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[Ed. Note:
The following is a press release from Geron Corp.]
January 23rd, 2009 --
Geron Corporation (Nasdaq:
GERN) announced today that the U.S. Food and Drug Administration (FDA) has
granted clearance of the company's Investigational New Drug (IND)
application for the clinical trial of GRNOPC1 in patients with acute spinal
cord injury.
The clearance enables Geron to move forward with the world's first study of
a human embryonic stem cell (hESC)-based therapy in man. Geron plans to
initiate a Phase I multi-center trial that is designed to establish the
safety of GRNOPC1 in patients with "complete" American Spinal Injury
Association (ASIA) grade A subacute thoracic spinal cord injuries.
"The FDA's clearance of our GRNOPC1 IND is one of Geron's most significant
accomplishments to date," said Thomas B. Okarma, Ph.D., M.D., Geron's
president and CEO. "This marks the beginning of what is potentially a new
chapter in medical therapeutics - one that reaches beyond pills to a new
level of healing: the restoration of organ and tissue function achieved by
the injection of healthy replacement cells. The ultimate goal for the use of
GRNOPC1 is to achieve restoration of spinal cord function by the injection
of hESC-derived oligodendrocyte progenitor cells directly into the lesion
site of the patient's injured spinal cord."
GRNOPC1, Geron's lead hESC-based therapeutic candidate, contains hESC-derived
oligodendrocyte progenitor cells that have demonstrated remyelinating and
nerve growth stimulating properties leading to restoration of function in
animal models of acute spinal cord injury (Journal of Neuroscience, Vol. 25,
2005).
"The neurosurgical community is very excited by this new approach to
treating devastating spinal cord injury," said Richard Fessler, M.D., Ph.D.,
professor of neurological surgery at the Feinberg School of Medicine at
Northwestern University. "Demyelination is central to the pathology of the
injury, and its reversal by means of injecting oligodendrocyte progenitor
cells would be revolutionary for the field. If safe and effective, the
therapy would provide a viable treatment option for thousands of patients
who suffer severe spinal cord injuries each year."
The GRNOPC1 Clinical Program
Patients eligible for the Phase I trial must have documented evidence of
functionally complete spinal cord injury with a neurological level of T3 to
T10 spinal segments and agree to have GRNOPC1 injected into the lesion sites
between seven and 14 days after injury. Geron has selected up to seven U.S.
medical centers as candidates to participate in this study and in planned
protocol extensions. The sites will be identified as they come online and
are ready to enroll subjects into the study.
Although the primary endpoint of the trial is safety, the protocol includes
secondary endpoints to assess efficacy, such as improved neuromuscular
control or sensation in the trunk or lower extremities. Once safety in this
patient population has been established and the FDA reviews clinical data in
conjunction with additional data from ongoing animal studies, Geron plans to
seek FDA approval to extend the study to increase the dose of GRNOPC1,
enroll subjects with complete cervical injuries and expand the trial to
include patients with severe incomplete (ASIA grade B or C) injuries to
enable access to the therapy for as broad a population of severe spinal
cord-injured patients as is medically appropriate.
Preclinical Evidence of Safety, Tolerability and Efficacy
Geron submitted evidence of the safety, tolerability and efficacy of GRNOPC1
to the FDA in a 21,000-page IND application that described 24 separate
animal studies requiring the production of more than five billion GRNOPC1
cells. Included in the safety package were studies that showed no evidence
of teratoma formation 12 months after injection of clinical grade GRNOPC1
into the injured spinal cord of rats and mice. Other studies documented the
absence of significant migration of the injected cells outside the spinal
cord, allodynia induction (increased neuropathic pain due to the injected
cells), systemic toxicity or increased mortality in animals receiving
GRNOPC1.
In vitro studies have shown that GRNOPC1 is minimally recognized by the
human immune system. GRNOPC1 is not recognized in vitro by allogeneic sera,
NK cells or T cells (Journal of Neuroimmunology, Vol. 192, 2007). These
immune-privileged characteristics of the hESC-derived cells allow a clinical
trial design that incorporates a limited course of low-dose
immunosuppression and provide the rationale for an off-the-shelf, allogeneic
cell therapy.
Also included in the IND application were published studies supporting the
utility of GRNOPC1 for the treatment of spinal cord injury. Those studies
showed that administration of GRNOPC1 significantly improved locomotor
activity and kinematic scores of animals with spinal cord injuries when
injected seven days after the injury (Journal of Neuroscience, Vol. 25,
2005). Histological examination of the injured spinal cords treated with
GRNOPC1 showed improved axon survival and extensive remyelination
surrounding the rat axons. These effects of GRNOPC1 were present nine months
after a single injection of cells. In these nine-month studies, the cells
were shown to migrate and fill the lesion cavity, with bundles of myelinated
axons crossing the injury site.
