Category Archives: Regenerative Medicine

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

BioTime, Inc. (NYSE MKT: BTX) announced that Chief Executive Officer Michael D. West, Ph.D. will present at the Stem Cells USA & Regenerative Medicine Congress 2012 in Cambridge, MA on Thursday, September 20, 2012. Dr. West will speak on Second Generation hES Cell-Based Therapies: Achieving Purity and Scalability in the Midst of Diversity in the session Developments in Novel Therapeutics. The presentation will be made available on BioTime's website at http://www.biotimeinc.com.

The Stem Cells USA & Regenerative Medicine Congress 2012, September 20-21, is North Americas leading commercial stem cell event. This years conference will focus on strategies and business models for navigating the stem cell and regenerative medicine marketplace for pharma, biotech, and investors.

About BioTime, Inc.

BioTime, headquartered in Alameda, California, is a biotechnology company focused on regenerative medicine and blood plasma volume expanders. Its broad platform of stem cell technologies is enhanced through subsidiaries focused on specific fields of application. BioTime develops and markets research products in the field of stem cells and regenerative medicine, including a wide array of proprietary ACTCellerate cell lines, HyStem hydrogels, culture media, and differentiation kits. BioTime is developing Renevia (formerly known as HyStem-Rx), a biocompatible, implantable hyaluronan and collagen-based matrix for cell delivery in human clinical applications. BioTime's therapeutic product development strategy is pursued through subsidiaries that focus on specific organ systems and related diseases for which there is a high unmet medical need. BioTime's majority owned subsidiary Cell Cure Neurosciences Ltd. is developing therapeutic products derived from stem cells for the treatment of retinal and neural degenerative diseases. BioTime's subsidiary OrthoCyte Corporation is developing therapeutic applications of stem cells to treat orthopedic diseases and injuries. Another subsidiary, OncoCyte Corporation, focuses on the diagnostic and therapeutic applications of stem cell technology in cancer, including the diagnostic product PanC-Dx currently being developed for the detection of cancer in blood samples. ReCyte Therapeutics, Inc. is developing applications of BioTime's proprietary induced pluripotent stem cell technology to reverse the developmental aging of human cells to treat cardiovascular and blood cell diseases. BioTime's subsidiary, LifeMap Sciences, Inc., markets GeneCards, the leading human gene database, and is developing an integrated database suite to complement GeneCards that will also include the LifeMap database of embryonic development, stem cell research and regenerative medicine, and MalaCards, the human disease database. LifeMap will also market BioTime research products. BioTime's lead product, Hextend, is a blood plasma volume expander manufactured and distributed in the U.S. by Hospira, Inc. and in South Korea by CJ CheilJedang Corporation under exclusive licensing agreements. Additional information about BioTime can be found on the web at http://www.biotimeinc.com.

Forward-Looking Statements

Statements pertaining to future financial and/or operating results, future growth in research, technology, clinical development, and potential opportunities for BioTime and its subsidiaries, along with other statements about the future expectations, beliefs, goals, plans, or prospects expressed by management constitute forward-looking statements. Any statements that are not historical fact (including, but not limited to statements that contain words such as "will," "believes," "plans," "anticipates," "expects," "estimates") should also be considered to be forward-looking statements. Forward-looking statements involve risks and uncertainties, including, without limitation, risks inherent in the development and/or commercialization of potential products, uncertainty in the results of clinical trials or regulatory approvals, need and ability to obtain future capital, and maintenance of intellectual property rights. Actual results may differ materially from the results anticipated in these forward-looking statements and as such should be evaluated together with the many uncertainties that affect the business of BioTime and its subsidiaries, particularly those mentioned in the cautionary statements found in BioTime's Securities and Exchange Commission filings. BioTime disclaims any intent or obligation to update these forward-looking statements.

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BioTime CEO Michael D. West to Present at Stem Cells USA & Regenerative Medicine Congress 2012

Public release date: 17-Sep-2012 [ | E-mail | Share ]

Contact: Nicole White nicole.white@cshs.org 310-423-5215 Cedars-Sinai Medical Center

LOS ANGELES Sept. 17, 2012 Leading scientists and clinicians from across the nation will discuss the latest findings on potential stem cell treatments for diabetes and eye diseases at the second Cedars-Sinai Regenerative Medicine Scientific Symposium.

WHO: Stem cell scientists, clinicians and industry leaders.

