapies.Once these physicians commence IRB-approved in-clinic services, Bioheart will receive royalties for the use of these fee-for-service procedures.Initial projections have not been announced by NorthStar.

"Physicians have for years evaluated and considered stem cell treatments as a potential alternative for a subset of our patient population.This program helps educate doctors and allows us a viable opportunity to expand our treatment portfolio for patients in need," said board-certified Miami internist Dr. Antonio Blanco.

Bioheart's president and CEO Mike Tomas said, "The training programs at the Ageless Regenerative Institute provide physicians with extraordinary regenerative medicine capabilities.We are fortunate to partner with Northstar to bring these therapies to the clinic."

Physicians interested in applying to participate in the program should contact info@agelessregen.com.

About Bioheart, Inc.

Bioheart is committed to maintaining its leading position within the cardiovascular sector of the cell technology industry delivering cell therapies and biologics that help address congestive heart failure, lower limb ischemia, chronic heart ischemia, acute myocardial infarctions and other issues.Bioheart's goals are to cause damaged tissue to be regenerated, when possible, and to improve a patient's quality of life and reduce health care costs and hospitalizations.

Specific to biotechnology, Bioheart is focused on the discovery, development and, subject to regulatory approval, commercialization of autologous cell therapies for the treatment of chronic and acute heart damage and peripheral vascular disease. Its leading product, MyoCell, is a clinical muscle-derived cell therapy designed to populate regions of scar tissue within a patient's heart with new living cells for the purpose of improving cardiac function in chronic heart failure patients. For more information on Bioheart, visit http://www.bioheartinc.com, or visit us on Facebook: Bioheart and Twitter @BioheartInc.

About Ageless Regenerative Institute, LLC

The Ageless Regenerative Institute (ARI) is an organization dedicated to the standardization of cell regenerative medicine. The Institute promotes the development of evidence-based standards of excellence in the therapeutic use of adipose-derived stem cells through education, advocacy, and research.ARI has a highly experienced management team with experience in setting up full scale cGMP stem cell manufacturing facilities, stem cell product development & enhancement, developing point-of-care cell production systems, developing culture expanded stem cell production systems, FDA compliance, directing clinical & preclinical studies with multiple cell types for multiple indications, and more.ARI has successfully treated hundreds of patients utilizing these cellular therapies demonstrating both safety and efficacy.For more information about regenerative medicine please visit http://www.agelessregen.com.

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Bioheart in Partnership With NorthStar on Physician Training in Stem Cell Techniques

Photo Release — GIOSTAR and the Government of India to Enter $2 Billion Stem Cell Therapy Program – Official State …

SAN DIEGO, Dec. 10, 2012 (GLOBE NEWSWIRE) -- The Global Institute Of Stem-cell Therapy And Research (GIOSTAR) announced today a collaborative treatment plan to serve the local population suffering from a genetic disease, Sickle Cell Anemia. President and CEO, Mr. Deven Patel and his team met with Honorable Chief Minister Shri Arjun Munda of State of Jharkhand, India in November 2012 to address the local population's medical needs.

A photo accompanying this release is available at http://www.globenewswire.com/newsroom/prs/?pkgid=16184.

As a follow-up, a government delegation representing the state of Jharkhand, India; Chief Minister, Principal Health Secretary, Chief Secretary and many other officials are visiting GIOSTAR in San Diego on December 14, 2012 to finalize the proposed two (2) billion U.S. dollar contract to be serviced over the next 15 years.

Bob Filner, Mayor of San Diego and City Council Members are among the invited guests for this state visit along with representatives from Belize and the island nation of Saint Vincent and the Grenadines.

Two hundred (200) jobs are estimated to be created in San Diego and it is expected that the dialog would include an economic development program between City of San Diego and State of Jharkhand, India.

GIOSTAR is a Global Private Funding (Global) incubated company. "Global is a private equity firm that focuses on funding projects and initiatives that are job-creation centric rather than just profit centric. We believe that a venture that draws the best minds and hearts to a unified goal, driven by a unified vision tends to be far stronger and less prone to failure than one driven by just profit. We invest in people, not the business," said Dr. Sam Senev, Chairman and CEO of Global. Senev added that GIOSTAR is a showcase client focused on both serving mankind through quality of life and job creation.

