Manipulation of oxygenation and flow-induced shear stress can increase the in vitro yield of platelets from cord blood.

A method to produce clinically useful platelets in vitro would help overcome the frequent shortages, donor deferrals, disease transmission, and alloimmunization with volunteer donor-derived platelets. Using CD34 positively selected cord blood cells, we investigated ways to increase platelet quality and yield in a three-dimensional modular perfusion bioreactor system. We found a two- to threefold increase in platelet numbers produced only when the early phases of the culture process were carried out at 5% oxygen, versus when 20% oxygen was used throughout the culture period (p<0.05), and much more than when 5% oxygen was used throughout. When the medium was routed through the cell-scaffold construct, versus when it flowed under and over the construct, or just intermittent feeding was used, the number of platelets increased two- to threefold (p<0.05), and enhanced collagen-induced aggregation. The 5% oxygen early in the culture process mimics the marrow adjacent to the bone where early progenitors proliferate. Flow through the cell-scaffold construct creates shear forces that mimic the flow in central venous sinuses of the marrow and enhances platelet production from proplatelets. The use of altered oxygen levels and cross flow enhanced platelet numbers and quality, and will contribute to eventual in vitro platelet production for clinical use.