StemCell Therapy

SILVER SPRING, Md.--(BUSINESS WIRE)--

Nuvilex, Inc. (OTCQB:NVLX), an emerging biotechnology provider of cell and gene therapy solutions, today pointed out the potential for substantial partnership and licensing opportunities using the companys cell encapsulation technology for applications in stem cell research and medicine. Migration of implanted cells away from the target site and host rejection have been recognized as fundamental challenges faced by the stem cell community regarding their use in therapy, which the companys technology overcomes.

The technology being acquired from associate SG Austria is used to place live stem cells into strong, flexible and permeable capsules. These capsules can then be implanted into animals or humans for specific therapies. Stem cells can then exist at the desired location inside the capsules, prevented from migrating and protected from the immune system that aims to eliminate such foreign cells from the body.

Stem cell therapy is being used by clinicians throughout the world for treating such diverse diseases as spinal cord injury, amyotrophic lateral sclerosis, burns, glioma, multiple myeloma, arthritis, heart disease, stroke, Stargardt's Macular Dystrophy, and age-related macular degeneration, among others, most of which can be found at ClinicalTrials.gov.

Historically, researchers have faced numerous difficulties in succeeding with certain stem cell treatments, because of the problems associated with keeping stem cells alive for significant periods of time, stopping rejection and destruction by the recipients immune system, and keeping stem cells from migrating away from the desired sites. Cells encapsulated in SG Austrias porous beads have been shown to remain alive for long periods of time in humans, surviving intact for at least two years. Once encapsulated, cells are protected from the bodys immune system. Furthermore, encapsulated cells remain within the beads and are unable to migrate to other sites in the body.

In the February 29, 2012 research report, Goldman Small Cap Research stated, The Cell-in-a-Box approach could significantly advance the implementation and utilization of stem cells for a host of debilitating diseases and conditions, making it a uniquely valuable commodity. We believe that by partnering with leading players in the field, Nuvilex could find that companies with deep pockets would be happy to collaborate or license the delivery system and engage in further research which could result in meaningful development and licensing revenue.

Dr. Robert Ryan, Chief Executive Officer of Nuvilex, discussed the value for licensing the companys stem cell therapy, adding, By overcoming traditional barriers to effective stem cell therapy, namely viability, migration, and host rejection, we believe these new advances in medical science utilizing stem cells and encapsulation will enable us to take quantum leaps forward now and in the future. As a result of challenges SG Austria has overcome, new advances will be surprisingly close at hand and are part of the driving force behind our desire to work with a number of companies in this endeavor. Our primary goal has been and remains to use our technology to bring life changing treatments to patients on an expedited basis.

About Nuvilex

Nuvilex, Inc. (OTCQB:NVLX) is an emerging international biotechnology provider of clinically useful therapeutic live encapsulated cells and services for encapsulating live cells for the research and medical communities. Through our effort, all aspects of our corporate activities alone, and especially in concert with SG Austria, are rapidly moving toward completion, including closing our agreement. One of our planned offerings will include cancer treatments using the companys industry-leading live-cell encapsulation technology.

Safe Harbor Statement

See more here:
Nuvilex Forecasts Vast Partnership Opportunities Using Breakthrough Stem Cell Technology

ScienceDaily (Mar. 6, 2012) Northwestern University scientists have developed a powerful analytical method that they have used to direct stem cell differentiation. Out of millions of possibilities, they rapidly identified the chemical and physical structures that can cue stem cells to become osteocytes, cells found in mature bone.

Researchers can use the method, called nanocombinatorics, to build enormous libraries of physical structures varying in size from a few nanometers to many micrometers for addressing problems within and outside biology.

Those in the fields of chemistry, materials engineering and nanotechnology could use this invaluable tool to assess which chemical and physical structures -- including size, shape and composition -- work best for a desired process or function.

Nanocombinatorics holds promise for screening catalysts for energy conversion, understanding properties conferred by nanostructures, identifying active molecules for drug discovery or even optimizing materials for tissue regeneration, among other applications.

Details of the method and proof of concept is published in the Proceedings of the National Academy of Sciences.

"With further development, researchers might be able to use this approach to prepare cells of any lineage on command," said Chad A. Mirkin, who led the work. "Insight into such a process is important for understanding cancer development and for developing novel cancer treatment methodologies."

Mirkin is the George B. Rathmann Professor of Chemistry in the Weinberg College of Arts and Sciences and professor of medicine, chemical and biological engineering, biomedical engineering and materials science and engineering. He also is the director of Northwestern's International Institute for Nanotechnology (IIN).

The new analytical method utilizes a technique invented at Northwestern called polymer pen lithography, where basically a rubber stamp having as many as 11 million sharp pyramids is mounted on a transparent glass backing and precisely controlled by an atomic force microscope to generate desired patterns on a surface. Each pyramid -- a polymeric pen -- is coated with molecules for a particular purpose.

In this work, the researchers used molecules that bind proteins found in the natural cell environment, such as fibronectin, which could then be attached onto a substrate in various patterns. (Fibronectin is a protein that mediates cell adhesion.) The team rapidly prepared millions of textured features over a large area, which they call a library. The library consisted of approximately 10,000 fibronectin patterns having as many as 25 million features ranging in size from a couple hundred nanometers to several micrometers.

To make these surfaces, they intentionally tilt the stamp and its array of pens as the stamp is brought down onto the substrate, each pen delivering a spot of molecules that could then bind fibronectin. The tilt results in different amounts of pressure on the polymeric pens, which dictates the feature size of each spot. Because the pressure varies across a broad range, so does the feature size.

Read more:
Influencing stem cell fate: New screening method helps scientists identify key information rapidly

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

Contact: Megan Fellman fellman@northwestern.edu 847-491-3115 Northwestern University

Northwestern University scientists have developed a powerful analytical method that they have used to direct stem cell differentiation. Out of millions of possibilities, they rapidly identified the chemical and physical structures that can cue stem cells to become osteocytes, cells found in mature bone.

