02-07-2012 09:43 State of the Nation is a nightly newscast anchored by award-winning broadcast journalist, Jessica Soho. It airs Mondays to Fridays at 9:00 PM (PHL Time) on GMA News TV Channel 11. For more videos from State of the Nation, visit fthenation.
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SONA: Stem cell therapy, kaya raw makapagpabata ng pangangatawan - Video
28-06-2012 13:54 About 5 months ago, she came home from the beach with my husband limping on her right back leg. Now 8 weeks later after stem cell therapy... we were happy (well, maybe not so much...) to see her back to her old, wild, hyper self again.
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Ipo 8 weeks after stem cell therapy at Surf Paws Animal Hospital - Video
28-06-2012 14:46
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Stem Cell Therapy | Producers Direct | Kansas City, Missouri - Video
28-06-2012 09:19 Stem Cell Therapy More Info: Stem Cell Therapy -- Reduce Wrinkles,Promote Younger, Healthier Looking Skin * Increase production of new skin cells by 57% * Re-activate stem cells to stimulate fresh, new skin cell production * Increase natural collagen production by 80% * Decrease wrinkle appearance 56% in 30 days * Increase elastin synthesis by 61% Stem Cell Therapy, Stem Cell Skin Cream, Stem Cell Therapy BioLogic Solutions, Wrinkle Reducer, Decrease Wrinkles,Vanish Wrinkles Feel Younger, Aging Cream, Younger Looking Skin, No More Botox,antiaging,antiaging cream,botox alternative,
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Stem Cell Therapy - Healthier Looking Skin ,Promote Younger, Reduce Wrinkles - Video
SAN DIEGO CA--(Marketwire -06/29/12)- Medistem Inc. (MEDS) announced today notice of allowance from the United States Patent and Trademark Office (USPTO) for a patent covering the use of fat stem cells, and cells associated with fat stem cells for treatment of diseases related to a dysfunctional immune system. Such diseases include multiple sclerosis, Type 1 diabetes, rheumatoid arthritis and lupus. The allowed patent, entitled "Stem Cell Mediated Treg Activation/Expansion for Therapeutic Immune Modulation" has the earliest priority date of December 2006.
"We have previously published that giving multiple sclerosis patients cells extracted from their own fat tissue, which contains stem cells, appears to confer clinical benefit in a pilot study," said Thomas Ichim, CEO of Medistem. "The current patent that has been allowed, in the broadest interpretation of the claims, gives us exclusive rights to the use of specific types of fat stem cell therapy for autoimmune diseases such as multiple sclerosis."
Subsequent to the filing of the patent application, Medistem together with collaborators at the Lawson Health Sciences Research Institute, Canada, reported data that fat tissue contains high numbers of T regulatory cells, a type of immune cell that is capable of controlling autoimmunity.
This finding was independently confirmed by Dr. Diane Mathis' laboratory at Harvard University, who published a paper in the prestigious journal, Nature Medicine, in which detailed experimental evidence was provided supporting the initial finding that adipose tissue contains high numbers of T regulatory cells. A video describing the paper can be accessed at http://www.youtube.com/watch?v=rEJfGu29Rg8.
The current patent discloses the use of T regulatory cells from fat, combinations with stem cells, and use of fat-derived mononuclear cells. Given that there are currently several groups utilizing this technology in the USA in treating patients, Medistem believes revenue can be generated through enforcement of patent rights.
"Our corporate philosophy has been to remain highly focused on our ongoing clinical stage programs using Medistem's universal donor stem cell, the Endometrial Regenerative Cell (ERC), in the treatment of critical limb ischemia and congestive heart failure," said Dr. Vladimir Bogin, Chairman and President of Medistem. "However, due to the ease of implementation of our fat stem cell technology, combined with the major burden that autoimmune diseases have on our health care system, we are highly incentivized to explore partnering, co-development and licensing opportunities."
Autoimmune conditions occur as a result of the body's immune system "turning on itself" and attacking its own organs or cells. Current treatments for autoimmune conditions are based on "globally" suppressing the immune system by administration of immunosuppressive drugs. This is associated with an increased predisposition to infections and significant side effects. The utilization of stem cells and T regulatory cells offers the potential to selectively suppress pathological immunity while preserving the ability of the body to fight bacteria and viruses. According to the NIH there are approximately 23 million victims of autoimmune conditions.
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Link to peer-reviewed publication: http://www.translational-medicine.com/content/pdf/1479-5876-7-29.pdf
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Medistem Receives Notice of Patent Allowance Covering Fat Stem Cell Therapy of Autoimmune Diseases
Optimal stem cell therapy delivery to damaged areas of the heart after myocardial infarction has been hampered by inefficient homing of cells to the damaged site. However, using rat models, researchers in France have used a magnet to guide cells loaded with iron oxide nanoparticles to key sites, enhancing the myocardial retention of intravascularly delivered endothelial progenitor cells.