The symposium is being hosted by the Cedars-Sinai Regenerative Medicine Institute, led by Clive Svendsen, PhD. The institute brings together basic scientists with specialist clinicians, physician scientists and translational scientists across multiple medical specialties to convert fundamental stem cell studies to therapeutic regenerative medicine.

FEATURED RESEARCH: The symposium's morning session will feature an overview of the current state of stem cells and diabetes, including efforts to start the first clinical trials with stem cells for the treatment of diabetes. Other research to be presented includes an update on regenerative medicine approaches to treating macular degeneration, a progressive deterioration of the eye that causes gradual loss of vision. This will include an update from Gad Heilweil , MD, on a key, stem-cell clinical trial on macular degeneration at the University of California Los Angeles.

WHEN: Sept. 21, 2012 8:30 a.m. to 6 p.m. Thomson's lecture begins at 8:40 a.m.

WHERE: Harvey Morse Auditorium Cedars-Sinai Medical Center 8700 Beverly Boulevard Los Angeles, CA 90048

How to register: http://www.cedars-sinai.edu/RMI

###

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Leading stem cell scientists to focus on diabetes, eye diseases at Cedars-Sinai symposium

GAITHERSBURG, Md., Sept. 17, 2012 /PRNewswire/ -- Cytomedix, Inc. (CMXI), a fully integrated regenerative medicine company commercializing and developing innovative platelet and adult stem cell technologies, today announced that its common shares are now trading on the highest OTC marketplace, OTCQX, under the ticker symbol "CMXI."

Cytomedix upgraded from OTCQB today to trade on the OTC market's prestigious marketplace, OTCQX. Investors can find current financial disclosure and real-time Level 2 quotes for the Company's common shares at http://www.otcmarkets.com.

"We believe investors will appreciate the quality-controlled admission process, the transparent trading and easy access to company information that are hallmarks of the OTCQX," said Martin P. Rosendale, Chief Executive Officer of Cytomedix.

C. K. Cooper & Company will serve as Cytomedix's Designated Advisor for Disclosure ("DAD") on OTCQX, and will be responsible for providing guidance on OTCQX requirements.

About Cytomedix, Inc. Cytomedix, Inc. is a fully integrated regenerative medicine company commercializing and developing innovative platelet and adult stem cell separation products that enhance the body's natural healing processes. The Company's advanced autologous technologies offer clinicians a new treatment paradigm for wound and tissue repair. The Company's patient-derived PRP systems are marketed by Cytomedix in the U.S. and distributed internationally. The Company's commercial products include the AutoloGel System, cleared by the FDA for wound care and the Angel Whole Blood Separation System. The Company is developing novel regenerative therapies using the proprietary ALDH Bright Cell ("ALDHbr") technology to isolate a unique, biologically active population of a patient's own stem cells. A Phase 2 trial evaluating the use of ALDHbr for the treatment of ischemic stroke is underway. For additional information please visit http://www.cytomedix.com.

About OTC Markets Group Inc. OTC Markets Group Inc. (OTCM) operates Open, Transparent and Connected financial marketplaces for investors to easily trade almost 10,000 equity and debt securities through the broker of their choice. Our OTC Link ATS directly links a diverse network of broker-dealers that provide liquidity and execution services for a wide spectrum of securities. We organize these securities into tiered marketplaces to inform investors of opportunities and risks including OTCQX - The Intelligent Marketplace for the Best OTC Companies; OTCQB - The Venture Marketplace; and OTC Pink - The Open Marketplace. Our data-driven platform enables efficient trading through any broker at the best possible price and empowers a broad range of companies to improve the quality and availability of information for their investors. To learn more about how we create smarter financial marketplaces, visit http://www.otcmarkets.com.

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About Cytomedix, Inc.Cytomedix, Inc. is a fully integrated regenerative medicine company commercializing and developing innovative platelet and adult stem cell separation products that enhance the body's natural healing processes. The Company's advanced autologous technologies offer clinicians a new treatment paradigm for wound and tissue repair. The Company's patient-derived PRP systems are marketed by Cytomedix in the U.S. and distributed internationally. Our commercial products include the AutoloGel System, cleared by the FDA for wound care and the Angel Whole Blood Separation System. The Company is developing novel regenerative therapies using our proprietary ALDH Bright Cell ("ALDHbr") technology to isolate a unique, biologically active population of a patient's own stem cells. A Phase 2 trial evaluating the use of ALDHbr for the treatment of ischemic stroke is underway. For additional information please visit http://www.cytomedix.com.