Researchers can use the method, called nanocombinatorics, to build enormous libraries of physical structures varying in size from a few nanometers to many micrometers for addressing problems within and outside biology.

Those in the fields of chemistry, materials engineering and nanotechnology could use this invaluable tool to assess which chemical and physical structures -- including size, shape and composition -- work best for a desired process or function.

Nanocombinatorics holds promise for screening catalysts for energy conversion, understanding properties conferred by nanostructures, identifying active molecules for drug discovery or even optimizing materials for tissue regeneration, among other applications.

Details of the method and proof of concept is published in the Proceedings of the National Academy of Sciences.

"With further development, researchers might be able to use this approach to prepare cells of any lineage on command," said Chad A. Mirkin, who led the work. "Insight into such a process is important for understanding cancer development and for developing novel cancer treatment methodologies."

Mirkin is the George B. Rathmann Professor of Chemistry in the Weinberg College of Arts and Sciences and professor of medicine, chemical and biological engineering, biomedical engineering and materials science and engineering. He also is the director of Northwestern's International Institute for Nanotechnology (IIN).

The new analytical method utilizes a technique invented at Northwestern called polymer pen lithography, where basically a rubber stamp having as many as 11 million sharp pyramids is mounted on a transparent glass backing and precisely controlled by an atomic force microscope to generate desired patterns on a surface. Each pyramid -- a polymeric pen -- is coated with molecules for a particular purpose.

Read more:
Influencing stem cell fate

05-03-2012 11:59 Learn more about cord blood stem cells here http://www.cordblood.com Cord Blood Registry's Scientific and Medical Affairs team, led by Heather Brown Vice President of Scientific and Medical Affairs, is dedicated to helping understand, communicate and advance stem cell medicine. Her team's focus is on helping find new uses for cord blood, including supporting research that is looking for treatments for conditions that have no treatment today. Our company was founded on the belief that saving newborn stem cells can change the future of medicine. Whether it's providing newborn stem cell banking at no cost to a family with a medical need or partnering with world-class researchers for first-of-their-kind clinical trials, we are committed to advancing stem cell medicine and finding new cures.

Continued here:
Cord Blood Registry's Leading Science and Research Team - Video

PHILADELPHIA Jamie Shuda, EdD, director of life science outreach at the University of Pennsylvania's Institute for Regenerative Medicine (IRM), and coordinator of life science education at the Netter Center for Community Partnerships also at Penn, along with Steve Farber, PhD, Investigator, Embryology Department, Carnegie Institution for Science, Baltimore, have been awarded the Hamburger Outstanding Educator Prize from the Society for Developmental Biology (SBD).

Shuda and Farber run Project BioEYES, a K-12 science education program that provides classroom-based, hands-on learning using live zebrafish to teach about how cells and animals develop. The program is located within the Perelman School of Medicine, Penn; the Carnegie Institution; Notre Dame University in South Bend, IN; and Monash University in Melbourne, Australia, among others, and reaches over 9,000 students per year.

"I am honored that the Society for Developmental Biology has chosen me and Dr. Farber as the 2012 recipients of the Viktor Hamburger prize," says Shuda. "Project BioEYES exemplifies how scientists and educators can come together to teach cutting edge, exciting science to students of all ages. Collaboration across disciplines is greatly supported by Penn and the IRM and it is wonderful that the university is being recognized for their public engagement. Viktor Hamburger was a pioneer in both science and teaching and I hope our education programs inspire more scientists just like him."

With over 10 years of experience in public education, Dr. Shuda has worked with teachers, students, and university staff to develop innovative science curricula. Her research focuses on the role informal science education plays in developing an effective science curriculum in K-12 schools and the characteristics of successful university and community partnerships to enhance science education at the undergraduate level. At the University of Pennsylvania, Dr. Shuda teaches Stem Cell Science in Schools: History, Ethics, and Education, which provides university and high school students with the opportunity to learn the science of stem cells while becoming deeply engaged with social and ethical issues relevant to everyday life. Dr. Shuda holds an MS.Ed and teaching certification from Drexel University and an Ed.D in education policy from Temple University.

Established in 2002 by the SDB Board of Directors in honor of Dr. Viktor Hamburger and sponsored by the Professional Development and Education Committee, this Hamburger award recognizes individuals who have made outstanding contributions to developmental biology education. The recipients deliver a lecture at the Education Symposium of the SDB Annual Meetings.

Penn's Perelman School of Medicine is currently ranked #2 in U.S. News & World Report's survey of research-oriented medical schools and among the top 10 schools for primary care. The School is consistently among the nation's top recipients of funding from the National Institutes of Health, with $507.6 million awarded in the 2010 fiscal year.

The University of Pennsylvania Health System's patient care facilities include: The Hospital of the University of Pennsylvania -- recognized as one of the nation's top 10 hospitals by U.S. News & World Report; Penn Presbyterian Medical Center; and Pennsylvania Hospital the nation's first hospital, founded in 1751. Penn Medicine also includes additional patient care facilities and services throughout the Philadelphia region.

Penn Medicine is committed to improving lives and health through a variety of community-based programs and activities. In fiscal year 2010, Penn Medicine provided $788 million to benefit our community.

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Penn Medicine Science Educator Recognized by Society for Developmental Biology

SILVER SPRING, Md.--(BUSINESS WIRE)--

Nuvilex, Inc. (OTCQB:NVLX), an emerging biotechnology provider of cell and gene therapy solutions, today pointed out the potential for substantial partnership and licensing opportunities using the companys cell encapsulation technology for applications in stem cell research and medicine. Migration of implanted cells away from the target site and host rejection have been recognized as fundamental challenges faced by the stem cell community regarding their use in therapy, which the companys technology overcomes.

The technology being acquired from associate SG Austria is used to place live stem cells into strong, flexible and permeable capsules. These capsules can then be implanted into animals or humans for specific therapies. Stem cells can then exist at the desired location inside the capsules, prevented from migrating and protected from the immune system that aims to eliminate such foreign cells from the body.

