Archive for the ‘Cell Therapy’ Category

Hanggang ngayon ay usap-usapan pa rin ang Fresh Cell Therapy (FCT) o mas kilala natin bilang stem cell therapy lalo nat marami nang celebrities ang nahihikayat na sumailalim sa naturang medical procedure na nagpo-promote ng anti-aging at nakatutulong para labanan ang ilang serious health conditions.

Isa na nga rito ang sikat na hairstylist, beauty expert, philanthropist, businessman, at TV host na si Ricky Reyes o mas kilala bilang si Mother Ricky.

Sumailalim si Mother Ricky sa FCT noong Hunyo ng taong ito at ngayon nga ay ine-enjoy niya ang benepisyo nito sa kanyang kalusugan.

The fact that my arthritis is gone, Im very, very happy and Im thankful to Bobby [Kittichaiwong, Villa Medica CEO). And its just a two-shot on my back, gone instantly. You know, yung quality of life mo na hindi ka aray-aray-aray?

Tapos nagpunta ako sa Germany last June and its such a beautiful place. We even had meron ka pang tour sa Paris [France]. Very nice place, sabi ni Mother Ricky.

Nakausap ng PEP.ph (Philippine Entertainment Portal) si Mother Ricky sa presscon ng Villa Medica tungkol sa FCT na ginanap kaninang tanghali, Oktubre 13, sa Crowne Plaza sa Ortigas, Pasig City.

Hindi rin daw niya maitatanggi ang kabutihang naidulot ng FCT sa kanyang ina, na sumailalim din sa naturang therapy.

Oo naman, with my experience with my mom. Dati nakatungo na, ngayon nakataas na yung leeg na ganyan, paglalarawan pa ni Mother Ricky tungkol sa nagawa ng FCT sa kanyang ina.

Nai-stretch na yung mga kamay. Isang malaking utang na loob ko yun kay Bobby. It is a Christmas gift of Bobby to me to cure my mom.

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Ricky Reyes to help set up Fresh Cell Therapy clinic in the Philippines

Regenevda recently opened its brand new flagship facility in Beverly Hills, specializing in cutting edge anti-aging treatments such as Stem Cell Therapy.

Beverly Hills, CA (PRWEB) October 12, 2012

Dr. Thom Lobe is an internationally respected surgeon and has been in practice for over 30 years. Consistently pioneering advances in medicine, Dr. Lobe was one of the first doctors to ever separate conjoined twins. Consistently working to help make advances in medicine, Dr. Lobe also has over 200 publications to his credit.

Overseeing the business aspect of Regenevda is Lindsey Combs. She is responsible for sales, staff, accounting, facility management, and business development. A graduate of the University of California, Los Angeles, Ms. Combs has been working in the anti-aging field for over 10 years and has been a California Licensed Esthetician since 2003.

Being one of the very few physicians in the country to hold the most advanced board certification (FAARM), Dr. Lobe is able to offer Stem Cell Therapy at the Regenevda clinic. Inside each persons own body, there are special cells in nearly every organ and tissue that have the ability to help heal damage. These special cells are called Stem Cells and this therapy works by harvesting these cells from a persons own blood, bone marrow, or fat and can help with different conditions. Some examples of procedures that use Stem Cell Therapy are: Stem Cell Facelifts, Stem Cell Breast Augmentation, and Stem Cell Joint Therapy. Stem Cell treatments are safe, non-invasive, and are done under local anesthesia.

Intravenous Nutrition Therapy (or IV Vitamin Therapy) is another anti-aging and rejuvenation treatment that can also help patients prevent migraines, lose weight, fight chronic infections like hepatitis, candida, lyme disease, as well as fight acute infections like the flu and mono. IV Therapy works by using intravenous solutions to deliver vitamins and minerals directly to the body cells. This bypasses the digestive system and provides a more direct method of delivery, which ensures that all of the nutrients required are delivered, allowing the patient to feel an improvement in condition almost immediately.

Human Growth Hormone (HGH) Therapy is another advanced treatment offered at Regenevda. HGH is secreted by the Pituitary gland and fuels cell growth and reproduction. This production peaks at adolescence. Over time, due to the effect of aging, the production of HGH slows down dramatically. As production declines, it makes it more difficult for the body to recover from physical and mental exertion. HGH Therapy acts as a supplement for HGH deficient adults to lessen body fat, boost lipid lineament, improve memory, promote bone density, as well as decrease risk factors that involve cardio-vascular conditions. If used at the onset of the decrease in HGH production, HGH Therapy can help curtail early aging and even be used as preventive measure against osteoporosis. A complete analysis of the patients sex hormones, evaluation of glucose regulation and functions of the adrenal gland, thyroid gland, and pancreas are performed before the treatment is administered for optimal results.

Combining decades of medical experience with the most cutting edge advances in medical technology, the Regenevda clinic looks to pave the way for the future of anti-aging treatments. The Regenevda Beverly Hills Institute of Cellular Therapy is located at 50 North La Cienega Boulevard. For any inquiries, they can be reached at 855-734-3638, or visit http://www.regeneveda.com.

About Regenevda :

Regeneveda, home of The Beverly Hills Institute of Cellular Therapy, provides state-of-the-art Stem Cell Therapy. Stem Cell Therapy is an effective treatment for chronic conditions such as Arthritis, Diabetes, Chronic Sports Injuries, and Chronic Pain, but is also revolutionizing anti-aging treatments such as Breast Enhancement, Erectile Dysfunction, and Facial Aging.

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Regenevéda Opens Flagship Stem Cell Therapy Clinic in Beverly Hills

NEW YORK, Oct. 10, 2012 (GLOBE NEWSWIRE) -- NeoStem, Inc. (NBS), an emerging leader in the fast growing cell therapy market, announced today that a new article published by the International Scholarly Research Network provides further evidence that AMR-001, NeoStem's lead product candidate through its Amorcyte subsidiary, appears capable of preserving heart muscle function following a large myocardial infarction. Amorcyte demonstrated in its Phase 1 trial that AMR-001 preserved heart muscle function when a therapeutic dose of cells was administered. No patient experienced a deterioration in heart muscle function who received 10 million cells or more whereas 30 to 40 percent of patients not receiving a therapeutic dose did. The new study shows that cardiac muscle function sparing effects are evident even earlier after treatment than previously shown.

The article titled "Assessment of myocardial contractile function using global and segmental circumferential strain following intracoronary stem cell infusion after myocardial infarction: MRI Feature Tracking Feasibility Study" by Sabha Bhatti, MD, et al. appears in ISRN Radiology Volume 2013, Article ID 371028 and is published online at http://www.isrn.com/journals/radiology/2013/371028. The publication by Dr. Bhatti and colleagues, including Dr. Andrew Pecora, Chief Medical Officer of NeoStem, supports the finding that AMR-001 preserves heart function. Previously, Amorcyte, a NeoStem subsidiary, showed that six months after STEMI AMR-001 improved blood flow to the heart and preserved heart muscle. By using cardiac magnetic resonance imaging, specifically measuring circumferential strain of the left ventricle, the authors show that AMR-001's effects are evident by three months after STEMI.

AMR-001's angiogenic and anti-apoptotic mechanisms of action indicate that preservation of heart muscle function should start within weeks and be evident in fewer than 6 months. This publication, based on blinded analysis of Amorcyte's Phase 1 data, confirms the expected time course for AMR-001's mechanism of action. In the context of previously published results, these effects are durable.

Amorcyte is developing AMR-001, a cell therapy for the treatment of cardiovascular disease, and is enrolling patients in a Phase 2 trial to investigate AMR-001's efficacy in preserving cardiac function and preventing adverse clinical events after a large myocardial infarction.

About NeoStem, Inc.

NeoStem, Inc. continues to develop and build on its core capabilities in cell therapy, capitalizing on the paradigm shift that we see occurring in medicine. In particular, we anticipate that cell therapy will have a significant role in the fight against chronic disease and in lessening the economic burden that these diseases pose to modern society. We are emerging as a technology and market leading company in this fast developing cell therapy market. Our multi-faceted business strategy combines a state-of-the-art contract development and manufacturing subsidiary, Progenitor Cell Therapy, LLC ("PCT"), with a medically important cell therapy product development program, enabling near and long-term revenue growth opportunities. We believe this expertise and existing research capabilities and collaborations will enable us to achieve our mission of becoming a premier cell therapy company.

Our contract development and manufacturing service business supports the development of proprietary cell therapy products. NeoStem's most clinically advanced therapeutic, AMR-001, as mentioned above, is being developed at Amorcyte, LLC ("Amorcyte"), which we acquired in October 2011. Amorcyte is developing a cell therapy for the treatment of cardiovascular disease and is enrolling patients in a Phase 2 trial to investigate AMR-001's efficacy in preserving heart function after a heart attack. Athelos Corporation ("Athelos"), which is approximately 80%-owned by our subsidiary, PCT, is collaborating with Becton-Dickinson in the early clinical exploration of a T-cell therapy for autoimmune conditions. In addition, pre-clinical assets include our VSELTM Technology platform as well as our mesenchymal stem cell product candidate for regenerative medicine. Our service business and pipeline of proprietary cell therapy products work in concert, giving us a competitive advantage that we believe is unique to the biotechnology and pharmaceutical industries. Supported by an experienced scientific and business management team and a substantial intellectual property estate, we believe we are well positioned to succeed.