Production and Qualification of GRNOPC1
GRNOPC1 is produced using current Good Manufacturing Practices (cGMP) in
Geron's manufacturing facilities. Geron's GRNOPC1 production process and
clean-room suites have been inspected and licensed by the state of
California. The cells are derived from the H1 human embryonic stem cell
line, which was created before August 9, 2001. Studies using this line
qualify for U.S. federal research funding, although no federal funding was
received for the development of the product or to support the clinical
trial.
Geron's H1 hESC master cell bank is fully qualified for human use and was
shown to be karyotypically normal and free of measurable contaminants of
human or animal origin. Production of GRNOPC1 from undifferentiated hESCs in
the master cell bank uses qualified reagents and a standardized protocol
developed at Geron over the past three years. Each manufacturing run of
GRNOPC1 is subjected to standardized quality control testing to ensure
viability, sterility and appropriate cellular composition before release for
clinical use. GRNOPC1 product that has passed all such specifications and
has been released is available for the approved clinical trial. The current
production scale can supply product needs through pivotal clinical trials.
The existing master cell bank could potentially supply sufficient starting
material for GRNOPC1 to commercially supply the U.S. acute spinal cord
injury market for more than 20 years.
Intellectual Property
The production and commercialization of GRNOPC1 is protected by a portfolio
of patent rights owned by or exclusively licensed to Geron. Patent rights
owned by Geron protect key technologies developed at Geron for the scalable
manufacturing of hESCs, as well as the production of neural cells by
differentiation of hESCs. The fundamental patents covering hESCs are
exclusively licensed to Geron from the Wisconsin Alumni Research Foundation
(WARF) for the production of neural cells, cardiomyocytes and pancreatic
islets for therapeutic applications. The validity of these patents was
recently confirmed by the U.S. Patent and Trademark Office in a
re-examination proceeding. Geron funded the original research at the
University of Wisconsin-Madison that led to the first isolation of hESCs.
The production of oligodendrocytes from hESCs is covered by patent rights
exclusively licensed to Geron from the University of California. These
patent rights cover technology developed in a research collaboration between
Geron and University of California scientists.
Conference Call and Video Webcast
Thomas B. Okarma, Ph.D., M.D., will host a conference call and video Webcast
presentation for investors and the media at 6:00 a.m. PST/9:00 a.m. EST
today. Participants can access the conference call via telephone by dialing
866-783-2145 (U.S.) or 857-350-1604 (international). The passcode is
89631672. The video Webcast presentation is available at http://phx.corporate-ir.net/phoenix.zhtml?p=irol-eventDetails&c=67323&eventID=2077348.
All participants are encouraged to view Dr. Okarma's presentation on the
Internet. The video Webcast will also be accessible through a link that is
posted on the home page of Geron's Web site at www.geron.com. Participants
are encouraged to log on at least 15 minutes prior to the beginning of the
presentation in order to download any necessary software. The video Webcast
will be available for replay through February 23, 2009.
About Geron
Geron is developing first-in-class biopharmaceuticals for the treatment of
cancer and chronic degenerative diseases, including spinal cord injury,
heart failure and diabetes. The company is advancing an anti-cancer drug and
a cancer vaccine that target the enzyme telomerase through multiple clinical
trials. Geron is also the world leader in the development of human embryonic
stem (hESC) cell-based therapeutics. The company has received FDA clearance
to begin the world's first human clinical trial of a hESC-based therapy:
GRNOPC1 for acute spinal cord injury. For more information, visit
www.geron.com.
This news release may contain forward-looking statements made pursuant to
the "safe harbor" provisions of the Private Securities Litigation Reform Act
of 1995. Investors are cautioned that statements in this press release
regarding potential applications of Geron's human embryonic stem cell
technology constitute forward-looking statements that involve risks and
uncertainties, including, without limitation, risks inherent in the
development and commercialization of potential products, uncertainty of
clinical trial results or regulatory approvals or clearances, need for
future capital, dependence upon collaborators and maintenance of our
intellectual property rights. Actual results may differ materially from the
results anticipated in these forward-looking statements. Additional
information on potential factors that could affect our results and other
risks and uncertainties are detailed from time to time in Geron's periodic
reports, including the quarterly report on Form 10-Q for the quarter ended
September 30, 2008.
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