Stem cell therapy is being used by clinicians throughout the world for treating such diverse diseases as spinal cord injury, amyotrophic lateral sclerosis, burns, glioma, multiple myeloma, arthritis, heart disease, stroke, Stargardt's Macular Dystrophy, and age-related macular degeneration, among others, most of which can be found at ClinicalTrials.gov.

Historically, researchers have faced numerous difficulties in succeeding with certain stem cell treatments, because of the problems associated with keeping stem cells alive for significant periods of time, stopping rejection and destruction by the recipients immune system, and keeping stem cells from migrating away from the desired sites. Cells encapsulated in SG Austrias porous beads have been shown to remain alive for long periods of time in humans, surviving intact for at least two years. Once encapsulated, cells are protected from the bodys immune system. Furthermore, encapsulated cells remain within the beads and are unable to migrate to other sites in the body.

In the February 29, 2012 research report, Goldman Small Cap Research stated, The Cell-in-a-Box approach could significantly advance the implementation and utilization of stem cells for a host of debilitating diseases and conditions, making it a uniquely valuable commodity. We believe that by partnering with leading players in the field, Nuvilex could find that companies with deep pockets would be happy to collaborate or license the delivery system and engage in further research which could result in meaningful development and licensing revenue.

Dr. Robert Ryan, Chief Executive Officer of Nuvilex, discussed the value for licensing the companys stem cell therapy, adding, By overcoming traditional barriers to effective stem cell therapy, namely viability, migration, and host rejection, we believe these new advances in medical science utilizing stem cells and encapsulation will enable us to take quantum leaps forward now and in the future. As a result of challenges SG Austria has overcome, new advances will be surprisingly close at hand and are part of the driving force behind our desire to work with a number of companies in this endeavor. Our primary goal has been and remains to use our technology to bring life changing treatments to patients on an expedited basis.

About Nuvilex

Nuvilex, Inc. (OTCQB:NVLX) is an emerging international biotechnology provider of clinically useful therapeutic live encapsulated cells and services for encapsulating live cells for the research and medical communities. Through our effort, all aspects of our corporate activities alone, and especially in concert with SG Austria, are rapidly moving toward completion, including closing our agreement. One of our planned offerings will include cancer treatments using the companys industry-leading live-cell encapsulation technology.

Safe Harbor Statement

Visit link:
Nuvilex Forecasts Vast Partnership Opportunities Using Breakthrough Stem Cell Technology

NEW YORK, NY--(Marketwire -03/05/12)- February was a challenging month for stem cell stocks. TickerSpy's Stem Cell Stocks Index (RXSTM) has slipped nearly 13 percent over the last month -- underperforming the S&P 500 by close to 17 percent over that time frame. Despite the drop in investor optimism, new research continues to propel the industry forward. Five Star Equities examines the outlook for companies in the Biotechnology industry and provides equity research on Advanced Cell Technology, Inc. (OTC.BB: ACTC.OB - News) and NeoStem, Inc. (AMEX: NBS - News). Access to the full company reports can be found at:

http://www.fivestarequities.com/ACTC

http://www.fivestarequities.com/NBS

A new study at Johns Hopkins University has shown that stem cells from patients' own cardiac tissue can be used to heal scarred tissue after a heart attack. "This has never been accomplished before, despite a decade of cell therapy trials for patients with heart attacks. Now we have done it," Eduardo Marban, director of the Cedars-Sinai Heart Institute and one of the study's co-authors, said in a statement. "The effects are substantial."

In another study, researchers led by Jonathan Tilly, director of the Vincent Center for Reproductive Biology at Massachusetts General Hospital, argue they've discovered the ovaries of young women harbor very rare stem cells capable of producing new eggs.

Five Star Equities releases regular market updates on the biotechnology industry so investors can stay ahead of the crowd and make the best investment decisions to maximize their returns. Take a few minutes to register with us free at http://www.fivestarequities.com and get exclusive access to our numerous stock reports and industry newsletters.

Advanced Cell Technology, Inc., a biotechnology company, focuses on the development and commercialization of human embryonic and adult stem cell technology in the field of regenerative medicine. The Company recently issued a press release stating that it utilized $13.6 million in cash for operations during 2011, compared to $8.8 million in the year-earlier period. The increase in cash utilization resulted primarily from ACT's ongoing clinical activities in the US and Europe.

NeoStem, Inc., a biopharmaceutical company, engages in the development and manufacture of cellular therapies for oncology, immunology, and regenerative medicines in the United States and China. In January, Amorcyte, LLC, a NeoStem, Inc. company, announced the enrollment of the first patient in the Amorcyte PreSERVE Phase 2 trial for acute myocardial infarction.

Five Star Equities provides Market Research focused on equities that offer growth opportunities, value, and strong potential return. We strive to provide the most up-to-date market activities. We constantly create research reports and newsletters for our members. Five Star Equities has not been compensated by any of the above-mentioned companies. We act as an independent research portal and are aware that all investment entails inherent risks. Please view the full disclaimer at: http://www.fivestarequities.com/disclaimer

See original here:
New Stem Cell Research Shows Promising Results -- Advanced Cell Tech and NeoStem Poised to Benefit

SAN DIEGO, March 5, 2012 /PRNewswire/ --Histogen Inc., a regenerative medicine company, and Suneva Medical, a privately-held aesthetics company, today announced that they have entered into a license agreement for physician-dispensed aesthetic products containing Histogen's proprietary multipotent cell conditioned media (CCM).

Under the terms of this license agreement, Suneva Medical has acquired exclusive U.S. licensing rights to Histogen's multipotent CCM and the ReGenica branded line of products for topical applications in the licensed market. Suneva Medical will manufacture the ReGenica product line and market it to aesthetic practitioners throughout the U.S. Histogen will receive a transfer price on the CCM, as well as royalties on future sales of ReGenica and product line extensions.

