StemCell Therapy

BACKGROUND: Tooth loss, although often associated with a diet high in sugar, has been a problem for as long as mankind has existed. Before the widespread use of refined sugar in food, tooth loss was often a result of disease and malnutrition, although dietary practices also contributed to the problem. Several studies have documented the negative aspects of not having teeth or dentures including impaired nutritional intake, lower self-confidence and self-esteem and reduced quality of life. The three most common tooth replacement options are dental implants, fixed bridges and removable appliances. (Source: perio.org)

STEM CELLS: Stem cells have the remarkable potential to develop into many different cell types in the body during early life and growth. In addition, in many tissues they serve as a sort of internal repair system, dividing essentially without limit to replenish other cells as long as the person or animal is still alive. When a stem cell divides, each new cell has the potential either to remain a stem cell or become another type of cell with a more specialized function, such as a muscle cell, a red blood cell, or a brain cell. (Source: The National Institutes of Health resource for stem cell research)

CLONING TEETH: Nova Southeastern Universitys dental researchers at the College of Dental Medicine are growing and harvesting human dental stem cells in the lab. The cells normally grow in flat layers of single cells in Petri dishes. To get them to form a 3-D tissue structure, researchers seed the cells on tissue engineering scaffolds made from the same polymer material as bio-resorbable surgical sutures. The scaffolds function like those you see around buildings under construction. They provide mechanical support and control the size and shape of a tissue. Once the stem cells are seeded on the scaffolds, researchers add growth factors to signal to the stem cells what type of tissue to grow. The combination of dental stem cells, tissue engineering scaffolds and growth factors allows researchers to engineer new tooth tissues. NSU scientists are working, similar tooth research labs, to create fully functional replacement teeth.

Dental researchers have been successful at regenerating teeth in the laboratory and in animals. They have developed a stem cell therapy for growing new teeth following root canal treatment, and also for replanting teeth that have been knocked out of the mouth. In NSUs technique for regenerating teeth, the pre-clinical trial subjects were able to eat and chew normally. No current studies have examined the ability of animals to eat using completely regenerated teeth because no one has yet regenerated all the teeth in an animal. In NSUs technique, the soft tissue, or pulp, inside teeth was removed and regenerated. The monkey subjects were able to use their teeth normally to eat and chew.

NSU is in the process of patenting a "regeneration kit" that will allow dentists to deliver stem cell therapies to replace dead tissue inside a tooth. In addition, several companies are collecting baby teeth to harvest stem cells through dental offices. The stem cells are being stored for future regenerative therapies, including growing new teeth or growing other replacement organs. (Source: NSU, Sun Sentinel)

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Cloning Teeth: Medicine’s Next Big Thing?

CLEARWATER, FL--(Marketwire -06/08/12)- Biostem U.S., Corporation, (HAIR) (HAIR) (Biostem, the Company), a fully reporting public company in the stem cell regenerative medicine sciences sector, today reported that it has engaged Acropolis Inc. http://www.acropolisinc.com, a full-service advertising agency located in Orlando, Florida, to lend their expertise in brand building, marketing, and advertising development and placement.

Biostem Chief Executive Officer Dwight Brunoehler stated, "After several months of interviewing prospective agencies, we have come to the conclusion that Acropolis is the one to assist us in executing our plans. Their notable work in multiple media areas is impressive, to say the least. Their client list including The University of Florida, Arby's Restaurants, and the City of Orlando, speaks for itself."

Acropolis Principal, Scott Major, said, "This is a great fit for Acropolis. Our entire team loves the Biostem business approach in the incredible field of regenerative medicine. The hair re-growth field in which we will be marketing the Biostem technology is enormous. We are pleased to be a part of Biostem's expansion."

About Biostem U.S. CorporationBiostem U.S., Corporation is a fully reporting Nevada corporation with offices in Clearwater, Florida. Biostem is a technology licensing company with proprietary technology centered on providing hair re-growth using human stem cells. The company also intends to train and license selected physicians to provide Regenerative Cellular Therapy treatments to assist the body's natural approach to healing tendons, ligaments, joints and muscle injuries by using the patient's own stem cells. Biostem U.S., Corporation is seeking to expand its operations worldwide through licensing of its proprietary technology and acquisition of existing stem cell related facilities. The company's goal is to operate in the international biotech market, focusing on the rapidly growing regenerative medicine field, using ethically sourced adult stem cells to improve the quality and longevity of life for all mankind.

For further information, contact Fox Communications Group at 310-974-6821, or view the Biostem website at http://www.biostemus.com.

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Biostem U.S., Corporation Engages Acropolis Agency to Assist in Implementing Its International Marketing Plan

SAN DIEGO, CA--(Marketwire -06/07/12)- Bio-Matrix Scientific Group, Inc. (BMSN) (BMSN) announced today that its wholly owned subsidiary Regen BioPharma, Inc. has executed an exclusive option agreement which grants Regen BioPharma an option to license Patent #6,821,513 which patents methods of stimulating blood production in patients with deficient stem cells. The patent, as well as data licensed with the patent, covers methods of stimulating the bone marrow to generate new blood cells. The patent and option agreement are disclosed in the Company's most recent 8K filed with the US Securities and Exchange Commission on June 6, 2012.

"The technology has broad applicability to help cancer patients recover faster following chemotherapy, as well as for recipients of bone marrow and cord blood transplants. Currently, new blood cell production is stimulated by expensive drugs such as Neupogen and Neulasta which replicate the body's growth factors but can cause side effects and rely upon the diminished recuperative powers of an immune compromised patient," stated J. Christopher Mizer, President of Regen BioPharma.

David Koos, Chairman & CEO of Bio-Matrix Scientific Group, added, "We are excited to get this therapy into the clinic. Based on peer-reviewed published animal data, it has the potential to restore immune function faster and more effectively than the existing standard of care."

The licensed technology covers the use of a naturally-occurring cell type for stimulation of bone marrow stem cells. By utilizing cells as opposed to drugs, Regen BioPharma believes it possesses a substantial advantage to existing approaches in terms of safety and economics of production. Currently the market for growth factors that stimulate blood making stem cells is more than $4.84 billion per year (www.wikinvest.com/stock/Amgen).