GIOSTAR, headquartered in San Diego, California (USA), was formed with the vision to provide stem cell based therapy to aid those suffering from degenerative or genetic diseases around the world. We are the leaders in developing innovative stem cell based technology.

The Chairman and Cofounder of GIOSTAR, Dr. Anand Srivastava and our team of scientists and clinicians have been associated with leading universities and research institutions throughout USA. GIOSTAR team has extensive research and clinical experience in the field of Stem cell, which is documented by several publications in revered scientific journals.

GIOSTAR in July 2011, inaugurated the world's first dedicated stem cell treatment hospital, a 125-bed, contemporary facility with the most advanced on-site stem cell laboratory. This hospital is fully operational. GIOSTAR is developing the world's largest, a three hundred thousand square-foot (300,000SF) state-of-the-art, Stem Cell Treatment Hospital in the Surat Civil Hospital Campus in collaboration with the government of Gujarat. Negotiations are ongoing with China, Philippines, Bahamas, Belize, Thailand, Ukraine and the Middle East to open regional stem cell treatment hospitals and satellite clinics throughout those countries and regions. "We are expanding the GIOSTAR footprint and is in negotiations to open locations near Austin Texas, Phoenix Arizona, and Savannah South Carolina" said Michael Andersen, Vice President of Venture Management at Global. Global and Empyrean West, EB-5 administrators, plan to invest over one hundred and eighty million ($180M) in economic development investments for GIOSTAR projects.

The Global Institute of Stem Cell Therapy and Research company logo is available at http://www.globenewswire.com/newsroom/prs/?pkgid=16183.

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Photo Release -- GIOSTAR and the Government of India to Enter $2 Billion Stem Cell Therapy Program - Official State ...

Advances in Stem Cell Research Techniques and New Transplant Strategies Reveal Opportunities for Improved Patient …

ATLANTA, Dec. 9, 2012 /PRNewswire-USNewswire/ -- Studies of stem cell biology and transplant approaches presented today at the 54th Annual Meeting of the American Society of Hematology (ASH) illustrate how the use of advanced modeling techniques is optimizing stem cells to treat patients with blood disorders, as well as the potential of enhanced treatment strategies to improve the success rate of hematopoietic stem cell (HSC) transplantation for these patients.

Hematopoietic stem cell transplantation is effectively used today as a form of "replacement" therapy for patients with hard-to-treat blood conditions, providing healthy HSCs to help patients whose bodies cannot properly fight infection or disease on their own. While transplants often lead to long-term remission for many patients, researchers are now challenging traditional assumptions in an effort to further improve success rates while minimizing the remaining risks associated with transplantation.

"As we learn more about the biology and therapeutic use of hematopoietic stem cells to cure blood disorders, we are able to refine our traditional approaches to reduce complications and deliver better patient benefits," said Vanderson Rocha, MD, PhD, moderator of the press conference and Professor of Hematology of Oxford University, United Kingdom. "We are finding that hematopoietic stem cells can be programmed in ways we previously did not think possible, a discovery that may lead to the development of important new therapeutic strategies."

This press conference will take place on Sunday, December 9, at 10:00 a.m. EST.

Targeting Histone Deacetylases as a New Strategy for Graft Versus Host Disease Prevention [Abstract 740]

New research shows that the addition of the oral anti-cancer agent vorinostat to standard therapy given before, during, and after hematopoietic stem cell transplantation (HSCT) may safely reduce the incidence and severity of a challenging complication called graft-versus-host disease (GVHD).

HSCT is the primary form of treatment for many patients with blood disorders; it involves the transplantation of healthy blood-forming stem cells from the bone marrow, circulating blood, or umbilical cord blood to replace damaged, disease-causing cells in recipients. Despite the therapeutic benefits of HSCT, half of all patients who receive transplants from a related donor (allogeneic HCT) develop acute GVHD, a life-threatening condition occurring when the newly transplanted cells identify the recipient's body as foreign and attack the recipient's own cells.

