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Category Archives: Stem Cell Therapy

HemoGenix® FDA Master File to Measure Blood Stem Cell Potency for Cellular Therapy Products:

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.

Literature Cited

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Bioheart's Chief Science Officer Kristin Comella Presents at 10th Annual Meeting of International Society for Stem …

SUNRISE, Fla., June 25, 2012 (GLOBE NEWSWIRE) -- Bioheart, Inc. (BHRT.OB) announced today that Kristin Comella, the company's Chief Science Officer presented at the 10th Annual Meeting of the International Society for Stem Cell Research (ISSCR) in Yokohama, Japan June 13 - 16, 2012. One of the world's premier stem cell research events, the ISSCR format includes international research and poster presentations from invited speakers, exceptional peer-to-peer learning and unparalleled networking opportunities.

Comella presented a poster on clinical applications of adipose or fat derived stem cells (ADSCs).

The ISSCR annual meeting serves as the largest forum for stem cell and regenerative medicine professionals from around the world. Through lectures, symposia, workshops, and events attendees experience innovative stem cell and regenerative medicine research, advances and what's on the horizon. The meeting features more than 1,000 abstracts, nearly 150 speakers and provides numerous networking and professional development opportunities and social events. For additional information, visit http://www.isscr.org.

Kristin Comella has over 14 years experience in corporate entities with expertise in regenerative medicine, training and education, research, product development and senior management including more than 10 years of cell culturing experience. She has made a significant contribution to Bioheart's product development, manufacturing and quality systems since she joined the company in September 2004.

About Bioheart, Inc.

Bioheart is committed to maintaining its leading position within the cardiovascular sector of the cell technology industry delivering cell therapies and biologics that help address congestive heart failure, lower limb ischemia, chronic heart ischemia, acute myocardial infarctions and other issues. Bioheart's goals are to cause damaged tissue to be regenerated, when possible, and to improve a patient's quality of life and reduce health care costs and hospitalizations.

Specific to biotechnology, Bioheart is focused on the discovery, development and, subject to regulatory approval, commercialization of autologous cell therapies for the treatment of chronic and acute heart damage and peripheral vascular disease. Its leading product, MyoCell, is a clinical muscle-derived cell therapy designed to populate regions of scar tissue within a patient's heart with new living cells for the purpose of improving cardiac function in chronic heart failure patients. For more information on Bioheart, visit http://www.bioheartinc.com, or visit us on Facebook: Bioheart and Twitter @BioheartInc.

Forward-Looking Statements: Except for historical matters contained herein, statements made in this press release are forward-looking statements. Without limiting the generality of the foregoing, words such as "may," "will," "to," "plan," "expect," "believe," "anticipate," "intend," "could," "would," "estimate," or "continue" or the negative other variations thereof or comparable terminology are intended to identify forward-looking statements.

Forward-looking statements involve known and unknown risks, uncertainties and other factors which may cause our actual results, performance or achievements to be materially different from any future results, performance or achievements expressed or implied by the forward-looking statements. Also, forward-looking statements represent our management's beliefs and assumptions only as of the date hereof. Except as required by law, we assume no obligation to update these forward-looking statements publicly, or to update the reasons actual results could differ materially from those anticipated in these forward-looking statements, even if new information becomes available in the future.

The Company is subject to the risks and uncertainties described in its filings with the Securities and Exchange Commission, including the section entitled "Risk Factors" in its Annual Report on Form 10-K for the year ended December 31, 2011, and its Quarterly Report on Form 10-Q for the quarter ended March 30, 2012.

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Bioheart's Chief Science Officer Kristin Comella Presents at 10th Annual Meeting of International Society for Stem ...

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NeoStem Awarded NIAID Research Grant for the Development of VSEL Technology for Radiation Exposure

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

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Parsing Geron’s Stem Cell Foray: A Nature Journal Commentary


Why did Geron "fail" in its
much ballyhooed pursuit of the first-ever human embryonic stem cell
therapy?

