Cardium Announces Commercial Development of Excellagen(TM) a Customized Collagen-Based Topical Gel for Initial Use as an Adjunct
October 14 2009 - 9:04AM
PR Newswire (US)
Important Clinical Findings Provide New Therapeutic Insights into
Healing Potential of Cardium's Matrix Technology Platform SAN
DIEGO, Oct. 14 /PRNewswire-FirstCall/ -- Cardium Therapeutics (NYSE
Amex: CXM) today announced plans for the commercial development of
a new product candidate Excellagen(TM), a collagen-based topical
gel for use by physicians in conjunction with surgical debridement
of wounds in patients with chronic or non-chronic diabetic foot
ulcers. This new product opportunity is based on clinical study
findings reported today from the Excellarate(TM) Phase 2b clinical
study. As reported, Cardium's customized collagen formulation
(Excellagen, the matrix component of Excellarate), which has been
modified to include structural stabilizers and hydrolytic enzyme
inhibitors, appears to substantially promote the healing process of
neuropathic diabetic foot ulcers when used as an adjunct to
standard of care (including surgical debridement). (Logo:
http://www.newscom.com/cgi-bin/prnh/20051018/CARDIUMLOGO) Both
Excellagen and Excellarate appear to be safe and well tolerated in
human patients. As reported in connection with the Phase 2b
clinical study, there were no substantial differences observed with
respect to adverse events, clinical laboratory results, physical
exam findings or immunological antibody responses to either
collagen or to the adenovector in patients receiving either one or
two doses of product, as compared to each other or to standard of
care. Collagen formulations have been registered as medical devices
with FDA 510(k) clearances in the U.S. and with analogous
clearances in many other countries. Collagen is broadly used as a
dermal filler and in certain reconstructive surgery applications.
Cardium's Excellagen formulation has also been used in two human
clinical studies for wound repair (as the collagen matrix component
of Excellarate). Excellagen is believed to provide a physical and
biological substrate conducive to cell migration and proliferation
at the wound site, which are believed to be important for promoting
robust wound repair responses. In the context of wound healing, the
Company believes that its Excellagen formulation has certain
advantages over other forms of collagen and may provide an
important adjunct to surgical debridement, which is an essential
component of standard care for all diabetic foot ulcers.
Debridement removes dead or damaged tissue in and around the wound
site and is known to promote wound healing. Cardium believes that
Excellagen applied to a debrided wound provides a scaffold that can
then promote and support the influx of repair cells in the wound
bed. Cardium's Excellarate product candidate comprises not only the
collagen matrix but an adenovector encoding PDGF-B protein. PDGF-B
is believed to promote wound healing by directly stimulating cells
involved in wound repair and also by eliciting the production of
other growth factors. Excellarate is being developed to provide
advanced wound care for chronic non-healing diabetic foot ulcers,
which are difficult to heal with standard of care and are
associated with substantial risks of infection or amputation. The
Phase 2b Matrix clinical study was not powered to nor did it
differentiate between the relative contributions of the individual
Ad5PDGF-B and collagen components that make up Excellarate - but
both the Excellarate and the collagen matrix study arms showed
substantial improvements in achieving wound closure as compared to
standard of care, which is the FDA-accepted control considered
appropriate for product registration studies. Approximately 45% of
patients receiving the collagen matrix in the Phase 2b study had
complete wound closure by 12 weeks, compared to a 31% wound closure
rate for the standard of care group. Based on the Company's
clinical studies to date, Cardium will consider submitting an
application for FDA 510(k) clearance of Excellagen for use in wound
healing applications. In addition to Excellagen (which would be
advanced using a 510(k) registration pathway) and Excellarate
(which is expected to proceed to a Phase 3 clinical study for
non-healing diabetic foot ulcers), Cardium's formulation know-how
and the unique properties of Excellagen are expected to enable
additional new product opportunities by incorporating other agents
including peptides, DNA or other biologics designed to address
particular wound healing and other tissue repair applications.
Webcast and Conference Call The Company will hold a webcast and
conference call to discuss the clinical results of the Excellarate
Matrix Phase 2b clinical study today, October 14, 2009, at 5:00
p.m. ET. Participants can access the live conference call by
dialing 800-259-0251 (U.S.) or 617-614-3671 (International) using
the conference passcode 98344451. The call and accompanying slides
can also be accessed via the webcast through the Company's website
at
http://phx.corporate-ir.net/phoenix.zhtml?c=77949&p=irol-calendar.
