SAN DIEGO, Oct. 20 /PRNewswire-FirstCall/ -- Cardium Therapeutics
(AMEX: CXM) and its operating unit InnerCool Therapies, Inc.,
announced today that it has received 510(k) clearance from the U.S.
Food and Drug Administration (FDA) to market the RapidBlue(TM)
System, an endovascular temperature modulation device. InnerCool's
RapidBlue System is a thermal regulating system designed to manage
and control patient body temperature. This new system automatically
cools or warms patients, as necessary, to quickly and controllably
achieve and then maintain a desired body temperature. RapidBlue
provides rapid or gradual temperature control for all patient
sizes. Its closed loop catheter-based system modulates whole body
temperature, without fluid introduction or exchange, by circulating
cool or warm saline within the interior of the catheter. RapidBlue
is powerful enough to quickly cool awake patients and may eliminate
the need to use paralytic agents. The system combines a
high-performance programmable console with an enhanced
user-friendly interface. (Logo:
http://www.newscom.com/cgi-bin/prnh/20051018/CARDIUMLOGO) "The
FDA's 510(k) clearance of our new RapidBlue endovascular system
represents a key milestone in completing Cardium's turnaround and
strategic repositioning of our InnerCool investment. We believe
that the new RapidBlue System is the most powerful and easiest to
use endovascular-based system in the world and is the only
endovascular temperature modulation system that has obtained both
U.S. FDA and European CE mark regulatory clearances as well as UL
certification, providing InnerCool with one of many competitive
advantages," stated Christopher J. Reinhard, Chairman and Chief
Executive Officer of Cardium Therapeutics and InnerCool Therapies.
"We are continuing to develop new and innovative best-of-class
medical devices based on our important technology position and
expertise in the growing field of temperature modulation. With both
RapidBlue and CoolBlue now completed and cleared, and other
potential products in development, we intend to leverage
InnerCool's technology portfolio and broaden access to its products
through potential strategic alignments and sales and
distribution-related transactions with established companies having
larger existing sales forces with a need for new products capable
of providing innovative solutions for this emerging market." The
RapidBlue System powers InnerCool's low-profile, flexible
Accutrol(R) catheter which can quickly modulate patient core body
temperature at cooling rates of 4-5 degrees Celsius per hour or
warming rates of 2-3 degrees Celsius per hour. The Accutrol
catheter contains an integrated temperature sensor capable of
accurately measuring core body temperature to within 0.1 degree
Celsius of pulmonary artery temperature. Its novel software control
algorithm provides automated and precise body temperature control,
eliminating the use of peripheral temperature probes which are
generally slow to respond to changes in core body temperature.
Underwriters Laboratories, Inc. (UL) completed a national and
international conformity assessment for the RapidBlue System and
concluded that it meets all of the applicable requirements of the
U.S. (UL 60601-1), Canadian (CSA C22.2 No. 601.1-M90), and European
Union (EN60601-1) medical electrical safety standards. In addition,
the RapidBlue console passed the stringent UL 471 Standard for
commercial refrigerators and freezers. This is believed to be the
first and only UL global certification for an endovascular thermal
regulating system and further confirms the technology leadership
position that InnerCool is establishing with the RapidBlue System.
InnerCool's RapidBlue(TM) and CoolBlue(TM) Temperature Modulation
Systems InnerCool's RapidBlue system for high-performance
endovascular temperature modulation includes a programmable console
with an enhanced user-friendly interface and touch panel screen and
powers the low profile flexible Accutrol(R) catheter to quickly
modulate patient temperature at cooling rates of 4-5 degrees
Celsius per hour or warming rates of 2-3 degrees Celsius per hour.
The Accutrol catheter, which has a flexible metallic temperature
control element (TCE(R)) and a built-in temperature feedback sensor
to provide fast and precise patient temperature control, can
accurately measure core body temperature within 0.1 degree Celsius.
Its novel software control algorithm provides automated and precise
body temperature control, eliminating the use of peripheral
temperature probes which are generally slow in responding to core
temperature changes. The RapidBlue console and Accutrol catheter
can quickly and accurately modulate whole body temperature without
introducing or exchanging any fluid within the body. The system
functions by programmably circulating cold or warm saline in a
closed circuit within the catheter to either cool or warm its outer
metallic surface, which effectively conducts heat out of or into
the surrounding bloodstream. The unique design of InnerCool's
TCE(R), which is both thermally conductive and includes alternating
surface helices to promote mixing around the TCE, further enhances
heat transfer and enables rapid patient temperature modulation,
even in obese patients. The catheter and TCE have a
covalently-bonded heparin coating for hemo-compatibility and the
catheter can be readily inserted intravenously while the patient is
in an operating room or intensive care setting without the need for
continuous fluoroscopy. The integrated temperature sensor allows
for automated temperature management, and also eliminates the need
to place bladder or other patient temperature probes which can be
slow to react to changes in core body temperature, and may be
uncomfortable to the patient and time-consuming to place. Other
currently-marketed endovascular systems rely on plastic-based
balloon catheters that are inflated after placement in the
bloodstream. Although expansion of the balloons increases their
overall surface area for heat transfer, it also tends to make the
catheters fairly large and rigid. In addition, they do not contain
integrated temperature feedback sensors and heat transfer is
limited by the very poor conductive nature of plastic. In terms of
performance, a medium-sized balloon-based catheter which inflates
to about 8 mm (24 French) has been reported to cool anesthetized
intubated (i.e. surgical) patients at a rate of around 1C per hour.