Christopher Scott, senior
research scholar at Stanford, and Brady Huggett,
business editor of the journal Nature, took a crack at
answering that question in a commentary in the June edition of
Nature.
Following the sudden abandonment last
fall by Geron of its hESC business and the first-ever clinical trial
of an hESC therapy, Scott and Huggett scrutinized the history of the
company. The financial numbers were impressive. They wrote,

"How did Geron’s R&D program
meet such a demise? After all, the company raised more than $583
million through 23 financings, including two venture rounds, and
plowed more than half a billion dollars into R&D (about half of
that into hESC work) through 2010. 

"There are problems with being at
the forefront of unknown territory. Of Geron’s development efforts,
the hESC trial was the most prominent, and fraught. Therapies based
on hESCs were new territory for the US Food and Drug
Administration
(FDA), and it eyed Geron warily. The
investigational new drug application (IND), filed in 2008, was twice
put on clinical hold while more animal data were collected among
fears that nonmalignant tumors would result from stray hESCs that
escaped the purification process. Geron says it spent $45 million on
the application, and at 22,000 pages, it was reportedly the largest
the agency had ever received."

The California stem cell agency also
bet $25 million on the company just a few months before it pulled the
plug. Geron repaid all the CIRM money that it had used up to that point.
Geron suffered from a lack of revenue
despite its vaunted stem cell patent portfolio. Scott and Huggett
reported that Geron received only $69 million from 1992 to 2010 from
collaborations, license and royalties. At the same time losses were
huge – $111 million in 2010.
The Nature article noted all of that
was occurring while other biotech companies – such as Isis
and Alnylam – found ample financial support, revenue and
success.
Scott's and Huggett's directed their
final comment to Advanced Cell Technology, now the only
company in the United States with a clinical trial involving a human
embryonic stem cell therapy.

"Your technology may be
revolutionary, your team may be dedicated and you may believe. But it
does not matter if no one else will stand at your side."

Our take: The California stem cell
agency obviously has learned something from its dealings with Geron.
The company's hESC announcement was an unpleasant surprise, to put it
mildly, coming only about three months after CIRM signed the Geron
loan agreement. Today, however, the agency has embarked on more,
equally risky ventures with other biotech enterprises. Indeed, CIRM
is forging into areas that conventional investment shuns. It is all
part of mission approved by California voters in 2004.
The dream of cures from human embryonic
stem cells or even adult stem cells is alluring. And CIRM is feeling
much justifiable pressure to engage industry more closely. All the
more reason for CIRM's executives and directors to maintain a steely
determination to terminate research programs that are spinning their
wheels and instead pursue efforts that are making significant
progress in commercializing research and attracting other investors.  

Source:
http://californiastemcellreport.blogspot.com/feeds/posts/default?alt=rss

Posted in Stem Cell Therapy, Stem Cells | Comments Off on Parsing Geron’s Stem Cell Foray: A Nature Journal Commentary

Parsing Geron's Stem Cell Foray: A Nature Journal Commentary


Why did Geron "fail" in its
much ballyhooed pursuit of the first-ever human embryonic stem cell
therapy?

Christopher Scott, senior
research scholar at Stanford, and Brady Huggett,
business editor of the journal Nature, took a crack at
answering that question in a commentary in the June edition of
Nature.
Following the sudden abandonment last
fall by Geron of its hESC business and the first-ever clinical trial
of an hESC therapy, Scott and Huggett scrutinized the history of the
company. The financial numbers were impressive. They wrote,

"How did Geron’s R&D program
meet such a demise? After all, the company raised more than $583
million through 23 financings, including two venture rounds, and
plowed more than half a billion dollars into R&D (about half of
that into hESC work) through 2010. 

"There are problems with being at
the forefront of unknown territory. Of Geron’s development efforts,
the hESC trial was the most prominent, and fraught. Therapies based
on hESCs were new territory for the US Food and Drug
Administration
(FDA), and it eyed Geron warily. The
investigational new drug application (IND), filed in 2008, was twice
put on clinical hold while more animal data were collected among
fears that nonmalignant tumors would result from stray hESCs that
escaped the purification process. Geron says it spent $45 million on
the application, and at 22,000 pages, it was reportedly the largest
the agency had ever received."