Forward-Looking Statements for NeoStem, Inc.

This press release contains forward-looking statements within the meaning of the Private Securities Litigation Reform Act of 1995. Forward-looking statements reflect management's current expectations, as of the date of this press release, and involve certain risks and uncertainties. Forward-looking statements include statements herein with respect to the successful execution of the Company's business strategy, including with respect to the Company's or its partners' successful development of AMR-001 and other cell therapeutics, the size of the market for such products, its competitive position in such markets, the Company's ability to successfully penetrate such markets and the market for its CDMO business, and the efficacy of protection from its patent portfolio, as well as the future of the cell therapeutics industry in general, including the rate at which such industry may grow. Forward looking statements also include statements with respect to satisfying all conditions to closing the disposition of Erye, including receipt of all necessary regulatory approvals in the PRC. The Company's actual results could differ materially from those anticipated in these forward- looking statements as a result of various factors, including but not limited to (i) the Company's ability to manage its business despite operating losses and cash outflows, (ii) its ability to obtain sufficient capital or strategic business arrangement to fund its operations, including the clinical trials for AMR-001, (iii) successful results of the Company's clinical trials of AMR-001 and other cellular therapeutic products that may be pursued, (iv) demand for and market acceptance of AMR-001 or other cell therapies if clinical trials are successful and the Company is permitted to market such products, (v) establishment of a large global market for cellular-based products, (vi) the impact of competitive products and pricing, (vii) the impact of future scientific and medical developments, (viii) the Company's ability to obtain appropriate governmental licenses and approvals and, in general, future actions of regulatory bodies, including the FDA and foreign counterparts, (ix) reimbursement and rebate policies of government agencies and private payers, (x) the Company's ability to protect its intellectual property, (xi) the company's ability to successfully divest its interest in Erye, and (xii) matters described under the "Risk Factors" in the Company's Annual Report on Form 10-K filed with the Securities and Exchange Commission on March 20, 2012 and in the Company's other periodic filings with the Securities and Exchange Commission, all of which are available on its website. The Company does not undertake to update its forward-looking statements. The Company's further development is highly dependent on future medical and research developments and market acceptance, which is outside its control.

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NeoStem Announces New Publication That Supports Positive Results of AMR-001 for Treatment of AMI

SAN CARLOS, Calif.--(BUSINESS WIRE)--

Cellerant Therapeutics Inc., a biotechnology company developing novel hematopoietic stem cell-based cellular and antibody therapies for blood disorders and cancer, announced today that it has been awarded a Small Business Innovation Research (SBIR) Phase 1 contract and a Phase 2 option from the National Cancer Institute (NCI) valued up to $1,683,503. The SBIR Contract funds the development of CLT-009, a first-in-class, human allogeneic Megakaryocyte Progenitor Cell therapy for the treatment of thrombocytopenia in cancer patients and allows the Company to conduct studies to enable an Investigational New Drug (IND) Application to be filed with the FDA in the next two years.

Thrombocytopenia is characterized as a significant reduction in the concentration of circulating platelets. Platelets are crucial in the process of coagulation to stop bleeding, and thrombocytopenia can increase the risk of severe bleeding in patients. It is becoming an increasingly common problem among oncology patients and a significant dose-limiting toxicity, especially in the treatment of hematological malignancies. Chemotherapy and radiation therapy are the most common causes of thrombocytopenia because the platelet-producing cells, megakaryocytes, and their precursors are highly sensitive to myelosuppressive cytotoxics and ionizing radiation. Thrombocytopenia typically occurs during the initial cycles of high-dose chemotherapy and radiation therapy, usually 614 days after administration. According to Datamonitor, the estimated incidence of cancer patients who suffer from significant chemotherapy-induced thrombocytopenia worldwide was approximately 200,000 in 2008.

Occurrence of severe thrombocytopenia may require dose reductions for chemotherapy regimens which can impact subsequent disease control and survival, especially in the treatment of hematological malignancies such as acute leukemia and high-risk myelodysplastic syndrome. Current treatment options include platelet transfusions which are costly and labor intensive and are associated with risks such as contamination and transmission of viral and bacterial infections. Recombinant human interleukin-11 is the only approved agent for chemotherapy induced thrombocytopenia but its use is limited and has only modest efficacy and significant side effects. CLT-009, a human Megakaryocyte Progenitor Cell product, would be an alternative treatment option, providing the critical megakayocyte progenitor cellular support to rapidly produce platelets in vivo and shorten the duration of severe thrombocytopenia following chemotherapy treatment.

We are delighted to receive this contract from NCI to support the development of our novel, off-the-shelf, platelet product and address a high unmet need, said Ram Mandalam, Ph.D., President and Chief Executive Officer of Cellerant Therapeutics. This contract allows us to not only leverage our experience in developing cellular therapies but also provides us with the ability to bring CLT-009 closer to the clinic. Our unique product portfolio, which now includes CLT-009, along with our CLT-008 myeloid progenitor cell product and our therapeutic antibodies targeting cancer stem cells, demonstrates our continued commitment to developing novel products for the benefit of cancer patients.

In addition to this SBIR contract, Cellerant has previously received grants from the National Institute of Health (NIH) in 2008 2010 to conduct research studies in platelet recovery which it has successfully completed. In its previous studies, Cellerant demonstrated that megakaryocyte progenitor cells were able to produce human platelets in preclinical models with in vivo functionality similar to that of normal human platelets.

This program is funded with Federal funds from the National Institute of Health, Department of Health and Human Services, under Contract No.HHSN261201200076C.

About CLT-009

CLT-009 is a unique, off-the-shelf, cryopreserved, cell-based therapy that contains human Megakaryocyte Progenitor Cells derived from adult hematopoietic stem cells that have the ability to mature into functional platelets in vivo. Cellerant is developing CLT-009 as an effective treatment for chemotherapy and radiation-induced thrombocytopenia in cancer patients.

About Cellerant Therapeutics

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Cellerant Awarded SBIR Contract Funding to Develop CLT-009 for Treatment of Thrombocytopenia

NEW YORK, Oct. 8, 2012 (GLOBE NEWSWIRE) -- NeoStem, Inc. (NYSE MKT:NBS), an emerging leader in the fast growing cell therapy market, announced today that data from its collaborative studies with the University of Michigan School of Dentistry further expands the therapeutic potential of its proprietary regenerative cell therapy product, "VSELSTM" (very small embryonic-like stem cells), by demonstrating bone regeneration capabilities in a study published online ahead of print1 in the journal Stem Cells and Development (DOI: 10.1089/scd.2012.0327). The paper highlights that human VSEL stem cells form human bone when implanted in the bone tissue of SCID mice.

VSELs are a population of stem cells found in adult bone marrow with potential regenerative properties similar to those of embryonic stem cells. NeoStem has shown that these cells can be mobilized into the peripheral blood, enabling a minimally invasive means for collecting what NeoStem believes to be a population of stem cells that have the potential to achieve the positive benefits associated with embryonic stem cells without the ethical or moral dilemmas or the potential negative effects known to be associated with embryonic stem cells.

This published controlled study, funded by NIH and led by Dr. Russell Taichman, Major Ash Collegiate Professor and Co-Director of the Scholars Program in Dental Leadership Department of Periodontics & Oral Medicine, University of Michigan and Dr. Aaron Havens, Department of Orthodontics and Pediatric Dentistry at University of Michigan, involved isolating G-CSF mobilized VSEL stem cells from the blood of healthy donors and transplanting them into burr holes made in the cranial bones of SCID mice. After three months, it was observed that the implanted VSEL stem cells had differentiated into human bone tissue in the crania of the mice. Dr. Taichman stated, "I believe this work represents a true partnership between Industry and Academic Institutions. Our findings that VSEL cells can generate human bone in animals would not have been feasible without the help and vision that Dr. Denis Rodgerson and his team at NeoStem brought to the table. It was my privilege to have been a part of this collaborative effort, and I see the resulting data as a significant milestone in stem cell therapy development. It is truly inspiring."

Dr. Robin Smith, Chairman and CEO of NeoStem, added, "This is very exciting data that we believe will be the foundation for future VSEL stem cell studies of bone regeneration in humans. We look forward to moving the development work from the laboratory into the clinic to develop a therapeutic stem cell product to enhance bone formation in humans."

About NeoStem, Inc.

NeoStem, Inc. continues to develop and build on its core capabilities in cell therapy, capitalizing on the paradigm shift that we see occurring in medicine. In particular, we anticipate that cell therapy will have a significant role in the fight against chronic disease and in lessening the economic burden that these diseases pose to modern society. We are emerging as a technology and market leading company in this fast developing cell therapy market. Our multi-faceted business strategy combines a state-of-the-art contract development and manufacturing subsidiary, Progenitor Cell Therapy, LLC ("PCT"), with a medically important cell therapy product development program, enabling near and long-term revenue growth opportunities. We believe this expertise and existing research capabilities and collaborations will enable us to achieve our mission of becoming a premier cell therapy company.