Currently, HSCT patients receive prophylactic therapy before and after transplant to prepare their bodies for the procedure and to help manage their subsequent immune response. While this series of drugs is designed to help reduce patients' risk of developing GVHD, it also compromises their immune systems, leaving them vulnerable to serious infections and complications. Recent research has sought to determine ways to improve patients' initial immune response to transplanted cells as well as promote faster immune recovery after transplant.

Recent early-stage studies have demonstrated that a class of anti-cancer drugs known as histone deacetylase inhibitors (HDACi) may safely reduce the risk of GVHD in patients. These drugs have demonstrated an ability to "turn off" an enzyme that leads to inflammation, a major contributor to GVHD that develops as a byproduct of patients' intense immune response to HSCT. Based on those early results, researchers initiated the current study to evaluate whether one drug in this class, vorinostat, might reduce the risk of acute GVHD when added to current regimens.

To test this hypothesis, researchers enrolled 45 patients undergoing matched related donor HSCT from transplant centers at the University of Michigan in Ann Arbor, Mich. and Washington University in St. Louis to compare results of a standard regimen with vorinostat to historical controls. The primary endpoint of the single-arm, Phase I/II trial was the cumulative incidence of grade 2-4 acute GHVD (grade 1 is mildest; grade 4 is most severe). They aimed for an incidence of no more than 25 percent, compared with historical average rates of 42 percent.

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Cytomedix Announces Positive Results With Angel(R) cPRP in Veterinary Application

GAITHERSBURG, MD--(Marketwire - Dec 7, 2012) - Cytomedix, Inc. ( OTCQX : CMXI ) (the "Company"), a regenerative therapies company commercializing and developing innovative platelet and adult stem cell technologies, announced today that positive data on the Angel cPRP system in a veterinary application -- treatment of persistent mating induced endometritis (PMIE) in mares -- were recently presented at the 3rd annual conference of the North American Veterinary Regenerative Medicine Association (NAVRMA) in Savannah, GA.Treatment with PRP was shown to be associated with a statistically significant reduction in certain endometrial pro-inflammatory cytokines and inducible nitric oxide synthetase (iNOS), both known to be involved in the pathology of PMIE.

Many mares fail to respond to conventional therapies and recent studies have shown a link between PMIE and the expression of certain cytokines.Nitric oxide is also believed to play a role in uterine clearance. The study investigated 9 barren mares with a history of PMIE. During the treatment cycle, whole blood was processed using the Angel cPRP system and the resultant PRP was brought to a final volume with platelet poor plasma and infused into the uterus. All mares were then inseminated with motile sperm.Evaluation of endometrial biopsies showed that in mares treated with PRP there was down-regulated expression of pro-inflammatory molecules, IL-1b, IL-6, IL-8 and iNOS, compared with untreated mares (p < 0.05).

Lisa Metcalf MS, DVM, Diplomate ACT, lead investigator on the study commented on the results, "Infertility in high value mares is a significant economic problem in the equestrian industry.Intra uterine treatment with PRP offers a new approach to treating this condition and, in this study we observed multiple pregnancies in the treated mares that were previously barren. Use of PRP in this setting warrants further investigation".

Martin Rosendale, Chief Executive Officer of Cytomedix added, "These results are very promising and give us further insight into the mechanism by which PRP inhibits inflammation by decreasing the presence of pro-inflammatory cytokines. These findings regarding the control of inflammation may be transferable to human inflammatory conditions. We will continue to explore disease areas where inflammation is known to play a role and where there is a need for a therapeutic alternative to corticosteroids."