The study is published in a recent issue of Cell Transplantation (21:4), now freely available online.
"Cell therapy is a promising approach to myocardial regeneration and neovascularization, but currently suffers from the inefficient homing of cells after intracavitary infusion," said Dr. Philippe Menasche of the INSERM U633 Laboratory of Surgical Research in Paris. "Our study was aimed at improving and controlling homing by loading human cord-blood-derived endothelial progenitor cells (EPCs) for transplant with iron oxide nanoparticles in order to better position and retain them in the hearts of myocardial-injured test rats by using a subcutaneously implanted magnet."
The researchers found that the cells were sufficiently magnetic to be able to be remotely manipulated by a magnet subsequent to implantation.
According to the researchers, an objective assessment of the technique to enhance the homing of circulating stem cells is the ability to track their fate in vivo. This was accomplished by visualization with MRI.
"We found a good correlation between MRI non-invasive follow-up of the injected cells and immunofluoresence or quantitative PCR data," said Dr. Menasche. The researchers concluded that further studies were needed to follow cell homing at later time points. They noted that the magnitude of homing they experienced may have been reduced by the relatively small number of cells used, owing to their large size and the subsequent risk of coronary thrombosis.
"In a rat model of myocardial infarction, this pilot study suggested homing of circulating stem cells can be improved by magnetic targeting and warrants additional benchwork to confirm the validity of concept," said Dr. Menasche. "There is also a need to optimize the parameters of targeting and assess the relevance of this approach in a clinically relevant large animal model."
"This study highlights the use of magnets to target transplanted cells to specific sites which could increase their regenerative impact. Factors to still be extensively tested include confirming the safety of the cells containing the magnetic particles and whether this process alters the cell's abilities" said Dr. Amit N. Patel, director of cardiovascular regenerative medicine at the University of Utah and section editor for Cell Transplantation.
More information: Chaudeurge, A.; Wilhelm, C.; Chen-Tournoux, A.; Farahmand, P.; Bellamy, V.; Autret, G.; Mnager, C.; Hagge, A.; Larghro, J.; Gazeau, F.; Clment, O.; Menasch, P. Can Magnetic Targeting of Magnetically Labeled Circulating Cells Optimize Intramyocardial Cell Retention? Cell Transplant. 21 (4):679-691; 2012.
Journal reference: Cell Transplantation
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Magnet helps target transplanted iron-loaded cells to key areas of heart
COLORADO SPRINGS, Colo.--(BUSINESS WIRE)--
HemoGenix announced today that FDA CBER has given HemoGenix its first Master File Number for an in vitro blood stem cell potency, quality and release assay (HALO-96 PQR) (1)for cellular therapy products(2)used for stem cell transplantation purposes. HALO-96 PQR is the first commercially available stem cell potency assay for cellular therapy products. It incorporates the most sensitive readout available to measure changes in the cells energy source (ATP) as a function of the potential for stem cells to proliferate. Potency and quality of stem cell therapeutic products are required to be measured prior to use to help predict the engraftment of the cells in the patient. At the present time, tests such as cell number, viability and a stem cell marker called CD34 are routinely used. However, none of these tests specifically measure stem cells and none determine the stem cell biological activity required for a potency assay. The only cell functionality test presently used in this field, especially for umbilical cord blood transplantation, is the colony-forming unit (CFU) assay, which is subjective, non-validated and has been used since the early 1970s. HALO-96 PQR changes this paradigm. It is particularly needed in the umbilical cord blood stem cell transplantation field by providing an application-specific test incorporating all of the compliance characteristics required not only by regulatory agencies(3) and standards organizations, but also the cord blood community(4).
Stem cell potency is one of the most important parameters necessary for any therapeutic product, especially stem cells. Without it, the dose cannot be defined and the transplantation physician has no indication as to whether the product will engraft in the patient. The number of cord blood units collected and stored and the number of cord blood stem cell transplantations have increased exponentially over the last 12 years. During this time, significant advancements have been made in pre- and post stem cell transplantation procedures. Yet the tests used during the preparation and processing of the cells have remained unchanged and do not even measure the biological functionality of the stem cells being transplanted. Indeed, the standards organizations responsible for applying regulatory guidance to the community have so far failed to allow any new and alternative assays to be used during cord blood processing. HALO-96 PQR is the first test that actually quantitatively characterizes and defines the stem cells in cord blood, mobilized peripheral blood or bone marrow as high quality and potent active ingredients for release prior to transplantation. Presently, approximately 20% engraftment failure is encountered in cord blood transplantation. HALO-96 PQR could help reduce the risk of engraftment failure by providing valuable and time-sensitive information on the stem cells prior to use. HALO-96 PQR complies with the guidelines not only with the cord blood community, but also with regulatory agencies thereby providing a benefit to both the stem cell transplantation center and the patient, said Ivan Rich, Founder and CEO of HemoGenix (www.hemogenix.com).