Our contract development and manufacturing service business supports the development of proprietary cell therapy products. NeoStem's most clinically advanced therapeutic, AMR-001, is being developed at Amorcyte, LLC ("Amorcyte"), which we acquired in October 2011. Amorcyte is developing a cell therapy for the treatment of cardiovascular disease and is enrolling patients in a Phase 2 trial to investigate AMR-001's efficacy in preserving heart function after a heart attack. Athelos Corporation ("Athelos"), which is approximately 80%-owned by our subsidiary, PCT, is collaborating with Becton-Dickinson in the early clinical exploration of a T-cell therapy for autoimmune conditions. In addition, pre-clinical assets include our VSELTM Technology platform as well as our mesenchymal stem cell product candidate for regenerative medicine. Our service business and pipeline of proprietary cell therapy products work in concert, giving us a competitive advantage that we believe is unique to the biotechnology and pharmaceutical industries. Supported by an experienced scientific and business management team and a substantial intellectual property estate, we believe we are well positioned to succeed.

Forward-Looking Statements for NeoStem, Inc.

This press release contains forward-looking statements within the meaning of the Private Securities Litigation Reform Act of 1995. Forward-looking statements reflect management's current expectations, as of the date of this press release, and involve certain risks and uncertainties. Forward-looking statements include statements herein with respect to the successful execution of the Company's business strategy, including with respect to the Company's or its partners' successful development of AMR-001 and other cell therapeutics, the size of the market for such products, its competitive position in such markets, the Company's ability to successfully penetrate such markets and the market for its CDMO business, and the efficacy of protection from its patent portfolio, as well as the future of the cell therapeutics industry in general, including the rate at which such industry may grow. Forward looking statements also include statements with respect to satisfying all conditions to closing the disposition of Erye, including receipt of all necessary regulatory approvals in the PRC. The Company's actual results could differ materially from those anticipated in these forward- looking statements as a result of various factors, including but not limited to (i) the Company's ability to manage its business despite operating losses and cash outflows, (ii) its ability to obtain sufficient capital or strategic business arrangement to fund its operations, including the clinical trials for AMR-001, (iii) successful results of the Company's clinical trials of AMR-001 and other cellular therapeutic products that may be pursued, (iv) demand for and market acceptance of AMR-001 or other cell therapies if clinical trials are successful and the Company is permitted to market such products, (v) establishment of a large global market for cellular-based products, (vi) the impact of competitive products and pricing, (vii) the impact of future scientific and medical developments, (viii) the Company's ability to obtain appropriate governmental licenses and approvals and, in general, future actions of regulatory bodies, including the FDA and foreign counterparts, (ix) reimbursement and rebate policies of government agencies and private payers, (x) the Company's ability to protect its intellectual property, (xi) the company's ability to successfully divest its interest in Erye, and (xii) matters described under the "Risk Factors" in the Company's Annual Report on Form 10-K filed with the Securities and Exchange Commission on March 20, 2012 and in the Company's other periodic filings with the Securities and Exchange Commission, all of which are available on its website. The Company does not undertake to update its forward-looking statements. The Company's further development is highly dependent on future medical and research developments and market acceptance, which is outside its control.

(1) Human Very Small Embryonic-Like Cells Generate Skeletal Structures, In Vivo. Havens A., et al., Stem Cells and Development.

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NeoStem Announces Very Small Embryonic-Like Cells (VSEL(TM)) Publication in Stem Cells and Development

A company with the first FDA-approved personalized cell therapy for reducing wrinkles has raised $45 million in a private stock sale. The financing was sought to improve manufacturing capacity for the therapy and advance other uses for it such as treating burn victims, according to a company statement.

Fibrocell Sciences aesthetic therapeutic, Laviv, secured got the green light from the U.S. Food and Drug Administration last year. Laviv uses individuals fibroblast cells to reduce nasolabial fold wrinkles, creases on the face that start from the outer corners of the nose and go down to the corners of the mouth. It also has an acne therapy in phase 3 clinical trials and a burn scar therapy in phase 2 trials.

The Exton, Pennsylvania biopharmaceutical companys personalized cell development platform technology isolates, purifies and multiplies a patients fibroblast cells, connective skin cells that make collagen.

Additionally, Fibrocell agreed to a strategic collaboration with biotechnology firm Intrexon which can provide genome engineering, cell processing, and cell system engineering, among other services, to help advance Fibrocells personalized cell therapy program.

As part of the financing deal, Third Security LLC will get two seats on Fibrocells board.

Personalized stem cell development fits into the broader category of personalized medicine, regarded as the future of medicine in which therapies will be better targeted to individuals and more effective.

Link:
Biopharma with personalized cell therapy raises $45M in stock sale, forges collaboration deal

PALM BEACH, Fla.--(BUSINESS WIRE)--

Genetics Policy Institute (GPI) announced today that Bernard Siegel, Executive Director of GPI, will make two keynote presentations this month at regional conferences: Midwest Conference on Stem Cell Biology and Therapy October 5-7 in Rochester, Michigan and BioFlorida Conference 2012 October 7-9 in Miami, Florida.

Siegel will present a keynote address titled The Power of Advocacy at the Midwest Conference on Stem Cell Biology and Therapy. The Genetics Policy Institute joined with the Oakland University William Beaumont Institute for Stem Cell and Regenerative Medicine (ISCRM) as a collaborating partner for the event. Researchers from hospitals, medical organizations, academic institutions and the business community throughout the Midwest will discuss not only the latest advances in this rapidly expanding field of medical science, but the ethical and moral issues that surround it.

"I am pleased to participate in these important conferences, which showcase the latest scientific developments in their respective regions and beyond. ISCRM and the World Stem Cell Summit have a strong connection, as the Institute was officially launched at our 2010 Summit in Detroit, said Bernard Siegel, GPI's Executive Director and founder of the annual World Stem Cell Summit.

BioFloridas 15th annual Conference is the premier event for Floridas bioscience community. This years meeting will bring together more than 500 professionals from across Florida, the Southeast and the nation to discuss major trends and issues, including topics related to product development, scientific research, business development, financing and public policy.

Siegels keynote address at BioFlorida is titled: The Mandate to Deliver Cures: Aligning Patient Advocacy, Industry and Science. Former Governor Jeb Bush will deliver the second keynote at BioFloridas annual Conference.

The 2012 World Stem Cell Summit is in West Palm Beach, Florida this December, so we have been working closely with the biotechnology community here. I am delighted to partner with BioFlorida as they advance Floridas bioscience industry," said Siegel, who also serves on the Executive Committee of the Alliance for Regenerative Medicine and Board of the Coalition for Advancement of Medical Research. He serves as spokesperson for the Stem Cell Action Coalition.

ABOUT GPI:The Genetics Policy Institute (GPI) supports stem cell research to develop therapeutics and cures. GPI pursues its mission by honoring leadership through the Stem Cell Action Awards, producing the World Stem Cell Summit, publishing theWorld Stem Cell Report, organizing educational initiatives and fostering strategic collaborations. For more information, visitwww.genpol.org.

ABOUT THE WORLD STEM CELL SUMMIT:The 2012 World Stem Cell Summit is presented by GPI and is co-organized by the Interdisciplinary Stem Cell Institute (ISCI) at the University of Miami Miller School of Medicine, Diabetes Research Institute, Beckman Research Institute at City of Hope, Karolinska Institute (home of the Nobel Prize in Physiology and Medicine), International Translational Regenerative Medicine Center (ITRC) and the Institute for Integrated Cell-Material Sciences (iCeMS) at Kyoto University. The Summit is the flagship meeting of the world stem cell community. The 2012 Summit will be held at the Palm Beach County Convention Center in West Palm Beach, Florida, December 3-5, 2012. For more information, visit http://www.worldstemcellsummit.com.

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Bernard Siegel to Deliver Keynote Addresses at Midwest Conference on Stem Cell Biology and Therapy and BioFlorida ...

NEW YORK, Oct. 2, 2012 (GLOBE NEWSWIRE) -- NeoStem, Inc. (NYSE MKT:NBS) ("NeoStem" or the "Company"), an emerging leader in the fast growing cell therapy market, today announced that Company management and management of its subsidiary, Progenitor Cell Therapy ("PCT"), have been invited to present at multiple conferences in October.

RetailInvestorConferences.com

The RedChip 15th Annual Fall Small-Cap Conference

Regenerative Medicine Foundation 2012 Conference

2012 Stem Cell Meeting on the Mesa, 2nd Annual Investor and Partnering Forum

About NeoStem, Inc.

NeoStem, Inc. continues to develop and build on its core capabilities in cell therapy, capitalizing on the paradigm shift that we see occurring in medicine. In particular, we anticipate that cell therapy will have a significant role in the fight against chronic disease and in lessening the economic burden that these diseases pose to modern society. We are emerging as a technology and market leading company in this fast developing cell therapy market. Our multi-faceted business strategy combines a state-of-the-art contract development and manufacturing subsidiary, Progenitor Cell Therapy, LLC ("PCT"), with a medically important cell therapy product development program, enabling near and long-term revenue growth opportunities. We believe this expertise and existing research capabilities and collaborations will enable us to achieve our mission of becoming a premier cell therapy company.