About Cytomedix, Inc. Cytomedix, Inc. is an autologous regenerative therapies company commercializing innovative platelet technologies for orthopedics and wound care with a pipeline of adult stem cell therapies for tissue repair. The Company markets the AutoloGel System, a device for the production of autologous platelet rich plasma ("PRP") gel for use on a variety of exuding wounds and the Angel Concentrated Platelet Rich Plasma System, a blood processing device and disposable products used for the separation of whole blood or a mixture of blood and bone marrow, into red cells, platelet poor plasma ("PPP") and PRP in surgical settingsOn February 8, 2012 Cytomedix closed the acquisition of Aldagen, a biopharmaceutical company developing regenerative cell therapies based on its proprietary ALDH bright cell technology, currently in a Phase 2 trial for the treatment of ischemic stroke. For additional information please visit cytomedix.com

Safe Harbor StatementStatements contained in this press release not relating to historical facts are forward-looking statements that are intended to fall within the safe harbor rule for such statements under the Private Securities Litigation Reform Act of 1995. The information contained in the forward-looking statements is inherently uncertain, and Cytomedix' actual results may differ materially due to a number of factors, many of which are beyond Cytomedix' ability to predict or control, including among many others, risks and uncertainties related to the Company's ability to successfully integrate the Aldagen acquisition, to successfully manage contemplated clinical trials, to manage and address the capital needs, human resource, management, compliance and other challenges of a larger, more complex and integrated business enterprise, viability and effectiveness of the Company's sales approach and overall marketing strategies, commercial success or acceptance by the medical community, competitive responses, the Company's ability to raise additional capital and to continue as a going concern, and Cytomedix's ability to execute on its strategy to market the AutoloGel System as contemplated. To the extent that any statements made here are not historical, these statements are essentially forward-looking. The Company uses words and phrases such as "believes", "forecasted," "projects," "is expected," "remain confident," "will" and/or similar expressions to identify forward-looking statements in this press release. Undue reliance should not be placed on forward-looking information. These forward-looking statements are subject to known and unknown risks and uncertainties that could cause actual events to differ from the forward-looking statements. More information about some of these risks and uncertainties may be found in the reports filed with the Securities and Exchange Commission by Cytomedix, Inc. Cytomedix operates in a highly competitive and rapidly changing business and regulatory 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. Except as is expressly required by the federal securities laws, Cytomedix undertakes no obligation to update or revise any forward-looking statements, whether as a result of new information, changed circumstances or future events or for any other reason. Additional risks that could affect our future operating results are more fully described in our U.S. Securities and Exchange Commission filings, including our Annual Report for the year ended December 31, 2011 and other subsequent filings. These filings are available at http://www.sec.gov.

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Cytomedix Announces Positive Results With Angel(R) cPRP in Veterinary Application

Cytomedix Announces Landmark Bright Cell Therapy Study in Peripheral Arterial Disease

GAITHERSBURG, MD--(Marketwire - Dec 6, 2012) - Cytomedix, Inc. ( OTCQX : CMXI ) (the "Company"), a regenerative therapies company commercializing and developing innovative platelet and adult stem cell technologies, announced today the signing of an agreement with NIH to collaborate on a Phase 2 clinical study in patients with intermittent claudication (IC).IC is caused by peripheral arterial disease (PAD), a condition causing reduced flow of blood and oxygen to muscles of the leg. The study is being funded by NHLBI/NIH and managed by the Cardiovascular Cell Therapy Research Network (CCTRN), which is also responsible for enrolling patients. The CCTRN is a network that includes seven centers in the United States with experience and expertise in stem cell clinical trials studying treatments for cardiovascular heart diseases.

The Phase 2 PACE (Patients with Intermittent Claudication Injected with ALDH Bright Cells) study is an 80 patient, double-blind, placebo-controlled clinical trial intended to demonstrate the safety and efficacy of ALD-301 (Bright Cells) in patients diagnosed with IC.The primary endpoints of the study are safety and the change in peak walking time at 6 months compared to baseline.Additionally, changes in leg collateral arterial anatomy, calf muscle blood flow, and tissue perfusion as determined by magnetic resonance imaging (MRI) will be examined. These novel MRI techniques are incorporated into the study to assess perfusion, providing a unique set of data potentially supporting the angiogenic mechanism of Bright Cells.The clinical study has received Investigational New Drug approval from the U.S. Food and Drug Administration (FDA) and is expected to begin enrollment in Q1 2013 upon the Investigational Review Board approvals from the participating centers.

