Technology platform for development of multi-component preservation solution
Principal Investigator: Allison Hubel
Abstract: DESCRIPTION (provided by applicant): Cell therapy products is >$1 billion market with aggressive annual growth rates (15- 20%). Of all of the cells therapies currently in development, mesenchymal stem cells (MSCs) appear to have the greatest diversity of applications and potential for widespread use. Mesenchymal stem/stromal cells (MSCs) are being investigated for a variety of applications. Currently, over 200 clinical trials involve the use of MSCs and over 2000 patients have been safely treated with MSCs. MSCs are being investigated for treatment of cardiovascular disorders (stroke, myocardial infarction), diabetes, connective tissue disorders (cartilage defects, osteonecrosis, limb ischemia), chronic obstructive pulmonary disease, nervous system disorders (multiple sclerosis, Parkinson Disease, spinal cord injury), kidney diseases and more. Current methods for the preservation of MSCs are suboptimal. Improper methods of preservation are felt to have contributed to a recent failure of a Phase III clinical tral. In addition, the infusion of DMSO-containing cells is associated with adverse events that have been well documented in the clinical literature. Clinical and commercial application of MSCs will require the development of protocols that produce a consistent number of viable and functional cells. The proposed investigation transforms not only the preservation protocol for MSCs but creates a new paradigm by which preservation protocols for other cell types can be developed. We propose to use synergy between multiple preservation compounds to improve preservation outcome and replace conventional toxic cryoprotective agents such as DMSO. Testing solutions using multiple compounds would normally require thousands of experiments. We accelerate the convergence of the studies using a computational algorithm. Finally, we will use molecular dynamics to understand molecular mechanisms of action and rationally select compounds appropriate for testing. This type of approach will be applied first of all to MSCs but can be extended to a variety of different cell types used therapeutically. !
Funding Period: 2013-08-01 - 2015-07-31
more information: NIH RePORT
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