Our contract development and manufacturing service business supports the development of proprietary cell therapy products. NeoStem's most clinically advanced therapeutic, AMR-001, is being developed at Amorcyte, LLC ("Amorcyte"), which we acquired in October 2011. Amorcyte is developing a cell therapy for the treatment of cardiovascular disease and is enrolling patients in a Phase 2 trial to investigate AMR-001's efficacy in preserving heart function after a heart attack. Athelos Corporation ("Athelos"), which is approximately 80%-owned by our subsidiary, PCT, is collaborating with Becton-Dickinson in the early clinical exploration of a T-cell therapy for autoimmune conditions. In addition, pre-clinical assets include our VSELTM Technology platform as well as our mesenchymal stem cell product candidate for regenerative medicine. Our service business and pipeline of proprietary cell therapy products work in concert, giving us a competitive advantage that we believe is unique to the biotechnology and pharmaceutical industries. Supported by an experienced scientific and business management team and a substantial intellectual property estate, we believe we are well positioned to succeed.

For more information on NeoStem, please visit http://www.neostem.com.

Forward-Looking Statements for NeoStem, Inc.

Continued here:
NeoStem to Present at Multiple Conferences in October

ScienceDaily (Oct. 1, 2012) A novel therapy in the early stages of development at Virginia Commonwealth University Massey Cancer Center shows promise in providing lasting protection against the progression of multiple myeloma following a stem cell transplant by making the cancer cells easier targets for the immune system.

Outlined in the British Journal of Hematology, the Phase II clinical trial was led by Amir Toor, M.D., hematologist-oncologist in the Bone Marrow Transplant Program and research member of the Developmental Therapeutics program at VCU Massey Cancer Center. The multi-phased therapy first treats patients with a combination of the drugs azacitidine and lenalidomide. Azacitidine forces the cancer cells to express proteins called cancer testis antigens (CTA) that immune system cells called T-cell lymphocytes recognize as foreign. The lenalidomide then boosts the production of T-cell lymphocytes. Using a process called autologous lymphocyte infusion (ALI), the T-cell lymphocytes are then extracted from the patient and given back to them after they undergo a stem cell transplant to restore the stem cells' normal function. Now able to recognize the cancer cells as foreign, the T-cell lymphocytes can potentially protect against a recurrence of multiple myeloma following the stem cell transplant.

"Every cell in the body expresses proteins on their surface that immune system cells scan like a barcode in order to determine whether the cells are normal or if they are foreign. Because multiple myeloma cells are spawned from bone marrow, immune system cells cannot distinguish them from normal healthy cells," says Toor. "Azacitidine essentially changes the barcode on the multiple myeloma cells, causing the immune system cells to attack them," says Toor.

The goal of the trial was to determine whether it was safe, and even possible, to administer the two drugs in combination with an ALI. In total, 14 patients successfully completed the investigational drug therapy. Thirteen of the participants successfully completed the investigational therapy and underwent a stem cell transplant. Four patients had a complete response, meaning no trace of multiple myeloma was detected, and five patients had a very good partial response in which the level of abnormal proteins in their blood decreased by 90 percent.

In order to determine whether the azacitidine caused an increased expression of CTA in the multiple myeloma cells, Toor collaborated with Masoud Manjili, D.V.M., Ph.D., assistant professor of microbiology and immunology at VCU Massey, to conduct laboratory analyses on bone marrow biopsies taken from trial participants before and after treatments. Each patient tested showed an over-expression of multiple CTA, indicating the treatment was successful at forcing the cancer cells to produce these "targets" for the immune system.

"We designed this therapy in a way that could be replicated, fairly inexpensively, at any facility equipped to perform a stem cell transplant," says Toor. "We plan to continue to explore the possibilities of immunotherapies in multiple myeloma patients in search for more effective therapies for this very hard-to-treat disease."

In addition to Manjili, Toor collaborated with John McCarty, M.D., director of the Bone Marrow Transplant Program at VCU Massey, and Harold Chung, M.D., William Clark, M.D., Catherine Roberts, Ph.D., and Allison Hazlett, also all from Massey's Bone Marrow Transplant Program; Kyle Payne, Maciej Kmieciak, Ph.D., from Massey and the Department of Microbiology and Immunology at VCU School of Medicine; Roy Sabo, Ph.D., from VCU Department of Biostatistics and the Developmental Therapeutics program at Massey; and David Williams, M.D., Ph.D., from the Department of Pathology at VCU School of Medicine, co-director of the Tissue and Data Acquisition and Analysis Core and research member of the Developmental Therapeutics program at Massey.

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Immune system harnessed to improve stem cell transplant outcomes

HOUSTON, Oct. 1, 2012 /PRNewswire/ --The Houston Stem Cell Summit will host an extraordinary lineup of keynote speakers who represent the most accomplished stem cell scientists, clinicians and entrepreneurs in the United States. Joining these distinguished speakers will be Governor of Texas, Rick Perry, consistent champion of adult stem cell therapies.

(Logo: http://photos.prnewswire.com/prnh/20120831/NY66463LOGO )

The Houston Stem Cell Summit will be held October 26 27 in its namesake city and will highlight the latest therapeutic research regarding the use of adult stem and progenitor cell therapies. The Summit will also provide a forum for entrepreneurs to discuss their latest efforts to commercialize stem cell therapies, and to debate and discuss FDA and other legal and regulatory issues impacting stem cell research and commercialization.

Opening Keynote Address October 26, 2012 Arnold I. Caplan, PhD, Professor of Biology and Professor of General Medical Sciences (Oncology) Case Western Reserve University

Dr. Caplan has helped shape the direction and focus of adult stem cell research and commercialization. Virtually every adult stem cell company and literally tens of thousands of research papers are based on Dr. Caplan's original and ground breaking research. Professor Caplan is considered to be the "father" of the mesenchymal stem cell and first described this progenitor cell in his landmark paper; "Mesenchymal stem cells", Journal of Orthopaedic Research 1991;9(5):641-650. Since that foundational study, Dr. Caplan has published over 360 manuscripts and articles in peer reviewed journals. Dr. Caplan has been Chief Scientific Officer at OrthoCyte Corporation since 2010. In addition, Dr. Caplan co-founded Cell Targeting Inc. and has served as President of Skeletech, Inc. as its founder. He is the recipient of several honors and awards from the orthopedic research community. Dr. Caplan holds a Ph. D. from Johns Hopkins University Medical School and a B.S. in chemistry from the Illinois Institute of Technology.

Summit Keynote Address October 26, 2012 Texas Governor Rick Perry

Governor Perry is the 47th and current Governor of Texas. Governor Perry has long championed the role of medical technologies in building the future of not only Texas, but also the United States. In many ways, his strong advocacy on behalf of research and advanced medical technologies is one of his strongest and as yet underappreciated legacies. In addition to his service to the state of Texas, Governor Perry has also served as Chairman of the Republican Governors Association in 2008 and again in 2011. Despite a rigorous schedule, particularly in the teeth of this election season, Governor Perry has graciously made time to speak and encourage the researchers, patients, companies and physicians who form the fabric and future of the stem cell therapy community.

Texas Medical Center Keynote Address, October 27, 2012 James T. Willerson, MD

Over the course of his career, Dr. James T. Willerson has served as a medical, scientific and administrative leader for each of the major institutions that are the foundation of the Texas Medical Center. Dr. Willerson is currently President and Medical Director, Director of Cardiology Research, and Co-Director of the Cullen Cardiovascular Research Laboratories at Texas Heart Institute (THI). Dr. Willerson was appointed President-Elect of THI in 2004 and became President and Medical Director in 2008. He is also an adjunct professor of Medicine at Baylor College of Medicine and at The University of Texas MD Anderson Cancer Center. He is the former chief of Cardiology at St. Luke's Episcopal Hospital and the former chief of Medical Services at Memorial Hermann Hospital.

Dr. Willerson has served as a visiting professor and invited lecturer at more than 170 institutions.

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Houston Stem Cell Summit Announces Extraordinary Lineup of Keynote Speakers

For more than 40 years, Lesley Kelly of Glasgow, Scotland, lived with third-degree burns that stretched over 60 percent of her body.

Kelly was 2 years old when she fell into a bathtub filled with hot water that scorched most of the right side of her body. She lost full range of motion around many of her joints.

"When you have bad scarring, the buildup is very thick and has no elasticity," said Kelly, 45, whose right elbow was most affected by the buildup of scar tissue. "The problem with thermal burn scarring [is that] it's hard to get the range of motion."

Kelly underwent numerous reparative surgeries through the years, but the scar tissue continued to grow back. The procedures did not lessen the look of her scars.

In 2011, Kelly underwent a new, experimental procedure that used stem cells from her own fat tissue to repair the buildup around her right elbow.

