Journal of Cell Science & Therapy

Journal of Cell Science & Therapy
Open Access

ISSN: 2157-7013

+44 1300 500008

Current driving factors in stem cell-based regenerative medicine


5th World Congress on Cell & Stem Cell Research

March 23-25, 2015 DoubleTree by Hilton Chicago - North Shore, USA

James L Sherley

Keynote: J Cell Sci Ther

Abstract :

Modern medicine is now experiencing a deluge of unproven regenerative medicine treatments. Although there is considerable concern among stem cell scientists and physicians that many new cell therapies occur without the approval and supervision of government agencies like the Food and Drug Administration in the United States, many new treatments are in fact being evaluated in certified clinical trials. However, even in the case of certified trials there is an ample reason to be circumscribed in expectations for them to yield meaningful progress. Because of patients? and patient advocate groups? high level of hope for relief from otherwise intractable and incurable ailments and disorders, the field of regenerative medicine is now propelled to act expediently to deliver the promises of stem cell medicine. This volatile situation engenders a high risk for the development of scientifically pre-mature clinical trials. In particular, cell transplantation trials driven more by factors of technical feasibility than by factors of biological plausibility should provoke concern regarding their likelihood to contribute to the success of regenerative medicine.

Biography :

James Sherley graduated from Harvard College (1980) and completed joint M.D./Ph.D. degrees at the Johns Hopkins University School of Medicine (1988). After post-doctoral studies at Princeton University, beginning in 1991 he led cancer cell molecular biology research at Fox Chase Cancer Center. In 1998, he began adult stem cell research at Massachusetts Institute of Technology, and in 2007 continued at Boston Biomedical Research Institute. In 2013, he founded Asymmetrex, LLC (previously the Adult Stem Cell Technology Center, LLC), which he currently directs. Asymmetrex develops technologies for stem cell medicine, including mass-producing tissue stem cells for applications in drug development and regenerative medicine.

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