About Bio-Matrix Scientific Group Inc. and Regen BioPharma, Inc.:Bio-Matrix Scientific Group, Inc. (BMSN) (BMSN) is a biotechnology company focused on the development of regenerative medicine therapies and tools. The Company is focused on human therapies that address unmet medical needs. Specifically, Bio-Matrix Scientific Group Inc. is looking to increase the quality of life through therapies involving stem cell treatments. These treatments are focused in areas relating to cardiovascular, hematology, oncology and other indications.

Through Its wholly owned subsidiary, Regen BioPharma, it is the Company's goal to develop translational medicine platforms for the rapid commercialization of stem cell therapies. The Company is looking to use these translational medicine platforms to advance intellectual property licensed from entities, institutions and universities that show promise towards fulfilling the Company's goal of increased quality of life.

Disclaimer

This news release may contain forward-looking statements. Forward-looking statements are inherently subject to risks and uncertainties, some of which cannot be predicted or quantified. Future events and actual results could differ materially from those set forth in, contemplated by, or underlying the forward-looking statements. The risks and uncertainties to which forward-looking statements are subject include, but are not limited to, the effect of government regulation, competition and other material risks.

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Bio-Matrix Scientific Group's Regen BioPharma Subsidiary Executes Option Agreement to License Stem Cell Intellectual ...

CAMBRIDGE, Mass.--(BUSINESS WIRE)--

Leading stem cell therapeutic and regenerative medicine company, AuxoCell Laboratories, Inc., today announced an agreement with CordVida, a Brazilian stem cell cryopreservation company, which will allow CordVida to expand its services. Families who select CordVida to store umbilical cord blood will now have the opportunity to bank stem cells from an additional source cord tissue. With this agreement, AuxoCell broadens its international reach to South America.

At AuxoCell, we are pleased by the opportunity to provide this groundbreaking technology to families around the globe, said Rouzbeh R. Taghizadeh, PhD, Chief Scientific Officer of AuxoCell Laboratories, Inc. CordVida is Brazils premier cord blood bank and adheres to the highest quality standards. It is for that reason that we have selected them as our exclusive partner in Brazil.

Cord tissue has an abundant source of mesenchymal stem cells (MSCs). Currently, there is a significant amount of research underway focused on mesenchymal stem cells extracted from cord tissue. MSCs are rapidly becoming the leading stem cell in regenerative medicine studies, and MSCs from a variety of sources are in use in over 150 clinical trials. The AuxoCell cord tissue technology represents the gold standard in the industry, as its technology prepares stem cells that are ready for immediate use, if needed.

CordVida is excited to be the first company in Brazil to offer storage of multiple kinds of stem cells, says Roberto Waddington, CEO for CordVida. Considering the enormous therapeutic prospects of cord tissue derived MSCs, our clients in the future will now rely on a much wider array of potential therapeutic applications.We are proud that AuxoCell selected CordVidaas its exclusive technology partner for all of Brazil.

Banking umbilical cord tissue stem cells offers clients a chance to reap the benefits of research that is being conducted on MSCs. Additionally, AuxoCells own studies have shown that a combination of cord tissue mesenchymal stem cells derived using AuxoCells validated processing SOPs and hematapoietic stem cells (HSCs) from the cord blood enhances the engraftment of the cord blood HSCs.

About AuxoCell

AuxoCell Laboratories, Inc. (AuxoCell) is a leading stem cell therapeutic and regenerative medicine company located in Massachusetts. AuxoCell's primary research focus is to develop the enormous therapeutic potential of the primitive stem cells found in the Wharton's Jelly of the human umbilical cord. With exclusive patent rights and proprietary processing protocols, AuxoCell is uniquely situated to offer the very best in cord tissue stem cell banking. Through strategic partnerships with both private and public cord blood banks, stem cell centers, and research laboratories around the world, AuxoCell strives every day to bring novel stem cell therapies from the bench to the bedside. Additional information is available through HYPERLINK http://www.auxocell.com or at (617) 610-9000.

About CordVida

Founded in 2004, CordVida is the premier stem cell cryopreservation company in Brazil with 10.000 umbilical cord blood units stored. It is the cord blood bank of choice for key doctors in Brazil. Committed to the highest global quality standards, CordVida has been AABB accredited since 2008. Half of the transplants made in Brazil using private cord blood units have been made with units stored in CordVida.

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AuxoCell Laboratories Licenses Umbilical Cord Tissue Stem Cell Service to Brazil’s CordVida

CLEARWATER, FL--(Marketwire -06/01/12)- Biostem U.S., Corporation (HAIR) (HAIR) (Biostem, the Company), a fully reporting public company in the stem cell regenerative medicine science sector, has made its Scientific and Medical Board of Advisors publications available on the company website, http://www.biostemus.com.

Chief Executive Officer Dwight Brunoehler stated, "The company is very proud of the many contributions its SAMBA members have made, and continue to make, to the medical community. As their publications and credentials show, this is a very prestigious and influential group. Having worked with them in past projects and now at Biostem, I know them all to be active participants in the development and guidance of the company's objectives. Their diversified areas of expertise and backgrounds are already playing a major role in assisting the company as it moves forward into the expanding field of regenerative medicine."

About Biostem U.S., Corporation Biostem U.S., Corporation is a fully reporting Nevada corporation with offices in Clearwater, Florida. Biostem is a technology licensing company with proprietary technology centered on providing hair re-growth using human stem cells. The company also intends to train and license selected physicians to provide Regenerative Cellular Therapy treatments to assist the body's natural approach to healing tendons, ligaments, joints and muscle injuries by using the patient's own stem cells. Biostem U.S., Corporation is seeking to expand its operations worldwide through licensing of its proprietary technology and acquisition of existing stem cell related facilities. The company's goal is to operate in the international biotech market, focusing on the rapidly growing regenerative medicine field, using ethically sourced adult stem cells to improve the quality and longevity of life for all mankind.

More information on Biostem U.S., Corporation can be obtained through http://www.biostemus.com, or by calling Fox Communications Group 310-974-6821.

