Goal 1: Promote Human Health

Submitted by (@jimandmarynelson)

Funding of Stem Cell/Lung Regeneration Research

How to "cure" a chronic, incurable disease - A potential giant step in saving the lives of many thousands of Americans, and potentially millions worldwide, who are afflicted with COPD, the third leading cause of death in the U.S. The financial effect of COPD in the United States alone is well over $50 billion per year. It is estimated that some 30 million Americans have COPD, which of course means that at least that ...more »

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25 net votes
32 up votes
7 down votes
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Goal 2: Reduce Human Disease

Submitted by (@ctong0)

Regeneration of Failing Heart while Resting on Left Ventricular Assist Device

Heart transplant is the ultimate treatment for AHA stage-D heart failure. Due to availability, heart transplants will be limited to about 2,500 per year. Patients with AHA stage-D heart failure has estimated prevalence of 0.2% for age >45. Thus, patients in need far exceed organs available. A failed heart has very challenging environment for cellular therapy. Left ventricular assist device (LVAD) can offload the heart ...more »

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-4 net votes
3 up votes
7 down votes
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Goal 3: Advance Translational Research

Submitted by (@heartman4ever)

Overcoming barriers to translational regenerative medicine

Current stem cell based approaches to translational medicine predominantly show modest efficacy. Most research rest on accepting existing limitations and focusing upon "tweaks" to the experimental model rather than taking on important barriers head on. The efficacy of stem cell-based regenerative medicine will never be fully realized unless we stop trying overly simplistic approaches such as"more is better" and start ...more »

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-6 net votes
14 up votes
20 down votes
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Goal 3: Advance Translational Research

Submitted by (@xuejunparsons)

Embedding the future of regenerative medicine into the open epigenomic landscape of pluripotent human embryonic stem cells

Large-scale profiling of developmental regulators and histone modifications by genome-wide approaches have provided powerful genome-wide, high-throughput, and high resolution techniques that lead to great advances in our understanding of the global phenomena of human developmental processes. However, without a practical strategy to convert pluripotent cells direct into a specific lineage, previous studies are limited ...more »

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-24 net votes
9 up votes
33 down votes
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Goal 3: Advance Translational Research

Submitted by (@xuejunparsons)

Current State of Regenerative Medicine: Moving Stem Cell Research from Animals into Humans for Clinical Trials

Realizing the developmental and therapeutic potential of pluripotent human embryonic stem cell (hESC) derivatives has been hindered by the inefficiency and instability of generating clinically-relevant functional cells from pluripotent cells through conventional uncontrollable and incomplete multi-lineage differentiation.

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-21 net votes
13 up votes
34 down votes
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Goal 3: Advance Translational Research

Submitted by (@xuejunparsons)

Deriving Cardiac Elements from Pluripotent Human embryonic Stem Cells for Heart Reconstitution

to date, the existing markets lack a clinically-suitable human cardiomyocyte source with adequate myocardium regenerative potential, which has been the major setback in developing safe and effective cell-based therapies for regenerating the damaged human heart in cardiovascular disease.

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-33 net votes
10 up votes
43 down votes
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Goal 3: Advance Translational Research

Submitted by (@xuejunparsons)

Exploring Future Cardiovascular Medicine: Heart Precursors Directed from Human Embryonic Stem Cells for Myocardium Regeneration

Cardiovascular disease (CVD) is a major health problem and the leading cause of death in the Western world. Currently, there is no treatment option or compound drug of molecular entity that can change the prognosis of CVD.

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-19 net votes
9 up votes
28 down votes
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