In comparison, InnerCool's RapidBlue System combines an ultra-thin
flexible metallic catheter of only 3.5 mm (10.7 French) or 4.6 mm
(14 French) with the potential to achieve cooling rates that are
approximately 4-fold faster, i.e. about 1C per 15 minutes. Rapid
cooling is considered to be particularly important for preserving
tissue and organ function under conditions of acute ischemia, which
result from reduced blood flow to critical tissues and organs. The
RapidBlue System can be used in inducing, maintaining and reversing
mild hypothermia in neurosurgical patients, both in surgery and in
recovery or intensive care. The system can also be used for cardiac
patients in order to achieve or maintain normal body temperatures
during surgery and in recovery / intensive care, and as an
adjunctive treatment for fever control in patients with cerebral
infarction and intracerebral hemorrhage. Potential additional
applications of the technology include endovascular cooling for
cardiac arrest (resuscitation), acute ischemic stroke, myocardial
infarction (heart attack) and trauma. InnerCool's CoolBlue surface
temperature modulation system, which includes a console and a
disposable CoolBlue vest with upper thigh pads, is designed to
provide a complementary tool for use in less acute patients or in
clinical settings best suited to prolonged temperature management.
InnerCool's CoolBlue vest and thigh pads wrap the body without
requiring any adhesives to stick to the skin and produce cooling
rates of around 1C per hour, i.e. similar to those of
currently-marketed surface cooling systems and endovascular systems
using inflatable balloon-based catheters. InnerCool's CoolBlue
external or surface-based temperature modulation system is designed
to cool or warm patients from outside of their bodies and is
intended for use in less acute settings such as in-hospital fever
management. InnerCool's CoolBlue nurse-friendly and cost-effective
surface temperature modulation system, launched in the U.S. in
fourth quarter 2007, is also now available for sale in Europe and
Australia through recently-completed distributorship agreements.
About Patient Temperature Modulation Patient temperature modulation
is a rapidly-advancing field focused on preserving ischemic tissue
and improving patient outcomes following major medical events such
as stroke, cardiac arrest and heart attack, as well as in the
management of patients experiencing trauma or fever. Temperature
modulation is intended to cool patients in order to reduce cell
death and damage caused by ischemic events in which blood flow to
critical organs such as the heart or brain is restricted, and to
prevent or reduce associated injuries such as adverse neurologic
outcomes. Numerous scientific and medical articles have described
the usefulness of temperature modulation, such as induced
hypothermia (cooling), which is designed to protect endangered
cells, prevent tissue death and preserve organ function following
acute events associated with severe oxygen deprivation such as
stroke or cardiac arrest. Therapeutic hypothermia is believed to
work by protecting critical tissues and organs (such as the brain,
heart and kidneys) following ischemic or inflammatory events, by
lowering metabolism and preserving cellular energy stores, thereby
potentially stabilizing cellular structure and preventing or
reducing injuries at the cellular, tissue and organ level. Two
international clinical trials on hypothermia after cardiac arrest
published in The New England Journal of Medicine demonstrated that
induced hypothermia reduced mortality and improved long-term
neurological function. Based on these and other results, the
American Heart Association (AHA) and the International Liaison
Committee on Resuscitation (ILCOR) have issued guidelines
recommending that cardiac arrest victims be treated with induced
hypothermia. Ischemic diseases constitute the largest segment of
the medical market in the United States and in almost all developed
countries worldwide. For example, in the U.S. and other developed
countries, an estimated 1.4 million people experience cardiac
arrest each year, of which an increasing number (currently about
350,000) survive to receive advanced care. The AHA guidelines now
recommend the use of therapeutic cooling as part of the critical
care procedures for patients with an out-of-hospital cardiac arrest
following ventricular fibrillation. With respect to heart attacks,
an estimated 325,000 people in the U.S., and approximately 375,000
people outside the U.S., receive emergency angioplasty or
anti-clotting treatment as first-line care. Cardium and InnerCool
recently announced the publication of positive preclinical effects
of hypothermia following heart attack and a clinical study is now
underway at a leading cardiology center in Sweden. In the area of
stroke, approximately 700,000 Americans experience a stroke each
year, and a comparable number of patients are affected outside the
U.S. Although tissue plasminogen activator (tPA) has been shown to
lessen damage associated with a stroke, particularly if it can be
administered within three hours of onset, many stroke patients
continue to suffer advanced neurologic damage even though they have
received tPA. More importantly, most stroke victims do not arrive
at the hospital in time to be candidates for tPA. The American
Stroke Association (ASA) has now identified the use of therapeutic
hypothermia as a promising area of research for the potential
