Mario D'Acunto
Condensed Matter Physics Civil and Structural Engineering Mechanics of Materials Mechanical Engineering General Materials Science
A liposome is a spherical, bilayer vesicle separating the interior volume containing an aqueous solution, from an exterior suspension. A fundamental practical application provides the liposome used as vehicles for drug delivery. In this case, liposomes are designed to contain a specific drug or a gene needed to fight the disease. If a vesicle containing high internal solute concentration is placed inside a dilute solution, the osmotic flux of solvent into the interior can lead to its rupture or a formation of pores. Such pores can be long-lived pores or short-lived pores suddenly closing after their formations. Long-lived pores lead to a well controlled drug delivery. In this paper, we show that the existence of long-lived pores is completely conditioned only by the pore dynamics, and that the long-lived pore dynamics is highly stable because sustained by a limit cycle. Moreover, we calculate analytically the frequency of a long-lived pore making use of the He's variational method.
Source: Mechanics research communications 38 (2011): 34–37. doi:10.1016/j.mechrescom.2010.11.002
Publisher: Pergamon., New York,, Stati Uniti d'America
@article{oai:it.cnr:prodotti:199496, title = {Nanovectors for drug delivery: long-lived pore dynamics for swelling liposomes}, author = {Mario D'Acunto}, publisher = {Pergamon., New York,, Stati Uniti d'America}, doi = {10.1016/j.mechrescom.2010.11.002}, journal = {Mechanics research communications}, volume = {38}, pages = {34–37}, year = {2011} }