"First, let me say that, as the first step in expanding our business, we are very excited about this particular opportunity as the advent of regenerative medicine is upon us. One of our key business objectives is to find novel products that complement our rapidly growing dermal filler business. We believe Histogen's innovative technology coupled with our proven experience of developing and marketing aesthetic products is a winning combination as it enables us to offer our customers a differentiated product line," stated Nicholas Teti, Chairman and Chief Executive Officer of Suneva Medical.

Through Histogen's technology process, which mimics the embryonic environment including conditions of low oxygen and suspension, cells are triggered to become multipotent, and naturally produce proteins associated with skin renewal and scarless healing. The result is a soluble cell conditioned media containing cell-signaling proteins such as KGF, follistatin, stem cell factor, collagens and laminins, which support the epidermal stem cells that renew skin throughout life. In addition, factors associated with scarring, such as TGF-beta, are decreased or nonexistent.

"The applications for this proprietary multipotent CCM within the field of medical aesthetics are numerous and, based upon the way the proteins within the complex signal the body's own stem cells to rejuvenate and regenerate skin, potentially groundbreaking," said Dr. Gail K. Naughton, CEO and Chairman of the Board at Histogen. "This recognition from Suneva's expert team, with a rich background in developing and marketing aesthetics, validates Histogen's technology and supports the fact that it is different from anything currently in the market."

About Histogen Histogen, launched in 2007, seeks to redefine regenerative medicine by developing a series of high value products that do not contain embryonic stem cells or animal components. Through Histogen's proprietary bioreactors that mimic the embryonic environment, including low oxygen and suspension, newborn cells are encouraged to naturally produce the vital proteins and growth factors from which the Company has developed its rich product portfolio. Histogen has two product families a proprietary cell conditioned media, and a human Extracellular Matrix (ECM) material. For more information, please visit http://www.histogen.com.

About Suneva Medical Suneva Medical, Inc. is a privately-held aesthetics company focused on developing, manufacturing and commercializing novel, differentiated products for the dermatology, plastic and cosmetic surgery markets. The Company's long-lasting injectable product is marketed as Artefill in the U.S. and Bellafill in Canada to correct facial wrinkles. For more information visit http://www.sunevamedical.com.

Contacts:

For Histogen Inc.:

Eileen Brandt Phone: (858) 200-9520 ebrandt@histogeninc.com

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Histogen Signs License Agreement with Suneva Medical for Cell Conditioned Media-based Aesthetic Products

NEW YORK, NY--(Marketwire -03/05/12)- February was a challenging month for stem cell stocks. TickerSpy's Stem Cell Stocks Index (RXSTM) has slipped nearly 13 percent over the last month -- underperforming the S&P 500 by close to 17 percent over that time frame. Despite the drop in investor optimism, new and promising research continues to propel the industry forward. Five Star Equities examines the outlook for companies in the Biotechnology industry and provides equity research on BioTime, Inc. (AMEX: BTX - News) and Aastrom Biosciences, Inc. (NASDAQ: ASTM - News). Access to the full company reports can be found at:

http://www.fivestarequities.com/BTX

http://www.fivestarequities.com/ASTM

A new study at Johns Hopkins University has shown that stem cells from patients' own cardiac tissue can be used to heal scarred tissue after a heart attack. "This has never been accomplished before, despite a decade of cell therapy trials for patients with heart attacks. Now we have done it," Eduardo Marban, director of the Cedars-Sinai Heart Institute and one of the study's co-authors, said in a statement. "The effects are substantial."

In another study, researchers led by Jonathan Tilly, director of the Vincent Center for Reproductive Biology at Massachusetts General Hospital, argue they've discovered the ovaries of young women harbor very rare stem cells capable of producing new eggs.

Five Star Equities releases regular market updates on the biotechnology industry so investors can stay ahead of the crowd and make the best investment decisions to maximize their returns. Take a few minutes to register with us free at http://www.fivestarequities.com and get exclusive access to our numerous stock reports and industry newsletters.

Aastrom Biosciences, Inc., a regenerative medicine company, engages in developing autologous cell therapies for the treatment of severe and chronic cardiovascular diseases.

BioTime, Inc. primarily focuses on regenerative medicine, which refers to therapies based on human embryonic stem (hES) cell and induced pluripotent stem (iPS) cell technology designed to rebuild cell and tissue function lost due to degenerative disease or injury. The company recently elected to market progenitors of muscle stem cells bearing hereditary diseases. BioTime will produce the products from five human embryonic stem (hES) cell lines from Reproductive Genetics Institute (RGI) of Chicago, Illinois.

Five Star Equities provides Market Research focused on equities that offer growth opportunities, value, and strong potential return. We strive to provide the most up-to-date market activities. We constantly create research reports and newsletters for our members. Five Star Equities has not been compensated by any of the above-mentioned companies. We act as an independent research portal and are aware that all investment entails inherent risks. Please view the full disclaimer at: http://www.fivestarequities.com/disclaimer

Read more here:
BioTime and Aastrom Biosciences -- Stem Cell Research Making Breakthroughs

WASHINGTON, DC--(Marketwire -03/05/12)- The Alliance for Regenerative Medicine issued the following statement today: "An article about stem cell treatments taking place in Texas published by Nature last week is extremely troubling. The article suggests that patients are being administered stem cell treatments that have not been systematically demonstrated to be safe and effective therapies through the established FDA regulatory process.

"Cell therapy treatments, including those using adult stem cells, hold the promise of providing patients with treatments and cures for numerous diseases and disabilities. However, FDA regulation is key to ensuring that the treatments available to patients are safe and effective.

"The Alliance for Regenerative Medicine (ARM), a non-profit organization whose mission is to promote increased funding and development of regenerative medicine products, believes cell therapy and regenerative medicine products, including autologous cell therapy products, must go through the rigorous safety testing that is part of the FDA regulatory process before they can be marketed to the public. These regulations are designed to promote safe collection, manufacture, storage, and use of human cells, and cellular and tissue based products. ARM members comply with these rules because they know that FDA oversight helps to prevent patients from exposure to potentially unsafe products.