About HemoGenix, Inc.
HemoGenix is a privately held Contract Research Service and Assay Development Laboratory based in Colorado Springs, Colorado. Specializing in predictive in vitro stem cell toxicity testing, HemoGenix provides its services to small, medium and many of the largest biopharmaceutical companies. HemoGenix has developed several assays for stem cell therapy and regenerative medicine applications. These and other patented and proprietary assays are manufactured and produced in Colorado Springs and sold worldwide. HemoGenix has been responsible for changing the paradigm and bringing in vitro stem cell hemotoxicity testing into the 21st century. With HALO-96 PQR the company is now also changing the paradigm to become a leader in stem cell therapy assays. To this end, HemoGenix is a member of the Alliance for Regenerative Medicine and working with other companies to decrease risk and improve safety for the patient.
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HemoGenix® FDA Master File to Measure Blood Stem Cell Potency for Cellular Therapy Products:
NEW YORK, June 25, 2012 (GLOBE NEWSWIRE) -- NeoStem, Inc. (NYSE MKT:NBS) ("NeoStem" or the "Company"), a cell therapy company, today announced that it has been awarded a two year grant totaling $595,252 for the "Development of Human, Autologous, Pluripotent Very Small Embryonic Like (VSELs) Stem Cells as a Countermeasure to Radiation Threat" from the National Institute of Allergy and Infectious Diseases (NIAID), a division of the National Institutes of Health (NIH). This peer reviewed grant was awarded to support research to be headed by Denis O. Rodgerson, Ph.D., Director of Stem Cell Science for NeoStem and Mariusz Ratajczak, M.D., Ph.D., who is the head of the Stem Cell Biology Program at the James Graham Brown Cancer Center at the University of Louisville and co-inventor of VSELTM Technology.
This award will fund studies to investigate the potential of very small embryonic-like stem cells as a countermeasure to radiological and nuclear threat. The product candidate, which is an autologous stem cell therapy derived from the patient's own stem cells, will be developed to rescue patients who have been exposed to radiation due to nuclear accident or terrorist threat and to treat cancer patients who have undergone radiation therapy and who consequently have compromised immune systems. The award includes $295,252 for the first year and $300,000 for the second year of the project.
Dr. Denis O. Rodgerson, Director of Stem Cell Science for NeoStem, said, "We are very excited to add radiation treatment to the growing list of indications for which our VSELTM Technology is being evaluated. Those exposed to acute high-dose radiation have compromised immune systems such that the virulence and infectivity of biological agents is dramatically increased. Death can occur within 1-6 weeks following radiation exposure. Currently there is only one intervention that saves a fatally irradiated person -- a rescue through stem cell transplantation. VSELs might be an ideal cell therapy to regenerate the body's immune system and repair other tissues damaged by radiation exposure. Most importantly, early studies show VSELs are resistant to lethal radiation which destroys other immune system restoring stem cells in the body, making autologous treatment post-exposure possible."
Dr. Robin L. Smith, Chairman and CEO of NeoStem, added, "NeoStem is pleased that the NIAID is funding this cutting edge technology that we hope will reinvent the treatment landscape for acute radiation syndrome. We plan to continue to pursue NIH SBIR grants to fund our VSEL technology platform development with non-dilutive capital."
About VSELTM Technology
NeoStem has a worldwide exclusive license to VSELTM Technology. Research by Dr. Mariusz Ratajczak, M.D., Ph.D., and others at the University of Louisville provides compelling evidence that bone marrow contains a heterogeneous population of stem cells that have properties similar to those of an embryonic stem cell. These cells are referred to as very small embryonic-like stem cells. This finding opens the possibility of capturing some of the key advantages associated with embryonic stem cells without the ethical or moral dilemmas and without some of the potential negative biological effects associated with stem cells of embryonic derivation. The possibility of autologous VSEL treatments is yet another important potential benefit to this unique population of adult stem cells. VSELTM Technology offers the potential to go beyond the paracrine effect, yielding cells that actually differentiate into the target tissue creating true cellular regeneration.
About NeoStem, Inc.