Martin P. Rosendale, Chief Executive Officer of Cytomedix, stated, "We are delighted that the CCTRN has chosen to collaborate with Cytomedix on this study.Our February acquisition of Aldagen and the Bright Cell technology has positioned us well to play a leading role in investigating promising clinical paths in regenerative medicine where there exists significant unmet medical need.We look forward to supplying a highly differentiated personalized cell therapy product to the participating CCTRN centers involved with this important PAD indication.Intermittent claudication is a serious consequence of arteriosclerosis which, if left untreated, will likely progress to pain at rest and possibly open wounds.Our experience with the AutoloGel product and the clinical treatment of lower extremity wounds resulting from CLI has provided us with a full appreciation of the difficult clinical outcomes associated with this compromised patient population.We are hopeful that improvements in lower leg blood flow will lead to increased peak walking time which has been accepted as an FDA approvable endpoint in pivotal Phase 3 trials in IC."

"This is the first randomized clinical trial to look at the benefits of autologous stem cell therapy in PAD patients with IC. It will collect important mechanistic and clinical information on the efficacy and safety of the direct injection of Bright Cells into these patients. It will also evaluate the utility of advanced imaging endpoints that could be used in the future to further understand the impact of novel therapies in this patient population," added Lem Moy, M.D., Ph.D., professor of biostatistics at the University of Texas School of Public Health, Houston, and co-author of the study protocol.

PAD is a major unmet medical need affecting approximately 8 to 10 million patients in the U.S. IC is a significant subset of the PAD population and is characterized by pain in the lower legs while in motion that resolves upon rest.Critical limb ischemia (CLI) is the advanced form of PAD, and is associated with poor clinical outcomes and increased morbidity.An important goal of medical intervention is to attempt to prevent the progression of patients from IC to CLI.This clinical studybuilds on the strong data showing increased blood flow and improved clinical status from Cytomedix's previous Phase 1/2 study of ALD-301 in CLI published last year ("A Randomized, Controlled Study of Autologous Therapy with Bone Marrow-Derived Aldehyde Dehydrogenase Bright Cells in Patients with Critical Limb Ischemia" Catheterization and Cardiovascular Interventions 2011).In the PACE study, ALD-301 will be delivered in the same manner, via direct, intramuscular injection in a grid pattern of the affected lower limb.Cytomedix will be responsible for manufacturing ALD-301 for the clinical trial and will have certain rights todata generated during the trial.

About ALD-301/ALDH Bright CellsALD-301 is a population of autologous pluripotent stem cells isolated from the patients' bone marrow using Cytomedix' proprietary Bright Cell technology.These adult stem cells express high levels of the enzyme ALDH, an indicator of biological activity in heterogeneous early stage stem cells.Preclinical research suggests that ALD-301 may promote the repair of ischemic tissue damage by producing signaling molecules that are involved in cell recruitment, cell adhesion, and angiogenesis.

About Cardiovascular Cell Therapy Research Network (CCTRN) and NHLBIThe CCTRN includes seven main stem cell centers in the United States with experience and expertise in clinical trials studying treatments for cardiovascular diseases.They are the Texas Heart Institute, the University of Florida at Gainesville, Minneapolis Heart Institute, Stanford University, University of Louisville, University of Miami and the Vascular and Cardiac Center for Adult Stem Cell Therapy in Indianapolis, Indiana.The CCTRN has successfully completed and published the results of three adult stem cell trials to date (TIME, LateTIME, and FOCUS).Further information on CCTRN is available at: cctrn.org.

The National Heart, Lung, and Blood Institute (NHLBI) is a component of the National Institutes of Health. NHLBI plans, conducts, and supports research related to the causes, prevention, diagnosis, and treatment of heart, blood vessel, lung, and blood diseases; and sleep disorders. The Institute also administers national health education campaigns on women and heart disease, healthy weight for children, and other topics. NHLBI press releases and other materials are available at: nhlbi.nih.gov.