"We urge all companies developing stem cell treatments to follow FDA rules governing research and product development. ARM remains committed to working with all stakeholders to ensure that safe and effective products reach patients as soon as possible."

About The Alliance for Regenerative Medicine (ARM) The Alliance for Regenerative Medicine (ARM) is a Washington, DC-based non-profit organization that promotes legislative, regulatory, reimbursement, and financing initiatives necessary to facilitate access to life-giving advances in regenerative medicine. ARM also works to increase public understanding of the field and its potential to transform human healthcare, and provides services to support the growth of its member companies and organizations. To learn more about ARM or to become a member, visit http://www.alliancerm.org.

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The Alliance for Regenerative Medicine Statement on Use of Cell Therapies Not Approved by the Federal Drug ...

SILVER SPRING, Md.--(BUSINESS WIRE)--

Nuvilex, Inc. (OTCQB:NVLX), an emerging biotechnology provider of cell and gene therapy solutions, released information today about the companys cell encapsulation technology and the breakthrough in stem cell research which overcomes specific fundamental challenges faced in stem cell therapyhost rejection and migration of implanted cells away from the target site.

Stem cell therapy is believed by many medical researchers as holding a key to treating cancer, Type 1 diabetes mellitus, Parkinson's disease, Huntington's disease, Celiac Disease, cardiac failure, muscle damage, neurological disorders, and other chronic, debilitating diseases. There are presently >1,400 registered trials using stem cells that are recruiting patients (ClinicalTrials.gov). The encapsulation technology being advanced allows live stem cells to be implanted into robust, flexible and permeable capsules where they can replicate inside the capsules at the target site free from attack by the bodys immune system and free to undergo natural changes to become the appropriate cell type needed.

The Goldman Small Cap Research report, issued February 29, 2012, noted some inherent difficulties encountered in stem cell treatments, such as keeping stem cells alive for significant periods of time, potential rejection of the cells and subsequent destruction by the recipients immune system, and the migration of the stem cells away from the critical treatment site, while making a distinction that the Companys cell encapsulation technology overcomes these concerns.

The report also accurately recognized, Cells encapsulated in SG Austrias porous beads remain alive for long periods of time in humans, surviving intact for at least two years. Once encapsulated, cells are protected from the bodys immune system. Furthermore, encapsulated cells remain within the beads and do not migrate out of the beads to other sites in the body.

In assessing the overall importance of this technology to Nuvilexs overall business model, Goldman pointed out, The Companys acquisition of the Cell-in-a-Box approach along with the expertise of SG Austria could significantly advance the implementation and utilization of stem cells for a host of debilitating diseases and conditions, in addition to being used to target cancer cells, thus making it a uniquely valuable commodity. We believe that by partnering with leading players in the field, Nuvilex could find that companies with deep pockets would be happy to collaborate or license the delivery system and engage in further research which could result in meaningful development and licensing revenue.

Dr. Robert Ryan, Chief Executive Officer of Nuvilex, added, There is a broad range of expanding research supporting the use of stem cells to treat a variety of human diseases and conditions. Our technology allows for precise maintenance and localization of stem cells, preventing their loss from the critical area of need, that will enable us to potentially create miniature organs at specific sites and as a result we believe greater utilization of those stem cells at the site for their intended purpose, once implanted. As stem cell treatments advance, we expect Nuvilex to be at the forefront of developing new, significant, life changing therapies.

For a detailed review of the research report and valuation methodology, investors are directed to the Goldman Research Report.

About Nuvilex

Nuvilex, Inc. (OTCQB:NVLX) is an emerging international biotechnology provider of clinically useful therapeutic live encapsulated cells and services for encapsulating live cells for the research and medical communities. Through our effort, all aspects of our corporate activities alone, and especially in concert with SG Austria, are rapidly moving toward completion, including closing our agreement. One of our planned offerings will include cancer treatments using the companys industry-leading live-cell encapsulation technology.

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Nuvilex Announces Major Breakthrough in Stem Cell Research

ScienceDaily (Mar. 5, 2012) A new cornea may be the only way to prevent a patient going blind -- but there is a shortage of donated corneas and the queue for transplantation is long. Scientists at the Sahlgrenska Academy have for the first time successfully cultivated stem cells on human corneas, which may in the long term remove the need for donators.

Approximately 500 corneal transplantations are carried out each year in Sweden, and about 100,000 in the world. The damaged and cloudy cornea that is turning the patient blind is replaced with a healthy, transparent one. But the procedure requires a donated cornea, and there is a severe shortage of donated material. This is particularly the case throughout the world, where religious or political views often hinder the use of donated material.

Replacing donated corneas

Scientists at the Sahlgrenska Academy, University of Gothenburg, have taken the first step towards replacing donated corneas with corneas cultivated from stem cells.

Scientists Charles Hanson and Ulf Stenevi have used defective corneas obtained from the ophthalmology clinic at Sahlgrenska University Hospital in Mlndal. Their study is now published in the journal Acta Ophthalmologica, and shows how human stem cells can be caused to develop into what are known as "epithelial cells" after 16 days' culture in the laboratory and a further 6 days' culture on a cornea. It is the epithelial cells that maintain the transparency of the cornea.

First time ever on human corneas

"Similar experiments have been carried out on animals, but this is the first time that stem cells have been grown on damaged human corneas. It means that we have taken the first step towards being able to use stem cells to treat damaged corneas," says Charles Hanson.

"If we can establish a routine method for this, the availability of material for patients who need a new cornea will be essentially unlimited. Both the surgical procedures and the aftercare will also become much more simple," says Ulf Stenevi.

Few clinics conduct tranplants

Only a few clinics are currently able to transplant corneas. Many of the transplantations in Sweden are carried out at the ophthalmology clinic at Sahlgrenska University Hospital, Department of Ophthalmology, Mlndal.