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Biostem U.S., Corporation Presents Scientific and Medical Board of Advisors Publications

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Posted May 29, 2012

Philip A. Lowry

Highly Recognized Bone Marrow Stem Cell Transplant Specialist Added to Existing Member Expertise in Maternal Fetal Medicine, Cardiology, and Pathology

CLEARWATER, FL -- Biostem U.S., Corporation, (OTCQB: HAIR) (PINKSHEETS: HAIR) a stem cell regenerative medicine sciences company, announced that Philip A. Lowry, MD, has been appointed as the Chairman of its Scientific and Medical Board of Advisors (SAMBA).

According to Biostem CEO, Dwight Brunoehler, "As Chairman, Dr. Lowry will work with a team drawn from a cross-section of medical specialties. His combination of research, academic and community practice experience make him the perfect individual to coordinate and lead the outstanding group of physicians that makes up our SAMBA. As a group, The SAMBA will guide the company to maintain the highest ethical standards in every effort, while seeking and developing new cutting edge technology based on stem cell use. I am privileged to work with Dr. Lowry, once again."

Dr. Lowry stated, "Dwight is an innovative businessman with an eye on cutting-edge stem cell technology. His history in the industry speaks for itself. I like the plan at Biostem and look forward to working with everyone involved."

Dr. Philip A. Lowry received his undergraduate degree from Harvard College before going on to the Yale University School of Medicine. His completed his internal medicine residency at the University of Virginia then pursued fellowship training in hematology and oncology there as well. During fellowship training and subsequently at the University of Massachusetts, he worked in the laboratory of Dr. Peter Quesenberry working on in vitro and in vivo studies of mouse and human stem cell biology.

Dr. Lowry twice served on the faculty at the University of Massachusetts Medical Center from 1992-1996 and from 2004-2009 as an assistant and then associate clinical professor of medicine establishing the bone marrow/stem cell transplantation program there, serving as medical director of the Cryopreservation Lab supporting the transplant program, helping to develop a cord blood banking program, and teaching and coordinating the second year medical school course in hematology and oncology. Dr. Lowry additionally has ten years experience in the community practice of hematology and oncology. In 2010, Dr. Lowry became chief of hematology/oncology for the Guthrie Health System, a three-hospital tertiary care system serving northern Pennsylvania and southern New York State. He is charged with developing a cutting-edge cancer program that can project into a traditionally rural health care delivery system.

Dr. Lowry has also maintained a career-long interest in regenerative medicine springing from his research and practice experience in stem cell biology. His new role positions him to foster further development of that field. As part of a horizontally and vertically integrated multi-specialty team, he is closely allied with colleagues in cardiology, neurology/neurosurgery, and orthopedics among others with whom he hopes to stimulate the expansion of regenerative techniques.

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Biostem Appoints Philip A. Lowry, MD as Chairman of Its Scientific and Medical Board of Advisors

EDINBURGH, Scotland, May 29, 2012 /PRNewswire/ -- Research into conditions such as multiple sclerosis and heart and liver disease will benefit from multi-million dollar stem cell research and life sciences facilities opened yesterday by HRH, the Princess Royal.

The Princess Royal is to unveil plaques this afternoon at the $85 million Scottish Centre for Regenerative Medicine (SCRM) and $38 million bio-incubator facility, Nine, in Edinburgh.

The University of Edinburgh's Scottish Centre for Regenerative Medicine will carry out cutting-edge stem cell research to help find therapies for patients with conditions such as multiple sclerosis, Parkinson's disease, motor neurone disease, and heart and liver diseases.

The centre is the first large-scale, purpose-built facility of its kind and provides accommodation for up to 250 stem cell scientists. The centre, funded by the University of Edinburgh, Scottish Enterprise, the Medical Research Council (MRC) and the British Heart Foundation through its Mending Broken Hearts Appeal, was opened by the Princess Royal in her role as Chancellor of the University. It includes the most up-to-date facilities in the UK, which meet the highest guidelines, to manufacture stem cell lines that could be used for patient therapies.

Nine, which has been jointly funded by Scottish Enterprise and the UK Government's Department for Business, Innovation and Skills, provides 85,000 square feet of laboratory and office space for both established biotechnology companies and start-up ventures. These could include potential spin-out companies from the University of Edinburgh.

Both buildings form a major investment in research at Edinburgh BioQuarter, which is in the city's Little France area and encompasses the Royal Infirmary of Edinburgh and the University of Edinburgh's Queen's Medical Research Institute and Chancellor's Building.

Professor Charles french-Constant, Director of the Medical Research Council Centre for Regenerative Medicine at the SCRM and Chair of Medical Neurology at the University of Edinburgh, said: "Recent research into stem cells has heralded the beginning of a revolution in modern medicine. The Scottish Centre for Regenerative Medicine's great strength lies in bringing world-class clinicians and scientists to work together, encouraging the translation of laboratory discoveries into treatments for patients. The research will help in finding treatments for devastating conditions, for which there are currently no cures."

Jim McFarlane, Managing Director of Operations at Scottish Enterprise said: "Scotland has a distinguished history in developing breakthroughs in medical science and we believe that, collectively, the concentration of world-class research and facilities at Edinburgh BioQuarter will provide a breeding ground conducive to new medical discoveries that will continue that tradition for centuries to come and have a significant impact on the Scottish economy.

"Already, Nine has secured its first tenants and is attracting significant interest from potential occupiers from Scotland's life sciences sector.The official opening of the bio-incubator facility marks a major milestone in cementing Scotland's global reputation for excellence in commercialization of medical research."

Edinburgh BioQuarter is a joint venture between NHS Lothian, Scottish Enterprise, the University of Edinburgh and Alexandria Real Estate Equities, to boost developments in life sciences. This includes assisting the formation of spin-out companies from NHS and University of Edinburgh research, as well as encouraging partnerships with the bio-pharmaceutical industry.