Safe Harbor Statement Statements 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 reimbursement related efforts, the Company's ability to capitalize on the benefits of the above-referenced CMS determination, the Company's ability to successfully and favorably conclude the negotiations and related discussions with the above-referenced global pharmaceutical company, 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 on Form 10-K 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 Shares Now Trading on OTCQX

September 16, 2012

Image Caption: NanoEngineering Professor Shaochen Chen has demonstrated the capability of printing three-dimensional blood vessels in mere seconds out of soft, biocompatible hydrogels. Being able to print blood vessels is essential to achieving the promise of regenerative medicine because it is how the body distributes oxygen and nutrients. Image Credit: Biomedical Nanotechnology Laboratory, Chen Research Group, UC San Diego Jacobs School of Engineering.

April Flowers for redOrbit.com Your Universe Online

Nanoengineers at the University of California, San Diego have created a new technology that has far-reaching implications for regenerative medicine. The results of the project have been reported in Advanced Materials.

The team has been able to fabricate, in seconds, microscale three-dimensional (3D) structures out of soft biocompatible hydrogels. This could lead to better systems for growing and studying cells, including stem cells, in the laboratory. In the long-term, the goal is to be able to print biological tissues for regenerative medicine. For example, repairing the damage caused by a heart attack by replacing it with tissue from a printer.

Professor Shaochen Chen developed this new biofabrication technology, called dynamic optical projection stereolithography (DOPsL). Current fabrication techniques, such as photolithography and micro-contact printing, are limited to generating simple geometries or 2D patterns. Stereolithography is best known for its ability to print large objects such as tools and car parts.

The difference between earlier stereolithography and DOPsL, Chen says, is in the micro- and nanoscale resolution required to print tissues that mimic natures fine-grained details, including blood vessels, which are essential for distributing nutrients and oxygen throughout the body. Without the ability to print vasculature, an engineered liver or kidney, for example, is useless in regenerative medicine. With DOPsL, Chens team was able to achieve more complex geometries common in nature such as flowers, spirals and hemispheres. Other current 3D fabrication techniques, such as two-photon photopolymerization, can take hours to fabricate a 3D part.

The system uses a computer projection system and precisely controlled micromirrors to shine light on a selected area of a solution containing photo-sensitive biopolymers and cells. This begins the solidification process, which forms one layer of solid structure at a time, but in a continuous fashion. The Obama administration in March launched a $1 billion investment in advanced manufacturing technologies, including creating the National Additive Manufacturing Innovation Institute with $30 million in federal funding to focus on 3D printing. The term additive manufacturing refers to the way 3D structures are built layering very thin materials.

The development of this new technology is part of a grant that Chen received from the National Institutes of Health (NIH). Chens research group focuses on fabrication of nanostructured biomaterials and nanophotonics for biomedical engineering.

Source: April Flowers for redOrbit.com - Your Universe Online

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Regenerative Medicine Gets A Boost With Quick Printing Of 3D Microstructures

I always read WIRED magazine.  Aside from GEN it's the only magazine I read.  Just reading something outside of cell therapy or biotech often infuses me with an idea that otherwise would have never occurred to me like the need for a cell therapy X Prize or cellular aggregates as microcarriers or tissue-engineered memory and processing devices or even just the conviction to better represent cell therapy to the broader world out there of scientists, engineers, journalists, policy-makers, or perhaps people with too much money looking to be inspired and wanting to make a difference.

http://www.celltherapyblog.com hosted by http://www.celltherapygroup.com

Source:
http://feeds.feedburner.com/CellTherapyBlog

I always read WIRED magazine.  Aside from GEN it's the only magazine I read.  Just reading something outside of cell therapy or biotech often infuses me with an idea that otherwise would have never occurred to me like the need for a cell therapy X Prize or cellular aggregates as microcarriers or tissue-engineered memory and processing devices or even just the conviction to better represent cell therapy to the broader world out there of scientists, engineers, journalists, policy-makers, or perhaps people with too much money looking to be inspired and wanting to make a difference.

http://www.celltherapyblog.com hosted by http://www.celltherapygroup.com

Source:
http://feeds.feedburner.com/CellTherapyBlog

GAITHERSBURG, MD--(Marketwire - Sep 11, 2012) - Cytomedix, Inc. ( OTCQB : CMXI ), a fully integrated regenerative medicine company commercializing and developing innovative platelet and adult stem cell technologies, today announced that the Company's AutoloGel System will be highlighted in three poster presentations at the Symposium on Advanced Wound Care Fall 2012 ("SAWC Fall 2012") taking place September 12-14 at the Baltimore Convention Center.