Surgeons cleaned the scar buildup around the elbow and used liposuction to pull fat from off Kelly's waist. They separated the fat cells from the stem and regenerative cells, which were then injected into the wound on Kelly's arm. The procedure took less than two hours.

Within months, Kelly was able to regain 40 degrees of motion that she had lost more than 40 years ago.

"If this technology was available earlier in my life, my scars would not have been as bad," said Kelly.

There are an estimated 50,000 to 70,000 burn cases each year in the U.S., according to the American Burn Association.

The stem cell therapy, approved in the U.K. to treat soft tissue wounds, is now gaining traction in the U.S.

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Experimental Stem Cell Therapy May Help Burn Victims

Lesley Kelly, 45, underwent stem cell therapy to repair scar tissue buildup in her right arm. (Cytori Therapeutics, Inc.)

By Lara Salahi, ABC News For more than 40 years, Lesley Kelly of Glasgow, Scotland, lived with third-degree burns that stretched over 60 percent of her body.

Kelly was 2 years old when she fell into a bathtub filled with hot water that scorched most of the right side of her body. She lost full range of motion around many of her joints.

"When you have bad scarring, the buildup is very thick and has no elasticity," said Kelly, 45, whose right elbow was most affected by the buildup of scar tissue. "The problem with thermal burn scarring [is that] it's hard to get the range of motion."

Kelly underwent numerous reparative surgeries through the years, but the scar tissue continued to grow back. The procedures did not lessen the look of her scars.

In 2011, Kelly underwent a new, experimental procedure that used stem cells from her own fat tissue to repair the buildup around her right elbow.

Surgeons cleaned the scar buildup around the elbow and used liposuction to pull fat from off Kelly's waist. They separated the fat cells from the stem and regenerative cells, which were then injected into the wound on Kelly's arm. The procedure took less than two hours.

Within months, Kelly was able to regain 40 degrees of motion that she had lost more than 40 years ago.

"If this technology was available earlier in my life, my scars would not have been as bad," said Kelly.

There are an estimated 50,000 to 70,000 burn cases each year in the U.S., according to the American Burn Association.

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New Therapy May Help Burn Victims

By Sharmistha Banerjee - September 25, 2012 | Tickers: NBS, OSIR, PSTI | 0 Comments

Sharmistha is a member of The Motley Fool Blog Network -- entries represent the personal opinions of our bloggers and are not formally edited.

Far-reaching accomplishments in the biotechnology sector meet its most ambitious expectations, stem cell therapy. The birth of this new industry has boosted the enthusiasm and energy of investors and has brought unprecedented capability and optimistic predictions. New developments in regenerative medicine are bringing about exciting, novel approaches to create therapies for hard to treat diseases. The biotechnology industry has been soaring in 2012 as companies both large and small have shown impressive growth.

The cell therapy space has seen relatively small companies making strides in the right direction with increased government support. Osiris Therapeutics (NASDAQ: OSIR) a leading stem cell company is currently the only company with an approved cell therapy. The approval is more of a first step in a long walk for Osiris. Reuters reported that shares of Osiris Therapeutics rose 15% on May 30, 2012, after U.S. health regulators said the stem cell technology company's wound treatment was eligible for reimbursement when used in hospitals in out-patient settings or in ambulances. The company carries over a $300 million market capitalization and trades at $9.50 per share, primarily on the strength of a recent Canadian approval for its stem cell drug for graft-versus-host disease. Osiris Therapeutics has a 1-year low of $4.12 and a 1-year high of $14.46. The company has a market cap of $311.3 million and a price-to-earnings ratio of 90.98. Investors are impressed and optimistic with Osiris progress in cell-based therapies. They currently have a $9.75 target price on the stock. Despite having to negotiate a more challenging regulation process the company has continued to show investors strong gains in 2012.With a current ratio of 8.51 and debt equity of (0.00%) the company boasts of a financially secure position in the market.

Pluristem Therapeutics (NASDAQ: PSTI) a small firm with a market cap of less than $180 million has been concentrating on its placenta-based cell therapies, is considered one of the more advanced in the cell therapy arena, and unlike OSIR, its lead candidates treat diseases that could potentially return significant revenue. The upside for PSTI is lower costs, quicker healing time, ease of administration, and most importantly, it can grow vessels and provide the possibility of a cure, which has led to optimism surrounding the stock. Shares of Pluristem Therapeutics are up over 3.98% and most likely headed higher in the days ahead. It has traded higher by 85% during the last three months and is now valued at $200 million. Pluristem may actually beat OSIR in the race to become the first U.S. approved cell therapy with its bone marrow therapy, in which it has recently applied for approval. Pluristem is a company that I think is showing great promise. From the stock's action in the last several months, it is clear investors recognize that Pluristem's unique platform technology has the potential for tremendous value in a lucrative range of medical markets both the very large and the very small. The company wins both ways. Its clinical segment is creating candidates with large revenue potential, with analysts projecting peak sales of $700 million for AMR-001, which treats patients following acute myocardial infarction. The company is reasonably well funded with around $42 million in cash and cash equivalents.

NeoStem (NYSEMKT: NBS) is by far the leader in regards to the manufacturing business, and no other company comes close. In addition, its stock has returned the most over in the last three months, with a 100% gain. NeoStem stocks looks promising as a biotechnology investment. First, the company is focusing on several promising areas of new stem cell treatment development. Second, its contract manufacturing business brings in revenues to offset some of its drug development expenditures. Third, the contract manufacturing business could earn substantial royalties if any of the products on which it works with customers proves to be a commercial success. NeoStem's manufacturing segment which is also known as PCT, is well positioned to return larger gains over the next 24 months with several late stage candidates under development. a $110 million company that has increased in value by 70% during the last three months, In addition to the PCT business, NeoStem's most promising therapy is aimed at preventing major cardiac problems following acute myocardial infarction (AMI), an area that is potentially a multibillion-dollar business. NeoStem's therapy is meeting endpoints never before reached,

The three companies discussed above are showing much potential for growth and each present a significant upward shift in the current stock prices while contributing greatly to the advances of cell therapy.

Osiris is the closest to generating substantial revenue by already having two approvals, and is currently testing its therapy on other diseases, thereby leaving open the possibility of future gains. Pluristem has candidates to treat diseases in potentially large markets, and is expanding with its manufacturing facility. Although Stem Cells is in the early phases of development, it still has a very innovating therapy that, if proven effective, could advance the space even further. NeoStem possesses all the benefits of an innovating technology, a diversified pipeline, and is a candidate with significant revenue potential.

At this point, it appears that the entire space is moving forward and has lifted observers' expectations by making rapid progress. It makes sense that these three stocks would trade with such considerable gains, as investors can now identify the benefits of cell therapies. And as more approvals occur, it could be a space that trades considerably higher regardless of the market's indecisiveness. With the sector growing and maturing, investing in biotech stocks seems a promising choice in future.

SharmisthaB has no positions in the stocks mentioned above. The Motley Fool has no positions in the stocks mentioned above. Try any of our Foolish newsletter services free for 30 days. We Fools may not all hold the same opinions, but we all believe that considering a diverse range of insights makes us better investors. The Motley Fool has a disclosure policy.If you have questions about this post or the Fools blog network, click here for information.

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Stem Cell Therapy—Breakthrough in Health Paradigm

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Probe sought into status of stem cell therapy in the Philippines

According to Aristotle, only the Pentacosiomedimnoi were eligible for election to high office as archons and therefore only they gained admission into the Areopagus. A modern view affords the same privilege to the hippeis. The top three classes were eligible for a variety of lesser posts and only the Thetes were excluded from all public office.

Depending on how we interpret the historical facts known to us, Solon's constitutional reforms were either a radical anticipation of democratic government, or they merely provided a plutocratic flavour to a stubbornly aristocratic regime, or else the truth lies somewhere between these two extremes.

Solon's reforms can thus be seen to have taken place at a crucial period of economic transition, when a subsistence rural economy increasingly required the support of a nascent commercial sector. The specific economic reforms credited to Solon are these: Fathers were encouraged to find trades for their sons; if they did not, there would be no legal requirement for sons to maintain their fathers in old age. Foreign tradesmen were encouraged to settle in Athens; those who did would be granted citizenship, provided they brought their families with them. Cultivation of olives was encouraged; the export of all other produce was prohibited. Competitiveness of Athenian commerce was promoted through revision of weights and measures, possibly based on successful standards already in use elsewhere, such as Aegina or Euboia or, according to the ancient account but unsupported by modern scholarship, Argos

It is generally assumed, on the authority of ancient commentators that Solon also reformed the Athenian coinage. However, recent numismatic studies now lead to the conclusion that Athens probably had no coinage until around 560 BC, well after Solon's reforms.

Solon's economic reforms succeeded in stimulating foreign trade. Athenian black-figure pottery was exported in increasing quantities and good quality throughout the Aegean between 600 BC and 560 BC, a success story that coincided with a decline in trade in Corinthian pottery. The ban on the export of grain might be understood as a relief measure for the benefit of the poor. However, the encouragement of olive production for export could actually have led to increased hardship for many Athenians since it would have led to a reduction in the amount of land dedicated to grain. Moreover an olive produces no fruit for the first six years. The real motives behind Solon's economic reforms are therefore as questionable as his real motives for constitutional reform. Were the poor being forced to serve the needs of a changing economy, or was the economy being reformed to serve the needs of the poor?