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Scotland opens stem cell research center and bio-medical incubator

SUNRISE, Fla., May 29, 2012 (GLOBE NEWSWIRE) -- Bioheart, Inc. (OTCBB:BHRT.OB - News) announced today that it will offer another laboratory training course in partnership with the Ageless Regenerative Institute, an organization dedicated to the standardization of cell regenerative medicine, on Saturday/Sunday June 23-24, 2012. Attendees will participate in hands on, in depth training in laboratory practices in stem cell science at Bioheart, Inc.'s corporate headquarters and clean room in Sunrise, Florida. The course was designed for Laboratory technicians, Students, Physicians and Physician Assistants.

"Attendees will graduate from this one-of-a-kind course with an extensive understanding of stem cell science laboratory practices," said Kristin Comella, Chief Scientific Officer, Bioheart, Inc. "Previous attendees described the course as incredibly well orchestrated providing comprehensive know how for laboratory start up."

An emerging field with tremendous opportunities, adult stem cell research has been shown to regenerate and repair injured or diseased structures via the release of bioactive tissue growth factors and cytokines. This is the second time that The Ageless Regenerative Institute has partnered with Bioheart, Inc. to provide hands-on training in a stem cell laboratory. This course provides instruction regarding how to grow stem cells and perform quality control testing in an actual cGMP facility following FDA regulations.

The course goals and objectives include reviewing stem cell types and characteristics; learning cell culture including plating, trypsinization and harvesting, and cryopreservation; learning quality control tests including cell count, viability, flow cytometry, endotoxin, mycoplasma, sterility; and learning and performing cGMP functions including clean room maintenance, gowning and environmental monitoring.

For information on costs and to register, visit http://www.agelessregen.com or email: 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.

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 and Ageless Regenerative Partner to Advance Stem Cell Field With New Laboratory Training Program on June 23 ...

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

A CHOC Childrens research project, under the direction of Philip H. Schwartz, Ph.D., senior scientist at the CHOC Childrens Research Institute and managing director of the facilitys National Human Neural Stem Cell Resource, has been awarded a $5.5 million grant from the California Institute for Regenerative Medicine (CIRM). The grant will be used to develop a stem cell-based therapy for the treatment of mucopolysaccharidosis (MPS I), a fatal metabolic disease that causes neurodegeneration, as well as defects in other major organ systems.

Based on a number of medical and experimental observations, children with inherited degenerative diseases of the brain are expected to be among the first to benefit from novel approaches based on stem cell therapy (SCT).

Dr. Schwartz explains, While uncommon, pediatric genetic neurodegenerative diseases account for a large burden of mortality and morbidity in young children. Hematopoietic (bone marrow) stem cell transplant (HSCT) can improve some non-neural symptoms of these diseases, but does not treat the deadly neurodegenerative process. Our approach targeting the effects of the disease on organs besides the brain with HSCT and neurodegeneration with a second stem cell therapy specifically designed to treat the brain is a strategy for whole-body treatment of MPS I. Our approach is also designed to avoid the need for immunosuppressive drugs to prevent rejection of the transplanted cells.

This research is designed to lead to experimental therapy, based on stem cells, by addressing two critical issues: early intervention is required and possible in this patient population; and teaching the immune system not to reject the transplanted cells is required. This research also sets the stage for efficient translation of this technology into clinical practice, by adapting transplant techniques that are standard in clinical practice or in clinical trials, and using laboratory cell biology methods that are easily transferrable to clinical cell manufacturing.

Nationally recognized for his work in the stem cell field, Dr. Schwartz research focuses on the use of stem cells to understand the neurobiological causes of autism and other neurodevelopmental disorders.

Named one of the best childrens hospitals by U.S. News & World Report (2011-2012) and a 2011 Leapfrog Top Hospital, CHOC Children's is exclusively committed to the health and well-being of children through clinical expertise, advocacy, outreach and research that brings advanced treatment to pediatric patients.

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CHOC Children’s Research Project Awarded $5.5 Million Grant from the California Institute for Regenerative Medicine

CLEARWATER, FL--(Marketwire -05/29/12)- Biostem U.S., Corporation, (HAIR.PK) (HAIR.PK) (Biostem, the Company), a fully reporting public company in the stem cell regenerative medicine sciences sector, today announced that Philip A. Lowry, MD, has been appointed as the Chairman of its Scientific and Medical Board of Advisors (SAMBA).

According to Biostem CEO, Dwight Brunoehler, "As Chairman, Dr. Lowry will work with a team drawn from a cross-section of medical specialties. His combination of research, academic and community practice experience make him the perfect individual to coordinate and lead the outstanding group of physicians that makes up our SAMBA. As a group, The SAMBA will guide the company to maintain the highest ethical standards in every effort, while seeking and developing new cutting edge technology based on stem cell use. I am privileged to work with Dr. Lowry, once again."

Dr. Lowry stated, "Dwight is an innovative businessman with an eye on cutting-edge stem cell technology. His history in the industry speaks for itself. I like the plan at Biostem and look forward to working with everyone involved."

Dr. Philip A. Lowry received his undergraduate degree from Harvard College before going on to the Yale University School of Medicine. His completed his internal medicine residency at the University of Virginia then pursued fellowship training in hematology and oncology there as well. During fellowship training and subsequently at the University of Massachusetts, he worked in the laboratory of Dr. Peter Quesenberry working on in vitro and in vivo studies of mouse and human stem cell biology.

Dr. Lowry twice served on the faculty at the University of Massachusetts Medical Center from 1992-1996 and from 2004-2009 as an assistant and then associate clinical professor of medicine establishing the bone marrow/stem cell transplantation program there, serving as medical director of the Cryopreservation Lab supporting the transplant program, helping to develop a cord blood banking program, and teaching and coordinating the second year medical school course in hematology and oncology. Dr. Lowry additionally has ten years experience in the community practice of hematology and oncology. In 2010, Dr. Lowry became chief of hematology/oncology for the Guthrie Health System, a three-hospital tertiary care system serving northern Pennsylvania and southern New York State. He is charged with developing a cutting-edge cancer program that can project into a traditionally rural health care delivery system.

Dr. Lowry has also maintained a career-long interest in regenerative medicine springing from his research and practice experience in stem cell biology. His new role positions him to foster further development of that field. As part of a horizontally and vertically integrated multi-specialty team, he is closely allied with colleagues in cardiology, neurology/neurosurgery, and orthopedics among others with whom he hopes to stimulate the expansion of regenerative techniques.