NeoStem, Inc. ("we," "NeoStem" or the "Company") continues to develop and build on its core capabilities in cell therapy to capitalize 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. Our January 2011 acquisition of Progenitor Cell Therapy, LLC ("PCT") provides NeoStem with a foundation in both manufacturing and regulatory affairs expertise. We believe this expertise, coupled with our existing research capabilities and collaborations, will allow us to achieve our mission of becoming a premier cell therapy company. Our PCT subsidiary's manufacturing base is one of the few current Good Manufacturing Practices ("cGMP") facilities available for contracting in the burgeoning cell therapy industry. Amorcyte, LLC ("Amorcyte"), which we acquired in October 2011, is developing a cell therapy for the treatment of cardiovascular disease. Amorcyte's lead compound, AMR-001, represents NeoStem's most clinically advanced therapeutic and Amorcyte is enrolling patients for a Phase 2 trial to investigate AMR-001's efficacy in preserving heart function after a heart attack. We also expect to begin a Phase 1 clinical trial by 2012/2013 to investigate AMR-001's utility in arresting the progression of congestive heart failure and the associated comorbidities of that disease. Athelos Corporation ("Athelos"), which is approximately 80%-owned by our subsidiary, PCT, is engaged in collaboration with Becton-Dickinson that is exploring the earlier stage clinical development of a T-cell therapy for autoimmune conditions. In addition, our pre-clinical assets include our VSELTM Technology platform as well as our MSC (mesenchymal stem cells) product candidate for regenerative medicine.
For more information on NeoStem, please visit http://www.neostem.com.
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NeoStem Awarded NIAID Research Grant for the Development of VSEL Technology for Radiation Exposure
HAWAII KAI (HawaiiNewsNow) -
Cutting-edge technology is helping Hawaii's pets live better lives for months, even years. We were there as a beloved dog named Kumba received one of the first-ever, in-clinic stem cell therapy surgeries in the islands.
13 year old Kumba doesn't know he's a guinea pig. The Rottweiler-Lab mix is one of the first in Hawaii to undergo the stem cell procedure at Surf Paws in Hawaii Kai.
Kumba suffers severe arthritis in his hips and knees, doesn't eat much, and is even a bit depressed. "It's an effort for him to get up off the floor, and when he gets up and crosses the room, you can see the stiffness," says his owner, Rumi Hospodar.
Kumba's kids learn some of details of his surgery. Then, he's moved to a table and nods off from anesthesia. Once he's prepped, the procedure begins. The vet removes about two tablespoons of fat tissue from Kumba's shoulder. From there, the stem cells are separated from the fat and activated. Then, they're injected back into the affected areas.
The entire process takes four hours, but the dog is actually only under for about 20 minutes. Surf Paws used to send the tissue to the mainland for processing, but with technology from Medi-Vet America, they can do it all here.
"The patient had to be, you know, go home and come back a few days later and the timing was a little bit difficult. Now, everything is same day," says Surf Paws veterinarian Dr. Cristina Miliaresis.
Cost depends on the size of animal but can run up to $2,800. It's mainly done on dogs, cats, and horses who suffer osteoarthritis, hip dysplasia, ligament and cartilage damage, and other degenerative diseases. Their quality of life can improve within a couple of weeks.
Dr. Miliaresis says, "Some people might say, 'Oh, the dog's 13. Why are you doing this for a 13 year old dog? But even 6 months, pain-free, after a very, it's not simple, but it's a pretty straightforward procedure, to me (would be) just amazing."
The techs move all 97 pounds of Kumba to post-op - while his anxious owner looks on.
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Stem cell therapy in Hawaii going to the dogs
Stem cell therapy has gone to the dogs. The technology aimed at giving ailing pets a new lease on life has arrived in Hawaii.
13-year-old Kumba is still a bit dazed, coming out of general anesthesia. The veterinarian at Surf Paws Animal Hospital just extracted about two tablespoons of fat tissue from the dog. Stem cells from that fat tissue will then be used to help him with his arthritis.
"Once we get the stem cells then we do some extra processing steps to wake them up so that they're very active. At the end of that, the veterinarian will inject the stem cells into the areas of damage," says Carol Spangler Vaughn of Medivet America.
A company called MediVet America is bringing the technology to animal hospitals in Hawaii. This is a first for Oahu. The company says the procedure works on other animals with different types of ailments.
"So the nice thing about this we're not gonna give you a puppy back but we'll give you some nice quality time with your animal. You won't have to put them down because of their arthritis," Vaughn said.
Kumba's arthritis had gotten worse in the past five years, and his owners were wondering whether it was best to end his life to stop him from suffering.
'When we start saying things like oh we don't know how much longer, poor Kumba, he must be in a lot of pain. That kind of stuff really hits home especially since he's been with us for so long," said Rumi Hospodar Kumba's owner.
But with this new procedure, they're counting on Kumba to be pain free in a few weeks and are looking forward to get backdoing some of the things Kumba enjoyed, like swimming.
"He can't do that now since his joints are so bad, and he's getting so old so that's one of the many things I'm looking forward to," Kelsea Hopsodar, his other owner said.
The cost of the procedure runs from 24 to 28 hundred dollars, and it's covered by most pet insurance policies.