About Cytomedix, Inc. Cytomedix, Inc. is an autologous regenerative therapies company commercializing innovative platelet technologies for orthopedics and wound care with a pipeline of adult stem cell therapies for tissue repair. The Company markets the AutoloGel System, a device for the production of autologous platelet rich plasma ("PRP") gel for use on a variety of exuding wounds and the Angel cPRP System, a blood processing device and disposable products used for the separation of blood and bone marrow into red cells, platelet poor plasma ("PPP") and PRP in surgical settings.On February 8, 2012 Cytomedix closed the acquisition of Aldagen, a biopharmaceutical company developing regenerative cell therapies based on its proprietary ALDH bright cell technology, currently in a Phase 2 trial for the treatment of ischemic stroke. For additional information please visit cytomedix.com

Safe Harbor StatementStatements contained in this press release not relating to historical facts are forward-looking statements that are intended to fall within the safe harbor rule for such statements under the Private Securities Litigation Reform Act of 1995. The information contained in the forward-looking statements is inherently uncertain, and Cytomedix' actual results may differ materially due to a number of factors, many of which are beyond Cytomedix' ability to predict or control, including among many others, risks and uncertainties related to the Company's ability to successfully integrate the Aldagen acquisition, to successfully manage contemplated clinical trials, to manage and address the capital needs, human resource, management, compliance and other challenges of a larger, more complex and integrated business enterprise, viability and effectiveness of the Company's sales approach and overall marketing strategies, commercial success or acceptance by the medical community, competitive responses, the Company's ability to raise additional capital and to continue as a going concern, and Cytomedix's ability to execute on its strategy to market the AutoloGel System as contemplated. To the extent that any statements made here are not historical, these statements are essentially forward-looking. The Company uses words and phrases such as "believes," "forecasted," "projects," "is expected," "remain confident," "will" and/or similar expressions to identify forward-looking statements in this press release. Undue reliance should not be placed on forward-looking information. These forward-looking statements are subject to known and unknown risks and uncertainties that could cause actual events to differ from the forward-looking statements. More information about some of these risks and uncertainties may be found in the reports filed with the Securities and Exchange Commission by Cytomedix, Inc. Cytomedix operates in a highly competitive and rapidly changing business and regulatory 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. Except as is expressly required by the federal securities laws, Cytomedix undertakes no obligation to update or revise any forward-looking statements, whether as a result of new information, changed circumstances or future events or for any other reason. Additional risks that could affect our future operating results are more fully described in our U.S. Securities and Exchange Commission filings, including our Annual Report for the year ended December 31, 2011 and other subsequent filings. These filings are available at http://www.sec.gov.

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Cytomedix Announces Landmark Bright Cell Therapy Study in Peripheral Arterial Disease

BioTime CEO Dr. Michael West Presents Product Development Update at World Stem Cell Summit 2012

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

BioTime, Inc. (NYSE MKT: BTX), a biotechnology company that develops and markets products in the field of regenerative medicine, announced that Chief Executive Officer Michael D. West, Ph.D. will provide an update today on five products being developed by BioTime and its subsidiaries during a presentation at the World Stem Cell Summit 2012 in West Palm Beach, Florida in the session on Developing Combination Products: Cells, Genes, and Devices at 1:30 pm EST. The presentation will be made available on BioTime's website at http://www.biotimeinc.com.

BioTimes technology platform utilizes pluripotent stem cells that are capable of differentiating into any of the cell types in the body to produce potentially novel first-in-class regenerative therapies for largely unsolved problems in medicine. Using the Companys proprietary ACTCellerateTM technology, BioTime has more than 200 novel and scalable cellular components of the human body.

OTX-CP07 Update

Dr. West will present for the first time information relating to 18 novel and diverse progenitor cell lines capable of differentiating into diverse cartilage and bone types, as well as producing cells with markers of tendon, and brain meningeal tissues. The cartilage progenitor formulation designated OTX-CP07 is being developed by BioTimes subsidiary OrthoCyte Corporation, and is currently beginning the process of animal studies of safety and efficacy for the treatment of intervertebral disc disease. The cartilage, bone, and tendon-producing cell lines may have significant applications in the treatment of orthopedic disorders such as osteoarthritis and low back pain resulting from intervertebral disc disease, while the subset of lines capable of choroid plexus differentiation may have application in the treatment of Alzheimers disease.