The AutoloGel System is a device for the production of autologous platelet rich plasma ("PRP") gel, and is the only PRP device cleared by the U.S. Food and Drug Administration ("FDA") for use in wound management.

Posters will be showcased in the Poster Reception September 13 from 5:30 p.m. to 6:15 p.m. local time, and posters will be available for viewing September 12 and September 13 from 8:00 a.m. to 4:00 p.m. local time. The following posters highlighting Cytomedix's PRP technology will be presented at SAWC Fall 2012.

Cytomedix will host a booth at the Symposium for clinicians and other attendees to learn more about the AutoloGel System and the benefits it provides in the management of complex recalcitrant wounds. Cytomedix will be showcasing AutoloGel at Booth #1007 in the Exhibit Hall.

"SAWC Fall 2012 is the ideal venue to showcase our growing body of positive clinical data on AutoloGel as it is the premier educational wound care program and the largest annual gathering of wound care professionals in the U.S., with more than 1,000 physicians, podiatrists, nurses, therapists and researchers expected to attend," stated Martin P. Rosendale, Chief Executive Officer of Cytomedix. "These poster presentations underscore the robust nature of AutoloGel to advance the speed and progress to healing in a variety of recalcitrant wounds in a number of healthcare settings."

About The Association for the Advancement of Wound Care Since 1995 the Association for the Advancement of Wound Care ("AAWC") has been the leader in interdisciplinary wound healing and tissue preservation. It is a not-for-profit association headquartered in the U.S. open to everyone involved in wound care, including clinicians, patients and their lay caregivers, facilities, industry, students, retirees and other advocates interested in the care of wounds. AAWC spreads awareness by promoting excellence in education, clinical practice, public policy and research. Through numerous association benefits and activities, AAWC members have the opportunity to be part of a collaborative community that facilitates optimal care for those who suffer with wounds. This community encourages an equal partnership among all individuals who are involved in the care of patients.

For more information about the AAWC and member benefits, please visit http://www.aawconline.org.

About Cytomedix, Inc. Cytomedix, Inc. is a fully integrated regenerative medicine company commercializing and developing innovative platelet and adult stem cell separation products that enhance the body's natural healing processes. The Company's advanced autologous technologies offer clinicians a new treatment paradigm for wound and tissue repair. The Company's patient-derived PRP systems are marketed by Cytomedix in the U.S. and distributed internationally. Our commercial products include the AutoloGel System, cleared by the FDA for wound care and the Angel Whole Blood Separation System. The Company is developing novel regenerative therapies using our proprietary ALDH Bright Cell ("ALDHbr") technology to isolate a unique, biologically active population of a patient's own stem cells. A Phase 2 trial evaluating the use of ALDHbr for the treatment of ischemic stroke is underway. For additional information please visit http://www.cytomedix.com.

Safe Harbor Statement Statements 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 reimbursement related efforts, the Company's ability to capitalize on the benefits of the above-referenced CMS determination, the Company's ability to successfully and favorably conclude the negotiations and related discussions with the above-referenced global pharmaceutical company, 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 on Form 10-K for the year ended December 31, 2011 and other subsequent filings. These filings are available at http://www.sec.gov.

The rest is here:
Cytomedix's AutoloGel System Highlighted in Multiple Poster Presentations at the Symposium on Advanced Wound Care Fall ...

GAITHERSBURG, MD--(Marketwire - Sep 11, 2012) - Cytomedix, Inc. ( OTCQB : CMXI ), a fully integrated regenerative medicine company commercializing and developing innovative platelet and adult stem cell technologies, today announced that the Company's AutoloGel System will be highlighted in three poster presentations at the Symposium on Advanced Wound Care Fall 2012 ("SAWC Fall 2012") taking place September 12-14 at the Baltimore Convention Center.

The AutoloGel System is a device for the production of autologous platelet rich plasma ("PRP") gel, and is the only PRP device cleared by the U.S. Food and Drug Administration ("FDA") for use in wound management.