Solon's reform of these injustices was later known and celebrated among Athenians as the Seisachtheia (shaking off of burdens). As with all his reforms, there is considerable scholarly debate about its real significance. Many scholars are content to accept the account given by the ancient sources, interpreting it as a cancellation of debts, while others interpret it as the abolition of a type of feudal relationship, and some prefer to explore new possibilities for interpretation. prohibition on a debtor's person being used as security for a loan. release of all Athenians who had been enslaved.

The removal of the horoi clearly provided immediate economic relief for the most oppressed group in Attica, and it also brought an immediate end to the enslavement of Athenians by their countrymen. Some Athenians had already been sold into slavery abroad and some had fled abroad to escape enslavement Solon proudly records in verse the return of this diaspora. It has been cynically observed, however, that few of these unfortunates were likely to have been recovered. It has been observed also that the seisachtheia not only removed slavery and accumulated debt, it also removed the ordinary farmer's only means of obtaining further credit.

The seisachtheia however was merely one set of reforms within a broader agenda of moral reformation. Other reforms included: the abolition of extravagant dowries. legislation against abuses within the system of inheritance, specifically with relation to the epikleros (i.e. a female who had no brothers to inherit her father's property and who was traditionally required to marry her nearest paternal relative in order to produce an heir to her father's estate). entitlement of any citizen to take legal action on behalf of another. the disenfranchisement of any citizen who might refuse to take up arms in times of civil strife, a measure that was intended to counteract dangerous levels of political apathy.

The personal modesty and frugality of the rich and powerful men of Athens in the city's subsequent golden age have been attested to by Demosthenes. Perhaps Solon, by both personal example and legislated reform, established a precedent for this decorum. A heroic sense of civic duty later united Athenians against the might of the Persians. Perhaps this public spirit was instilled in them by Solon and his reforms. Also see Solon and Athenian sexuality

The literary merit of Solon's verse is generally considered unexceptional. Solon the poet can be said to appear 'self-righteous' and 'pompous' at times and he once composed an elegy with moral advice for a more gifted elegiac poet, Mimnermus. Most of the extant verses show him writing in the role of a political activist determined to assert personal authority and leadership and they have been described by the German classicist Wilamowitz as a "versified harangue" (Eine Volksrede in Versen). According to Plutarch however, Solon originally wrote poetry for amusement, discussing pleasure in a popular rather than philosophical way. Solon's elegiac style is said to have been influenced by the example of Tyrtaeus. He also wrote iambic and trochaic verses which, according to one modern scholar, are more lively and direct than his elegies and possibly paved the way for the iambics of Athenian drama.

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Solon urges Congress to conduct cursory check on the status of stem cell therapy in the country (15966897)

NEW YORK, Sept. 19, 2012 (GLOBE NEWSWIRE) -- NeoStem, Inc. (NYSE MKT:NBS) ("NeoStem" or the "Company"), a rapidly emerging market leader in the fast growing cell therapy market, today announced that Company management has been invited to participate at BIOX, the Noble Financial Capital Markets' Life Sciences Exposition on Monday, September 24. Company management will make a webcasted company presentation and participate in a cell therapy panel.

Noble Financial Capital Markets Investor Conference - BIOX Life Sciences Exposition

For more information about the conference, please visit http://www.nobleresearch.com/BIOX.htm.

About NeoStem, Inc.

NeoStem, Inc. continues to develop and build on its core capabilities in cell therapy, capitalizing on the paradigm shift that we see occurring in medicine. In particular, we anticipate that cell therapy will have a significant role in the fight against chronic disease and in lessening the economic burden that these diseases pose to modern society. We are emerging as a technology and market leading company in this fast developing cell therapy market. Our multi-faceted business strategy combines a state-of-the-art contract development and manufacturing subsidiary, Progenitor Cell Therapy, LLC ("PCT"), with a medically important cell therapy product development program, enabling near and long-term revenue growth opportunities. We believe this expertise and existing research capabilities and collaborations will enable us to achieve our mission of becoming a premier cell therapy company.

Our contract development and manufacturing service business supports the development of proprietary cell therapy products. NeoStem's most clinically advanced therapeutic, AMR-001, is being developed at Amorcyte, LLC ("Amorcyte"), which we acquired in October 2011. Amorcyte is developing a cell therapy for the treatment of cardiovascular disease and is enrolling patients in a Phase 2 trial to investigate AMR-001's efficacy in preserving heart function after a heart attack. Athelos Corporation ("Athelos"), which is approximately 80%-owned by our subsidiary, PCT, is collaborating with Becton-Dickinson in the early clinical exploration of a T-cell therapy for autoimmune conditions. In addition, pre-clinical assets include our VSELTM Technology platform as well as our mesenchymal stem cell product candidate for regenerative medicine. Our service business and pipeline of proprietary cell therapy products work in concert, giving us a competitive advantage that we believe is unique to the biotechnology and pharmaceutical industries. Supported by an experienced scientific and business management team and a substantial intellectual property estate, we believe we are well positioned to succeed.

For more information on NeoStem, please visit http://www.neostem.com.

Forward-Looking Statements for NeoStem, Inc.

This press release contains forward-looking statements within the meaning of the Private Securities Litigation Reform Act of 1995. Forward-looking statements reflect management's current expectations, as of the date of this press release, and involve certain risks and uncertainties. Forward-looking statements include statements herein with respect to the successful execution of the Company's business strategy, including with respect to the Company's or its partners' successful development of AMR-001 and other cell therapeutics, the size of the market for such products, its competitive position in such markets, the Company's ability to successfully penetrate such markets and the market for its CDMO business, and the efficacy of protection from its patent portfolio, as well as the future of the cell therapeutics industry in general, including the rate at which such industry may grow. Forward looking statements also include statements with respect to satisfying all conditions to closing the disposition of Erye, including receipt of all necessary regulatory approvals in the PRC. The Company's actual results could differ materially from those anticipated in these forward- looking statements as a result of various factors, including but not limited to (i) the Company's ability to manage its business despite operating losses and cash outflows, (ii) its ability to obtain sufficient capital or strategic business arrangement to fund its operations, including the clinical trials for AMR-001, (iii) successful results of the Company's clinical trials of AMR-001 and other cellular therapeutic products that may be pursued, (iv) demand for and market acceptance of AMR-001 or other cell therapies if clinical trials are successful and the Company is permitted to market such products, (v) establishment of a large global market for cellular-based products, (vi) the impact of competitive products and pricing, (vii) the impact of future scientific and medical developments, (viii) the Company's ability to obtain appropriate governmental licenses and approvals and, in general, future actions of regulatory bodies, including the FDA and foreign counterparts, (ix) reimbursement and rebate policies of government agencies and private payers, (x) the Company's ability to protect its intellectual property, (xi) the company's ability to successfully divest its interest in Erye, and (xii) matters described under the "Risk Factors" in the Company's Annual Report on Form 10-K filed with the Securities and Exchange Commission on March 20, 2012 and in the Company's other periodic filings with the Securities and Exchange Commission, all of which are available on its website. The Company does not undertake to update its forward-looking statements. The Company's further development is highly dependent on future medical and research developments and market acceptance, which is outside its control.

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NeoStem to Present at Noble Capital Markets' Life Sciences Exposition on September 24

Public release date: 11-Sep-2012 [ | E-mail | Share ]

Contact: Kim Irwin kirwin@mednet.ucla.edu 310-435-9457 University of California - Los Angeles Health Sciences

UCLA stem cell researchers have found that a gene therapy regimen can safely restore immune systems to children with so-called "Bubble Boy" disease, a life threatening condition that if left untreated can be fatal within one to two years.

In the 11-year study, researchers were able to test two therapy regimens for 10 children with ADA-deficient severe combined immunodeficiency (SCID). During the study, they refined their approach to include a light dose of chemotherapy to help remove many of the blood stem cells in the bone marrow that are not creating an enzyme called adenosine deaminase (ADA), which is critical for the production and survival of healthy white blood cells, said study senior Dr. Donald Kohn, a professor of pediatrics and of microbiology, immunology, and molecular genetics in Life Sciences and a member of the Eli and Edythe Broad Center of Regenerative Medicine and Stem Cell Research at UCLA.

The refined gene therapy and chemotherapy regimen proved superior to the other method tested in the study, restoring immune function to three of the six children who received it, Kohn said. Going forward, an even further refined regimen using a different type of virus delivery system will be studied in the next phase of the study, which already has enrolled eight of the 10 patients needed.

The study appears Aug. 30 in the advance online issue of the peer-reviewed journal Blood.

"We were very happy that in the human trials we were able to see a benefit in the patients after we modified the protocol," Kohn said. "Doctors treating ADA-deficient SCID have had too few options for too long, and we hope this will provide them with an efficient and effective treatment for this devastating disease."