treatment of stroke victims, and it is the subject of ongoing
clinical studies being sponsored by InnerCool Therapies and
supported by the U.S. National Institutes of Health. For fever
control, surface cooling devices are becoming one of several
important therapies to help manage patients who experience fevers
in association with severe neurologic injuries or other medical
conditions. The ASA and the American Association of Neurological
Surgeons (AANS), as well as other organizations internationally,
now recommend proactive fever reduction following neurological
injury. The company estimates that more than 450,000 hospital
patients in the U.S. experience neurologic or non-neurologic fever
conditions that either require or could benefit from proactive
therapies to reduce patients' body temperatures. Fever patients
typically require treatment for multiple days, sometimes as long as
a week. About Cardium Cardium Therapeutics, Inc. and its
subsidiaries, InnerCool Therapies, Inc. and the Tissue Repair
Company, are medical technology companies primarily focused on the
development, manufacture and sale of innovative therapeutic
products and devices for cardiovascular, ischemic and related
indications. Cardium's lead product candidate, Generx
(alferminogene tadenovec, Ad5FGF4), is a DNA-based growth factor
therapeutic being developed for potential use by interventional
cardiologists as a one-time treatment to promote and stimulate the
growth of collateral circulation in the hearts of patients with
ischemic conditions such as recurrent angina. For more information
about Cardium and its businesses, products and therapeutic
candidates, please visit http://www.cardiumthx.com/ or view its
2007 Annual Report at
http://www.cardiumthx.com/flash/pdf/CardiumAR07_Book_FINAL.pdf.
Cardium's InnerCool Therapies subsidiary is a San Diego-based
medical technology company in the emerging field of patient
temperature modulation therapy to rapidly and controllably cool the
body in order to reduce cell death and damage following acute
ischemic events such as cardiac arrest or stroke, and to
potentially lessen or prevent associated injuries such as adverse
neurological outcomes. For more information about Cardium's
InnerCool subsidiary, including InnerCool's RapidBlue(TM) and
CoolBlue(TM) patient temperature modulation systems, please visit
http://www.innercool.com/. Cardium's Tissue Repair Company
subsidiary (TRC) is a San Diego-based biopharmaceutical company
focused on the development of growth factor therapeutics for the
treatment of severe chronic diabetic wounds. TRC's lead product
candidate, Excellarate, is a DNA-activated collagen gel for topical
treatment formulated with an adenovector delivery carrier encoding
human platelet-derived growth factor-BB (PDGF-BB). Excellarate is
initially being developed to be administered once or twice for the
potential treatment of non-healing diabetic foot ulcers. Other
potential applications for TRC's Gene Activated Matrix(TM) (GAM)
technology include therapeutic angiogenesis (cardiovascular
ischemia, peripheral arterial disease) and orthopedic products,
including hard tissue (bone) and soft tissue (ligament, tendon,
cartilage) repair. For more information about Cardium's Tissue
Repair Company subsidiary, please visit http://www.t-r-co.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 FDA, CE
Mark or other regulatory clearances or UL or other certifications,
or partnering or other distribution agreements or other
commercialization efforts will be successful or will effectively
accelerate InnerCool's patient temperature modulation business or
market, that product modifications or launches will be successful
or that the resulting products will be favorably received in the
marketplace, that our products or proposed products will prove to
be sufficiently safe and effective, 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 results or trends observed in one clinical
study will be reproduced in subsequent studies, that third parties
on whom we depend will behave as anticipated, or that necessary
regulatory approvals will be obtained. 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,
testing and marketing of therapeutic hypothermia devices and the
conduct of human clinical trials, including the timing, costs and
outcomes of such trials, whether our efforts to launch new devices
and systems and expand our markets will be successful or completed
within the time frames contemplated, our dependence upon
proprietary technology, our ability to obtain necessary funding,
regulatory approvals and qualifications, 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 2008 Cardium
Therapeutics, Inc. All rights reserved. For Terms of Use Privacy
Policy, please visit http://www.cardiumthx.com/. Cardium
Therapeutics(TM) and Generx(TM) are trademarks of Cardium
Therapeutics, Inc. Tissue Repair(TM), Gene Activated Matrix(TM),
GAM(TM) and Excellarate(TM) are trademarks of Tissue Repair
Company. InnerCool Therapies(R), InnerCool(R), Celsius Control
System(R), RapidBlue(TM), CoolBlue(TM). Accutrol(R), Temperature
Control Element(R) and TCE(R) are trademarks of InnerCool
Therapies, Inc.
http://www.newscom.com/cgi-bin/prnh/20051018/CARDIUMLOGODATASOURCE:
Cardium Therapeutics CONTACT: Bonnie Ortega, Director,
Investor|Public Relations of Cardium Therapeutics, Inc.,
+1-858-436-1018, Web Site: http://photoarchive.ap.org/
http://www.cardiumthx.com/ http://www.innercool.com/
http://www.t-r-co.com/
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