About Biostem U.S., Corporation

Biostem U.S., Corporation is a fully reporting Nevada corporation with offices in Clearwater, Florida. Biostem is a technology licensing company with proprietary technology centered on providing hair re-growth using human stem cells. The company also intends to train and license selected physicians to provide Regenerative Cellular Therapy treatments to assist the body's natural approach to healing tendons, ligaments, joints and muscle injuries by using the patient's own stem cells. Biostem U.S. is seeking to expand its operations worldwide through licensing of its proprietary technology and acquisition of existing stem cell-related facilities. The company's goal is to operate in the international biotech market, focusing on the rapidly growing regenerative medicine field, using ethically sourced adult stem cells to improve the quality and longevity of life for all mankind.

More information on Biostem U.S., Corporation can be obtained through http://www.biostemus.com, or by calling Fox Communications Group 310-974-6821.

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Biostem U.S., Corporation Appoints Philip A. Lowry, MD as Chairman of Its Scientific and Medical Board of Advisors

SAN DIEGO, May 29, 2012 (GLOBE NEWSWIRE) -- via PRWEB - Stemedica Cell Technologies, Inc. announced today that its strategic partner in Mexico, Grupo Angeles Health Services, has received approval from Mexico's regulatory agency, COFEPRIS, for a Phase I/II single-blind randomized clinical trial for chronic heart failure. COFEPRIS is the Mexican equivalent of the United States FDA. The clinical trial, to be conducted at multiple hospital sites throughout Mexico, will utilize Stemedica's adult allogeneic ischemia tolerant mesenchymal stem cells (itMSC) delivered via intravenous infusion. The trial will involve three safety cohorts at different dosages, followed by a larger group being treated with the maximum safe dosage. The COFEPRIS approval is the second approval for the use of Stemedica's itMSCs. COFEPRIS approved Stemedica's itMSCs in 2010 for a clinical trial for ischemic stroke. These two trials are the only allogeneic stem cell studies approved by COFEPRIS.

Grupo Angeles is a Mexican company that is 100% integrated into the national healthcare development effort. The company is comprised of 24 state-of-the-art hospitals totaling more than 2,000 beds and 200 operating rooms. Eleven thousand Groupo Angeles physicians annually treat nearly five million patients a year. Of these, more than two million are seen as in-patients. In just over two decades, Groupo Angeles has radically transformed the practice of private medicine in Mexico and contributed decisively to reform in the country's health system. Grupo Angeles hospitals conduct an estimated 100 clinical trials annually, primarily with major global pharmaceutical and medical device companies.

"We are pleased that we will be working with the largest and most prestigious private medical institution in Mexico to study Stemedica's product for this indication. If successful, our stem cells may provide a treatment option for the millions of patients, both in Mexico and internationally, who suffer from this condition," said Maynard Howe, PhD, CEO of Stemedica Cell Technologies, Inc.

Roberto Simon, MD, CEO of Grupo Angeles Health Services, noted, "We are proud to be the first organization to bring regulatory-approved allogeneic stem cell treatment to the people of Mexico. We envision that this type of treatment may well become a standard for improving cardiac status for chronic heart failure patients and are pleased to be partnering with Stemedica, one of the leading companies in the field of regenerative medicine."

Nikolai Tankovich, MD, PhD, President and Chief Medical Officer of Stemedica commented, "For the more than five million North Americans who suffer from chronic heart failure, this is an important trial. Our ischemia tolerant mesenchymal stem cells hold the potential to improve ejection fraction--the amount of blood pumped with each heart beat--and therefore, dramatically improve quality of life."

For more information about Stemedica please contact Dave McGuigan at dmcguigan(at)stemedica(dot)com. For more information about Grupo Angeles and the chronic heart failure trial please contact Paulo Yberri at pyberri(at)angelesehealth(dot)com.

About Stemedica Cell Technologies, Inc. Stemedica Cell Technologies, Inc.(http://www.stemedica.com) is a specialty bio-pharmaceutical company committed to the manufacturing and development of best-in-class allogeneic adult stem cells and stem cell factors for use by approved research institutions and hospitals for pre-clinical and clinical (human) trials. The company is a government licensed manufacturer of clinical grade stem cells and is approved by the FDA for its clinical trials for ischemic stroke. Stemedica is currently developing regulatory pathways for a number of medical indications using adult allogeneic stem cells. The Company is headquartered in San Diego, California.

This article was originally distributed on PRWeb. For the original version including any supplementary images or video, visit http://www.prweb.com/releases/stemedica-clinical-trial/chronic-heart-failure/prweb9550806.htm

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Stemedica Stem Cells Approved for Clinical Trials in Mexico for Chronic Heart Failure

28 May 2012 Last updated at 09:14 ET

A 54m cutting-edge stem cell research centre in Edinburgh has been officially opened by the Princess Royal.

The Royal opened the Scottish Centre for Regenerative Medicine as well as the 24m bio-incubator facility, Nine, in the Edinburgh BioQuarter.

Research into conditions such as multiple sclerosis and heart and liver disease will benefit from the new facilities in Little France.

The Princess Royal unveiled plaques at the centres.

Edinburgh University's Scottish Centre for Regenerative Medicine is the first large-scale, purpose-built facility of its kind and provides accommodation for up to 250 stem cell scientists.

The centre, funded by Edinburgh University, Scottish Enterprise, the Medical Research Council (MRC) and the British Heart Foundation through its Mending Broken Hearts Appeal, is being opened by the Princess Royal in her role as Chancellor of Edinburgh University.

It includes the most up-to-date facilities in the UK, which meet the highest guidelines, to manufacture stem cell lines that could be used for patient therapies.

Nine, which has been jointly funded by Scottish Enterprise and the UK government's department for business, innovation and skills, has 85,000 sq ft of laboratory and office space for both established biotechnology companies and start-up ventures.

The Edinburgh BioQuarter is in the city's Little France area and includes the Royal Infirmary of Edinburgh and Edinburgh University's Queen's Medical Research Institute and Chancellor's Building.