If you are unable to attend the webcast, a replay of the conference
call will be available approximately two hours after the conclusion
of the call by dialing 888-286-8010 (U.S.) or 617-801-6888
(International) using passcode 68300091. The webcast will be
archived for 90 days. Gene Activated Matrix Technology Platform
Cardium's proprietary Gene Activated Matrix(TM) technology platform
is designed to provide a therapeutic level of protein synthesis at
a specific site in the body and can be used in soft tissue such as
skin, ligament, tendons and cartilage, as well as in hard tissue
such as bone. The technology is distinctive in that it is
immobilized gene delivery that allows for gene uptake restricted to
the application site. The Gene Activated Matrix comprises any
biocompatible matrix containing a gene or DNA vector encoding for a
growth factor or any therapeutic protein. The technology allows for
a broad spectrum of formulations and the use of any biocompatible
matrix, natural or synthetic, which would include, but not be
limited to, collagen, de-mineralized bone, allograft and other
synthetic graft materials. The Company's studies have shown that
proliferative cells migrate into the Gene Activated Matrix and then
take up the immobilized gene resulting in localized and sustained
production of small but physiologically active quantities of growth
factor proteins or other therapeutic proteins based on the
protein-producing DNA of choice. Compared with current protein
therapy, which may be limited due to the inherently short half-life
of proteins, the Company believes that the localized and sustained
production of therapeutically significant concentrations of
DNA-driven proteins at the delivery site can significantly enhance
the stimulation of localized therapeutic processes such as tissue
repair. Wound Care Applications and Pharmacoeconomics The Matrix
clinical development program is focused on developing new and
innovative ways to enhance the treatment of diabetic foot ulcers,
which affect about 15% of the almost 24 million diabetic patients
in the United States, or 3.6 million people. Each year, over
800,000 patients in the U.S. develop diabetic foot ulcers. Of these
patients, 6 percent will be hospitalized due to infection or other
ulcer-related complications. The cost of diabetic ulcers to the
U.S. healthcare system is approximately $5 billion per year with
treatment and subsequent lower limb amputations adding an
additional $1 billion per year. Diabetes is the leading cause of
non-traumatic lower extremity amputations and approximately 14 to
24 percent of patients with diabetes who develop foot ulcers
eventually have an amputation. The three year survival rate after
amputation is only 50 percent. As reported in the Journal of the
American Academy of Physician Assistants (JAAPA, August 2009),
chronic wounds affect an estimated 5.7 million patients in the U.S.
and cost the healthcare system approximately $20 billion annually.
The article's author further notes that optimal wound care requires
a portfolio of treatments including the only FDA-approved
protein-based topical gel becaplermin (PDGF-B protein),
bioengineered skin substitutes, hyperbaric oxygen therapy, and
subatmospheric wound therapy (also known as negative-pressure wound
therapy), as well as institutional support from the growing number
of nationwide wound-care centers that offer specialized,
multidisciplinary approaches to the treatment of chronic wounds.
The author also reports that the cost of treating non-healing
ulcers of longer than one year's duration is estimated to range
from approximately $20,000 to $27,000, based on the level of
advanced care. As reported in the International Wound Journal
(December, 2007), "one of the most feared complications of diabetes
is the lower extremity amputation." Other studies report that
diabetes is the leading cause of nontraumatic lower extremity
amputations in the U.S., amounting to greater than 75,000 per year
or over 200 per day. Limb amputation occurs 10 to 30 times more
often in a diabetic person than in the general population. Among
patients with lower extremity amputation procedures, 5-17% will die
during the operation and 2-30% will die within 30 days of surgery.