Here is the original post:
Stem cells can repair a damaged cornea

HAIR

Constance Jablonski channels Rosie the Riveter complete with a curly bob and headscarf for Harper's Bazaar Russia. [Fashion Gone Rogue]

Willow Smith dyed her buzz-cut hair neon green. [HuffPo]

Hairstylist Anthony Turner described this season's Kenzo girl backstage at the brand's show yesterday: "Shes met the man of her dreams and hes a rich man. The hair is the day-after-the-night-before," meaning, "She had a little romp on the Upper East Side. [T Magazine]

SKIN

Jennifer Aniston's beauty regimen which includes hair-, skin-, and eyebrow-care, makeup, spray tans, nutrition, and exercise training runs a steep $11,933.97 per month, according to estimates. That's $141,037.97 each year. [ONTD]

Mila Kunis shares her thoughts on growing older with Harpers Bazaar: I will not put a needle in my body unless I have a medical reason. But ask me in 10 years. Right now, Im like, Im going to embrace [aging], but Im probably going to want to have something done. I have no doubt. [PeopleStyleWatch]

Suzanne Somers is testing a newstem cell treatment called cell-assisted lipotransfer, which allows patients to regrow breast tissue. Though the treatment has yet to be approved by the FDA, it could become an alternative for those seeking breast reconstruction without implants. [Jezebel]

U.S. Customs and Border Protection seized a shipment of counterfeit Este Lauder perfumes valued at more than $344,000. [WWD]

Evan Rachel Wood and Chris Evans are the faces of Guccis new scent, Gucci Guilty Intense. [InStyle]

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Evan Rachel Wood and Chris Evans Model for Gucci; Jennifer Aniston’s $100,000 Beauty Routine

SAN DIEGO, March 5, 2012 /PRNewswire/ --Histogen Inc., a regenerative medicine company, and Suneva Medical, a privately-held aesthetics company, today announced that they have entered into a license agreement for physician-dispensed aesthetic products containing Histogen's proprietary multipotent cell conditioned media (CCM).

Under the terms of this license agreement, Suneva Medical has acquired exclusive U.S. licensing rights to Histogen's multipotent CCM and the ReGenica branded line of products for topical applications in the licensed market. Suneva Medical will manufacture the ReGenica product line and market it to aesthetic practitioners throughout the U.S. Histogen will receive a transfer price on the CCM, as well as royalties on future sales of ReGenica and product line extensions.

"First, let me say that, as the first step in expanding our business, we are very excited about this particular opportunity as the advent of regenerative medicine is upon us. One of our key business objectives is to find novel products that complement our rapidly growing dermal filler business. We believe Histogen's innovative technology coupled with our proven experience of developing and marketing aesthetic products is a winning combination as it enables us to offer our customers a differentiated product line," stated Nicholas Teti, Chairman and Chief Executive Officer of Suneva Medical.

Through Histogen's technology process, which mimics the embryonic environment including conditions of low oxygen and suspension, cells are triggered to become multipotent, and naturally produce proteins associated with skin renewal and scarless healing. The result is a soluble cell conditioned media containing cell-signaling proteins such as KGF, follistatin, stem cell factor, collagens and laminins, which support the epidermal stem cells that renew skin throughout life. In addition, factors associated with scarring, such as TGF-beta, are decreased or nonexistent.

"The applications for this proprietary multipotent CCM within the field of medical aesthetics are numerous and, based upon the way the proteins within the complex signal the body's own stem cells to rejuvenate and regenerate skin, potentially groundbreaking," said Dr. Gail K. Naughton, CEO and Chairman of the Board at Histogen. "This recognition from Suneva's expert team, with a rich background in developing and marketing aesthetics, validates Histogen's technology and supports the fact that it is different from anything currently in the market."

About Histogen Histogen, launched in 2007, seeks to redefine regenerative medicine by developing a series of high value products that do not contain embryonic stem cells or animal components. Through Histogen's proprietary bioreactors that mimic the embryonic environment, including low oxygen and suspension, newborn cells are encouraged to naturally produce the vital proteins and growth factors from which the Company has developed its rich product portfolio. Histogen has two product families a proprietary cell conditioned media, and a human Extracellular Matrix (ECM) material. For more information, please visit http://www.histogen.com.

About Suneva Medical Suneva Medical, Inc. is a privately-held aesthetics company focused on developing, manufacturing and commercializing novel, differentiated products for the dermatology, plastic and cosmetic surgery markets. The Company's long-lasting injectable product is marketed as Artefill in the U.S. and Bellafill in Canada to correct facial wrinkles. For more information visit http://www.sunevamedical.com.

Contacts:

For Histogen Inc.:

Eileen Brandt Phone: (858) 200-9520 ebrandt@histogeninc.com

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Histogen Signs License Agreement with Suneva Medical for Cell Conditioned Media-based Aesthetic Products

WASHINGTON, DC--(Marketwire -03/05/12)- The Alliance for Regenerative Medicine issued the following statement today: "An article about stem cell treatments taking place in Texas published by Nature last week is extremely troubling. The article suggests that patients are being administered stem cell treatments that have not been systematically demonstrated to be safe and effective therapies through the established FDA regulatory process.

"Cell therapy treatments, including those using adult stem cells, hold the promise of providing patients with treatments and cures for numerous diseases and disabilities. However, FDA regulation is key to ensuring that the treatments available to patients are safe and effective.

"The Alliance for Regenerative Medicine (ARM), a non-profit organization whose mission is to promote increased funding and development of regenerative medicine products, believes cell therapy and regenerative medicine products, including autologous cell therapy products, must go through the rigorous safety testing that is part of the FDA regulatory process before they can be marketed to the public. These regulations are designed to promote safe collection, manufacture, storage, and use of human cells, and cellular and tissue based products. ARM members comply with these rules because they know that FDA oversight helps to prevent patients from exposure to potentially unsafe products.