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Stem cell therapy gives dog new lease on life
Given the recent flurry of activities, it seems that Life Technologies Corporation (LIFE) is focused on strengthening its foothold in the field of stem cell research. The company recently signed a non-exclusive agreement with iPS Academia of Japan for its induced pluripotent stem (iPS) cell patent portfolio. Based on this agreement, the company will be able to expand its portfolio for the iPS cell research community.
Besides, it is well placed to create iPS cells and differentiate them into various cell types to be used in drug discovery and pre-clinical research. The license also enables Life Technologies to provide creation, differentiation and screening services of iPS cell to scientists globally. We consider the agreement to be a significant achievement for the company in the field of stem cell research as iPS cells are gaining attention for use in the areas of drug discovery, disease research and other areas of biotechnology.
The agreement with iPS Academia of Japan comes on the heels of the partnership with Cellular Dynamics International, the world's largest producer of human cells derived from iPS cells. The partnership will aim at commercializing a set of three new products optimized to consistently develop and grow human iPS cells for both research and bioproduction.
These initiatives undertaken by Life Technologies should strengthen its Research Consumables segment. This segment includes molecular and cell biology reagents, endpoint PCR and other benchtop instruments and consumables. These products include RNAi, DNA synthesis, sample prep, transfection, cloning and protein expression profiling and protein analysis, cell culture media used in research, stem cells and related tools, cellular imaging products, antibodies and cell therapy related products. In the most recent quarter, this division recorded a 4% year-over-year increase in revenues to $420 million on the back of growth in cell culture workflow products, endpoint PCR products and molecular and cell biology consumables.
Life Technologies enjoys a strong position in the life sciences market, though management prefers to maintain a cautious but optimistic outlook for the remainder of the year. We are encouraged by the improvement in margins amidst the tight competitive scenario with the presence of players such as Thermo Fisher Scientific (TMO), Illumina (ILMN), among others.
We have a Neutral recommendation on Life Technologies. The stock retains a Zacks #3 Rank (hold) in the short term.
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LIFE Focuses on Stem Cell Research
BYRON, MN--It's a dream for many in the medical field, to use a person's own stem cells to help them heal. And it's a reality already happening in our area.
But it's not humans who are being treated. In this case, dogs are the ones being treated.
Animal Stem Cell Regenerative Therapy has been performed a few thousand times now across the U.S. Doctors harvest stem cells and re-enter them where the animal is having problems.
Both Marley and Vinnie have bad ligaments in their legs, and like many dogs suffering from arthritis, they are subject to monthly doses of expensive drugs.
That is until today.
Dr. Garren Kelly, D.V.M. at Meadow View Veterinary Clinic just outside Rochester says, "If you'd of asked me 5 years ago if I would be doing anything like this, I would have said no. But then as soon as I saw it i'm like 'Yeah that's for me'. I kind of like staying on the cutting edge of technology and surgeries".
The two are undergoing a first of its kind surgery in minnesota, using regenerative stem cells.
Blood is taken from the dogs, as well as fat tissue.
Then stem cells are separated out from the fat, activated with an led light, and injected back into the affected area. All in the same day.
MediVet America trainer Jordan Smith says, "It's a better quality of life, we're not promising to give them 10 years or 5 years but we are promising that the years that they do have remaining are a lot more enjoyable".
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Animal Stem Cell Therapy
17-06-2012 23:59 Gary B Stem Cell Therapy for CMT Part 2 - For more info. visit
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Stem Cell Therapy for CMT-Gary B-part 2.mp4 - Video
BOSTON--(BUSINESS WIRE)--
Sistemic Ltd., a leading provider of microRNA-based problem-solving services and kit-based products to the Cell Therapy community, announced today that chairman and CEO Jim Reid is moderating a panel discussion at the 2012 Bio International Convention on Wednesday, June 20, in Boston. Featuring leaders from the regenerative medicine space, the panel is titled Stem Cell Therapies Fact or Fiction, and will share the lessons learned to-date from Scottish, European and American perspectives on the path to successfulcommercialization of stem cell therapies.
Jim Reid, Sistemic CEO, commented, "Sistemic is very active in the CellTherapyarena and aremembersof Alliance for Advanced Therapies (AAT) and the Alliance for Regenerative Medicine (ARM). We see the ability to raise this topic at the leading world event, BIO 2012, as animportantstep on the path to commercialization of these products which will be transformational in healthcare, and bring hope and cures to many people around the globe."
More information on the panel at BIO 2012:
What: Panel Discussion Featuring Leaders in the Regenerative Medicine Space
When: Wednesday, June 20, 3:00PM EDT
Where: Boston Convention Center, Room 254A
Who: Leaders of the Regenerative Medicine space:
Panel objectives include evaluating lessons learned and best practice including from the Scotland Roadmap for the commercialization of stem cell therapies; identifying global (US and EU) examples of progress in stem cell therapy commercialization; and facilitating a debate on the need for a global, multi-disciplinary approach to successful commercialization of stem cell therapies.