Posters will be showcased in the Poster Reception September 13 from 5:30 p.m. to 6:15 p.m. local time, and posters will be available for viewing September 12 and September 13 from 8:00 a.m. to 4:00 p.m. local time. The following posters highlighting Cytomedix's PRP technology will be presented at SAWC Fall 2012.

Cytomedix will host a booth at the Symposium for clinicians and other attendees to learn more about the AutoloGel System and the benefits it provides in the management of complex recalcitrant wounds. Cytomedix will be showcasing AutoloGel at Booth #1007 in the Exhibit Hall.

"SAWC Fall 2012 is the ideal venue to showcase our growing body of positive clinical data on AutoloGel as it is the premier educational wound care program and the largest annual gathering of wound care professionals in the U.S., with more than 1,000 physicians, podiatrists, nurses, therapists and researchers expected to attend," stated Martin P. Rosendale, Chief Executive Officer of Cytomedix. "These poster presentations underscore the robust nature of AutoloGel to advance the speed and progress to healing in a variety of recalcitrant wounds in a number of healthcare settings."

About The Association for the Advancement of Wound Care Since 1995 the Association for the Advancement of Wound Care ("AAWC") has been the leader in interdisciplinary wound healing and tissue preservation. It is a not-for-profit association headquartered in the U.S. open to everyone involved in wound care, including clinicians, patients and their lay caregivers, facilities, industry, students, retirees and other advocates interested in the care of wounds. AAWC spreads awareness by promoting excellence in education, clinical practice, public policy and research. Through numerous association benefits and activities, AAWC members have the opportunity to be part of a collaborative community that facilitates optimal care for those who suffer with wounds. This community encourages an equal partnership among all individuals who are involved in the care of patients.

For more information about the AAWC and member benefits, please visit http://www.aawconline.org.

About Cytomedix, Inc. Cytomedix, Inc. is a fully integrated regenerative medicine company commercializing and developing innovative platelet and adult stem cell separation products that enhance the body's natural healing processes. The Company's advanced autologous technologies offer clinicians a new treatment paradigm for wound and tissue repair. The Company's patient-derived PRP systems are marketed by Cytomedix in the U.S. and distributed internationally. Our commercial products include the AutoloGel System, cleared by the FDA for wound care and the Angel Whole Blood Separation System. The Company is developing novel regenerative therapies using our proprietary ALDH Bright Cell ("ALDHbr") technology to isolate a unique, biologically active population of a patient's own stem cells. A Phase 2 trial evaluating the use of ALDHbr for the treatment of ischemic stroke is underway. For additional information please visit http://www.cytomedix.com.

Safe Harbor Statement Statements 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 reimbursement related efforts, the Company's ability to capitalize on the benefits of the above-referenced CMS determination, the Company's ability to successfully and favorably conclude the negotiations and related discussions with the above-referenced global pharmaceutical company, 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 on Form 10-K 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's AutoloGel System Highlighted in Multiple Poster Presentations at the Symposium on Advanced Wound Care Fall ...

Newswise The governing board of the California Institute for Regenerative Medicine (CIRM) has announced that six investigators from the University of California, San Diego Stem Cell Research program have received a total of more than $7 million in the latest round of CIRM funding. This brings UC San Diegos total to more than $128 million in CIRM funding since the first awards in 2006.

UC San Diego scientists funded by the newly announced CIRM Basic Biology Awards IV include Maike Sander, MD, professor of Pediatrics and Cellular and Molecular Medicine; Miles Wilkinson, PhD, professor, Division of Reproductive Endocrinology; Gene Yeo, PhD, MBA, assistant professor with the Department of Cellular and Molecular Medicine and the Institute for Genomic Medicine; George L. Sen, PhD, assistant professor of cellular and molecular medicine; David Traver, PhD, associate professor with the Department of Cellular and Molecular Medicine and Ananda Goldrath, PhD, associate professor in the Division of Biological Sciences.

Sander was awarded nearly $1.4 million for her proposal to define and characterize the key transcription factors necessary to promote maturation of human embryonic stem cell (hESC)-derived pancreatic progenitors into mature insulin-secreting beta cells. The loss of pancreatic beta cells in type 1 diabetes results in the absence of insulin secreted by the pancreas. The goal of this work is to enable scientists to one day produce an unlimited source of transplantable beta-cells for patients with diabetes.