"We urge all companies developing stem cell treatments to follow FDA rules governing research and product development. ARM remains committed to working with all stakeholders to ensure that safe and effective products reach patients as soon as possible."

About The Alliance for Regenerative Medicine (ARM) The Alliance for Regenerative Medicine (ARM) is a Washington, DC-based non-profit organization that promotes legislative, regulatory, reimbursement, and financing initiatives necessary to facilitate access to life-giving advances in regenerative medicine. ARM also works to increase public understanding of the field and its potential to transform human healthcare, and provides services to support the growth of its member companies and organizations. To learn more about ARM or to become a member, visit http://www.alliancerm.org.

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The Alliance for Regenerative Medicine Statement on Use of Cell Therapies Not Approved by the Federal Drug ...

SEATTLE (TheStreet) --Let's examine the short thesis on Seattle Genetics(SGEN), which also perfectly illustrates an important point about short selling, generally. Last August, Seattle Genetics received FDA approval for Adcetris -- an anti-CD30 monoclonal antibody linked to the anti-cancer drug monomethyl auristatin E (MMAE) -- for the treatment of relapsed or refractory Hodgkin's lymphoma (HL) and systemic anaplastic large cell lymphoma (sALCL). Adcetris is a good treatment option for patients within the labeled indication and management deserves applause for getting the drug to market. Unfortunately, there's a problem: Adcetris sales estimates are too high. HL and sALCL are rare cancers with extremely effective initial therapeutic options, leaving few patients for the Seattle Genetics to treat. Usually, when a drug misses Wall Street estimates, the stock price of the company selling the drug falls. I believe Adcetris sales will fall short of Wall Street estimates, causing Seattle Genetics' stock price to tumble as well. Before I dig deeper into Seattle Genetics, I want to focus on that shadowy coalition with nefarious intentions which secretly controls global markets -- otherwise known as the shorts. [Insert sarcastic sneer here.] For the unfamiliar, short selling -- or "shorting" -- is a way to bet that a company (or nearly any other asset) is overvalued. An investor borrows and sells shares, promising to "return" those shares at a later date (the details are more complex, but that's the gist.) If the share price declines, the investor covers (buys and returns the borrowed shares) and pockets the difference for a profit. Missteps can be costly; a short has a maximum profit of 100% (an asset's value can only decline to zero), but unlimited downside. Unlike a long position, a short that moves in the wrong direction also becomes larger, thereby compounding the pain. As yet another perk, short sellers are often ostracized for daring to question management's vision. To be clear, those who illegally manipulate stock prices in either direction -- whether at a hedge fund, bank, mutual fund, or elsewhere -- should be caught and punished. Rather than focus on this tiny subgroup of criminals, doe-eyed optimists blame the shorts for nearly any unwanted outcome. Sadly, this practice isn't new. In the 17th century, the Netherlands banned short selling when an investor's bet against the Dutch East India Company went awry. Regulation would have been the better answer. Napoleon Bonaparte linked shorting with treason, banned the practice, and imprisoned offenders. A few years ago, prominent U.S. politicians lambasted short sellers for causing the financial crisis. (Global overleverage, mispriced assets, and governmental policies that encouraged bad decisions were legitimate targets apparently too nebulous.) This long-standing demonization of short selling ignores reality. Even quality assets like the cancer drug Adcetris can be undervalued, fairly valued, or overvalued at any given point in time. Admiring Seattle Genetics' regulatory accomplishment shouldn't require loving the stock too, however. Some executives obsessively assail short sellers publicly, which is often a red flag indicating shorts sellers are onto something. The best management teams don't worry about shorts. They focus on their business with the confidence and understanding that in today's extremely liquid markets, even massive short positions have little impact on a company's long-term prospects. Over time, fundamentals are what make or break a stock. In fact, CEOs should actively seek to meet with the shorts; convince a skeptic and you've created a new shareholder. I've had my say in defense of short selling. I also realize that most people's negative view of short selling isn't going to change. Shorts are, and likely always will be, vilified unfairly. I do feel a little better with that off my chest. Back to Seattle Genetics and Adcetris: Every year, 8,800 Americans develop and 1,300 die from Hodgkin's lymphoma (HL), according the National Cancer Institute's Surveillance, Epidemiology and End Results (SEER) database. HL is very sensitive to traditional chemotherapy, so front-line treatment produces objective responses (tumor shrinkage) in roughly 80-90% of patients; most patients do not require further therapy for years, if ever. Patients that relapse usually receive high-dose chemotherapy combined with autologous stem cell transplant (ASCT), a procedure that replaces unhealthy cells with healthy ones. This combination yields durable responses in many patients, with three-year progression free survival rates of 50-60%. Adcetris employs a neat drug-delivery technology to kill cancer. The antibody portion of Adcetris attaches to receptors found on the cancer cell. Once attached, Adcetris' toxic drug payload is cleaved off inside the tumor cell where it can maximize efficacy and limit toxicity. In relapsed HL, the Adcetris data are encouraging and clearly warranted FDA accelerated approval. Nearly a third of Adcetris-treated HL patients experienced a complete response (CR) and another 40% had partial tumor shrinkage (a partial response, or PR). Results in sALCL were even better: 59% of patients had a CR and 27% qualified as a PR. Seattle Genetics must still prove Adcetris' clinical benefit in a confirmatory Phase III trial, which the company will start later this year.

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Seattle Genetics: A Cancer Niche Too Small

The women who had chemotherapy fared much worse than the control group on tests of verbal memory, cognitive processing speed, executive function, and psychomotor speed.

Previous studies suggested that "chemo brain" can persist for five years after treatment, but this study is the first to show possible permanent cognitive damage.

- Los Angeles Times

More Americans are turning to the emergency room for routine dental problems - a choice that often costs 10 times more than preventive care and offers far fewer treatment options than a dentist's office, according to an analysis of government data and dental research.

Most of those emergency visits involve trouble such as toothaches that could have been avoided with regular checkups but went untreated, in many cases because of a shortage of dentists, particularly those willing to treat Medicaid patients, the analysis said.