About Sistemic Ltd
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Sistemic to Moderate Regenerative Medicine Panel at 2012 Bio International Convention
17-06-2012 02:12 Gary B. Stem Cell Therapy for CMT - For more info. visit
SAN DIEGO, June 15, 2012 /PRNewswire/ --ViaCyte, Inc. today announced the appointment of seasoned entrepreneur, Paul Laikind, Ph.D., as President & Chief Executive Officer. Allan Robins, Ph.D., who was serving as Acting CEO, will continue in his role as Vice President & Chief Technology Officer. ViaCyte is a leading pre-clinical company developing a novel cell therapy product for the treatment of insulin dependent diabetes.
Dr. Laikind brings over 25 years of leadership experience in the biotechnology and life sciences industry to ViaCyte. He is a serial entrepreneur, who co-founded three San Diego companies, Gensia Pharmaceuticals Inc., Viagene Inc., and Metabasis Therapeutics Inc., serving in various executive positions including President and CEO. All three companies went public and were eventually acquired. Most recently, he served as Chief Business Officer and Senior Vice President of Business Development at the Sanford-Burnham Medical Research Institute.
"Paul brings to ViaCyte a wealth of experience in managing new businesses based on highly innovative life sciences technologies," said Fred Middleton, Chairman of ViaCyte. "We are pleased to have him join to lead ViaCyte through our next phase of development in bringing our transformative stem cell therapy to patients with diabetes. We believe Paul's leadership and business development skills will greatly assist us in our strategy to be a leader in regenerative medicine therapy and to capitalize on our current technology leadership position in the development of stem cell therapy."
As Sanford-Burnham's first Chief Business Officer, Dr. Laikind set a new direction for the Institute's business development activity through a combination of licensing and strategic partnerships with large pharmaceutical organizations, including collaborations with Pfizer's Centers for Therapeutic Innovation, Ortho-McNeil-Janssen Pharmaceuticals, Inc., a division of Johnson & Johnson, and Takeda Pharmaceutical. Working with the Institute's leadership team he helped establish a sophisticated infrastructure for advanced drug discovery and development at Sanford-Burnham.
Prior to Sanford-Burnham, Dr. Laikind served as President & CEO from 1999-2008 for Metabasis Therapeutics, which developed new therapies for metabolic and liver diseases. Dr. Laikind co-founded Gensia Pharmaceuticals in 1986, was a board member of the company and held various executive leadership positions. While at Gensia he was responsible for establishing a number of important strategic partnerships. In 1997, he was part of a team that restructured Gensia to focus on specialty pharmaceuticals. The restructured company was renamed Gensia Sicor and went on to be acquired for over $3 billion by Teva Pharmaceutical Industries in 2004. Soon after founding Gensia, he was co-founder of Viagene, a gene therapy company. Viagene completed an initial public offering in 1993 and was acquired in 1995 by Chiron Inc., now a subsidiary of Novartis Vaccines & Diagnostics.
Dr. Laikind earned his Ph.D. in biochemistry from the University of California, San Diego and is the inventor on a number of key patents.
"ViaCyte addresses one of the largest commercial and medical opportunities in stem-cell-derived therapeutics, and its team is internationally recognized for its scientific leadership," said Dr. Laikind. "I look forward to working with ViaCyte through clinical development and market launch of its first important product that promises to change the way we treat insulin dependent diabetes."
About ViaCyte
ViaCyte is a preclinical cell therapy company focused on diabetes. The Company's technology is based on pancreatic beta cell progenitors derived from human pluripotent stem cells. These cells are implanted using a durable and retrievable encapsulation device. Once implanted and matured, these cells secrete insulin in response to blood glucose levels. ViaCyte's goal is long term insulin independence without immune suppression, and without hypoglycemia and other diabetes-related complications.
ViaCyte is a private company headquartered in San Diego, California with additional operations in Athens, Georgia. The Company is funded in part by the California Institute for Regenerative Medicine.
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ViaCyte Appoints Dr. Paul Laikind Chief Executive Officer
CARLSBAD, Calif.--(BUSINESS WIRE)--
International Stem Cell Corporation (ISCO) http://www.internationalstemcell.com announced that scientists in its wholly-owned subsidiary, Lifeline Cell Technology (LCT), have developed a technology to modify human stem cells by using engineered proteins, called "transducible transcription factors" or "TTFs." TTFs are designed to pass into stem cells and direct the stem cells to change into specific cell types that can be both therapeutically-useful and can be used as revenue-generating research products.