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Princess opens stem cell centre

Five UC San Diego scientists have received almost $12 million combined from the California Institute for Regenerative Medicine to pay for stem cell-based research, the university announced today.

A team led by Lawrence Goldstein, of the Department of Cellular and Molecular Medicine and director of the UC San Diego Stem Cell Program, was given $1.8 million to continue looking for new methods to find and test possible medications for Alzheimer's disease, according to UCSD. They use reprogrammed stem cells in their work.

Dr. Mark Tuszynski, professor of neurosciences and director of the Center for Neural Repair, received $4.6 million to develop more potent stem cell-based treatments for spinal cord injuries.

Gene Yeo, assistant professor in the Department of Cellular and Molecular Medicine, was awarded $1.6 million to continue research into treatments for amyotrophic lateral sclerosis. His research hopes to take advantage of recent discoveries about ALS, or Lou Gehrig's disease, which center on mutations in RNA-binding proteins that cause dysfunction and death in neurons.

Dr. Eric David Adler, an associate clinical professor of medicine and cardiologist, was granted $1.7 million to screen potential drugs for Danon disease, a type of inherited heart failure that frequently kills patients by their 20s.

Yang Xu, a professor in the Division of Biological Sciences, was given $1.8 million to research the use of human embryonic stem cells to produce a renewable source of heart muscle cells that replace cells damaged or destroyed by disease, while overcoming biological resistance to new cells.

"With these new awards, the (institute) now has 52 projects in 33 diseases at varying stages of working toward clinical trials,'' said Jonathan Thomas, chairman of the CIRM governing board. "Californians should take pride in being at the center of this worldwide research leading toward new cures.''

CIRM was established in November 2004 with voter passage of the California Stem Cell Research and Cures Act. UC San Diego has received $112 million since CIRM began providing grants six years ago.

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UC San Diego Scientists Net $12 Million For Stem Cell Research

Public release date: 25-May-2012 [ | E-mail | Share ]

Contact: Scott LaFee slafee@ucsd.edu 619-543-6163 University of California - San Diego

Five scientists from the University of California, San Diego and its School of Medicine have been awarded almost $12 million in new grants from the California Institute for Regenerative Medicine (CIRM) to conduct stem cell-based research into regenerating spinal cord injuries, repairing gene mutations that cause amyotrophic lateral sclerosis and finding new drugs to treat heart failure and Alzheimer's disease.

The awards mark the third round of funding in CIRM's Early Translational Awards program, which supports projects that are in the initial stages of identifying drugs or cell types that could become disease therapies. More than $69 million in awards were announced yesterday, including funding for first-ever collaboratively funded research projects with China and the federal government of Australia.

"With these new awards, the agency now has 52 projects in 33 diseases at varying stages of working toward clinical trials," said Jonathan Thomas, JD, PhD and CIRM governing board chair. "Californians should take pride in being at the center of this worldwide research leading toward new cures. These projects represent the best of California stem cell science and the best international experts who, together, will bring new therapies for patients."

The five new UC San Diego awards are:

With a $1.8 million award, Lawrence Goldstein, PhD, professor in the Department of Cellular and Molecular Medicine, Howard Hughes Medical Institute Investigator and director of the UC San Diego Stem Cell Program, and colleagues will continue their work developing new methods to find and test drug candidates for Alzheimer's disease (AD). Currently, there is no effective treatment for AD. The researchers screen novel candidates using purified human brain cells made from human reprogrammed stem cells. Already, they have discovered that these human brain cells exhibit a unique biochemical behavior that indicates early development of AD in a dish.

Mark H. Tuszynski, MD, PhD, professor of neurosciences and director of the Center for Neural Repair at UC San Diego, and colleagues seek to develop more potent stem cell-based treatments for spinal cord injuries. By combining grafts of neural stem cells with scaffolds placed at injury sites, the researchers have reported substantial progress in restoring functional improvement in impaired animal models. The new $4.6 million grant will fund work to identify the optimal human neural stem cells for preclinical development and, in an unprecedented step, test this treatment in appropriate preclinical models of spinal cord injury, providing the strongest validation for human translation.

Amyotrophic lateral sclerosis or ALS (Lou Gehrig's disease) is a progressive neurological condition that is currently incurable. Gene Yeo, PhD, assistant professor in the Department of Cellular and Molecular Medicine, and colleagues will use a $1.6 million grant to exploit recent discoveries that specific mutations in RNA-binding proteins cause neuronal dysfunction and death. They will use neurons generated from patient cells containing the mutations to identify the unique RNA "signature" of these doomed neurons and screen for drug-like compounds that bypass the mutations to correct the RNA signature to obtain healthy neurons.

Eric David Adler, MD, an associate clinical professor of medicine and cardiologist, studies heart failure, including the use of stem cells to treat it. His $1.7 million award will fund research into Danon disease, a type of inherited heart failure that frequently kills patients by their 20s. Adler and colleagues will turn stem cells created from skin cells of patients with Danon disease into heart cells, then screen hundreds of thousands of drug candidates for beneficial effects. The most promising drugs will subsequently be tested on mice with a genetic defect similar to Danon disease, with the ultimate goal of identifying a suitable candidate for human clinical trials. The research may have broader applications for other conditions with similar pathogenesis, such as cancer and Parkinson's disease.

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UC San Diego researchers receive new CIRM funding

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

City of Hope was granted a $5,217,004 early translational research award by the California Institute for Regenerative Medicine (CIRM) to support the development of a T cell-based immunotherapy that re-directs a patients own immune response against glioma stem cells. City of Hope has been awarded more than $49.7 million in grant support from CIRM since awards were first announced in 2006.

City of Hope is a pioneer in T cell immunotherapy research, helping to develop genetically modified T cells as a treatment for cancer. This strategy, termed adoptive T cell therapy, focuses on redirecting a patients immune system to specifically target tumor cells, and has the potential to become a promising new approach for treatment of cancer.