The California stem cell agency also
bet $25 million on the company just a few months before it pulled the
plug. Geron repaid all the CIRM money that it had used up to that point.
Geron suffered from a lack of revenue
despite its vaunted stem cell patent portfolio. Scott and Huggett
reported that Geron received only $69 million from 1992 to 2010 from
collaborations, license and royalties. At the same time losses were
huge – $111 million in 2010.
The Nature article noted all of that
was occurring while other biotech companies – such as Isis
and Alnylam – found ample financial support, revenue and
success.
Scott's and Huggett's directed their
final comment to Advanced Cell Technology, now the only
company in the United States with a clinical trial involving a human
embryonic stem cell therapy.

"Your technology may be
revolutionary, your team may be dedicated and you may believe. But it
does not matter if no one else will stand at your side."

Our take: The California stem cell
agency obviously has learned something from its dealings with Geron.
The company's hESC announcement was an unpleasant surprise, to put it
mildly, coming only about three months after CIRM signed the Geron
loan agreement. Today, however, the agency has embarked on more,
equally risky ventures with other biotech enterprises. Indeed, CIRM
is forging into areas that conventional investment shuns. It is all
part of mission approved by California voters in 2004.
The dream of cures from human embryonic
stem cells or even adult stem cells is alluring. And CIRM is feeling
much justifiable pressure to engage industry more closely. All the
more reason for CIRM's executives and directors to maintain a steely
determination to terminate research programs that are spinning their
wheels and instead pursue efforts that are making significant
progress in commercializing research and attracting other investors.  

Source:
http://californiastemcellreport.blogspot.com/feeds/posts/default?alt=rss

Posted in Stem Cell Therapy, Stem Cells | Comments Off on Parsing Geron's Stem Cell Foray: A Nature Journal Commentary

The California Stem Cell Agency and an HIV Cure: Pushing for a Clinical Trial in 2014


The California stem cell agency's
leading efforts to find a cure for HIV – one tied to the famous "Berlin Patient" – received a plug today in a piece in the
state capital's largest circulation newspaper, The Sacramento Bee.

The article by David Lesher focused on
a $14 million CIRM grant to the City of Hope in Los Angeles that also
involves Sangamo BioSciences of Richmond, Ca. The team hopes to
launch a clinical trial by the end of next year.
The Berlin Patient is Timothy Brown,
now of San Francisco, who is the only person in the world known to
have been cured of HIV/AIDs. It came about as a side effect of a
blood transfusion carrying a rare mutation of a gene found almost
entirely among northern Europeans. Lesher, director of governmental
affairs for the Public Policy Institute in Sacramento, wrote,

"The
possibility of curing a global pandemic like AIDS with funding from
the California bond is exactly the kind of exciting potential that
inspired voters to approve Proposition 71
 by
a wide margin. But the HIV research is also a good example of the
challenge facing the state's s
tem cell agency
as it tries to show voters that they made a good investment.
 

None
of the research under way will reach patients until long after the 10
years of funding by the ballot measure runs out. With the HIV
project, researchers hope to be in human trials by 2014, but it is
likely to be at least 10 years before they can show it might work in
humans. And in the case of a stem cell
 cure
for AIDS, it would be many years after that before a treatment is
widely available.”

Jeff
Sheehy
, a prominent AIDS activist and a board member at the 
stem
cell
 agency,
described the effort as "the global home run. That's not in 10
years. … But this could be the beginning of something really
amazing."
Lesher also wrote,

"Nobody
thought stem cells 
might
be used to cure HIV when the bond (funding for the stem cell agency)
passed. Far from the embryonic stem cell 
treatments
that inspired the ballot measure, the HIV research involves a new and
growing integration of stem cell 
and
genetic science."

Indeed,
the ballot initiative that created the $3 billion California stem
cell agency trumpeted its devotion to human embryonic stem cell
research, which had been throttled by the Bush Administration. The
agency has veered away from hESC research, which now amounts
to less than $450 million out of the $1.4 billion in grants approved
since 2004. 

Source:
http://californiastemcellreport.blogspot.com/feeds/posts/default?alt=rss

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