Longer term survival is even worse. Mortality following amputation
ranges from 13-40% at one year, 35-65% at 3 years and 39-80% at 5
years. These mortality rates are worse than many common types of
cancer. Despite these grim statistics, many remain unaware of the
very serious nature of non-healing diabetic ulcers. Cardium
Orthobiologics Initiative Cardium recently announced its plans to
develop a DNA-based orthobiologics product portfolio based on
research and development that will initially focus on non-union
bone fractures for medically-compromised patients, and spinal
fusions for patients with degenerative disc disease. Orthobiologics
is a rapidly growing segment of the orthopedics market and
represents biologically-active products designed to enhance
musculo-skeletal repair and regeneration. The initial
orthobiologics focus will be on the development of Osteorate(TM), a
DNA-based non-surgical injectable bone graft gel to repair bone
fractures and regenerate tissue in certain medically-compromised
patient populations. Osteorate will be based on a reformulation of
the Excellarate wound healing product candidate. The Gene Activated
Matrix technology allows for a broad spectrum of formulations which
would include, but not be limited to, collagen, demineralized bone
matrices, allograft and synthetic graft materials. In addition,
Cardium recently announced the results of preclinical research
published in the scientific journal, Gene Therapy, demonstrating
the potential benefits of its Gene Activated Matrix technology for
accelerating and enhancing periodontal tissue repair and oral
implant osseointegration. This research further supports Cardium's
decision to expand the Company's focus of its regenerative medicine
technologies to include the emerging new high growth market segment
of orthobiologics. About Cardium Cardium is focused on the
acquisition and strategic development of new and innovative
bio-medical product opportunities and businesses that have the
potential to address significant unmet medical needs and definable
pathways to commercialization, partnering and other economic
monetizations. Cardium's investment portfolio includes the Tissue
Repair Company and Cardium Biologics, medical technology companies
primarily focused on the development of innovative therapeutic
products for wound healing, bone repair, and cardiovascular
indications. In July 2009, Cardium completed the sale of its
InnerCool Therapies medical device business to Royal Philips
Electronics, the first asset monetization from the Company's
biomedical investment portfolio. News from Cardium is located at
http://www.cardiumthx.com/. Forward-Looking Statements Except for
statements of historical fact, the matters discussed in this press
release are forward looking and reflect numerous assumptions and
involve a variety of risks and uncertainties, many of which are
beyond our control and may cause actual results to differ
materially from stated expectations. For example, there can be no
assurance that Excellagen, Excellarate or our other candidates will
prove to be sufficiently safe and effective, or that results or
trends observed in one clinical study or procedure will be
reproduced in subsequent studies or procedures, or that clinical
studies even if successful will lead to product advancement or
partnering; that the Excellagen or Excellarate product candidate
offers the potential for simpler or more cost-effective treatment
for physicians and patients than other FDA-approved products that
currently are or will be on the market; that the Matrix clinical
study program or other human clinical trials can be conducted and
completed in an efficient and successful manner; that we can
develop a DNA-based orthobiologics product portfolio; that our
products or product candidates will not be unfavorably compared to
competitive products that may be regarded as safer, more effective,
easier to use or less expensive; that FDA or other regulatory
clearances or other certifications, or other commercialization
efforts will be successful or will effectively enhance our
businesses or their market value; that our products or product
candidates will prove to be sufficiently safe and effective after
introduction into a broader patient population; or that third
parties on whom we depend will perform as anticipated. Actual
results may also differ substantially from those described in or
contemplated by this press release due to risks and uncertainties
that exist in our operations and business environment, including,
without limitation, risks and uncertainties that are inherent in
the development of complex biologics and in the conduct of human
clinical trials, including the timing, costs and outcomes of such
trials, our ability to obtain necessary funding, regulatory
approvals and expected qualifications, our dependence upon
proprietary technology, our history of operating losses and
accumulated deficits, our reliance on collaborative relationships
and critical personnel, and current and future competition, as well
as other risks described from time to time in filings we make with
the Securities and Exchange Commission. We undertake no obligation
to release publicly the results of any revisions to these
forward-looking statements to reflect events or circumstances
arising after the date hereof. Copyright 2009 Cardium Therapeutics,
Inc. All rights reserved. For Terms of Use Privacy Policy, please
visit http://www.cardiumthx.com/. Cardium Therapeutics(TM) and
Generx(R) are trademarks of Cardium Therapeutics, Inc. Tissue
Repair(TM), Gene Activated Matrix(TM), GAM(TM), Excellagen(TM),
Excellarate(TM) and Osteorate(TM) are trademarks of Tissue Repair
Company. Regranex(R) and other trademarks are the property of their
respective owners.
http://www.newscom.com/cgi-bin/prnh/20051018/CARDIUMLOGO
http://photoarchive.ap.org/ DATASOURCE: Cardium Therapeutics
CONTACT: Bonnie Ortega, Director, Investor/Public Relations,
Cardium Therapeutics, Inc., +1-858-436-1018, Web Site:
http://www.cardiumthx.com/
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