In this research, we are genetically engineering a central memory T cell that targets proteins expressed by glioma stem cells, said Stephen J. Forman, M.D., Francis and Kathleen McNamara Distinguished Chair in Hematology and Hematopoietic Cell Transplantation and director of the T Cell Immunotherapy Research Laboratory. Central memory T cells have the potential to establish a persistent, lifelong immunity to help prevent brain tumors from recurring.

The American Cancer Society estimates that more than 22,000 people in the U.S. will be diagnosed with a brain tumor this year, and 13,700 will die from the disease. Glioma is a type of brain tumor that is often difficult to treat and is prone to recurrence. Currently, less than 20 percent of patients with malignant gliomas are living five years after their diagnosis. This poor prognosis is largely due to the persistence of tumor-initiating cancer stem cells, a population of malignant cells similar to normal stem cells in that they are able to reproduce themselves indefinitely. These glioma stem cells are highly resistant to chemotherapy and radiation treatments, making them capable of re-establishing new tumors.

Researchers at City of Hope previously have identified several proteins as potential prime targets for the development of cancer immunotherapies, such as interleukin 13 receptor alpha 2, a receptor found on the surface of glioma cells, and CD19, a protein that is active in lymphoma and leukemia cells. Both investigational therapies are currently in phase I clinical trials. Forman is the principal investigator for the newly granted study which will develop a T cell that targets different proteins expressed by glioma stem cells. Christine Brown, Ph.D., associate research professor, serves as co-principal investigator, and Michael Barish, Ph.D., chair of the Department of Neurosciences, and Behnam Badie, M.D., director of the Brain Tumor Program, serve as co-investigators on the project.

Because cancer stem cells are heterogeneous, our proposed therapy will target multiple antigens to cast as wide a net as possible over this malignant stem cell population, said Brown.

While in this effort, we are targeting a neurological cancer, our approach will lead to future studies targeting other cancers, including those that metastasize to the brain, added Barish.

The CIRM grant will help us to build a targeted T cell therapy against glioma that can offer lasting protection, determine the best way to deliver the treatment, establish an efficient process to manufacture these T cells for treatment, and get approval for a human clinical trial, said Badie.

City of Hope is also a collaborative partner providing process development, stem cell-derived cell products and regulatory affairs support in two other CIRM-funded projects that received early translational research grants. Larry Couture, Ph.D., senior vice president of City of Hopes Sylvia R. & Isador A. Deutch Center for Applied Technology Development and director of the Center for Biomedicine & Genetics, is working with Stanford University and Childrens Hospital of Orange County Research Institute on their respective projects.

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City of Hope Receives $5 Million Grant to Develop T Cell Treatment Targeting Brain Tumor Stem Cells

CLEARWATER, FL--(Marketwire -05/24/12)- Biostem U.S., Corporation, (HAIR.PK) (HAIR.PK) (Biostem, the Company), a fully reporting public company in the stem cell regenerative medicine sciences sector, announces a $5,000,000 financing agreement through private placement of stock.

CEO, Dwight Brunoehler, announced today that the company has signed an agreement with a funder to issue 20,000,000 shares of the company's common stock in exchange for $5,000,000 in cash or 25 cents ($.25) per share. No other considerations will be granted to the funder in exchange for the cash payment.

In announcing the funding agreement, Mr. Brunoehler commented, "We consider the eagerness of the funder to acquire Biostem shares at a price above the current market to be a tribute to our proven proprietary technology to enhance hair re-growth using human stem cells. Although we anticipated funding the company through the sale of a convertible debenture, the funder insisted on being able to acquire stock at a set price now, rather than risk having to convert at higher prices later. Although Rule 144 sale restrictions usually cause private placements of stock to be executed at a discount to the market, Biostem feels that its current share price is not truly reflective of the value of its proprietary technology; as well as the fact that the technology is already being employed, and the overall size of the hair replacement marketplace. It was for this reason that the company and the funder were able to come to an agreement to price the private placement above the current share price."

About Biostem U.S., Corporation

Biostem U.S., Corporation is a fully reporting Nevada corporation with offices in Clearwater, Florida. Biostem is a technology licensing company with proprietary technology centered on providing hair re-growth using human stem cells. The company also intends to train and license selected physicians to provide Regenerative Cellular Therapy treatments to assist the body's natural approach to healing tendons, ligaments, joints and muscle injuries by using the patient's own stem cells. Biostem U.S. is seeking to expand its operations worldwide through licensing of its proprietary technology and acquisition of existing stem cell related facilities. The company's goal is to operate in the international biotech market, focusing on the rapidly growing regenerative medicine field, using ethically sourced adult stem cells to improve the quality and longevity of life for all mankind.

More information on Biostem U.S., Corporation can be obtained through http://www.biostemus.com, or by calling Fox Communications Group 310-974-6821.

Continued here:
Biostem U.S., Corporation Announces $5,000,000 Financing Agreement Through Private Placement of Stock

Editor's Choice Main Category: Pediatrics / Children's Health Also Included In: Stem Cell Research Article Date: 21 May 2012 - 0:00 PDT

Current ratings for: 'World's First Stem Cell Drug From Osiris: Approved'

5 (1 votes)

The decision is a historic one, as it's both the first stem cell drug going into formal use, as well as the first treatment for GvHD. The disease is a devastating breakdown occurring after a bone marrow transplant and kills around 80% of children affected, often within a matter of weeks.

Andrew Daly, M.D., Clinical Associate Professor, Department of Medicine and Oncology at the University of Calgary, Canada and Principal Investigator in the phase 3 clinical program for Prochymal confirmed :

The approval process for Prochymal was implemented under Health Canada's Notice of Compliance with conditions (NOC/c) pathway. The basis of the procedure allows a new drug to come onto the market where there are unmet medical needs. The approval is granted with the provision that the drug has demonstrated risk / reward benefits in previous clinical trials and that the manufacturer agrees to undertake additional confirmatory clinical testing.

C. Randal Mills, Ph.D., President and Chief Executive Officer of Osiris confirmed his' companies happiness at being able to help conquer the disease :

Where children with GvHD are not responding to treatment with steroids, which is presumably most of them, the use of Prochymal will now be authorized. Health Canada based it's approval on previous clinical studies of the drug, in which 64% of patients showed results; the survival rate compared to historical data was drastically improved, even in patients with severe cases. Additional clinical evaluation of Prochymal now will be undertaken, including enrolling patients in a registry to discover any long term effects.