Renevia Update

For many of the wide array of cell-based regenerative therapies being developed around the world, the formulation of the cells with a matrix is desired to increase viable and immobilized engraftment. Renevia is designed to be an effective means of transplanting cells in an injectable liquid that can polymerize safely in the body into a tissue construct. Dr. West will report that validation of the analytical methods and manufacturing processes for Renevia are substantially complete. Production of one of Renevias four manufacturing components under Current Good Manufacturing Practice (cGMP) is completed and cGMP production of the remaining three components is scheduled. Clinical trial protocols (three phases) are being drafted and BioTime anticipates that during the first quarter of 2013 a submission of the Renevia Phase I safety trial in humans will be made to the appropriate Spanish Ethics Committee for review and approval. In addition, he will report continued progress on establishing quality management systems for compliance with ISO 13485 (required in the EU for medical devices) and that preliminary review and audit (by an external auditor) is currently scheduled for the first quarter of 2013 with the final ISO audit expected during the second quarter.

PanC-Dx Update

PanC-Dx, being developed by BioTimes subsidiary OncoCyte Corporation, is intended to be a blood-based screening diagnostic for a wide array of solid tumor types. Recent reports of the relative ineffectiveness of mammography in reducing patient death from breast cancer highlight the urgent need for improved tools to accurately detect the disease in its earliest stages. Dr. West will report that OncoCyte has initiated production of monoclonal antibodies to the first seven of its priority cancer markers. In addition, OncoCyte has completed the characterization of over 50 antibodies in order to screen for the subset with greatest specificity for each individual marker. Dynamic testing of the antibodies for use in ELISA and point of care formats are currently underway.

OpRegenand OpRegen-PlusUpdate

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BioTime CEO Dr. Michael West Presents Product Development Update at World Stem Cell Summit 2012

Precision StemCell's Neural Reprogrammed Stem Cell Therapy Yields Better-Than-Expected Results for ALS Patients

GULF SHORES, Ala., Dec. 4, 2012 /PRNewswire/ --More than 75 percent of amyotrophic lateral sclerosis (ALS) patients who received neural reprogrammed stem cell therapy have shown a positive response to the procedure. The groundbreaking technique was introduced to the United States this year by Precision StemCell (http://www.precisionstemcell.com), an outpatient imaging and image-guided treatment facility located in Gulf Shores, Ala.

The procedure is performed by Dr. Jason R. Williams, a board-certified radiologist with extensive training in image-guided procedures. Under his care, 14 out of 18 patients diagnosed with ALS, also known as Lou Gehrig's disease, have shown signs of recovery.

"The improvements are mild, with patients reporting improved movement, breathing and speech, but we still have a long way to go," Dr. Williams stated. "Only time will tell how this therapy will affect the patients' long-term prognosis."

In Precision StemCell's neural reprogrammed stem cell therapy, fat-derived stem cells are injected into the spine of the patient. Dr. Williams uses a drug called selegeline, which has been shown to be a pre-inducer of adipose-derived stem cells into neural-like cells. Dr. Williams contends that the therapy is probably one of the largest advances seen in ALS therapy. "Before we started this therapy, I would have been happy just to see the progression of the disease halted, but to see some actual improvement, that was just shocking," he said

The first patient treated with the technique was Frank Orgel who continues to see improvement since his first treatment seven months ago. Eight years ago, Orgel's quality of life had declined to the point that he could not move his left arm or leg, walk or even stand on his own. The therapy has allowed Orgel to stand without assistance, and he continues to work with a physical therapist to regain the ability to walk. Another patient, Dexter Johnson, previously walked with a cane. After the treatment, Johnson has been able to walk without his cane for the majority of the time and he has been able to walk at a much faster pace.