Children born with SCID, an inherited immunodeficiency, are generally diagnosed at about six months. They are extremely vulnerable to infectious diseases and don't grow well. Chronic diarrhea, ear infections, recurrent pneumonia and profuse oral candidiasis commonly occur in these children. SCID cases occur in about 1 of 100,000 births

Currently, the only treatment for ADA-deficient SCID calls for injecting the patients twice a week with the necessary enzyme, Kohn said, a life-long process that is very expensive and often doesn't return the immune system to optimal levels. These patients also can undergo bone marrow transplants from matched siblings, but matches can be very rare.

About 15 percent of all SCID patients are ADA-deficient. Kohn and his team used a virus delivery system that he had developed in his lab in the 1990s to restore the gene that produces the missing enzyme necessary for a healthy immune system. To date, about 40 children with SCID have received gene therapy in clinical trials around the world, Kohn said.

Continued here:
UCLA stem cell researchers use gene therapy to restore immune systems in 'bubble babies'

ScienceDaily (Sep. 11, 2012) UCLA stem cell researchers have found that a gene therapy regimen can safely restore immune systems to children with so-called "Bubble Boy" disease, a life threatening condition that if left untreated can be fatal within one to two years.

In the 11-year study, researchers were able to test two therapy regimens for 10 children with ADA-deficient severe combined immunodeficiency (SCID). During the study, they refined their approach to include a light dose of chemotherapy to help remove many of the blood stem cells in the bone marrow that are not creating an enzyme called adenosine deaminase (ADA), which is critical for the production and survival of healthy white blood cells, said study senior Dr. Donald Kohn, a professor of pediatrics and of microbiology, immunology, and molecular genetics in Life Sciences and a member of the Eli and Edythe Broad Center of Regenerative Medicine and Stem Cell Research at UCLA.

The refined gene therapy and chemotherapy regimen proved superior to the other method tested in the study, restoring immune function to three of the six children who received it, Kohn said. Going forward, an even further refined regimen using a different type of virus delivery system will be studied in the next phase of the study, which already has enrolled eight of the 10 patients needed.

The study appears Aug. 30 in the advance online issue of the peer-reviewed journal Blood.

"We were very happy that in the human trials we were able to see a benefit in the patients after we modified the protocol," Kohn said. "Doctors treating ADA-deficient SCID have had too few options for too long, and we hope this will provide them with an efficient and effective treatment for this devastating disease."

Children born with SCID, an inherited immunodeficiency, are generally diagnosed at about six months. They are extremely vulnerable to infectious diseases and don't grow well. Chronic diarrhea, ear infections, recurrent pneumonia and profuse oral candidiasis commonly occur in these children. SCID cases occur in about 1 of 100,000 births

Currently, the only treatment for ADA-deficient SCID calls for injecting the patients twice a week with the necessary enzyme, Kohn said, a life-long process that is very expensive and often doesn't return the immune system to optimal levels. These patients also can undergo bone marrow transplants from matched siblings, but matches can be very rare.

About 15 percent of all SCID patients are ADA-deficient. Kohn and his team used a virus delivery system that he had developed in his lab in the 1990s to restore the gene that produces the missing enzyme necessary for a healthy immune system. To date, about 40 children with SCID have received gene therapy in clinical trials around the world, Kohn said.

Two slightly different viral vectors were tested in the study, each modified to deliver healthy ADA genes into the bone marrow cells of the patients so the needed enzyme could be produced and make up for the cells that don't have the gene. Four of the 10 patients in the study remained on their enzyme replacement therapy during the gene therapy study. There were no side effects, but their immune systems were not sufficiently restored, Kohn said.

In the next six patients, the enzyme therapy was stopped and a small dose of chemotherapy was given before starting the gene therapy to deplete the ADA-deficient stem cells in their bone marrow. Of those patients, half had their immune systems restored. The human findings confirmed another study, also published recently in Blood by Kohn and UCLA colleague Dr. Denise Carbonaro-Sarracino, which tested the techniques in parallel, using a mouse model of ADA-deficient SCID.

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Stem cell researchers use gene therapy to restore immune systems in 'Bubble Boy' disease

By Leila B. Salaverria Philippine Daily Inquirer

Former President and now Pampanga Rep. Gloria Macapagal Arroyo: Stem cell treatment

MANILA, PhilippinesLike her predecessor, former President and Pampanga lawmaker Gloria Macapagal Arroyo has turned to stem cell therapy in an effort to improve her health.

Arroyo said in her official Twitter account that she would have her fourth stem cell intravenous treatment with her alternative medicine doctor on Monday.

Arroyo said her treatment would involve cultured stem cells, and it would be much more modest in price than the one coming from sheep or ones own body.

A close friend and ally of Arroyo, Quezon Representative Danilo Suarez, confirmed that the President has started stem cell therapy, and that she told him that the stem cells she has been using did not come from lamb placenta, and was the less costly form of stem cell treatment.

If you have a lot of health problems, you will try such things, Suarez said on Sunday.

Suarez said he has even filed a resolution to investigate the practice of stem cell treatments in the country, as well as the claims being made about it, considering that it has been gaining popularity.

The public needs to be better informed about it. It might have setbacks that we need to know about, he said.

The therapy involves the use of fresh cells, which are injected into the body to regenerate cells to treat illnesses or reverse aging.

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Arroyo undergoes 4th stem cell treatment

Former President and now Pampanga Rep. Gloria Macapagal-Arroyo will undergo stem cell therapy on Monday with an alternative medicine doctor.

Arroyo, in a post on her Twitter account Saturday morning, said Monday's session will be her fourth intravenous treatment.

"This Monday I will have my fourth stem cell intravenous treatment with my alternative medicine doctor," she said.

Also she said, "It's cultured stem cell and much more modest in price than the one coming from sheep or one's own body."

But she did not elaborate on how much the treatment will cost.

Stem cell therapy is type of intervention strategy that introduces new adult stem cells into damaged tissue in order to treat disease or injury.

Earlier this week, Arroyo said she continues to search for alternative solutions to an anatomic problem that prompted her to be rushed to a government hospital last month.

Arroyo said she had seen at least two "alternative medicine practitioners," and has initiated communication with a "neurocervical spine purist."

She said she also had her thrice-weekly therapy at the Veterans Memorial Medical Center (VMMC) in Quezon City Thursday.

Arroyo underwent treatment last August for an anatomic problem that caused her to choke on her food.

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Gloria Arroyo to have stem cell treatment Monday

Laking pasasalamat ni Albert Martinez at ng kanyang pamilya na cleared na sa breast cancer ang asawa niyang si Liezl Martinez.

Kuwento ni Albert sa PEP.ph (Philippine Entertainment Portal), sa tulong daw ng stem cell therapy ay naging cancer-free ang asawa.

Ok naman, so far with Gods blessing,. Its all cleared. So, were very, very happy.

Dealing with cancer is a struggle from day one, and Im really thankful that theres such a thing as stem cell na naging solusyon sa recovery ni Liezl."

EXTENSIVE RESEARCH. Ayon kay Albert ay pinag-aralan niya ang lahat ng puwedeng maging solusyon sa sakit ng asawa.

Pero sa huli, ang stem cell pa rin ang naging solusyon.

Marami akong pinagdaanan kasi ni-research ko lahat yan.

Kailangang alamin mo kung ano ba ang mga dapat gawin. Lahat pinag-aralan natin

And nag-end up talaga, na ang pinakamaganda is stem cell.

I took the risk, researched on the possibilities of doing it, availability niya.

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Albert Martinez claims stem cell therapy cleared wife Liezl Martinez of breast cancer

Public release date: 6-Sep-2012 [ | E-mail | Share ]

Contact: Sally Stewart Sally.stewart@cshs.org 310-248-6566 Cedars-Sinai Medical Center

LOS ANGELES Sept. 6, 2012 A team of Cedars-Sinai Heart Institute stem cell researchers today was awarded a $1.3 million grant from the California Institute of Regenerative Medicine to continue study of an experimental stem cell therapy that treats heart attack patients with heart-derived cells. Earlier this year, data from the first clinical trial of the stem cell treatment showed the therapy helped damaged hearts regrow healthy muscle.

To date, this cell therapy, developed by Eduardo Marbn, MD, PhD, director of the Cedars-Sinai Heart Institute and Mark S. Siegel Family Professor, is the only treatment shown to regenerate the injured human heart. In this therapy, human heart tissue is used to grow specialized heart stem cells, which then are injected back into the patient's heart. The new research will focus on understanding the cellular mechanisms that have produced favorable outcomes.

"We have seen encouraging results in patients with this treatment, and it has the potential to revolutionize how we treat heart attack patients," Marbn said. "This further study will allow us to better understand how it works, which we hope will lead us to even more stem-cell based treatments for the heart."

During a heart attack, clots form suddenly on top of cholesterol-laden plaques, which block the flow of blood to the heart muscle. This causes living heart tissue to die and be replaced by a scar. The larger the scar, the higher the chance of death or disability from the heart attack.