Wilkinsons grant of $1.36 million will allow his lab to develop and test induced pluripotent stem cells (iPS cells) from patients with genetic mutations in a component of the pathway that results in intellectual disabilities. Many of these patients also have autism, attention-deficit disorders or schizophrenia. Directed towards understanding fundamental mechanisms by which all stem cells are maintained, his research has the potential to impact non-psychiatric disorders as well.

A grant of almost $1.4 million will fund Yeos research to help decode the mechanisms that underlie the single most frequent genetic mutation found to contribute to neurodegenerative diseases amyotrophic lateral sclerosis (ALS or Lou Gehrigs disease) and frontotemporal dementia (FTD). Yeo will generate iPSCs and differentiated motor neurons derived from patients with these mutations, then use genome-wide technologies to analyze these and normal cells and test strategies to rescue mutation-induced defects in iPSC-derived motor neurons.

Sen received a grant of just over $1 million to investigate how tissue specific stem and progenitor cells exist to replenish both healthy, normal tissue and for regeneration from a wound. Disease and aging deplete stem and progenitor cells, impeding the bodys ability to regenerate itself. Sens work aims to better understand the mechanisms of self-renewal and differentiation in epidermal (skin) stem cells. Imbalanced growth and differentiation of epidermal cells can lead to a variety of human skin disorders, including psoriasis and cancer.

Traver, who was awarded a CIRM grant of more than $1.3 million in collaboration with Thierry Jaffredo of the Universit Pierre et Marie Curie in Paris, studies hematopoietic stem cells. HSCs are rare, multipotent stem cells that give rise to all blood cell types, including red blood and immune cells. Travers lab investigates the genes and signaling pathways used by vertebrate embryos to create the first HSCs. An understanding of this developmental process has implications for producing restorative stem cell-based therapies for diseases like leukemia and congenital blood disorders. Currently, medical treatments using HSCs are hampered by cell shortages and finding compatible matches between donors and recipients.

Goldraths $1.16 million grant will help develop strategies to induce immunological tolerance to hESC-derived tissues and cells. Immune-mediated rejection of hESC-derived tissues remains a significant barrier to the promise of regenerative therapies. She proposes a novel approach to promote long-term acceptance of hESC-derived tissues by exploring the molecular pathways and immune cell types that mediate the induction of immune tolerance and pursuing additional targets that halt rejection of tissue grafts derived from these stem cells. If successful, this would increase the potential reach of cellular therapies by decreasing the undesirable side effects of generalized immune suppression.

The CIRM Basic Biology Awards are designed to fund investigations into the basic mechanisms underlying stem cell biology, cellular plasticity, and cellular differentiation. These awards will also fund the development and use human stem cell based models for exploring disease. According to CIRM, studies supported by these awards will form the foundation for future translational and clinical advances, enabling the realization of the full potential of human stem cells and reprogrammed cells for therapies and as tools for biomedical innovation.

CIRM was established in November 2004 with the passage of Proposition 71, the California Stem Cell Research and Cures Act. The statewide ballot measure provided $3 billion in funding for stem cell research at California universities and research institutions and called for the establishment of an entity to make grants and provide loans for stem cell research, research facilities, and other vital research opportunities.

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CIRM Funds Six UC San Diego Stem Cell Researchers

NEWARK, Calif., Sept. 6, 2012 (GLOBE NEWSWIRE) -- StemCells, Inc. (STEM) today announced that the California Institute for Regenerative Medicine (CIRM) has approved an award to the Company for up to $20 million under CIRM's Disease Team Therapy Development Award program (RFA 10-05). The award is to fund preclinical development of StemCells' proprietary HuCNS-SC(R) product candidate (purified human neural stem cells) in Alzheimer's disease over a maximum four-year period, with the goal of filing an investigational new drug (IND) application for a clinical trial in that time. In July, CIRM approved a separate award to the Company under RFA 10-05 for up to $20 million to fund preclinical development of HuCNS-SC cells in cervical spinal cord injury.

"With the recent spate of late-stage clinical failures in Alzheimer's disease, it is clear that the field could benefit from alternative approaches to lessen the huge burden on families, caregivers and our healthcare system," commented Martin McGlynn, President and CEO of StemCells, Inc. "Our recently reported preclinical data, which showed that our neural stem cells restored memory and enhanced synaptic function in two animal models relevant to Alzheimer's disease, shows our approach has promise. We greatly appreciate the support from CIRM, which should help us accelerate our efforts to test our HuCNS-SC cells in Alzheimer's disease."