Joanne Kurtzberg, MD, Head of the Pediatric Bone Marrow Transplant Program at Duke University and Lead Investigator for Prochymal

Osiris has 48 patents protecting Prochymal, and Health Canada's have agreed to provide Prochymal with regulatory exclusivity within their territory. Canada affords eight years of exclusivity to Innovative Drugs, such as Prochymal, with an additional six-month extension because it addresses a pediatric disease. Parents, doctors and shareholders can all rest easy.

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World's First Stem Cell Drug From Osiris: Approved

Tim and Padma Vellaichamy of Parramatta have had their new born child's umbilical cord stored cryogenically for future treatment. Pictured with their as yet unnamed three week old daughter. Picture: Adam Ward Source: The Daily Telegraph

IT'S current preservation for the future regeneration - and now umbilical cord tissue is going on ice in Australia for the first time.

Usually discarded after birth, umbilical tissue from newborn babies is being collected and cryogenically frozen to be used one day for regenerative and stem cell medicine. And it doesn't just have potential for the babies involved, either. Experts say stem cells could also be used for family members who are genetically compatible.

It is hoped the cells will eventually be able to be used to repair damaged tissues and organs, with researchers investigating its uses for treating diseases like multiple sclerosis, cerebral palsy and diabetes, as well as for bone and cartilage repair.

Although cord blood storage has been available for many years, Cell Care Australia has added cord tissue storage in anticipation of new discoveries in the regenerative medicine field.

Cell Care Australia medical director associate professor Mark Kirkland said the storage process - already popular in the US, Europe and Southeast Asia - was long overdue for Australian shores.

"The science is developing around the world and we're really behind the rest of the world in providing parents the option to store these cells and we thought it was about time it was brought here," he said.

"It's finding a way to take what would otherwise be waste tissue and turning it into something of potential future value for not only your child but also potentially for other family members.'

Parramatta couple Tim and Padma Vellaichamy are among the first to use the service in Australia.

Mr Vellaichamy, 31, said he heard of the technology while working as a dentist in India and decided to store their daughter's cord cell tissue after birth three weeks ago.

Read more here:
Stem cell medicine thrown umbilical rope

Tim and Padma Vellaichamy of Parramatta have had their new born child's umbilical cord stored cryogenically for future treatment. Pictured with their as yet unnamed three week old daughter. Picture: Adam Ward Source: The Daily Telegraph

IT'S current preservation for future regeneration - and now umbilical cord tissue is going on ice in Australia for the first time.

Usually discarded after birth, umbilical tissue from newborn babies is being collected and cryogenically frozen to be used one day for regenerative and stem cell medicine. And it doesn't just have potential for the babies involved, either. Experts say stem cells could also be used for family members who are genetically compatible.

It is hoped the cells will eventually be able to be used to repair damaged tissues and organs, with researchers investigating its uses for treating diseases like multiple sclerosis, cerebral palsy and diabetes, as well as for bone and cartilage repair.

Although cord blood storage has been available for many years, Cell Care Australia has added cord tissue storage in anticipation of new discoveries in the regenerative medicine field.

Cell Care Australia medical director associate professor Mark Kirkland said the storage process - already popular in the US, Europe and Southeast Asia - was long overdue for Australian shores.

"The science is developing around the world and we're really behind the rest of the world in providing parents the option to store these cells and we thought it was about time it was brought here," he said.

"It's finding a way to take what would otherwise be waste tissue and turning it into something of potential future value for not only your child but also potentially for other family members.'

Parramatta couple Tim and Padma Vellaichamy are among the first to use the service in Australia.

Mr Vellaichamy, 31, said he heard of the technology while working as a dentist in India and decided to store their daughter's cord cell tissue after birth three weeks ago.

See original here:
Frozen cord could save a life

MARLBOROUGH, Mass.--(BUSINESS WIRE)--

Advanced Cell Technology, Inc. (ACT; OTCBB: ACTC), a leader in the field of regenerative medicine, announced today that chairman and CEO Gary Rabin will be presenting at the World Stem Cells and Regenerative Medicine Conference, May 21-23, in London.

Mr. Rabins presentation, titled Successes and ongoing advancements of human clinical trials for the treatment of AMD & Stargardts Disease, will be given on Monday, May 21 at 5:05 p.m. BST (London time). Mr. Rabin will provide an update on ACTs three ongoing human clinical trials in the U.S. and E.U. for Dry Age-Related Macular Degeneration (Dry AMD) and Stargardts Macular Dystrophy (SMD).

ACT recently announced Data and Safety Monitoring Board (DSMB) approval to move forward with enrollment and treatment of additional patients with SMD in its U.S. SMD trial, and to treat the final two patients to round out the initial dosing arm in its European trial. All three of the companys ongoing clinical trials use human embryonic stem cell (hESC)-derived retinal pigment epithelial (RPE) cells.

About SMD, Dry AMD and Degenerative Diseases of the Retina

Stargardts Macular Dystrophy (SMD) is one of the most common forms of macular degeneration in the world. SMD causes progressive vision loss, usually starting in children between 10 to 20 years of age. Eventually, blindness results from photoreceptor loss associated with degeneration in the pigmented layer of the retina, called the retinal pigment epithelium or RPE cell layer.

Degenerative diseases of the retina are among the most common causes of untreatable blindness in the world. As many as thirty million people in the United States and Europe suffer from macular degeneration, which represents a $25-30 billion worldwide market that has yet to be effectively addressed. Approximately 10% of people ages 66 to 74 will have symptoms of macular degeneration, the vast majority the dry form of AMD which is currently untreatable. The prevalence increases to 30% in patients 75 to 85 years of age.

About Advanced Cell Technology, Inc.

Advanced Cell Technology, Inc., is a biotechnology company applying cellular technology in the field of regenerative medicine. For more information, visit http://www.advancedcell.com.

Forward-Looking Statements

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Advanced Cell Technology to Present at World Stem Cells & Regenerative Medicine Congress in London