Due to political fallout and some controversial concerns,
financial entities have hesitated to commit to stem cell research. Despite this
bleak atmosphere, there is active research and many companies are trying to turn
the stem cell breakthroughs into a viable business. This pre-conference event
will feature promising companies showcasing their new ventures in therapeutics,
tools and services. Learn about their latest strategies for successfully
navigating life sciences through the rigors of discovery and development,
clinical trials, approval and liquidity. Explore possible partnerships to move
this sector of the industry forward.
The unique format of this program will be a series of:
4:30 Registration
5:00 Venture Capital Forum
Kenneth C. Aldrich, Managing Director, Convergent
Ventures (invited)
Teo Forcht Dagi, M.D., MPH, MBA, FACS, FCCM, Partner,
HLM Venture Partners & Harvard – MIT, Division of Health, Sciences and
Technology Faculty
Jim Sherbloom, MBA, Managing General Partner, Seaflower
Ventures
5:30 Five @ Five Company Showcase
Moderator:
Annette Reynolds, Executive Director, 128 Innovation Capital Group
Cellix, Ltd.
Making the Most of Screening Outputs - Bringing in
Vitro Closer to in Vivo
Vivienne Williams, M.Sc., CEO, Cellix Ltd.
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Cellix
Ltd. was founded in 2004 and began trading in 2006 with sales to AstraZeneca
and the NIH. Cellix currently
employs 4 people.
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Cellix's
signature product, the Microfluidic SP1.0, mimics human capillaries in
plastic providing researchers with a dynamic cell-based assay capable of
modeling inflammatory diseases which is more physiologically relevant than
current static cell-based tests.
-
The
Microfluidic SP1.0 delivers information about cell adhesion, polarization
and migration under continuous flow with a platform that models in vivo flow
rates. It gives researchers
information that allows them to make more informed decisions regarding a
leads fate in clinical trials - ultimately refining their pipeline and
making it safer. The platform
is faster and more relevant than some alternative animal models and
simultaneously uses small volumes as it is a microfluidic platform.
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Cellix
would like to meet with researchers in the late drug development and lead
optimization laboratories as this is where Cellix's technology is of most
benefit.
Celsense, Inc.
New Tools to Image Transplanted Cells In Vivo
Charles F. O’Hanlon, III, MBA, President and CEO, Celsense, Inc.
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Celsense,
located in Pittsburgh, PA was founded in 2005.
The company currently employs 5, and has engaged multiple CRO’s and
consultants in lieu of employees.
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Celsense
offers a fluorocarbon based tracer agent (“Cell Sense”) used to label
cells in vitro, such that
transplanted cells can be non-invasively imaged in
vivo in their anatomical context using MRI.
The long lasting label is sufficiently selective and sensitive for
the scientist or clinician to quantify cells in regions of interest.
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Unlike
existing optical and iron oxide based labels, the company believes Cell
Sense will translate from preclinical studies to clinical use.
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Potential
uses include labeling cells in regenerative medicine and immuno therapies.
Cell Sense can also be used to label various immune system cells to
observe and measure immune system response and inflammation.
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Celsense
is seeking opportunities to collaborate with developers of therapeutics to
jointly solve complex cellular imaging problems.
Cytonome, Inc.
Clinical Grade Cell Sorting: A New Platform Enabling Novel Cell Therapies
Lydia Villa-Komaroff, CEO, Cytonome, Inc
Global Cell Solutions, Inc.
Global Eukaryotic Microcarriers (GEM™) – Getting Beyond Flat Biology
Uday Gupta, MBA, President, Global Cell Solutions, Inc.
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GCS
was founded in June 2004 through a successful tech transfer from the
University of Virginia
-
GCS
offers a suite of products and solutions to integrate 3D cell culture into
biological studies and drug discovery
-
GCS
goes beyond a technology platform by offering a convenient and sustainable
process to the researcher or laboratory facility
-
GCS
is seeking life science partners to not only optimize 3D cell culture for
various cell lines, but also develop relevant 3D cell-based applications
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Since
CELLutions Summit 2006, GCS has received angel financing and has solidified
several strategic partnerships for the development and co-marketing of
products and solutions
Insception Biosciences, Inc.
Cord Blood Stem Cells - A Practical Approach to Commercializing Cell-Based
Medicines
Laura Grey, Ph.D., Vice President Research/Business Development,
Insception Biosciences, Inc.
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Insception
Biosciences, Inc. operates a private cord blood banking service and has
established pipeline of stem cell therapeutic products.
The company began operations in 2004 and currently has 22 employees.
-
Insception
has developed a proprietary bioprocess (INSC01) to expand umbilical cord
blood-derived hematopoietic stem cells ex vivo.
Additional technologies include unique bioprocesses to enable
expansion of multipotential stem cells isolated from cord blood.
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The
unique closed-system, modular design of Insception's hematopoietic
bioprocess (INSC01) allows for safe and effective amplification of stem
cells.
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Insception
is seeking collaborative partners to advance its first product, INSC01
(expanded hematopoietic stem cells from cord blood) through the clinic.
This product will be of interest to several categories of potential
partners: biopharmaceutical and
cell-based therapy companies, medical device companies and life sciences
reagent companies. Additional
capital investment from VCs to advance its cellular therapy pipeline is also
being sought.
NanoCulture, LLC
Multilamellar Nanofibrillar Material (MNMs)- Novel Nanocomposites for
Applications in Cell Culture
Melvin Schindler, Ph.D., President, NanoCulture, LLC
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NanoCulture,
LLC was founded in 2006 to develop nanomaterials capable of promoting
physiologically relevant performance of cell cultures. There is currently 1
employee.
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Multilamellar
nanofibrillar materials (MNMs) are a new type of nanocomposite composed of
layered stacks of electrospun nanofibers.
-
MNMs
provide a unique combination of ultra-high surface area/volume and high
porosity, important properties for the promotion and sustainability of cell
culture at high density.
-
These
materials should have great benefit in the design and fabrication of
bioreactors employed for cell-based biosynthesis of high value biologicals.
-
NanoCulture,
LLC will work in partnership to develop MNMs for cell specific biological
processes e.g. biosynthesis, biocatalysis.
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NanoCulture,
LLC seeks partners that manufacture devices or require the capability for
high density eukaryotic or prokaryotic cell culture.
Decision makers and experts in licensing, alliance
management, business development, strategic planning, technology evaluation,
technology transfer, and portfolio management. Capital funding firms including
venture capitalists, public & private investors, angel investors, government
funding agencies, corporate governance, incubators, and technology transfer
centers. And other academic entrepreneurs, executives from start-up, early
stage, established small to large biotechs, pharmaceutical companies and related
companies and organizations interested in potential partners or to expand their
technology portfolio.
Cambridge
Healthtech Institute’s Second Annual..