StemCells will evaluate its HuCNS-SC cells as a potential treatment for Alzheimer's disease in collaboration with Frank LaFerla, Ph.D., a world-renowned researcher in the field. Dr. LaFerla is Director of the University of California, Irvine (UCI) Institute for Memory Impairments and Neurological Disorders (UCI MIND), and Chancellor's Professor, Neurobiology and Behavior in the School of Biological Sciences at UCI.

Mr. McGlynn added, "CIRM's approval of two awards to StemCells illustrates the tremendous promise of our neural stem cell technology and the high degree of confidence in the world class team of scientists and clinicians who will be working to translate this technology into potential treatments and cures for these devastating diseases."

About CIRM

CIRM was established in November 2004 with the passage of Proposition 71, the California Stem Cell Research and Cures Act. The statewide ballot measure, which provided $3 billion in funding for stem cell research at California universities and research institutions, was overwhelmingly approved by voters, and called for the establishment of an entity to make grants and provide loans for stem cell research, research facilities, and other vital research opportunities. A list of grants and loans awarded to date may be seen here: http://www.cirm.ca.gov/for-researchers/researchfunding.

About StemCells, Inc.

StemCells, Inc. is engaged in the research, development, and commercialization of cell-based therapeutics and tools for use in stem cell-based research and drug discovery. The Company's lead therapeutic product candidate, HuCNS-SC(R) cells (purified human neural stem cells), is currently in development as a potential treatment for a broad range of central nervous system disorders. In a Phase I clinical trial in Pelizaeus-Merzbacher disease (PMD), a fatal myelination disorder in children, the Company has shown preliminary evidence of progressive and durable donor-derived myelination in all four patients transplanted with HuCNS-SC cells. The Company is also conducting a Phase I/II clinical trial in chronic spinal cord injury in Switzerland and recently reported positive interim data for the first patient cohort. The Company has also initiated a Phase I/II clinical trial in dry age-related macular degeneration (AMD), and is pursuing preclinical studies in Alzheimer's disease. StemCells also markets stem cell research products, including media and reagents, under the SC Proven(R) brand. Further information about StemCells is available at http://www.stemcellsinc.com.

The StemCells, Inc. logo is available at http://www.globenewswire.com/newsroom/prs/?pkgid=7014

Apart from statements of historical fact, the text of this press release constitutes forward-looking statements within the meaning of the Securities Act of 1933, as amended, and the Securities Exchange Act of 1934, as amended, and is subject to the safe harbors created therein. These statements include, but are not limited to, statements regarding; the potential of the Company's HuCNS-SC cells to treat a broad range of central nervous system disorders such as Alzheimer's disease and spinal cord injury; the prospect of initiating a clinical trial in Alzheimer's disease or cervical spinal cord injury; the timing and prospects for funding by the California Institute for Regenerative Medicine; and the future business operations of the Company, including its ability to conduct clinical trials as well as its other research and product development efforts. These forward-looking statements speak only as of the date of this news release. The Company does not undertake to update any of these forward-looking statements to reflect events or circumstances that occur after the date hereof. Such statements reflect management's current views and are based on certain assumptions that may or may not ultimately prove valid. The Company's actual results may vary materially from those contemplated in such forward-looking statements due to risks and uncertainties to which the Company is subject, including the fact that additional trials will be required to demonstrate the safety and efficacy of the Company's HuCNS-SC cells for the treatment of any disease or disorder; uncertainty as to whether the results of the Company's preclinical studies will be replicated in humans; uncertainties about the prospect and timing of entering into the agreements necessary to receive funding from CIRM and whether the Company will satisfy, and continue to satisfy, all preconditions for such funding; uncertainties regarding the Company's ability to obtain the increased capital resources needed to continue its current and planned research and development operations; uncertainty as to whether HuCNS-SC cells and any products that may be generated in the future in the Company's cell-based programs will prove safe and clinically effective and not cause tumors or other adverse side effects; and other factors that are described under the heading "Risk Factors" in the Company's Annual Report on Form 10-K for the year ended December 31, 2011, and in its subsequent reports on Forms 10-Q and 8-K.

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StemCells, Inc. Awarded $20 Million From the California Institute for Regenerative Medicine for Alzheimer's Disease ...