Author(s)

Kyu-Bum Han¹, Curtis Takagi¹, Chun-Jen Wu², Hiroshi Mizukami², Agnes Ostafin^2,3

¹Materials Science and Engineering, University of Utah, Salt Lake City, UT, USA.
²Nanoshell, Co., Layton, UT, USA.
³Chemical Engineering, University of Utah, Salt Lake City, UT, USA.

Perfluorocarbon emulsion has been studied as an oxygen carrier, due to its high oxygen content. In clinical trials, it has shown stability in delivering oxygen to the target region. The purpose of the present study was to increase the stability of the emulsion by coating its surface with calcium phosphate. A layer-by-layer method was employed to coat the flexible emulsion surface. Considering the ionic affinity of calcium and phosphate to the lecithin emulsion surface, the first layer of coating was calcium and the second layer was comprised of phosphate ion. The coated emulsion demonstrated various oxygen release times depending on the thickness of the layers: from 0.04 sec. for a thickness of 8 nm to 0.17 sec. for a thickness 38 nm. Overall, the stability of the calcium phosphate coated emulsion was increased, while its original function as an oxygen carrier was maintained.

Perfluorocarbon, Calcium Phosphate, Nanoemulsion, Oxygen Carrier, Surface Coating

Han, K. , Takagi, C. , Wu, C. , Mizukami, H. and Ostafin, A. (2016) Synthesis of Calcium Phosphate Controllable Coating Thickness on Oil-in-Water Nanoemulsion with Performance of Oxygen Release as Oxygen Carrier. Journal of Biomaterials and Nanobiotechnology, 7, 55-63. doi: 10.4236/jbnb.2016.72007.