In contrast to more traditional cell therapy methods this technology does not require the use of viruses or chemicals, and has the potential to produce safe therapeutic cells from stem cells. In addition, the TTF proteins are naturally eliminated by the cells when no longer required, a characteristic that further improves safety. The Company intends that this technology, once perfected, will first be used to create revenue-generating research products for sale through Lifeline Cell Technologys international distribution channels to the academic, biotechnology and pharmaceutical markets for cellular proteins, including the quickly growing markets for the study of stem cell biology and drug testing.
According to Jeffrey Janus, Lifeline Cell Technologys CEO, These proteins can be sold into the market for cellular proteins which exceeds $700 million and represents an excellent opportunity for LCT to grow sales. Since the technology also has broad application in research and therapy, it should provide ISCO with future out-licensing opportunities to the biotechnology and pharmaceutical industries.
About International Stem Cell Corporation
International Stem Cell Corporation is focused on the therapeutic applications of human parthenogenetic stem cells (hpSCs) and the development and commercialization of cell-based research and cosmetic products. ISCO's core technology, parthenogenesis, results in the creation of pluripotent human stem cells from unfertilized oocytes (eggs). hpSCs avoid ethical issues associated with the use or destruction of viable human embryos. ISCO scientists have created the first parthenogenic, homozygous stem cell line that can be a source of therapeutic cells for hundreds of millions of individuals of differing genders, ages and racial background with minimal immune rejection after transplantation. hpSCs offer the potential to create the first true stem cell bank, UniStemCell. ISCO also produces and markets specialized cells and growth media for therapeutic research worldwide through its subsidiary Lifeline Cell Technology (www.lifelinecelltech.com), and stem cell-based skin care products through its subsidiary Lifeline Skin Care (www.lifelineskincare.com). More information is available at http://www.internationalstemcell.com or follow us on Twitter @intlstemcell.
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Forward-looking Statements
Statements pertaining to anticipated developments, the potential benefits of research programs and products, and other opportunities for the company and its subsidiaries, along with other statements about the future expectations, beliefs, goals, plans, or prospects expressed by management constitute forward-looking statements. Any statements that are not historical fact (including, but not limited to statements that contain words such as "will," "believes," "plans," "anticipates," "expects," "estimates,") should also be considered to be forward-looking statements. Forward-looking statements involve risks and uncertainties, including, without limitation, risks inherent in the development and/or commercialization of potential products, regulatory approvals, need and ability to obtain future capital, application of capital resources among competing uses, and maintenance of intellectual property rights. Actual results may differ materially from the results anticipated in these forward-looking statements and as such should be evaluated together with the many uncertainties that affect the company's business, particularly those mentioned in the cautionary statements found in the company's Securities and Exchange Commission filings. The company disclaims any intent or obligation to update forward-looking statements.
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International Stem Cell Corporation Scientists Create New Protein-Based Stem Cell Technology
COLUMBIA, Md.--(BUSINESS WIRE)--
Osiris Therapeutics, Inc. (OSIR), announced today it has received consent from New Zealand to market its first-in-class stem cell therapy Prochymal (remestemcel-L), for the treatment of acute graft-vs-host disease (GvHD) in children. With this decision New Zealand joins Canada, which last month became the worlds first internationally recognized regulatory authority to grant approval to a stem cell drug. Prochymal is also the first therapy approved for GvHD - a devastating complication of bone marrow transplantation that kills up to 80 percent of children affected, many within just weeks of diagnosis.
"With each of our approvals it becomes clearer that the time for life-saving stem cell therapies in the practice of medicine has arrived, and we are humbled to have a leading role, said C. Randal Mills, Ph.D., President and Chief Executive Officer of Osiris. I would like to thank the professionals at Medsafe for their thoughtful and expeditious review of this complex application. I would also like to thank the team at Osiris that continues to do an outstanding job of making Prochymal available to children around the world suffering from the devastating effects of GvHD."
Osiris submitted a New Medicine Application (NMA) to Medsafe(New Zealand's medical regulatory agency) in May of 2011, and was granted Priority Review in June of 2011. Priority review provides expedited review for new drugs which offer a significant clinical advantage over current treatment options. Prochymal was granted provisional consent under Section 23 of the Medicines Act 1981.
"The incidence of GvHD is likely to rise as the demographic profile of our transplant population evolves," said Hans Klingemann, M.D., Ph.D., a Professor of Medicine and the Director of the Bone Marrow & Hematopoietic Stem Cell Transplant Program at Tufts University School of Medicine. "Effective strategies to manage the often lethal consequences of GvHD reduce the overall risk to transplantation and provide the transplant physician with better options when approaching their most difficult cases.
Clinical trials have shown that Prochymal is able to induce an objective, clinically meaningful response in 61-64 percent of children with GvHD that is otherwise refractory to treatment. Furthermore, treatment response with Prochymal resulted in a statistically significant improvement in survival.