The Precision StemCell center focuses on advanced imaging techniques, which include a 3T Open MRI, a low-dose 64-Slice CT Scanner, ultrasound and fluoroscopy, also known as real-time x-ray. The center is headed by Dr. Williams, who specializes in image-guided procedures, had already been performing magnetic resonance imaging (MRI), computed tomography (CT), ultrasound and fluoroscopy-guided stem cell injections for joint and orthopedic conditions.

In addition to their current work on advanced stem cell harvesting and processing with image-guided stem cell injections, Precision StemCell staff are planning to conduct further research so as to develop even more advanced techniques such as adding gene therapy to the current neural reprogramming platform. "Our therapy techniques not only hold promise for ALS patients, but also for people with other neural-related conditions such as Parkinson's and spinal cord injuries," said Dr. Williams. "There are several candidate genes that we plan to add to the adipose-derived stem cells and study in the mouse model. Though we are happy with our initial progress, our goal is to develop an effective cure."

About Precision StemCell

Located in Gulf Shores, Alabama, Precision StemCell conducts stem cell procedures using advanced imaging techniques, which include an Open 3T MRI, a low-dose 64-Slice CT scanner, ultrasound, and real time x-ray (fluoroscopy). Headed by Jason Williams, MD, a board-certified radiologist with extensive training in image-guided procedures, the facility performs advanced stem cell harvesting and processing with image-guided stem cell injections.

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Precision StemCell's Neural Reprogrammed Stem Cell Therapy Yields Better-Than-Expected Results for ALS Patients

Stem Cell Media Interview With Dr. Adrian Harel: Fighting to End ALS, Once and for All

NEW YORK, NY and PETACH TIKVAH, ISRAEL--(Marketwire - Dec 4, 2012) - Sai Rosen of http://www.InvestorStemCell.com (Stem Cell Media, LLC) recently sat down with Dr. Adrian Harel, Chief Executive Officer for Brainstorm Cell Therapeutics Inc. ( OTCQB : BCLI ).Brainstorm Cell Therapeutics Inc. is a biotechnology company developing autologous stem cell therapies for highly debilitating neurodegenerative disorders, such as Amyotrophic Lateral Sclerosis (ALS) (Lou Gehrig's disease), Multiple Sclerosis (MS) and Parkinson's disease (PD) and Spinal Cord Injury. These diseases have limited treatment options and as such represent unmet medical needs.

Dr. Harel has over 30 years' experience in international business development, marketing, clinical development, fund raising and building strategic partnerships. In January 2011, he came to Brainstorm and leveraged all his experience to transform the company from a struggling pre-clinical biotech to the world's leader in clinical stage neurodegenerative treatment for ALS.The company is nearing submission of an ALS Phase II, to be conducted at the renowned Massachusetts General Hospital (MGH).

During his interview, Dr. Harel shared the following information:

Why are you interested in neurodegenerative disorders?

Dr. Harel: "I became fascinated in this area of research while working at Proneuron Biotechnologies.We had created the 'world center' for paralysis.I had the pleasure to work with Christopher Reeve and other clinical leaders.We pioneered these early stage cellular treatments and I was pleased to have played a significant role in regulatory and managing endeavors across multiple channels both internal and external."

What brought you to Brainstorm?

Dr. Harel: "I have spent my whole life helping others, working with teams that are inspired to find solutions to difficult biological problems with the end goal to ease the burden of suffering.ALS is in my opinion the worst of the worst when considering unmet neurodegenerative diseases.I believe our data from the ALS Phase I is showing measurable improvements in key areas of those afflicted and may be proven to be a treatment for ALS."

What is the credit market like?

Dr. Harel: "It has been difficult to engage in terms that are not burdensome to goals. It is a fine line to ensure solvency, manage dilution and move our clinical trials forward as expeditiously as possible. I was able to arrange favorable terms early this summer and closed in July on a $5.7 million Public Offering.We have been successful with securing non-dilutive grants.Since coming to Brainstorm in January, I have raised over $10 million."

What is next for Brainstorm?

Excerpt from:
Stem Cell Media Interview With Dr. Adrian Harel: Fighting to End ALS, Once and for All