The number of E.R. visits nationwide for dental problems increased 16 percent from 2006 to 2009, and the report released Tuesday by the Pew Center on the States suggests the trend is continuing.

Emergency rooms generally can offer pain relief and medicine for infected gums but not much more for dental patients. And many patients are unable to find or afford follow-up treatment, so they end up back in the emergency room.

Preventive dental care such as routine teeth cleaning can cost $50 to $100, vs. $1,000 for emergency-room treatment.

- Associated Press

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Personal Health: Chemo brain, stem cells and more

SILVER SPRING, Md.--(BUSINESS WIRE)--

Nuvilex, Inc. (OTCQB:NVLX), an emerging biotechnology provider of cell and gene therapy solutions, released information today about the companys cell encapsulation technology and the breakthrough in stem cell research which overcomes specific fundamental challenges faced in stem cell therapyhost rejection and migration of implanted cells away from the target site.

Stem cell therapy is believed by many medical researchers as holding a key to treating cancer, Type 1 diabetes mellitus, Parkinson's disease, Huntington's disease, Celiac Disease, cardiac failure, muscle damage, neurological disorders, and other chronic, debilitating diseases. There are presently >1,400 registered trials using stem cells that are recruiting patients (ClinicalTrials.gov). The encapsulation technology being advanced allows live stem cells to be implanted into robust, flexible and permeable capsules where they can replicate inside the capsules at the target site free from attack by the bodys immune system and free to undergo natural changes to become the appropriate cell type needed.

The Goldman Small Cap Research report, issued February 29, 2012, noted some inherent difficulties encountered in stem cell treatments, such as keeping stem cells alive for significant periods of time, potential rejection of the cells and subsequent destruction by the recipients immune system, and the migration of the stem cells away from the critical treatment site, while making a distinction that the Companys cell encapsulation technology overcomes these concerns.

The report also accurately recognized, Cells encapsulated in SG Austrias porous beads remain alive for long periods of time in humans, surviving intact for at least two years. Once encapsulated, cells are protected from the bodys immune system. Furthermore, encapsulated cells remain within the beads and do not migrate out of the beads to other sites in the body.

In assessing the overall importance of this technology to Nuvilexs overall business model, Goldman pointed out, The Companys acquisition of the Cell-in-a-Box approach along with the expertise of SG Austria could significantly advance the implementation and utilization of stem cells for a host of debilitating diseases and conditions, in addition to being used to target cancer cells, thus making it a uniquely valuable commodity. We believe that by partnering with leading players in the field, Nuvilex could find that companies with deep pockets would be happy to collaborate or license the delivery system and engage in further research which could result in meaningful development and licensing revenue.

Dr. Robert Ryan, Chief Executive Officer of Nuvilex, added, There is a broad range of expanding research supporting the use of stem cells to treat a variety of human diseases and conditions. Our technology allows for precise maintenance and localization of stem cells, preventing their loss from the critical area of need, that will enable us to potentially create miniature organs at specific sites and as a result we believe greater utilization of those stem cells at the site for their intended purpose, once implanted. As stem cell treatments advance, we expect Nuvilex to be at the forefront of developing new, significant, life changing therapies.

For a detailed review of the research report and valuation methodology, investors are directed to the Goldman Research Report.

About Nuvilex

Nuvilex, Inc. (OTCQB:NVLX) is an emerging international biotechnology provider of clinically useful therapeutic live encapsulated cells and services for encapsulating live cells for the research and medical communities. Through our effort, all aspects of our corporate activities alone, and especially in concert with SG Austria, are rapidly moving toward completion, including closing our agreement. One of our planned offerings will include cancer treatments using the companys industry-leading live-cell encapsulation technology.

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Nuvilex Announces Major Breakthrough in Stem Cell Research

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Producing More Stem Cells! (Brainstorm Ep51) - Video

Boosting the production of certain cells could help treat liver disease, new research has suggested.

Researchers at the Medical Research Council (MRC) Centre for Regenerative Medicine at the University of Edinburgh said they have discovered how to enhance the production of key cells needed to repair damaged liver tissue. The research could help develop treatments for diseases such as cirrhosis or chronic hepatitis.

Scientists hope their work could eventually ease the pressure on waiting lists for liver transplants. Researchers said that when the liver is damaged it produces too many bile duct cells and not enough cells called hepatocytes, which the liver needs to repair damaged tissue.

They found they could increase the number of hepatocyte cells - which detoxify the liver - by encouraging these cells to be produced instead of bile duct cells. Understanding how liver cells are formed could help to develop drugs to encourage the production of hepatocytes to repair liver tissue.

Professor Stuart Forbes, associate director at the MRC, who is a consultant hepatologist and was the academic leader of the study, said: "Liver disease is on the increase in the UK and is one of the top five killers. Increasing numbers of patients are in need of liver transplants, but the supply of donated organs is not keeping pace with the demand.

"If we can find ways to encourage the liver to heal itself then we could ease the pressure on waiting lists for liver transplants."

The production of hepatocyte cells was increased by altering the expression of certain genes in early stage liver cells. The university said that liver disease is the fifth biggest killer in the UK with almost 500 people waiting for a liver transplant, compared with just over 300 five years ago.

Dr Rob Buckle, head of regenerative medicine at the MRC, said: "Liver transplants have saved countless lives over the years, but demand will inevitably outstrip supply and in the long term we need to look beyond replacing damaged tissues to exploiting the regenerative potential of the human body.

"The MRC continues to invest heavily across the breadth of approaches that might deliver the promise of regenerative medicine, and this study opens up the possibility of applying our increasing knowledge of stem cell biology to stimulate the body's own dormant repair processes as a basis for future therapy."

The study is published in the journal Nature Medicine. It was carried out in collaboration with the University's MRC Centre for Inflammation Research, the Beatson Institute for Cancer Research in Glasgow and the KU Leuven in Belgium.

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Cell find boosts liver disease hope