As a mother who watched my son Christian suffer and die from the horrifying effects of GvHD, while waiting for the regulatory approvals necessary to allow him access to Prochymal, words cannot express how happy I am that significant progress is finally being made, said Sandy Barker, President and Co-founder of the Gold Rush Cure Foundation. We are proud to stand side-by-side with Osiris in this historic battle for our children around the world. Our motto is 'not one more child, not one more family' and when it comes to GvHD mortality, zero is the only acceptable number.
Prochymal is now approved in Canada and New Zealand, and is currently available in seven other countries including the United States under an Expanded Access Program (EAP). It is expected that Prochymal will be commercially available in New Zealand later this year.
About GvHD
GvHD represents a major unmet medical need with no approved treatment until Prochymal. GvHD is the leading cause of transplant related mortality, in which immune cells contained within the transplanted marrow recognize the recipient as foreign and mount an immunologic attack. Severe GvHD can cause blistering of the skin, intestinal hemorrhage and liver failure. Severe GvHD is extremely painful and fatal in up to 80 percent of cases. Currently, steroids are used as first-line therapy with a success rate of only 30-50 percent. When steroids fail, treatment options are limited to immunosuppressive agents used off-label with little benefit and significant toxicities.
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Osiris Receives Second Approval for Life-Saving Stem Cell Drug; Prochymal Granted Marketing Consent by New Zealand
MANILA, Philippines -- "The Buzz" host Boy Abunda is going to Europe this weekend with his mother, who is suffering from dementia and Alzeimers disease.
In an interview with ABS-CBN News on Tuesday afternoon, Abunda said he will bring his mother to Germany to try stem cell therapy.
"Ako ay pupunta sa Europe hindi para magbakasyon. Dadalhin ko po ang aking ina para magpagamot sa Germany. Ito po 'yung fresh stem cell therapy. Maganda 'yung dini-diretso na dahil napag-uusapan ito," Abunda said.
While Abunda is in Germany, Kris Aquino will take his place on ABS-CBN's entertainment talk show "The Buzz."
In the interview, Abunda also said he's proud of Aquino, who's now open to doing extreme adventures, while continuing to be a good mother to her two sons.
"Ang daming nagbago kay Kris. May mga bagay na hindi ko inakala na gagawin ni Kris like 'yung diving, zipline at marami pang iba. Natutuwa ako that she has become more open to many things. She has become more adventurous. She has retained being the doting mother that she is pero mas malalim ang halakhak niya ngayon sa buhay. She's just so joyful. Natutuwa ako habang pinapanood ko ang kanyang adventure sa 'KrisTV,'" Abunda said.
Abunda said he's also hoping to do a new project with Aquino.
"I'm hoping na someday ay muli kaming magtagpo sa isang palabas dahil marami ang humihiling na kami ay magsama sa isang palabas. Sigurado ako sa puso ko na kami ay gagawa at gagawa dahil magkadugtong ang aming pusod," he said.
In Early Study, Procedure Helps Teens Halt Insulin Injections
June 11, 2012 (Philadelphia) -- In an early study, an experimental stem cell procedure helped 15 teens with type 1 diabetes stay off of insulin injections for about 1.5 years, on average.
The study was very small, and the procedure is not ready for widespread use. "We now have a unique approach with some positive findings, but it's still early. We need to better understand the biology behind the treatment and follow patients for long-term side effects," Robert E. Ratner, MD, chief scientific and medical officer of the American Diabetes Association, tells WebMD.
This is the latest of several stem cell studies to show promising results for the treatment of type 1 diabetes, Ratner notes.
In the new study, 15 of 28 teens with type 1 diabetes who got an experimental treatment using their own stem cells went into remission and did not need insulin injections for an average of about 1.5 years.
The "cocktail treatment" combines stem cell therapy with drugs that suppress the body's immune system. In type 1 diabetes, the immune system attacks and destroys insulin-producing cells within the pancreas.
The experimental treatment is called autologous nonmyeloablative hematopoietic stem cell transplantation (HSCT). It aims to kill the destructive immune system cells and replace them with immature stem cells not programmed to destroy insulin-producing cells.
First, patients are given drugs to stimulate production of blood stem cells. The blood stem cells are then removed from the body and frozen. Then, patients are hospitalized and given drugs to kill the destructive immune system cells. The harvested blood stem cells are then put back into the patient.
Eight teens who took part in the study have remained insulin-free for two years, on average. One patient has gone without insulin injections for 3.5 years.
"All our patients considered the [treatment] to be worthwhile and beneficial, though some patients experienced side effects," study head Weiqiong Gu, MD, of Ruijin Hospital in Shanghai, tells WebMD.
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Experimental Stem Cell Treatment Tested for Type 1 Diabetes