Conventional treatments aim to limit the initial injury by opening the clogged artery and prevent further harm with medications. Regenerative therapy aims to regrow healthy heart muscle and dissolve the heart tissue -- an approach that, according to a study by Marbn published in The Lancet, led to an average 50 percent reduction in scar size.

Early study by Cedars-Sinai researchers indicates that much of the benefit in the experimental therapy is due to an indirect effect of the transplanted cardiac-derived cells. These cells seem to stimulate proliferation of the surrounding undamaged heart cells -- a previously unrecognized means of cardiac regeneration in response to cell therapy.

"This is vital basic science work that we believe will ultimately open pathways to new treatments in the fight against heart disease, the leading cause of premature death and disability," Marbn said.

The process to grow the cardiac-derived stem cells involved in the study was developed by Marbn when he was on the faculty of Johns Hopkins University. The university has filed for a patent on that intellectual property, and has licensed it to a company in which Dr. Marbn has a financial interest.

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Cedars-Sinai Heart Institute awarded $1.3 million to study cardiac stem cells

NEW YORK, Sept. 5, 2012 (GLOBE NEWSWIRE) -- NeoStem, Inc. (NBS) ("NeoStem" or the "Company"), a cell therapy company, today announced that Company management of a NeoStem company, Progenitor Cell Therapy ("PCT"), an internationally recognized contract development and manufacturing organization (CDMO), has been invited to present on its core expertise in development of commercial manufacturing processes for cell therapy at two cell therapy conferences in September. At each, PCT will offer its unique perspective as an industry leader in contract development and manufacturing of cell therapy products, with over 12 years of exclusive cell-therapy focused experience.

Timothy Fong, Ph.D, M.B.A, PCT's Vice President, Technology and Product Development, will be sharing PCT's expertise in cell therapy manufacturing with a focus on commercialization. At IBC Life Sciences' Cell Therapy Bioprocessing Conference, he will chair a panel on quality assurance and controls and will give a presentation entitled "From Concept to Product: Considerations for Developing a Robust Commercial Manufacturing Process", which will include considerations for developing a robust commercial manufacturing process. He will also speak at the Stem Cells USA and Regenerative Medicine Congress on "Cell manufacturing considerations for first-in-world stem cell therapeutics".

Dr. Fong stated, "As a cell therapeutic progresses from concept to product, the development of a commercial manufacturing process may contain unexpected technical and quality issues. The development path should follow several defined steps. My presentations will discuss the key steps in the process and highlight critical areas that need to be addressed to develop a successful commercial manufacturing process. PCT helps clients bridge the gap between discovery and patient care through efficient transfer of cell-based therapies from laboratory into clinical practice."

NeoStem and PCT invite you to attend the conference(s), see Dr. Fong's talks, and connect with the PCT team at PCT's booths. If you are a colleague of PCT or NeoStem, PCT can offer you a registration discount. Please contact PCT at bdm@pctcelltherapy.com for more details.

IBC Life Sciences' 2nd Annual Cell Therapy Bioprocessing Conference

Terrapinn 4th Annual Stem Cells USA and Regenerative Medicine Congress

About NeoStem, Inc.

NeoStem, Inc. continues to develop and build on its core capabilities in cell therapy capitalizing on the paradigm shift that we see occurring in medicine. In particular, we anticipate that cell therapy will have a large role in the fight against chronic disease and in lessening the economic burden that these diseases pose to modern society. We are emerging as a technology and market leading company in this fast developing cell therapy market. Our multi-faceted business strategy combines a state-of-the-art contract development and manufacturing subsidiary, Progenitor Cell Therapy, LLC ("PCT") with a medically important cell therapy product development program, enabling near and long-term revenue growth opportunities. We believe this expertise and existing research capabilities and collaborations will enable us to achieve our mission of becoming a premier cell therapy company.

Our contract development and manufacturing service business supports the development of proprietary cell therapy products. NeoStem's most clinically advanced therapeutic, AMR-001, is being developed at Amorcyte, LLC ("Amorcyte"), which we acquired in October 2011. Amorcyte is developing a cell therapy for the treatment of cardiovascular disease and is enrolling patients in a Phase 2 trial to investigate AMR-001's efficacy in preserving heart function after a heart attack. Athelos Corporation ("Athelos"), which is approximately 80%-owned by our subsidiary, PCT, is collaborating with Becton-Dickinson in the early clinical exploration of a T-cell therapy for autoimmune conditions. In addition, pre-clinical assets include our VSELTM Technology platform as well as our mesenchymal stem cells product candidate for regenerative medicine. Our service business and pipeline of proprietary cell therapy products work in concert, giving us a competitive advantage that we believe is unique to the biotechnology and pharmaceutical industries. Supported by an experienced scientific and business management team and a patent and patent pending (IP) portfolio, we believe we are well positioned to succeed.

For more information on NeoStem, please visit http://www.neostem.com. For more information on PCT, please visit http://www.pctcelltherapy.com.

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Progenitor Cell Therapy, a NeoStem Company, Invited to Present at Two Conferences in September

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

AlloCure, Inc. today announced that it has initiated a phase 2 clinical trial of AC607, the companys mesenchymal stem cell therapy, as a potential treatment for acute kidney injury (AKI). The randomized, double-blind, placebo-controlled, multi-center trial, designated ACT-AKI (AC607 Trial in Acute Kidney Injury) (NCT01602328), will enroll 200 cardiac surgery subjects at leading tertiary care centers in the United States.

ACT-AKI follows the positive results from a phase 1 AC607 trial in cardiac surgery subjects, which showed an excellent safety profile and encouraging data on the incidence of AKI and hospital length of stay, said Robert M. Brenner, M.D., AlloCure President and Chief Executive Officer. We have worked closely with leaders in the field on the design of ACT-AKI, and trial initiation represents an important milestone for AlloCure and the patients we collectively serve.

AC607 is a promising therapeutic candidate for AKI, for which effective therapies are greatly needed, said Richard J. Glassock, M.D., Emeritus Professor of Medicine at the Geffen School of Medicine at the University of California, Los Angeles. The initiation of ACT-AKI represents a critical step in the development of an innovative therapy for this all-too-common, serious and costly medical condition, for which no approved treatments currently exist beyond supportive care.

About AC607

AC607 is a novel biologic therapy under development for the treatment of AKI. AC607 also possesses potential applications in other grievous illnesses. AC607 comprises allogeneic bone marrow-derived mesenchymal stem cells that are harvested from healthy adult donors and then expanded via a mature and state-of-the art manufacturing process. AC607 homes to the site of injury where it mediates powerful anti-inflammatory and organ repair processes via the secretion of beneficial paracrine factors, without differentiation and repopulation of the injured kidney. Importantly, AC607 avoids recognition by the hosts immune system, enabling administration in an off the shelf paradigm without the need for blood or tissue typing.

About AlloCure

AlloCure, Inc. is a privately held, clinical-stage biotechnology company focused on the treatment of kidney disease. The company is a leader in the AKI field and is pioneering the development of the first effective therapy for the treatment of AKI. The companys headquarters is located in Burlington, MA. For more information about AlloCure, please visit the companys web site at http://www.allocure.com.

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AlloCure Begins Phase 2 Clinical Trial in Acute Kidney Injury

YAHOO:

Talent manager Annabelle Rama will fly to Germany in September to undergo therapy - stem cell therapy, that is. This has been a promise made by her son Richard Gutierrez who's footing the bill. "Early this year pa lang ay napagplanuhan na 'yung pagpapa-stem cell ng nanay ko at prinomise ko sa kanya na pag-iipunan ko, prinomise ko sa kanya na ako ang magti-treat sa kanya," Richard said on the first episode of "H.O.T. TV," Aug. 5.

He noted, "'Yung mom ko hindi mahilig 'yan na pumunta sa mga doctor, hindi mahilig magpa-check-up."

Looking forward

This early, Annabelle is already excited about her trip and the upcoming treatment.

"Kaya ako excited pumunta kasi unang-una mataas ang aking sugar, mataas ang aking cholesterol, tapos me problema pa ako sa high blood, blood pressure ko. Siguro nga kailangan kong pumunta ng Germany," she said, noting that the condition of her friends, talent manager Lolit Solis and actress Lorna Tolentino, have improved tremendously after going through stem cell therapy.

"Nakita ko ang mukha ni Lolis pumuputi ang mukha niya, eh at saka mukha siyang fresh na fresh. Lalo na si LT, nakita ko rin siya. Mukhang gumanda naman siya. Basta lahat ng kaibigan kong galing doon, nakakausap ko, sabi nila ay talagang gumaling daw sila. 'Yung kanilang napi-feel na mabigat sa katawan dahil sa sakit nila ay nawawala lahat," she said.

Exorbitant fees?

Annabelle had already inquired about the fees of stem cell procedure in the country and she feels it's exorbitant.

"Kasi sa Piipinas may pinagtatanungan na ako, umabot ng mga four million pesos 'yung naitanong ko kaya parang na-discourage akong magpagamot kasi nga ganoon kamahal."

Originally posted here:
Annabelle Rama to undergo stem cell treatment to improve health